/**
* @brief Callback that handles an event.
*
* @param wm Pointer to a wiimote_t structure.
*
* This function is called automatically by the wiiuse library when an
* event occurs on the specified wiimote.
*/
static void handle_event(struct wiimote_t* wm) {
/* Variables Declarations */
jclass cls = (*globalEnv)->GetObjectClass(globalEnv, globalWim);
jmethodID mid;
/* fill java class */
copy_common_status(wm);
/* Set all buttons */
mid = (*globalEnv)->GetMethodID(globalEnv, cls, "setAllButtons", "(SSS)V");
if (mid == 0) {
return;
}
(*globalEnv)->CallVoidMethod(globalEnv, globalWim, mid, wm->btns,
wm->btns_released, wm->btns_held);
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wm)) {
int i = 0;
/* go through each of the 4 possible IR sources */
for (; i < 4; ++i) {
/* check if the source is visible */
if (wm->ir.dot[i].visible) {
cls = (*globalEnv)->GetObjectClass(globalEnv, globalWim);
mid = (*globalEnv)->GetMethodID(globalEnv, cls, "addIRpoint",
"(II)V");
if (mid == 0) {
return;
}
(*globalEnv)->CallVoidMethod(globalEnv, globalWim, mid,
wm->ir.dot[i].x, wm->ir.dot[i].y);
}
}
//printf("IR cursor: (%u, %u)\n", wm->ir.x, wm->ir.y);
//printf("IR z distance: %f\n", wm->ir.z);
}
/* Motion Sensing */
if (WIIUSE_USING_ACC(wm)) {
/* set orientation and gravity force */
cls = (*globalEnv)->GetObjectClass(globalEnv, globalWim);
mid = (*globalEnv)->GetMethodID(globalEnv, cls,
"setOrientationAndGforce", "(FFFFFF)V");
if (mid == 0) {
return;
}
(*globalEnv)->CallVoidMethod(globalEnv, globalWim, mid,
wm->orient.roll, wm->orient.pitch, wm->orient.yaw,
wm->gforce.x, wm->gforce.y, wm->gforce.z);
}
}
/**
* Fills status variables. This method fills some status variables always filled in a WiiMoteEvent object.
* This function is called in every callback function.
*/
static void copy_common_status(struct wiimote_t* wm) {
/* Variables Declarations */
jmethodID mid;
jclass cls = (*globalEnv)->GetObjectClass(globalEnv, globalWim);
/* set statuses */
mid = (*globalEnv)->GetMethodID(globalEnv, cls, "setPermanentStatus",
"(IZZZZFZZ)V");
if (mid == 0) {
return;
}
(*globalEnv)->CallVoidMethod(globalEnv, globalWim, mid,
wm->unid, WIIMOTE_IS_SET(wm, WIIMOTE_STATE_CONNECTED),
WIIUSE_USING_IR(wm), WIIMOTE_IS_SET(wm, WIIMOTE_STATE_RUMBLE),
WIIUSE_USING_ACC(wm), wm->orient_threshold,
WIIMOTE_IS_FLAG_SET(wm,WIIUSE_CONTINUOUS),
WIIMOTE_IS_FLAG_SET(wm,WIIUSE_SMOOTHING));
}
/**
* @brief Callback that handles an event.
*
* @param wm Pointer to a wiimote_t structure.
*
* This function is called automatically by the wiiuse library when an
* event occurs on the specified wiimote.
*/
void handle_event(struct wiimote_t* wm) {
printf("\n\n--- EVENT [id %i] ---\n", wm->unid);
/* if a button is pressed, report it */
if (IS_PRESSED(wm, WIIMOTE_BUTTON_A)) printf("A pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_B)) printf("B pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_UP)) printf("UP pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_DOWN)) printf("DOWN pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_LEFT)) printf("LEFT pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_RIGHT)) printf("RIGHT pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_MINUS)) printf("MINUS pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_PLUS)) printf("PLUS pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_ONE)) printf("ONE pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_TWO)) printf("TWO pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_HOME)) printf("HOME pressed\n");
/*
* Pressing minus will tell the wiimote we are no longer interested in movement.
* This is useful because it saves battery power.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_MINUS))
wiiuse_motion_sensing(wm, 0);
/*
* Pressing plus will tell the wiimote we are interested in movement.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_PLUS))
wiiuse_motion_sensing(wm, 1);
/*
* Pressing B will toggle the rumble
*
* if B is pressed but is not held, toggle the rumble
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_B))
wiiuse_toggle_rumble(wm);
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_UP))
wiiuse_set_ir(wm, 1);
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_DOWN))
wiiuse_set_ir(wm, 0);
/* if the accelerometer is turned on then print angles */
if (WIIUSE_USING_ACC(wm)) {
printf("wiimote roll = %f [%f]\n", wm->orient.roll, wm->orient.a_roll);
printf("wiimote pitch = %f [%f]\n", wm->orient.pitch, wm->orient.a_pitch);
printf("wiimote yaw = %f\n", wm->orient.yaw);
}
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wm)) {
int i = 0;
/* go through each of the 4 possible IR sources */
for (; i < 4; ++i) {
/* check if the source is visible */
if (wm->ir.dot[i].visible)
printf("IR source %i: (%u, %u)\n", i, wm->ir.dot[i].x, wm->ir.dot[i].y);
}
printf("IR cursor: (%u, %u)\n", wm->ir.x, wm->ir.y);
printf("IR z distance: %f\n", wm->ir.z);
}
/* show events specific to supported expansions */
if (wm->exp.type == EXP_NUNCHUK) {
/* nunchuk */
struct nunchuk_t* nc = (nunchuk_t*)&wm->exp.nunchuk;
if (IS_PRESSED(nc, NUNCHUK_BUTTON_C)) printf("Nunchuk: C pressed\n");
if (IS_PRESSED(nc, NUNCHUK_BUTTON_Z)) printf("Nunchuk: Z pressed\n");
printf("nunchuk roll = %f\n", nc->orient.roll);
printf("nunchuk pitch = %f\n", nc->orient.pitch);
printf("nunchuk yaw = %f\n", nc->orient.yaw);
printf("nunchuk joystick angle: %f\n", nc->js.ang);
printf("nunchuk joystick magnitude: %f\n", nc->js.mag);
} else if (wm->exp.type == EXP_CLASSIC) {
/* classic controller */
struct classic_ctrl_t* cc = (classic_ctrl_t*)&wm->exp.classic;
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_ZL)) printf("Classic: ZL pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_B)) printf("Classic: B pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_Y)) printf("Classic: Y pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_A)) printf("Classic: A pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_X)) printf("Classic: X pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_ZR)) printf("Classic: ZR pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_LEFT)) printf("Classic: LEFT pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_UP)) printf("Classic: UP pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_RIGHT)) printf("Classic: RIGHT pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_DOWN)) printf("Classic: DOWN pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_FULL_L)) printf("Classic: FULL L pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_MINUS)) printf("Classic: MINUS pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_HOME)) printf("Classic: HOME pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_PLUS)) printf("Classic: PLUS pressed\n");
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_FULL_R)) printf("Classic: FULL R pressed\n");
printf("classic L button pressed: %f\n", cc->l_shoulder);
printf("classic R button pressed: %f\n", cc->r_shoulder);
printf("classic left joystick angle: %f\n", cc->ljs.ang);
printf("classic left joystick magnitude: %f\n", cc->ljs.mag);
printf("classic right joystick angle: %f\n", cc->rjs.ang);
printf("classic right joystick magnitude: %f\n", cc->rjs.mag);
} else if (wm->exp.type == EXP_GUITAR_HERO_3) {
/* guitar hero 3 guitar */
struct guitar_hero_3_t* gh3 = (guitar_hero_3_t*)&wm->exp.gh3;
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_STRUM_UP)) printf("Guitar: Strum Up pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_STRUM_DOWN)) printf("Guitar: Strum Down pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_YELLOW)) printf("Guitar: Yellow pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_GREEN)) printf("Guitar: Green pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_BLUE)) printf("Guitar: Blue pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_RED)) printf("Guitar: Red pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_ORANGE)) printf("Guitar: Orange pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_PLUS)) printf("Guitar: Plus pressed\n");
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_MINUS)) printf("Guitar: Minus pressed\n");
printf("Guitar whammy bar: %f\n", gh3->whammy_bar);
printf("Guitar joystick angle: %f\n", gh3->js.ang);
printf("Guitar joystick magnitude: %f\n", gh3->js.mag);
}
}
/**
* Get status and values from the wiimotes and send it through callbacks.
* @param wim the wiimote object to fill with the datas.
*/
JNIEXPORT void JNICALL Java_wiiusej_WiiUseApi_specialPoll
(JNIEnv *env, jobject obj, jobject gath) {
/* Variables Declarations */
int i;
short leds = 0;
jclass cls = (*env)->GetObjectClass(env, gath);
jmethodID mid;
if (wiiuse_poll(wiimotes, nbMaxWiimotes)) {
/*
* This happens if something happened on any wiimote.
* So go through each one and check if anything happened.
*/
for (i=0; i < nbMaxWiimotes; ++i) {
switch (wiimotes[i]->event) {
case WIIUSE_EVENT:
/* a generic event occured */
mid = (*env)->GetMethodID(env, cls, "prepareWiiMoteEvent", "(ISSS)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid, wiimotes[i]->btns,
wiimotes[i]->btns_released, wiimotes[i]->btns_held);
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wiimotes[i])) {
int a;
WIIUSE_GET_IR_SENSITIVITY_CORRECTED(wiimotes[i], &a);
mid = (*env)->GetMethodID(env, cls, "prepareIRevent",
"(IIFIIIIIISSSF)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->ir.x, wiimotes[i]->ir.y, wiimotes[i]->ir.z,
wiimotes[i]->ir.ax, wiimotes[i]->ir.ay,
wiimotes[i]->ir.vres[0], wiimotes[i]->ir.vres[1],
wiimotes[i]->ir.offset[0], wiimotes[i]->ir.offset[1],
wiimotes[i]->ir.pos, wiimotes[i]->ir.aspect,
a , wiimotes[i]->ir.distance);
mid = (*env)->GetMethodID(env, cls, "addIRPointToPreparedWiiMoteEvent",
"(IISSS)V");
if (mid == 0) {
return;
}
/* go through each of the 4 possible IR sources */
for (a=0; a < 4; a++) {
/* check if the source is visible */
if (wiimotes[i]->ir.dot[a].visible) {
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->ir.dot[a].x, wiimotes[i]->ir.dot[a].y,
wiimotes[i]->ir.dot[a].rx, wiimotes[i]->ir.dot[a].ry,
wiimotes[i]->ir.dot[a].size);
}
}
}
/* Motion Sensing */
if (WIIUSE_USING_ACC(wiimotes[i])) {
/* set orientation and gravity force */
mid = (*env)->GetMethodID(env, cls,
"addMotionSensingValues", "(FIZFFFFFFFFFSSS)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->orient_threshold, wiimotes[i]->accel_threshold,
WIIMOTE_IS_FLAG_SET(wiimotes[i],WIIUSE_SMOOTHING), wiimotes[i]->accel_calib.st_alpha,
wiimotes[i]->orient.roll, wiimotes[i]->orient.pitch, wiimotes[i]->orient.yaw,
wiimotes[i]->orient.a_roll, wiimotes[i]->orient.a_pitch,
wiimotes[i]->gforce.x, wiimotes[i]->gforce.y, wiimotes[i]->gforce.z,
wiimotes[i]->accel.x, wiimotes[i]->accel.y, wiimotes[i]->accel.z);
}
/* Expansions support support*/
if (WIIUSE_USING_EXP(wiimotes[i])) {
/* Nunchuk support */
if (wiimotes[i]->exp.type == EXP_NUNCHUK) {
/* put nunchuk values in wiimote generic event */
mid = (*env)->GetMethodID(env, cls,
"addNunchunkEventToPreparedWiimoteEvent", "(SSSFIZFFFFFFFFFSSSFFSSSSSS)V");
if (mid == 0) {
return;
}
struct nunchuk_t* nc = (nunchuk_t*)&wiimotes[i]->exp.nunchuk;
(*env)->CallVoidMethod(env, gath, mid,
/* buttons */
nc->btns,nc->btns_released,nc->btns_held,
/* motion sensing */
nc->orient_threshold,nc->accel_threshold,
WIIMOTE_IS_FLAG_SET(wiimotes[i],WIIUSE_SMOOTHING),nc->accel_calib.st_alpha,
nc->orient.roll, nc->orient.pitch, nc->orient.yaw,
nc->orient.a_roll, nc->orient.a_pitch,
nc->gforce.x, nc->gforce.y, nc->gforce.z,
nc->accel.x, nc->accel.y, nc->accel.z,
/* joystick */
nc->js.ang,nc->js.mag,
nc->js.max.x,nc->js.max.y,
nc->js.min.x,nc->js.min.y,
nc->js.center.x,nc->js.center.y);
} else if (wiimotes[i]->exp.type == EXP_GUITAR_HERO_3) {
/* put guitar hero values in wiimote generic event */
mid = (*env)->GetMethodID(env, cls,
"addGuitarHeroEventToPreparedWiimoteEvent", "(SSSFFFSSSSSS)V");
if (mid == 0) {
return;
}
struct guitar_hero_3_t* gh = (guitar_hero_3_t*)&wiimotes[i]->exp.gh3;
(*env)->CallVoidMethod(env, gath, mid,
/* buttons */
gh->btns,gh->btns_released,gh->btns_held,
/* whammy bar */
gh->whammy_bar,
/* joystick */
gh->js.ang,gh->js.mag,
gh->js.max.x,gh->js.max.y,
gh->js.min.x,gh->js.min.y,
gh->js.center.x,gh->js.center.y);
}if (wiimotes[i]->exp.type == EXP_CLASSIC) {
/* put classic controller values in wiimote generic event */
mid = (*env)->GetMethodID(env, cls,
"addClassicControllerEventToPreparedWiimoteEvent", "(SSSFFFFSSSSSSFFSSSSSS)V");
if (mid == 0) {
return;
}
struct classic_ctrl_t* cl = (classic_ctrl_t*)&wiimotes[i]->exp.classic;
(*env)->CallVoidMethod(env, gath, mid,
/* buttons */
cl->btns,cl->btns_released,cl->btns_held,
/* shoulder buttons */
cl->r_shoulder,cl->l_shoulder,
/* joystick left*/
cl->ljs.ang,cl->ljs.mag,
cl->ljs.max.x,cl->ljs.max.y,
cl->ljs.min.x,cl->ljs.min.y,
cl->ljs.center.x,cl->ljs.center.y,
/* joystick right */
cl->rjs.ang,cl->rjs.mag,
cl->rjs.max.x,cl->rjs.max.y,
cl->rjs.min.x,cl->rjs.min.y,
cl->rjs.center.x,cl->rjs.center.y);
}
}
/* add generic event to java object used to gather events in c environment */
mid = (*env)->GetMethodID(env, cls, "addWiimoteEvent",
"()V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid);
break;
case WIIUSE_DISCONNECT:
/* the wiimote disconnected */
mid = (*env)->GetMethodID(env, cls, "addDisconnectionEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_UNEXPECTED_DISCONNECT:
/* the wimote disconnected */
mid = (*env)->GetMethodID(env, cls, "addDisconnectionEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_NUNCHUK_INSERTED:
/* the nunchuk was just connected */
mid = (*env)->GetMethodID(env, cls, "addNunchukInsertedEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_NUNCHUK_REMOVED:
/* the nunchuk disconnected */
mid = (*env)->GetMethodID(env, cls, "addNunchukRemovedEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_GUITAR_HERO_3_CTRL_INSERTED:
/* the guitar hero was just connected */
mid = (*env)->GetMethodID(env, cls, "addGuitarHeroInsertedEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_GUITAR_HERO_3_CTRL_REMOVED:
/* the guitar hero disconnected */
mid = (*env)->GetMethodID(env, cls, "addGuitarHeroRemovedEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_CLASSIC_CTRL_INSERTED:
/* the classic controller was just connected */
mid = (*env)->GetMethodID(env, cls, "addClassicControllerInsertedEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_CLASSIC_CTRL_REMOVED:
/* the classic controller disconnected */
mid = (*env)->GetMethodID(env, cls, "addClassicControllerRemovedEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
case WIIUSE_STATUS:
/* a status event occured */
mid = (*env)->GetMethodID(env, cls, "addStatusEvent", "(IZFSZIZZZZ)V");
if (mid == 0) {
return;
}
/* LEDS */
if (WIIUSE_IS_LED_SET(wiimotes[i], 1)) leds += 1;
if (WIIUSE_IS_LED_SET(wiimotes[i], 2)) leds += 2;
if (WIIUSE_IS_LED_SET(wiimotes[i], 3)) leds += 4;
if (WIIUSE_IS_LED_SET(wiimotes[i], 4)) leds += 8;
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->unid, WIIMOTE_IS_SET(wiimotes[i], WIIMOTE_STATE_CONNECTED),
wiimotes[i]->battery_level, leds, WIIUSE_USING_SPEAKER(wiimotes[i]),
wiimotes[i]->exp.type,WIIMOTE_IS_SET(wiimotes[i], WIIMOTE_STATE_RUMBLE),
WIIMOTE_IS_FLAG_SET(wiimotes[i],WIIUSE_CONTINUOUS),
WIIUSE_USING_IR(wiimotes[i]),WIIUSE_USING_ACC(wiimotes[i]));
break;
default:
break;
}
}
}
}
void handle_event(struct wiimote_t* wm)
{
static uint8_t controls = ABS | TC | STABILITY;
#if 0
printf("\n\n--- EVENT [id %i] ---\n", wm->unid);
/* if a button is pressed, report it */
if (IS_PRESSED(wm, WIIMOTE_BUTTON_A)) printf("A pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_B)) printf("B pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_UP)) printf("UP pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_DOWN)) printf("DOWN pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_LEFT)) printf("LEFT pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_RIGHT)) printf("RIGHT pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_MINUS)) printf("MINUS pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_PLUS)) printf("PLUS pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_ONE)) printf("ONE pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_TWO)) printf("TWO pressed\n");
if (IS_PRESSED(wm, WIIMOTE_BUTTON_HOME)) printf("HOME pressed\n");
#endif
/*
* Pressing home will tell the wiimote we are interested in movement.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_HOME))
{
wiiuse_set_orient_threshold(wm, 0.5);
wiiuse_motion_sensing(wm, 1);
}
if(IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_PLUS)){
carInputs.gear++;
if(carInputs.gear>7) carInputs.gear = 7;
controls ^= ABS;
}
if(IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_UP)){
carInputs.cruisedist = carInputs.cruisedist +10;
if(carInputs.cruisedist > 100) carInputs.cruisedist = 100;
}
if(IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_DOWN)){
carInputs.cruisedist = carInputs.cruisedist -10;
if(carInputs.cruisedist <50) carInputs.cruisedist = 50;
}
if(IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_MINUS)){
if(carInputs.gear>=2)
carInputs.gear--;
controls ^= TC;
}
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_RIGHT)){
controls ^= STABILITY;
carInputs.gear = 0;
}
if(IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_A))
controls ^= CRUISE;
if (WIIUSE_USING_ACC(wm))
{
// obtain the steering angle input from wiimote
float steer_temp = wm->orient.pitch;
if(steer_temp < -90)
steer_temp = -90;
else if(steer_temp > 90)
steer_temp = 90;
if(steer_temp != 0)
carInputs.steer = (steer_temp/abs(steer_temp))*pow(steer_temp/90,2)*50;
else
carInputs.steer = 0;
//printf("steer: %d\n", carInputs.steer);
}
// obtain acceleration input from WiiMote
if (IS_PRESSED(wm, WIIMOTE_BUTTON_ONE))
{
carInputs.accel = 100;
}
else
carInputs.accel = 0;
// obtain brake input from WiiMote
if (IS_PRESSED(wm, WIIMOTE_BUTTON_TWO))
{
carInputs.brake = 100;
controls &= ~(CRUISE);
}
else
carInputs.brake = 0;
if (IS_PRESSED(wm, WIIMOTE_BUTTON_LEFT))
carInputs.gear = -1;
carInputs.clutch = 0;
carInputs.controls = controls;
}
void vrpn_WiiMote::handle_event()
{
//-------------------------------------------------------------------------
// Set the status of the buttons. The first 16 buttons come from
// the main contoller. If there is an expansion controller plugged in,
// then there is a second set of up to 16 buttons that can be read from it.
unsigned i;
for (i = 0; i < 16; i++) {
buttons[i] = ( wiimote->device->btns & (1 << i) ) != 0;
}
if (wiimote->device->exp.type == EXP_NUNCHUK) {
for (i = 0; i < 16; i++) {
buttons[16+i] = ( wiimote->device->exp.nunchuk.btns & (1 << i) ) != 0;
}
}
if (wiimote->device->exp.type == EXP_CLASSIC) {
for (i = 0; i < 16; i++) {
buttons[32+i] = ( wiimote->device->exp.classic.btns & (1 << i) ) != 0;
}
}
if (wiimote->device->exp.type == EXP_GUITAR_HERO_3) {
for (i = 0; i < 16; i++) {
buttons[48+i] = ( wiimote->device->exp.gh3.btns & (1 << i) ) != 0;
}
}
//-------------------------------------------------------------------------
// Read the status of the analog values. There are six of them for the
// base unit and extras for expansion units.
channel[0] = wiimote->device->battery_level;
if (WIIUSE_USING_ACC(wiimote->device)) {
channel[1] = wiimote->device->gforce.x;
channel[2] = wiimote->device->gforce.y;
channel[3] = wiimote->device->gforce.z;
}
if (WIIUSE_USING_IR(wiimote->device)) {
unsigned dot;
for (dot = 0; dot < 3; dot++) {
if (wiimote->device->ir.dot[dot].visible) {
channel[4 + 3*dot + 0] = wiimote->device->ir.dot[dot].rx;
channel[4 + 3*dot + 1] = wiimote->device->ir.dot[dot].ry;
channel[4 + 3*dot + 2] = wiimote->device->ir.dot[dot].size;
} else {
channel[4 + 3*dot + 0] = -1;
channel[4 + 3*dot + 1] = -1;
channel[4 + 3*dot + 2] = -1;
}
}
}
// See which secondary controller is installed and report
if (wiimote->device->exp.type == EXP_NUNCHUK) {
channel[16 + 0] = wiimote->device->exp.nunchuk.gforce.x;
channel[16 + 1] = wiimote->device->exp.nunchuk.gforce.y;
channel[16 + 2] = wiimote->device->exp.nunchuk.gforce.z;
channel[16 + 3] = wiimote->device->exp.nunchuk.js.ang;
channel[16 + 4] = wiimote->device->exp.nunchuk.js.mag;
}
if (wiimote->device->exp.type == EXP_CLASSIC) {
channel[32 + 0] = wiimote->device->exp.classic.l_shoulder;
channel[32 + 1] = wiimote->device->exp.classic.r_shoulder;
channel[32 + 2] = wiimote->device->exp.classic.ljs.ang;
channel[32 + 3] = wiimote->device->exp.classic.ljs.mag;
channel[32 + 4] = wiimote->device->exp.classic.rjs.ang;
channel[32 + 5] = wiimote->device->exp.classic.rjs.mag;
}
if (wiimote->device->exp.type == EXP_GUITAR_HERO_3) {
channel[48 + 0] = wiimote->device->exp.gh3.whammy_bar;
channel[48 + 1] = wiimote->device->exp.gh3.js.ang;
channel[48 + 2] = wiimote->device->exp.gh3.js.mag;
}
//-------------------------------------------------------------------------
// Read the state of the Infrared sensors.
}
/**
* Get status and values from the wiimotes and send it through callbacks.
* @param wim the wiimote object to fill with the datas.
*/
JNIEXPORT void JNICALL Java_wiiusej_WiiUseApi_specialPoll
(JNIEnv *env, jobject obj, jobject gath) {
/* Variables Declarations */
int i;
short leds = 0;
jclass cls = (*env)->GetObjectClass(env, gath);
jmethodID mid;
if (wiiuse_poll(wiimotes, nbMaxWiiMotes)) {
/*
* This happens if something happened on any wiimote.
* So go through each one and check if anything happened.
*/
for (i=0; i < nbMaxWiiMotes; ++i) {
switch (wiimotes[i]->event) {
case WIIUSE_EVENT:
/* a generic event occured */
mid = (*env)->GetMethodID(env, cls, "prepareWiiMoteEvent", "(ISSS)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid, wiimotes[i]->btns,
wiimotes[i]->btns_released, wiimotes[i]->btns_held);
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wiimotes[i])) {
int a = 0;
mid = (*env)->GetMethodID(env, cls, "prepareIRevent",
"(IIIIIIIIISS)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->ir.x, wiimotes[i]->ir.y, wiimotes[i]->ir.z,
wiimotes[i]->ir.ax, wiimotes[i]->ir.ay,
wiimotes[i]->ir.vres[0], wiimotes[i]->ir.vres[1],
wiimotes[i]->ir.offset[0], wiimotes[i]->ir.offset[1],
wiimotes[i]->ir.pos, wiimotes[i]->ir.aspect);
mid = (*env)->GetMethodID(env, cls, "addIRPointToPreparedWiiMoteEvent",
"(IISSS)V");
if (mid == 0) {
return;
}
/* go through each of the 4 possible IR sources */
for (; a < 4; a++) {
/* check if the source is visible */
if (wiimotes[i]->ir.dot[a].visible) {
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->ir.dot[a].x, wiimotes[i]->ir.dot[a].y,
wiimotes[i]->ir.dot[a].rx, wiimotes[i]->ir.dot[a].ry,
wiimotes[i]->ir.dot[a].size);
}
}
}
/* Motion Sensing */
if (WIIUSE_USING_ACC(wiimotes[i])) {
/* set orientation and gravity force */
mid = (*env)->GetMethodID(env, cls,
"addMotionSensingValues", "(FIZFFFFFFFSSS)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->orient_threshold, wiimotes[i]->accel_threshold,
WIIMOTE_IS_FLAG_SET(wiimotes[i],WIIUSE_SMOOTHING), wiimotes[i]->accel_calib.st_alpha,
wiimotes[i]->orient.roll, wiimotes[i]->orient.pitch, wiimotes[i]->orient.yaw,
wiimotes[i]->gforce.x, wiimotes[i]->gforce.y, wiimotes[i]->gforce.z,
wiimotes[i]->accel.x, wiimotes[i]->accel.y, wiimotes[i]->accel.z);
}
/* add generic event to java object used to gather events in c environment */
mid = (*env)->GetMethodID(env, cls, "addWiimoteEvent",
"()V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid);
break;
case WIIUSE_STATUS:
/* a status event occured */
mid = (*env)->GetMethodID(env, cls, "addStatusEvent", "(IZFSZIZZZZ)V");
if (mid == 0) {
return;
}
/* LEDS */
if (WIIUSE_IS_LED_SET(wiimotes[i], 1)) leds += 1;
if (WIIUSE_IS_LED_SET(wiimotes[i], 2)) leds += 2;
if (WIIUSE_IS_LED_SET(wiimotes[i], 3)) leds += 4;
if (WIIUSE_IS_LED_SET(wiimotes[i], 4)) leds += 8;
(*env)->CallVoidMethod(env, gath, mid,
wiimotes[i]->unid, WIIMOTE_IS_SET(wiimotes[i], WIIMOTE_STATE_CONNECTED),
wiimotes[i]->battery_level, leds, WIIUSE_USING_SPEAKER(wiimotes[i]),
wiimotes[i]->exp.type,WIIMOTE_IS_SET(wiimotes[i], WIIMOTE_STATE_RUMBLE),
WIIMOTE_IS_FLAG_SET(wiimotes[i],WIIUSE_CONTINUOUS),
WIIUSE_USING_IR(wiimotes[i]),WIIUSE_USING_ACC(wiimotes[i]));
break;
case WIIUSE_DISCONNECT:
/* the wiimote disconnected */
mid = (*env)->GetMethodID(env, cls, "addDisconnectionEvent", "(I)V");
if (mid == 0) {
return;
}
(*env)->CallVoidMethod(env, gath, mid, wiimotes[i]->unid);
break;
default:
break;
}
}
}
}
/**
* @brief Callback that handles an event.
*
* @param wm Pointer to a wiimote_t structure.
*
* This function is called automatically by the wiiuse library when an
* event occurs on the specified wiimote.
*/
void handle_event(struct wiimote_t* wm) {
CryLogAlways("\n\n--- EVENT [id %i] ---\n", wm->unid);
/* if a button is pressed, report it */
if (IS_PRESSED(wm, WIIMOTE_BUTTON_A)) {CryLogAlways("A pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_B)) {CryLogAlways("B pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_UP)) {CryLogAlways("UP pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_DOWN)) {CryLogAlways("DOWN pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_LEFT)) {CryLogAlways("LEFT pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_RIGHT)) {CryLogAlways("RIGHT pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_MINUS)) {CryLogAlways("MINUS pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_PLUS)) {CryLogAlways("PLUS pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_ONE)) {CryLogAlways("ONE pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_TWO)) {CryLogAlways("TWO pressed\n");}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_HOME)) {CryLogAlways("HOME pressed\n");}
/*
* Pressing minus will tell the wiimote we are no longer interested in movement.
* This is useful because it saves battery power.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_MINUS)) {wiiuse_motion_sensing(wm, 0);}
/*
* Pressing plus will tell the wiimote we are interested in movement.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_PLUS)) {wiiuse_motion_sensing(wm, 1);}
/*
* Pressing B will toggle the rumble
*
* if B is pressed but is not held, toggle the rumble
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_B)) {wiiuse_toggle_rumble(wm);}
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_UP)) {wiiuse_set_ir(wm, 1);}
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_DOWN)) {wiiuse_set_ir(wm, 0);}
/*
* Motion+ support
*/
/* if the accelerometer is turned on then print angles */
if (WIIUSE_USING_ACC(wm)) {
CryLogAlways("wiimote roll = %f [%f]\n", wm->orient.roll, wm->orient.a_roll);
CryLogAlways("wiimote pitch = %f [%f]\n", wm->orient.pitch, wm->orient.a_pitch);
CryLogAlways("wiimote yaw = %f\n", wm->orient.yaw);
}
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wm)) {
int i = 0;
/* go through each of the 4 possible IR sources */
for (; i < 4; ++i) {
/* check if the source is visible */
if (wm->ir.dot[i].visible) {
CryLogAlways("IR source %i: (%u, %u)\n", i, wm->ir.dot[i].x, wm->ir.dot[i].y);
}
}
CryLogAlways("IR cursor: (%u, %u)\n", wm->ir.x, wm->ir.y);
CryLogAlways("IR z distance: %f\n", wm->ir.z);
}
/* show events specific to supported expansions */
if (wm->exp.type == EXP_NUNCHUK) {
struct nunchuk_t* nc = (nunchuk_t*)&wm->exp.nunchuk;
if (IS_PRESSED(nc, NUNCHUK_BUTTON_C)) {
CryLogAlways("Nunchuk: C pressed\n");
}
if (IS_PRESSED(nc, NUNCHUK_BUTTON_Z)) {
CryLogAlways("Nunchuk: Z pressed\n");
}
CryLogAlways("nunchuk roll = %f\n", nc->orient.roll);
CryLogAlways("nunchuk pitch = %f\n", nc->orient.pitch);
CryLogAlways("nunchuk yaw = %f\n", nc->orient.yaw);
CryLogAlways("nunchuk joystick angle: %f\n", nc->js.ang);
CryLogAlways("nunchuk joystick magnitude: %f\n", nc->js.mag);
}
else if (wm->exp.type == EXP_CLASSIC) {
struct classic_ctrl_t* cc = (classic_ctrl_t*)&wm->exp.classic;
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_ZL)) {CryLogAlways("Classic: ZL pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_B)) {CryLogAlways("Classic: B pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_Y)) {CryLogAlways("Classic: Y pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_A)) {CryLogAlways("Classic: A pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_X)) {CryLogAlways("Classic: X pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_ZR)) {CryLogAlways("Classic: ZR pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_LEFT)) {CryLogAlways("Classic: LEFT pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_UP)) {CryLogAlways("Classic: UP pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_RIGHT)) {CryLogAlways("Classic: RIGHT pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_DOWN)) {CryLogAlways("Classic: DOWN pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_FULL_L)) {CryLogAlways("Classic: FULL L pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_MINUS)) {CryLogAlways("Classic: MINUS pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_HOME)) {CryLogAlways("Classic: HOME pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_PLUS)) {CryLogAlways("Classic: PLUS pressed\n");}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_FULL_R)) {CryLogAlways("Classic: FULL R pressed\n");}
CryLogAlways("classic L button pressed: %f\n", cc->l_shoulder);
CryLogAlways("classic R button pressed: %f\n", cc->r_shoulder);
CryLogAlways("classic left joystick angle: %f\n", cc->ljs.ang);
CryLogAlways("classic left joystick magnitude: %f\n", cc->ljs.mag);
CryLogAlways("classic right joystick angle: %f\n", cc->rjs.ang);
CryLogAlways("classic right joystick magnitude: %f\n", cc->rjs.mag);
}
else if (wm->exp.type == EXP_WII_BOARD){
struct wii_board_t* wb = (wii_board_t*)&wm->exp.wb;
CryLogAlways("WiiBoard roll = [%f]\n", wb->update_calib);
CryLogAlways("WiiBoard roll = %f [%f]\n", wb->bl, wb->br);
CryLogAlways("WiiBoard pitch = %f [%f]\n", wb->tl,wb->tr);
}
}
virtual void ProcessEvent(EFlowEvent event, SActivationInfo *pActInfo)
{
int found =-1;
int connected;
switch (event)
{
case eFE_Initialize:{
//Sleep(3000);
wiimotes = wiiuse_init(1);
found = wiiuse_find(wiimotes, 1, 5);
if (found!=0) handle_ctrl_status(wiimotes[0]);
connected = wiiuse_connect(wiimotes, 1);
if (connected) CryLogAlways("Connected to %i wiimotes (of %i found).\n", connected, found);
else CryLogAlways("Failed to connect to any wiimote.\n");
wiiuse_set_leds(wiimotes[0], WIIMOTE_LED_1);
wiiuse_motion_sensing(wiimotes[0], 1);
wiiuse_set_ir(wiimotes[0], 1);
//trop rapide !
}
case eFE_Activate:
{
//Sleep(3000);
//wiimotes = wiiuse_init(1);
//found = wiiuse_find(wiimotes, 1, 5);
//if (found==0) CryLogAlways("No wiimotes found.\n");
/*
connected = wiiuse_connect(wiimotes, 1);
if (connected) CryLogAlways("Connected to %i wiimotes (of %i found).\n", connected, found);
else CryLogAlways("Failed to connect to any wiimote.\n");
wiiuse_set_leds(wiimotes[0], WIIMOTE_LED_1);
wiiuse_motion_sensing(wiimotes[0], 1);
wiiuse_set_ir(wiimotes[0], 1);
//WIIUSE_USING_EXP(wiimotes[0]);
//WIIUSE_U
//wiimotes[0]->exp.type = EXP_NUNCHUK;
*/
pActInfo->pGraph->SetRegularlyUpdated(pActInfo->myID,true);
}
break;
case eFE_Update:
{
//int connected = wiiuse_connect(wiimotes, 1);
wiiuse_poll(wiimotes, 1);
wiimote* wm = wiimotes[0];
//Ne change rien ! juste qu'on a un retour d'IR
//handle_ctrl_status(wiimotes[0]);
CryLogAlways("attachment: %i",wm->exp.type);
/*
Gestion des evts
*/
// A commenter
switch (wiimotes[0]->event) {
case WIIUSE_EVENT:
/* a generic event occured */
handle_event(wiimotes[0]);
break;
case WIIUSE_STATUS:
/* a status event occured */
handle_ctrl_status(wiimotes[0]);
break;
case WIIUSE_DISCONNECT:
case WIIUSE_UNEXPECTED_DISCONNECT:
/* the wiimote disconnected */
handle_disconnect(wiimotes[0]);
break;
case WIIUSE_READ_DATA:
/*
* Data we requested to read was returned.
* Take a look at wiimotes[i]->read_req
* for the data.
*/
break;
case WIIUSE_NUNCHUK_INSERTED:
/*
* a nunchuk was inserted
* This is a good place to set any nunchuk specific
* threshold values. By default they are the same
* as the wiimote.
*/
//struct nunchuk_t* nc = (nunchuk_t*)&wiimotes[0]->exp.nunchuk;
wiiuse_set_nunchuk_orient_threshold(wiimotes[0], 90.0f);
wiiuse_set_nunchuk_accel_threshold(wiimotes[0], 100);
CryLogAlways("Nunchuk inserted.\n");
break;
case WIIUSE_CLASSIC_CTRL_INSERTED:
CryLogAlways("Classic controller inserted.\n");
break;
case WIIUSE_GUITAR_HERO_3_CTRL_INSERTED:
/* some expansion was inserted */
handle_ctrl_status(wiimotes[0]);
//printf("Guitar Hero 3 controller inserted.\n");
break;
case WIIUSE_NUNCHUK_REMOVED:
case WIIUSE_CLASSIC_CTRL_REMOVED:
case WIIUSE_GUITAR_HERO_3_CTRL_REMOVED:
/* some expansion was removed */
handle_ctrl_status(wiimotes[0]);
//printf("An expansion was removed.\n");
break;
default:
break;
}
//if (wiiuse_poll(wiimotes, 1)) {
//int i = 0;
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_A)) ActivateOutput(pActInfo, WIIMOTE_A,true); else ActivateOutput(pActInfo, WIIMOTE_A,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_B)) ActivateOutput(pActInfo, WIIMOTE_B,true); else ActivateOutput(pActInfo, WIIMOTE_B,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_UP)) ActivateOutput(pActInfo, WIIMOTE_UP,true); else ActivateOutput(pActInfo, WIIMOTE_UP,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_DOWN)) ActivateOutput(pActInfo, WIIMOTE_DOWN,true); else ActivateOutput(pActInfo, WIIMOTE_DOWN,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_LEFT)) ActivateOutput(pActInfo, WIIMOTE_LEFT,true); else ActivateOutput(pActInfo, WIIMOTE_LEFT,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_RIGHT)) ActivateOutput(pActInfo, WIIMOTE_RIGHT,true); else ActivateOutput(pActInfo, WIIMOTE_RIGHT,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_MINUS)) ActivateOutput(pActInfo, WIIMOTE_MINUS,true); else ActivateOutput(pActInfo, WIIMOTE_MINUS,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_PLUS)) ActivateOutput(pActInfo, WIIMOTE_PLUS,true); else ActivateOutput(pActInfo, WIIMOTE_PLUS,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_ONE)) ActivateOutput(pActInfo, WIIMOTE_ONE,true); else ActivateOutput(pActInfo, WIIMOTE_ONE,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_TWO)) ActivateOutput(pActInfo, WIIMOTE_TWO,true); else ActivateOutput(pActInfo, WIIMOTE_TWO,false);
if (IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_HOME)) ActivateOutput(pActInfo, WIIMOTE_HOME,true); else ActivateOutput(pActInfo, WIIMOTE_HOME,false);
if (WIIUSE_USING_ACC(wiimotes[0])) {
Vec3 output = Vec3(wiimotes[0]->orient.roll,wiimotes[0]->orient.pitch,wiimotes[0]->orient.yaw);
ActivateOutput(pActInfo, WIIMOTE_RPY,output);
}
if (WIIUSE_USING_IR(wiimotes[0])) {
Vec3 output = Vec3((float)wiimotes[0]->ir.x,(float)wiimotes[0]->ir.y,(float)wiimotes[0]->ir.z);
ActivateOutput(pActInfo, WIIMOTE_IR,output);
}
/* nunchuk */
//Toujours faux !
if (wm->exp.type == EXP_NUNCHUK) {
//nunchuk_t* pt = wm->exp.nunchuk;
//REssort 0 a chaque fois !!!!
struct nunchuk_t* nc = (nunchuk_t*)&wm->exp.nunchuk;
CryLogAlways("nun gravity x EXPANSION : %f",nc->gforce.x);
if (IS_PRESSED(nc, NUNCHUK_BUTTON_C)) ActivateOutput(pActInfo, NUNCHUK_C,true); else ActivateOutput(pActInfo, NUNCHUK_C,false);
if (IS_PRESSED(nc, NUNCHUK_BUTTON_Z)) ActivateOutput(pActInfo, NUNCHUK_Z,true); else ActivateOutput(pActInfo, NUNCHUK_Z,false);
Vec3 output = Vec3(nc->orient.a_roll,nc->orient.a_pitch,nc->orient.yaw);
ActivateOutput(pActInfo, NUNCHUK_RPY,output);
Vec3 output2 = Vec3(nc->js.ang,nc->js.mag,0);
ActivateOutput(pActInfo, NUNCHUK_JOYSTICK,output2);
}
/*
switch (wiimotes[0]->event) {
//case WIIUSE_EVENT:
//{
//}
//break;
case WIIUSE_STATUS:
handle_ctrl_status(wiimotes[0]);
break;
case WIIUSE_DISCONNECT:
case WIIUSE_UNEXPECTED_DISCONNECT:
handle_disconnect(wiimotes[0]);
break;
default:
break;
}
*/
//}
//}
}
}
}
/**
* @brief Callback that handles an event.
*
* @param wm Pointer to a wiimote_t structure.
*
* This function is called automatically by the wiiuse library when an
* event occurs on the specified wiimote.
*/
void handle_event(struct wiimote_t* wm) {
printf("\n\n--- EVENT [id %i] ---\n", wm->unid);
/* if a button is pressed, report it */
if (IS_PRESSED(wm, WIIMOTE_BUTTON_A)) {
printf("A pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_B)) {
printf("B pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_UP)) {
printf("UP pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_DOWN)) {
printf("DOWN pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_LEFT)) {
printf("LEFT pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_RIGHT)) {
printf("RIGHT pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_MINUS)) {
printf("MINUS pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_PLUS)) {
printf("PLUS pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_ONE)) {
printf("ONE pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_TWO)) {
printf("TWO pressed\n");
}
if (IS_PRESSED(wm, WIIMOTE_BUTTON_HOME)) {
printf("HOME pressed\n");
}
/*
* Pressing minus will tell the wiimote we are no longer interested in movement.
* This is useful because it saves battery power.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_MINUS)) {
wiiuse_motion_sensing(wm, 0);
}
/*
* Pressing plus will tell the wiimote we are interested in movement.
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_PLUS)) {
wiiuse_motion_sensing(wm, 1);
}
/*
* Pressing B will toggle the rumble
*
* if B is pressed but is not held, toggle the rumble
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_B)) {
wiiuse_toggle_rumble(wm);
}
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_UP)) {
wiiuse_set_ir(wm, 1);
}
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_DOWN)) {
wiiuse_set_ir(wm, 0);
}
/*
* Motion+ support
*/
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_ONE)) {
if (WIIUSE_USING_EXP(wm)) {
wiiuse_set_motion_plus(wm, 2); // nunchuck pass-through
} else {
wiiuse_set_motion_plus(wm, 1); // standalone
}
}
if (IS_JUST_PRESSED(wm, WIIMOTE_BUTTON_TWO)) {
wiiuse_set_motion_plus(wm, 0); // off
}
/* if the accelerometer is turned on then print angles */
if (WIIUSE_USING_ACC(wm)) {
printf("wiimote roll = %f [%f]\n", wm->orient.roll, wm->orient.a_roll);
printf("wiimote pitch = %f [%f]\n", wm->orient.pitch, wm->orient.a_pitch);
printf("wiimote yaw = %f\n", wm->orient.yaw);
}
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wm)) {
int i = 0;
/* go through each of the 4 possible IR sources */
for (; i < 4; ++i) {
/* check if the source is visible */
if (wm->ir.dot[i].visible) {
printf("IR source %i: (%u, %u)\n", i, wm->ir.dot[i].x, wm->ir.dot[i].y);
}
}
printf("IR cursor: (%u, %u)\n", wm->ir.x, wm->ir.y);
printf("IR z distance: %f\n", wm->ir.z);
}
/* show events specific to supported expansions */
if (wm->exp.type == EXP_NUNCHUK || wm->exp.type == EXP_MOTION_PLUS_NUNCHUK) {
/* nunchuk */
struct nunchuk_t* nc = (nunchuk_t*)&wm->exp.nunchuk;
if (IS_PRESSED(nc, NUNCHUK_BUTTON_C)) {
printf("Nunchuk: C pressed\n");
}
if (IS_PRESSED(nc, NUNCHUK_BUTTON_Z)) {
printf("Nunchuk: Z pressed\n");
}
printf("nunchuk roll = %f\n", nc->orient.roll);
printf("nunchuk pitch = %f\n", nc->orient.pitch);
printf("nunchuk yaw = %f\n", nc->orient.yaw);
printf("nunchuk joystick angle: %f\n", nc->js.ang);
printf("nunchuk joystick magnitude: %f\n", nc->js.mag);
printf("nunchuk joystick vals: %f, %f\n", nc->js.x, nc->js.y);
printf("nunchuk joystick calibration (min, center, max): x: %i, %i, %i y: %i, %i, %i\n",
nc->js.min.x,
nc->js.center.x,
nc->js.max.x,
nc->js.min.y,
nc->js.center.y,
nc->js.max.y);
} else if (wm->exp.type == EXP_CLASSIC) {
/* classic controller */
struct classic_ctrl_t* cc = (classic_ctrl_t*)&wm->exp.classic;
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_ZL)) {
printf("Classic: ZL pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_B)) {
printf("Classic: B pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_Y)) {
printf("Classic: Y pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_A)) {
printf("Classic: A pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_X)) {
printf("Classic: X pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_ZR)) {
printf("Classic: ZR pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_LEFT)) {
printf("Classic: LEFT pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_UP)) {
printf("Classic: UP pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_RIGHT)) {
printf("Classic: RIGHT pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_DOWN)) {
printf("Classic: DOWN pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_FULL_L)) {
printf("Classic: FULL L pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_MINUS)) {
printf("Classic: MINUS pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_HOME)) {
printf("Classic: HOME pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_PLUS)) {
printf("Classic: PLUS pressed\n");
}
if (IS_PRESSED(cc, CLASSIC_CTRL_BUTTON_FULL_R)) {
printf("Classic: FULL R pressed\n");
}
printf("classic L button pressed: %f\n", cc->l_shoulder);
printf("classic R button pressed: %f\n", cc->r_shoulder);
printf("classic left joystick angle: %f\n", cc->ljs.ang);
printf("classic left joystick magnitude: %f\n", cc->ljs.mag);
printf("classic right joystick angle: %f\n", cc->rjs.ang);
printf("classic right joystick magnitude: %f\n", cc->rjs.mag);
} else if (wm->exp.type == EXP_GUITAR_HERO_3) {
/* guitar hero 3 guitar */
struct guitar_hero_3_t* gh3 = (guitar_hero_3_t*)&wm->exp.gh3;
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_STRUM_UP)) {
printf("Guitar: Strum Up pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_STRUM_DOWN)) {
printf("Guitar: Strum Down pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_YELLOW)) {
printf("Guitar: Yellow pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_GREEN)) {
printf("Guitar: Green pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_BLUE)) {
printf("Guitar: Blue pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_RED)) {
printf("Guitar: Red pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_ORANGE)) {
printf("Guitar: Orange pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_PLUS)) {
printf("Guitar: Plus pressed\n");
}
if (IS_PRESSED(gh3, GUITAR_HERO_3_BUTTON_MINUS)) {
printf("Guitar: Minus pressed\n");
}
printf("Guitar whammy bar: %f\n", gh3->whammy_bar);
printf("Guitar joystick angle: %f\n", gh3->js.ang);
printf("Guitar joystick magnitude: %f\n", gh3->js.mag);
} else if (wm->exp.type == EXP_WII_BOARD) {
/* wii balance board */
struct wii_board_t* wb = (wii_board_t*)&wm->exp.wb;
float total = wb->tl + wb->tr + wb->bl + wb->br;
float x = ((wb->tr + wb->br) / total) * 2 - 1;
float y = ((wb->tl + wb->tr) / total) * 2 - 1;
printf("Weight: %f kg @ (%f, %f)\n", total, x, y);
/* printf("Interpolated weight: TL:%f TR:%f BL:%f BR:%f\n", wb->tl, wb->tr, wb->bl, wb->br); */
/* printf("Raw: TL:%d TR:%d BL:%d BR:%d\n", wb->rtl, wb->rtr, wb->rbl, wb->rbr); */
}
if (wm->exp.type == EXP_MOTION_PLUS ||
wm->exp.type == EXP_MOTION_PLUS_NUNCHUK) {
printf("Motion+ angular rates (deg/sec): pitch:%03.2f roll:%03.2f yaw:%03.2f\n",
wm->exp.mp.angle_rate_gyro.pitch,
wm->exp.mp.angle_rate_gyro.roll,
wm->exp.mp.angle_rate_gyro.yaw);
}
}
void FWiimoteInputDevice::handle_event(struct wiimote_t* wm, int id)
{
UE_LOG(LogWiimote, Log, TEXT("\n\n--- EVENT [id %i] ---"), wm->unid);
CurrentStates[0] = IS_PRESSED(wm, WIIMOTE_BUTTON_A) || IS_HELD(wm, WIIMOTE_BUTTON_A);
CurrentStates[1] = IS_PRESSED(wm, WIIMOTE_BUTTON_B) || IS_HELD(wm, WIIMOTE_BUTTON_B);
CurrentStates[2] = IS_PRESSED(wm, WIIMOTE_BUTTON_ONE) || IS_HELD(wm, WIIMOTE_BUTTON_ONE);
CurrentStates[3] = IS_PRESSED(wm, WIIMOTE_BUTTON_TWO) || IS_HELD(wm, WIIMOTE_BUTTON_TWO);
CurrentStates[4] = IS_PRESSED(wm, WIIMOTE_BUTTON_PLUS) || IS_HELD(wm, WIIMOTE_BUTTON_PLUS);
CurrentStates[5] = IS_PRESSED(wm, WIIMOTE_BUTTON_MINUS) || IS_HELD(wm, WIIMOTE_BUTTON_MINUS);
CurrentStates[6] = IS_PRESSED(wm, WIIMOTE_BUTTON_UP) || IS_HELD(wm, WIIMOTE_BUTTON_UP);
CurrentStates[7] = IS_PRESSED(wm, WIIMOTE_BUTTON_DOWN) || IS_HELD(wm, WIIMOTE_BUTTON_DOWN);
CurrentStates[8] = IS_PRESSED(wm, WIIMOTE_BUTTON_LEFT) || IS_HELD(wm, WIIMOTE_BUTTON_LEFT);
CurrentStates[9] = IS_PRESSED(wm, WIIMOTE_BUTTON_RIGHT) || IS_HELD(wm, WIIMOTE_BUTTON_RIGHT);
if (IS_PRESSED(wm, WIIMOTE_BUTTON_HOME))
{
UE_LOG(LogWiimote, Log, TEXT("HOME pressed"));
}
/* show events specific to supported expansions */
if (wm->exp.type == EXP_NUNCHUK || wm->exp.type == EXP_MOTION_PLUS_NUNCHUK)
{
/* nunchuk */
struct nunchuk_t* nc = (nunchuk_t*)&wm->exp.nunchuk;
const float DEADZONE = 0.6f;
CurrentStates[10] = IS_PRESSED(nc, NUNCHUK_BUTTON_C) || IS_HELD(wm, NUNCHUK_BUTTON_C);
CurrentStates[11] = IS_PRESSED(nc, NUNCHUK_BUTTON_Z) || IS_HELD(wm, NUNCHUK_BUTTON_Z);
CurrentStates[12] = nc->js.y > DEADZONE;
CurrentStates[13] = nc->js.y < -DEADZONE;
CurrentStates[14] = nc->js.x < -DEADZONE;
CurrentStates[15] = nc->js.x > DEADZONE;
UE_LOG(LogWiimote, Log, TEXT("nunchuk roll = %f"), nc->orient.roll);
UE_LOG(LogWiimote, Log, TEXT("nunchuk pitch = %f"), nc->orient.pitch);
UE_LOG(LogWiimote, Log, TEXT("nunchuk yaw = %f"), nc->orient.yaw);
UE_LOG(LogWiimote, Log, TEXT("nunchuk joystick angle: %f"), nc->js.ang);
UE_LOG(LogWiimote, Log, TEXT("nunchuk joystick magnitude: %f"), nc->js.mag);
UE_LOG(LogWiimote, Log, TEXT("nunchuk joystick vals: %f, %f"), nc->js.x, nc->js.y);
UE_LOG(LogWiimote, Log, TEXT("nunchuk joystick calibration (min, center, max): x: %i, %i, %i y: %i, %i, %i"),
nc->js.min.x,
nc->js.center.x,
nc->js.max.x,
nc->js.min.y,
nc->js.center.y,
nc->js.max.y);
}
/*
* If IR tracking is enabled then print the coordinates
* on the virtual screen that the wiimote is pointing to.
*
* Also make sure that we see at least 1 dot.
*/
if (WIIUSE_USING_IR(wm))
{
/* go through each of the 4 possible IR sources */
for (int i = 0; i < 4; ++i)
{
/* check if the source is visible */
if (wm->ir.dot[i].visible)
{
UE_LOG(LogWiimote, Log, TEXT("IR source %i: (%u, %u)"), i, wm->ir.dot[i].x, wm->ir.dot[i].y);
}
}
UE_LOG(LogWiimote, Log, TEXT("IR cursor: (%u, %u)"), wm->ir.x, wm->ir.y);
UE_LOG(LogWiimote, Log, TEXT("IR z distance: %f"), wm->ir.z);
}
// Update motion controls.
FVector Tilt(0, 0, 0);
FVector RotationRate(0, 0, 0);
FVector Gravity(0, 0, 0);
FVector Acceleration(0, 0, 0);
/* if the accelerometer is turned on then print angles */
if (WIIUSE_USING_ACC(wm))
{
Tilt.X = -wm->orient.pitch;
Tilt.Y = wm->orient.yaw;
Tilt.Z = wm->orient.roll;
Acceleration.X = wm->accel.x;
Acceleration.Y = wm->accel.y;
Acceleration.Z = wm->accel.z;
}
if (wm->exp.type == EXP_MOTION_PLUS || wm->exp.type == EXP_MOTION_PLUS_NUNCHUK)
{
RotationRate.X = -wm->exp.mp.angle_rate_gyro.pitch;
RotationRate.Y = wm->exp.mp.angle_rate_gyro.yaw;
RotationRate.Z = wm->exp.mp.angle_rate_gyro.roll;
}
Gravity.X = wm->gforce.x;
Gravity.Y = wm->gforce.y;
Gravity.Z = wm->gforce.z;
MessageHandler->OnMotionDetected(Tilt, RotationRate, Gravity, Acceleration, id);
}
bool controllerClass::get()
{
Uint8 *keyStates;
Uint8 keyDown[3]; //Need this since its not a good idea to write to keyStates for some reason
shotTime += globalTicks;
SDL_PumpEvents();
keyStates = SDL_GetKeyState( NULL );
keyDown[0] = keyStates[setting.keyLeft];
keyDown[1] = keyStates[setting.keyRight];
keyDown[2] = keyStates[setting.keyShoot];
itemSelectTime += globalTicks;
//Read joystick here so we can override keypresses if the joystick is digital
//We shouldn't need to check if the joystick is enabled, since it won't be opened if its not enabled anyway.
if(setting.joyEnabled && SDL_JoystickOpened(0))
{
joystickx = SDL_JoystickGetAxis(joystick, 0);
joysticky = SDL_JoystickGetAxis(joystick, 1);
joystickbtnA = SDL_JoystickGetButton(joystick, 0);
joystickbtnB = SDL_JoystickGetButton(joystick, 1);
if(joystickbtnA)
{
keyDown[2] = 1;
}
if(joystickbtnB && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopBuyItem=1;
}
if(setting.joyIsDigital)
{
if(joystickx < -200)
{
keyDown[0]=1;
} else if(joystickx > 200)
{
keyDown[1]=1;
}
if(joysticky < -200 && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopNextItem = 1;
} else if(joysticky > 200 && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopPrevItem = 1;
}
} else {
GLfloat x; //This is the actual traveling speed of the paddle
if(joystickx > setting.JoyCalHighJitter)
{
x = joystickRightX * joystickx;
} else if(joystickx < setting.JoyCalLowJitter)
{
x = -(joystickLeftX * joystickx);
}
if(joysticky < setting.JoyCalLowJitter && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopNextItem = 1;
} else if(joysticky > setting.JoyCalHighJitter && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopPrevItem = 1;
}
//Move the paddle:
movePaddle( paddle->posx += (x*globalMilliTicks) );
}
}
#ifdef WITH_WIIUSE
if(var.wiiConnect)
{
if (wiiuse_poll(wiimotes, MAX_WIIMOTES)) {
switch(wiimotes[0]->event)
{
case WIIUSE_EVENT:
if(IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_TWO))
{
keyDown[2]=1;
} else if(IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_ONE) && itemSelectTime > ITEMSELECTTIME)
{
gVar.shopBuyItem = 1;
itemSelectTime=0;
}else if(IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_UP) && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopPrevItem = 1;
}else if(IS_PRESSED(wiimotes[0], WIIMOTE_BUTTON_DOWN) && itemSelectTime > ITEMSELECTTIME)
{
itemSelectTime=0;
gVar.shopNextItem = 1;
} else if(WIIUSE_USING_ACC(wiimotes[0]))
{
motePitch = wiimotes[0]->orient.pitch;
motePitch *=-1;
}
break;
case WIIUSE_DISCONNECT:
case WIIUSE_UNEXPECTED_DISCONNECT:
var.wiiConnect=0;
cout << "WiiMote disconnected." << endl;
wiiuse_cleanup(wiimotes, MAX_WIIMOTES);
break;
}
}
if(motePitch < -0.2 || motePitch > 0.2)
{
movePaddle( paddle->posx += ( moteAccel*motePitch)*globalMilliTicks );
}
}
#endif
//React to keystates here, this way, if joyisdig it will press keys
if(keyDown[0])
{
accel+=globalMilliTicks*setting.controlAccel;
if(accel > setting.controlMaxSpeed)
accel=setting.controlMaxSpeed;
movePaddle( paddle->posx - ( accel*globalMilliTicks) );
} else if(keyDown[1])
{
accel+=globalMilliTicks*setting.controlAccel;
if(accel > setting.controlMaxSpeed)
accel=setting.controlMaxSpeed;
movePaddle( paddle->posx + ( accel*globalMilliTicks) );
} else {
accel = setting.controlStartSpeed;
}
if(keyDown[2])
{
btnPress();
return(1);
} else {
return(0);
}
}
void handle_event( struct wiimote_t* wm )
{
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_A ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_A, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_A ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_A, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_B ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_B, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_B ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_B, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_DOWN ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_DOWN, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_DOWN ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_DOWN, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_LEFT ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_LEFT, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_LEFT ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_LEFT, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_RIGHT ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_RIGHT, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_RIGHT ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_RIGHT, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_UP ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_UP, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_UP ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_UP, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_MINUS ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_MINUS, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_MINUS ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_MINUS, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_PLUS ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_PLUS, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_PLUS ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_PLUS, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_HOME ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_HOME, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_HOME ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_HOME, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_ONE ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_ONE, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_ONE ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_ONE, false );
}
if ( IS_JUST_PRESSED( wm, WIIMOTE_BUTTON_TWO ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_TWO, true );
}
if ( IS_RELEASED( wm, WIIMOTE_BUTTON_TWO ) )
{
ActivateOutput( &m_actInfo, WIIMOTE_TWO, false );
}
if ( WIIUSE_USING_ACC( wm ) && !wiimote_move )
{
//Optimisation v0.1
wiimote_move = true;
Vec3 orient = Vec3( wm->orient.a_roll, wm->orient.a_pitch, wm->orient.yaw );
ActivateOutput( &m_actInfo, WIIMOTE_RPY, orient );
}
/*
if (WIIUSE_USING_IR(wm)) {
int i = 0;
for (; i < 4; ++i) {
if (wm->ir.dot[i].visible) {
CryLogAlways("IR source %i: (%u, %u)\n", i, wm->ir.dot[i].x, wm->ir.dot[i].y);
}
}
//CryLogAlways("IR cursor: (%u, %u)\n", wm->ir.x, wm->ir.y);
//CryLogAlways("IR z distance: %f\n", wm->ir.z);
}
*/
/* show events specific to supported expansions */
if ( wm->exp.type == EXP_NUNCHUK && !nunchuk_move )
{
nunchuk_move = true;
struct nunchuk_t* nc = ( nunchuk_t* )&wm->exp.nunchuk;
if ( IS_PRESSED( nc, NUNCHUK_BUTTON_C ) )
{
ActivateOutput( &m_actInfo, NUNCHUK_C, true );
}
if ( IS_PRESSED( nc, NUNCHUK_BUTTON_Z ) )
{
ActivateOutput( &m_actInfo, NUNCHUK_Z, true );
}
//Optimisation necessaire ici !
Vec3 orient = Vec3( nc->orient.roll, nc->orient.pitch, nc->orient.yaw );
ActivateOutput( &m_actInfo, NUNCHUK_RPY, orient );
Vec3 joy = Vec3( nc->js.ang, nc->js.mag, 0 );
ActivateOutput( &m_actInfo, NUNCHUK_JOYSTICK, joy );
}
}
