Exemplos de RmPitMenuStart em C++ (Cpp)

Linguagem de programação: C++ (Cpp)

Método / Função: RmPitMenuStart

Exemplos em hotexamples.com: 2

RmPitMenuStart em C++ (Cpp) - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de RmPitMenuStart em C++ (Cpp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Exemplo n.º 1

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Arquivo: racepitmenu.cpp Projeto: rongzhou/speed-dreams

bool RmCheckPitRequest() { // If one (human) driver is in pit, switch the display loop to the pit menu. if (LmRaceEngine().outData()->_rePitRequester) { // Mute sound. if (LegacyMenu::self().soundEngine()) LegacyMenu::self().soundEngine()->mute(true); // TODO pit music?? // First, stop the race engine. LmRaceEngine().stop(); // Then open the pit menu (will return in ReCarsUpdateCarPitCmd). RmPitMenuStart(LmRaceEngine().outData()->_rePitRequester, LmRaceEngine().outData()->s, rmOnBackFromPitMenu); return true; } return false; }

Exemplo n.º 2

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Arquivo: raceengine.cpp Projeto: 702nADOS-archive/AutoPlug-3.0

static void ReManage(tCarElt *car) { int i, pitok; tTrackSeg *sseg; tdble wseg; static float color[] = {0.0, 0.0, 1.0, 1.0}; tSituation *s = ReInfo->s; tReCarInfo *info = &(ReInfo->_reCarInfo[car->index]); if (car->_speed_x > car->_topSpeed) { car->_topSpeed = car->_speed_x; } // For practice and qualif. if (car->_speed_x > info->topSpd) { info->topSpd = car->_speed_x; } if (car->_speed_x < info->botSpd) { info->botSpd = car->_speed_x; } // Pitstop. if (car->_pit) { if (car->ctrl.raceCmd & RM_CMD_PIT_ASKED) { // Pit already occupied? if (car->_pit->pitCarIndex == TR_PIT_STATE_FREE) { sprintf(car->ctrl.msg[2], "Can Pit"); } else { sprintf(car->ctrl.msg[2], "Pit Occupied"); } memcpy(car->ctrl.msgColor, color, sizeof(car->ctrl.msgColor)); } if (car->_state & RM_CAR_STATE_PIT) { car->ctrl.raceCmd &= ~RM_CMD_PIT_ASKED; // clear the flag. if (car->_scheduledEventTime < s->currentTime) { car->_state &= ~RM_CAR_STATE_PIT; car->_pit->pitCarIndex = TR_PIT_STATE_FREE; sprintf(buf, "%s pit stop %.1fs", car->_name, info->totalPitTime); ReRaceMsgSet(buf, 5); } else { sprintf(car->ctrl.msg[2], "in pits %.1fs", s->currentTime - info->startPitTime); } } else if ((car->ctrl.raceCmd & RM_CMD_PIT_ASKED) && car->_pit->pitCarIndex == TR_PIT_STATE_FREE && (s->_maxDammage == 0 || car->_dammage <= s->_maxDammage)) { tdble lgFromStart = car->_trkPos.seg->lgfromstart; switch (car->_trkPos.seg->type) { case TR_STR: lgFromStart += car->_trkPos.toStart; break; default: lgFromStart += car->_trkPos.toStart * car->_trkPos.seg->radius; break; } if ((lgFromStart > car->_pit->lmin) && (lgFromStart < car->_pit->lmax)) { pitok = 0; int side; tdble toBorder; if (ReInfo->track->pits.side == TR_RGT) { side = TR_SIDE_RGT; toBorder = car->_trkPos.toRight; } else { side = TR_SIDE_LFT; toBorder = car->_trkPos.toLeft; } sseg = car->_trkPos.seg->side[side]; wseg = RtTrackGetWidth(sseg, car->_trkPos.toStart); if (sseg->side[side]) { sseg = sseg->side[side]; wseg += RtTrackGetWidth(sseg, car->_trkPos.toStart); } if (((toBorder + wseg) < (ReInfo->track->pits.width - car->_dimension_y / 2.0)) && (fabs(car->_speed_x) < 1.0) && (fabs(car->_speed_y) < 1.0)) { pitok = 1; } if (pitok) { car->_state |= RM_CAR_STATE_PIT; car->_nbPitStops++; for (i = 0; i < car->_pit->freeCarIndex; i++) { if (car->_pit->car[i] == car) { car->_pit->pitCarIndex = i; break; } } info->startPitTime = s->currentTime; sprintf(buf, "%s in pits", car->_name); ReRaceMsgSet(buf, 5); if (car->robot->rbPitCmd(car->robot->index, car, s) == ROB_PIT_MENU) { // the pit cmd is modified by menu. ReStop(); RmPitMenuStart(car, (void*)car, ReUpdtPitCmd); } else { ReUpdtPitTime(car); } } } } } /* Start Line Crossing */ if (info->prevTrkPos.seg != car->_trkPos.seg) { if ((info->prevTrkPos.seg->raceInfo & TR_LAST) && (car->_trkPos.seg->raceInfo & TR_START)) { if (info->lapFlag == 0) { if ((car->_state & RM_CAR_STATE_FINISH) == 0) { car->_laps++; car->_remainingLaps--; if (car->_laps > 1) { car->_lastLapTime = s->currentTime - info->sTime; car->_curTime += car->_lastLapTime; if (car->_bestLapTime != 0) { car->_deltaBestLapTime = car->_lastLapTime - car->_bestLapTime; } if ((car->_lastLapTime < car->_bestLapTime) || (car->_bestLapTime == 0)) { car->_bestLapTime = car->_lastLapTime; } if (car->_pos != 1) { car->_timeBehindLeader = car->_curTime - s->cars[0]->_curTime; car->_lapsBehindLeader = s->cars[0]->_laps - car->_laps; car->_timeBehindPrev = car->_curTime - s->cars[car->_pos - 2]->_curTime; s->cars[car->_pos - 2]->_timeBeforeNext = car->_timeBehindPrev; } else { car->_timeBehindLeader = 0; car->_lapsBehindLeader = 0; car->_timeBehindPrev = 0; } info->sTime = s->currentTime; switch (ReInfo->s->_raceType) { case RM_TYPE_PRACTICE: if (ReInfo->_displayMode == RM_DISP_MODE_NONE) { ReInfo->_refreshDisplay = 1; char *t1, *t2; t1 = GfTime2Str(car->_lastLapTime, 0); t2 = GfTime2Str(car->_bestLapTime, 0); sprintf(buf,"lap: %02d time: %s best: %s top spd: %.2f min spd: %.2f damage: %d", car->_laps - 1, t1, t2, info->topSpd * 3.6, info->botSpd * 3.6, car->_dammage); ReResScreenAddText(buf); free(t1); free(t2); } /* save the lap result */ ReSavePracticeLap(car); break; case RM_TYPE_QUALIF: if (ReInfo->_displayMode == RM_DISP_MODE_NONE) { ReUpdateQualifCurRes(car); } break; } } else { if ((ReInfo->_displayMode == RM_DISP_MODE_NONE) && (ReInfo->s->_raceType == RM_TYPE_QUALIF)) { ReUpdateQualifCurRes(car); } } info->topSpd = car->_speed_x; info->botSpd = car->_speed_x; if ((car->_remainingLaps < 0) || (s->_raceState == RM_RACE_FINISHING)) { car->_state |= RM_CAR_STATE_FINISH; s->_raceState = RM_RACE_FINISHING; if (ReInfo->s->_raceType == RM_TYPE_RACE) { if (car->_pos == 1) { sprintf(buf, "Winner %s", car->_name); ReRaceBigMsgSet(buf, 10); } else { const char *numSuffix = "th"; if (abs(12 - car->_pos) > 1) { /* leave suffix as 'th' for 11 to 13 */ switch (car->_pos % 10) { case 1: numSuffix = "st"; break; case 2: numSuffix = "nd"; break; case 3: numSuffix = "rd"; break; default: break; } } sprintf(buf, "%s Finished %d%s", car->_name, car->_pos, numSuffix); ReRaceMsgSet(buf, 5); } } } } else { /* prevent infinite looping of cars around track, allow one lap after finish for the first car */ for (i = 0; i < s->_ncars; i++) { s->cars[i]->_state |= RM_CAR_STATE_FINISH; } return; } } else { info->lapFlag--; } } if ((info->prevTrkPos.seg->raceInfo & TR_START) && (car->_trkPos.seg->raceInfo & TR_LAST)) { /* going backward through the start line */ info->lapFlag++; } } ReRaceRules(car); info->prevTrkPos = car->_trkPos; car->_curLapTime = s->currentTime - info->sTime; car->_distFromStartLine = car->_trkPos.seg->lgfromstart + (car->_trkPos.seg->type == TR_STR ? car->_trkPos.toStart : car->_trkPos.toStart * car->_trkPos.seg->radius); car->_distRaced = (car->_laps - 1) * ReInfo->track->length + car->_distFromStartLine; }