/** \file ctrain.c * Functions related to running trains */ /* XTrkCad - Model Railroad CAD * Copyright (C) 2005 Dave Bullis * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef WINDOWS #include #endif #include #include #include #define PRIVATE_EXTRADATA #include "compound.h" #include "ctrain.h" #include "cundo.h" #include "custom.h" #include "fileio.h" #include "i18n.h" #include "layout.h" #include "messages.h" #include "param.h" #include "track.h" #include "trackx.h" #include "utility.h" long programMode; long maxCouplingSpeed = 100; long hideTrainsInTunnels; extern int doDrawTurnoutPosition; extern void NextTurnoutPosition(track_p); static TRKTYP_T T_CAR = -1; typedef enum { ST_NotOnTrack, ST_StopManual, ST_EndOfTrack, ST_OpenTurnout, ST_NoRoom, ST_Crashed } trainStatus_e; struct extraData { traverseTrack_t trvTrk; long state; carItem_p item; double speed; BOOL_T pencils; BOOL_T direction; BOOL_T autoReverse; trainStatus_e status; DIST_T distance; coOrd couplerPos[2]; unsigned int trkLayer; }; #define NOTALAYER (127) #define CAR_STATE_IGNORED (1L<<17) #define CAR_STATE_PROCESSED (1L<<18) #define CAR_STATE_LOCOISMASTER (1L<<19) #define CAR_STATE_ONHIDENTRACK (1L<<20) #define COUPLERCONNECTIONANGLE 45.0 #define CRASHSPEEDDECAY 5 #define IsOnTrack( XX ) ((XX)->trvTrk.trk!=NULL) #define IsIgnored( XX ) (((XX)->state&CAR_STATE_IGNORED)!=0) #define SetIgnored( XX ) (XX)->state |= CAR_STATE_IGNORED #define ClrIgnored( XX ) (XX)->state &= ~CAR_STATE_IGNORED #define IsLocoMaster( XX ) CarItemIsLocoMaster((XX)->item) #define SetLocoMaster( XX ) CarItemSetLocoMaster((XX)->item,TRUE) #define ClrLocoMaster( XX ) CarItemSetLocoMaster((XX)->item,FALSE) #define IsProcessed( XX ) (((XX)->state&CAR_STATE_PROCESSED)!=0) #define SetProcessed( XX ) (XX)->state |= CAR_STATE_PROCESSED #define ClrProcessed( XX ) (XX)->state &= ~CAR_STATE_PROCESSED static wButton_p newcarB; static void ControllerDialogSyncAll(void); static STATUS_T CmdTrain(wAction_t, coOrd); static wMenu_p trainPopupM; static wMenuPush_p trainPopupMI[10]; static track_p followTrain; static coOrd followCenter; static BOOL_T trainsTimeoutPending; static enum { TRAINS_STOP, TRAINS_RUN, TRAINS_IDLE, TRAINS_PAUSE } trainsState; static wIcon_p stopI, goI; static void RestartTrains(void); static void DrawAllCars(void); static void UncoupleCars(track_p, track_p); static void TrainTimeEndPause(void); static void TrainTimeStartPause(void); static int log_trainMove; static int log_trainPlayback; static void PlaceCar(track_p); #define WALK_CARS_START( CAR, XX, DIR ) \ while (1) { \ (XX) = GetTrkExtraData(CAR);\ { \ #define WALK_CARS_END( CAR, XX, DIR ) \ } \ { \ track_p walk_cars_temp1; \ if ( (walk_cars_temp1=GetTrkEndTrk(CAR,DIR)) == NULL ) break; \ (DIR)=(GetTrkEndTrk(walk_cars_temp1,0)==(CAR)?1:0); \ (CAR)=walk_cars_temp1; \ } \ } /* * Generic Commands */ void CarGetPos( track_p car, coOrd * posR, ANGLE_T * angleR) { struct extraData * xx = GetTrkExtraData(car); if (GetTrkType(car) != T_CAR) { AbortProg("getCarPos"); } *posR = xx->trvTrk.pos; *angleR = xx->trvTrk.angle; } void CarSetVisible( track_p car) { struct extraData * xx; int dir; dir = 0; WALK_CARS_START(car, xx, dir) if (GetTrkType(car) != T_CAR) { AbortProg("carSetVisible"); } WALK_CARS_END(car, xx, dir) dir = 1-dir; WALK_CARS_START(car, xx, dir) { xx->state &= ~(CAR_STATE_ONHIDENTRACK); xx->trkLayer = NOTALAYER; } WALK_CARS_END(car, xx, dir) } static struct { long index; coOrd pos; ANGLE_T angle; DIST_T length; DIST_T width; char desc[STR_SIZE]; char number[STR_SIZE]; } carData; typedef enum { IT, PN, AN, LN, WD, DE, NM } carDesc_e; static descData_t carDesc[] = { /*IT*/ { DESC_LONG, N_("Index"), &carData.index }, /*PN*/ { DESC_POS, N_("Position"), &carData.pos }, /*AN*/ { DESC_ANGLE, N_("Angle"), &carData.angle }, /*LN*/ { DESC_DIM, N_("Length"), &carData.length }, /*WD*/ { DESC_DIM, N_("Width"), &carData.width }, /*DE*/ { DESC_STRING, N_("Description"), &carData.desc, sizeof(carData.desc) }, /*NM*/ { DESC_STRING, N_("Rep Marks"), &carData.number, sizeof(carData.number) }, { DESC_NULL } }; static void UpdateCar( track_p trk, int inx, descData_p descUpd, BOOL_T needUndoStart) { if (inx == -1) { BOOL_T titleChanged; const char * cp; titleChanged = FALSE; cp = wStringGetValue((wString_p)carDesc[NM].control0); unsigned int max_str = sizeof(carData.number); if (max_str && strlen(cp)>max_str) { NoticeMessage2(0, MSG_ENTERED_STRING_TRUNCATED, _("Ok"), NULL, max_str-1); } if (cp && strcmp(carData.number, cp) != 0) { titleChanged = TRUE; carData.number[0] = '\0'; strncat(carData.number, cp, max_str - 1); } if (!titleChanged) { return; } if (needUndoStart) { UndoStart(_("Change Track"), "Change Track"); } UndoModify(trk); UndrawNewTrack(trk); DrawNewTrack(trk); return; } UndrawNewTrack(trk); switch (inx) { case NM: break; default: break; } DrawNewTrack(trk); } static void DescribeCar( track_p trk, char * str, CSIZE_T len) { struct extraData *xx = GetTrkExtraData(trk); char * cp; coOrd size; CarItemSize(xx->item, &size); carData.length = size.x; carData.width = size.y; cp = CarItemDescribe(xx->item, 0, &carData.index); carData.number[0] = '\0'; strncat(carData.number, CarItemNumber(xx->item), sizeof(carData.number) - 1); str[0] = '\0'; strncat(str, cp, len - 1); carData.pos = xx->trvTrk.pos; carData.angle = xx->trvTrk.angle; cp = CarItemDescribe(xx->item, -1, NULL); carData.desc[0] = '\0'; strncat(carData.desc, cp, sizeof(carData.desc) - 1); carDesc[IT].mode = carDesc[PN].mode = carDesc[AN].mode = carDesc[LN].mode = carDesc[WD].mode = DESC_RO; carDesc[DE].mode = carDesc[NM].mode = DESC_RO; DoDescribe(_("Car"), trk, carDesc, UpdateCar); } void FlipTraverseTrack( traverseTrack_p trvTrk) { trvTrk->angle = NormalizeAngle(trvTrk->angle + 180.0); if (trvTrk->length > 0) { trvTrk->dist = trvTrk->length - trvTrk->dist; } } BOOL_T TraverseTrack2( traverseTrack_p trvTrk0, DIST_T dist0) { traverseTrack_t trvTrk = *trvTrk0; DIST_T dist = dist0; if (dist0 < 0) { dist = -dist; FlipTraverseTrack(&trvTrk); } if (trvTrk.trk==NULL || (!TraverseTrack(&trvTrk,&dist)) || trvTrk.trk==NULL || dist!=0.0) { Translate(&trvTrk.pos, trvTrk.pos, trvTrk.angle, dist); } if (dist0 < 0) { FlipTraverseTrack(&trvTrk); } *trvTrk0 = trvTrk; return TRUE; } /*************** * When a track is deleted, cross check that the Traverse Track reference is removed. */ EXPORT void CheckCarTraverse(track_p track) { track_p car; for (car=NULL; TrackIterate(&car);) { if (GetTrkType(car) == T_CAR) { struct extraData * xx = GetTrkExtraData(car); if (xx->trvTrk.trk == track) { xx->trvTrk.trk=NULL; xx->status = ST_NotOnTrack; } } } } static BOOL_T drawCarEnable = TRUE; static BOOL_T noCarDraw = FALSE; static void DrawCar( track_p car, drawCmd_p d, wDrawColor color) { struct extraData * xx = GetTrkExtraData(car); int dir; vector_t coupler[2]; struct extraData * xx1; int dir1; if (drawCarEnable == FALSE) { return; } if (d == &mapD) { return; } if (noCarDraw) { return; } if (hideTrainsInTunnels && ((((xx->state&CAR_STATE_ONHIDENTRACK)!=0) && drawTunnel==0) || (xx->trkLayer!=NOTALAYER && !GetLayerVisible(xx->trkLayer)))) { return; } for (dir=0; dir<2; dir++) { track_p car1; coupler[dir].pos = xx->couplerPos[dir]; if ((car1 = GetTrkEndTrk(car,dir))) { xx1 = GetTrkExtraData(car1); dir1 = (GetTrkEndTrk(car1,0)==car)?0:1; coupler[dir].angle = FindAngle(xx->couplerPos[dir], xx1->couplerPos[dir1]); } else { coupler[dir].angle = NormalizeAngle(xx->trvTrk.angle+(dir==0?0.0:180.0)-15.0); } } CarItemDraw(d, xx->item, color, xx->direction, IsLocoMaster(xx), coupler, xx->pencils, xx->trvTrk.trk); } static DIST_T DistanceCar( track_p trk, coOrd * pos) { struct extraData * xx = GetTrkExtraData(trk); DIST_T dist; coOrd pos1; coOrd size; if (IsIgnored(xx)) { return 10000.0; } CarItemSize(xx->item, &size); /* TODO assumes xx->trvTrk.pos is the car center */ dist = FindDistance(*pos, xx->trvTrk.pos); if (dist < size.x/2.0) { pos1 = *pos; Rotate(&pos1, xx->trvTrk.pos, -xx->trvTrk.angle); pos1.x += -xx->trvTrk.pos.x + size.y/2.0; /* TODO: why not size.x? */ pos1.y += -xx->trvTrk.pos.y + size.x/2.0; if (pos1.x >= 0 && pos1.x <= size.y && pos1.y >= 0 && pos1.y <= size.x) { dist = 0; } } *pos = xx->trvTrk.pos; return dist; } static void SetCarBoundingBox( track_p car) { struct extraData * xx = GetTrkExtraData(car); coOrd lo, hi, p[4]; int inx; coOrd size; /* TODO: should be bounding box of all pieces aligned on track */ CarItemSize(xx->item, &size); /* TODO assumes xx->trvTrk.pos is the car center */ Translate(&p[0], xx->trvTrk.pos, xx->trvTrk.angle, size.x/2.0); Translate(&p[1], p[0], xx->trvTrk.angle+90, size.y/2.0); Translate(&p[0], p[0], xx->trvTrk.angle-90, size.y/2.0); Translate(&p[2], xx->trvTrk.pos, xx->trvTrk.angle+180, size.x/2.0); Translate(&p[3], p[2], xx->trvTrk.angle+90, size.y/2.0); Translate(&p[2], p[2], xx->trvTrk.angle-90, size.y/2.0); lo = hi = p[0]; for (inx = 1; inx < 4; inx++) { if (p[inx].x < lo.x) { lo.x = p[inx].x; } if (p[inx].y < lo.y) { lo.y = p[inx].y; } if (p[inx].x > hi.x) { hi.x = p[inx].x; } if (p[inx].y > hi.y) { hi.y = p[inx].y; } } SetBoundingBox(car, hi, lo); } track_p NewCar( wIndex_t index, carItem_p item, coOrd pos, ANGLE_T angle) { track_p trk; struct extraData * xx; trk = NewTrack(index, T_CAR, 2, sizeof(*xx)); /*SetEndPts( trk, 0 );*/ xx = GetTrkExtraData(trk); /*SetTrkVisible( trk, IsVisible(xx) );*/ xx->item = item; xx->trvTrk.pos = pos; xx->trvTrk.angle = angle; xx->state = 0; SetCarBoundingBox(trk); CarItemSetTrack(item, trk); PlaceCar(trk); return trk; } static void DeleteCar( track_p trk) { struct extraData * xx = GetTrkExtraData(trk); CarItemSetTrack(xx->item, NULL); } static BOOL_T ReadCar( char * line) { return CarItemRead(line); } static BOOL_T WriteCar( track_p trk, FILE * f) { BOOL_T rc = TRUE; return rc; } static void MoveCar( track_p car, coOrd pos) { struct extraData *xx = GetTrkExtraData(car); xx->trvTrk.pos.x += pos.x; xx->trvTrk.pos.y += pos.y; xx->trvTrk.trk = NULL; PlaceCar(car); SetCarBoundingBox(car); } static void RotateCar( track_p car, coOrd pos, ANGLE_T angle) { struct extraData *xx = GetTrkExtraData(car); Rotate(&xx->trvTrk.pos, pos, angle); xx->trvTrk.angle = NormalizeAngle(xx->trvTrk.angle + angle); xx->trvTrk.trk = NULL; PlaceCar(car); SetCarBoundingBox(car); } static BOOL_T QueryCar(track_p trk, int query) { switch (query) { case Q_NODRAWENDPT: return TRUE; default: return FALSE; } } static BOOL_T StoreCar( track_p car, void **data, long * len) { struct extraData *xx = GetTrkExtraData(car); return StoreCarItem(xx->item,data,len); } static BOOL_T ReplayCar (track_p car, void *data,long len) { struct extraData *xx = GetTrkExtraData(car); return ReplayCarItem(xx->item,data,len); } static wBool_t CompareCar( track_cp trk1, track_cp trk2 ) { return TRUE; } static trackCmd_t carCmds = { "CAR ", DrawCar, /* draw */ DistanceCar, /* distance */ DescribeCar, /* describe */ DeleteCar, /* delete */ WriteCar, /* write */ ReadCar, /* read */ MoveCar, /* move */ RotateCar, /* rotate */ NULL, /* rescale */ NULL, /* audit */ NULL, /* getAngle */ NULL, /* split */ NULL, /* traverse */ NULL, /* enumerate */ NULL, /* redraw*/ NULL, /* trim*/ NULL, /* merge*/ NULL, /* modify */ NULL, /* getLength */ NULL, /* getParams */ NULL, /* moveEndPt */ QueryCar, /* query */ NULL, /* ungroup */ NULL, /* flip */ NULL, NULL, NULL, NULL, NULL, NULL, ReplayCar, StoreCar, NULL, /*activate*/ CompareCar }; /* * */ static int numTrainDlg; #define SLIDER_WIDTH (20) #define SLIDER_HEIGHT (200) #define SLIDER_THICKNESS (10) #define MAX_SPEED (100.0) typedef struct { wWin_p win; wIndex_t inx; track_p train; long direction; long followMe; long autoReverse; coOrd pos; char posS[STR_SHORT_SIZE]; DIST_T speed; char speedS[10]; paramGroup_p trainPGp; } trainControlDlg_t, * trainControlDlg_p; static trainControlDlg_t * curTrainDlg; static void SpeedRedraw(wDraw_p, void *, wPos_t, wPos_t); static void SpeedAction(wAction_t, coOrd); static void LocoListChangeEntry(track_p, track_p); static void CmdTrainExit(void *); drawCmd_t speedD = { NULL, &screenDrawFuncs, 0, 1.0, 0.0, { 0.0, 0.0 }, { 0.0, 0.0 }, Pix2CoOrd, CoOrd2Pix }; static paramDrawData_t speedParamData = { SLIDER_WIDTH, SLIDER_HEIGHT, SpeedRedraw, SpeedAction, &speedD }; #ifndef WINDOWS static paramListData_t listData = { 3, 120 }; #endif static char * trainFollowMeLabels[] = { N_("Follow"), NULL }; static char * trainAutoReverseLabels[] = { N_("Auto Reverse"), NULL }; static paramData_t trainPLs[] = { #define I_LIST (0) #ifdef WINDOWS /*0*/ { PD_DROPLIST, NULL, "list", PDO_NOPREF|PDO_NOPSHUPD, (void*)120, NULL, 0 }, #else /*0*/ { PD_LIST, NULL, "list", PDO_NOPREF|PDO_NOPSHUPD, &listData, NULL, 0 }, #endif #define I_STATUS (1) { PD_MESSAGE, NULL, NULL, 0, (void*)120 }, #define I_POS (2) { PD_MESSAGE, NULL, NULL, 0, (void*)120 }, #define I_SLIDER (3) { PD_DRAW, NULL, "speed", PDO_NOPSHUPD|PDO_DLGSETY, &speedParamData }, #define I_DIST (4) { PD_STRING, NULL, "distance", PDO_DLGNEWCOLUMN, (void*)(100-SLIDER_WIDTH), NULL, BO_READONLY }, #define I_ZERO (5) { PD_BUTTON, NULL, "zeroDistance", PDO_NOPSHUPD|PDO_NOPREF|PDO_DLGHORZ, NULL, NULL, BO_ICON }, #define I_GOTO (6) { PD_BUTTON, NULL, "goto", PDO_NOPSHUPD|PDO_NOPREF|PDO_DLGWIDE, NULL, N_("Find") }, #define I_FOLLOW (7) { PD_TOGGLE, NULL, "follow", PDO_NOPREF|PDO_DLGWIDE, trainFollowMeLabels, NULL, BC_HORZ|BC_NOBORDER }, #define I_AUTORVRS (8) { PD_TOGGLE, NULL, "autoreverse", PDO_NOPREF, trainAutoReverseLabels, NULL, BC_HORZ|BC_NOBORDER }, #define I_DIR (9) { PD_BUTTON, NULL, "direction", PDO_NOPREF|PDO_DLGWIDE, NULL, N_("Forward"), 0 }, #define I_STOP (10) { PD_BUTTON, NULL, "stop", PDO_DLGWIDE, NULL, N_("Stop") }, #define I_SPEED (11) { PD_MESSAGE, NULL, NULL, PDO_DLGIGNOREX, (void *)120 } }; static paramGroup_t trainPG = { "train", 0, trainPLs, sizeof trainPLs/sizeof trainPLs[0] }; typedef struct { track_p loco; BOOL_T running; } locoList_t; dynArr_t locoList_da; #define locoList(N) DYNARR_N( locoList_t, locoList_da, N ) static wIndex_t FindLoco( track_p loco) { wIndex_t inx; for (inx = 0; inxtrain == NULL) { return; } xx = GetTrkExtraData(dlg->train); if (xx->speed > MAX_SPEED) { xx->speed = MAX_SPEED; } if (xx->speed < 0) { xx->speed = 0; } y = (wPos_t)(xx->speed/MAX_SPEED*((SLIDER_HEIGHT-SLIDER_THICKNESS)) +SLIDER_THICKNESS/2); drawColor = wDrawFindColor(wRGB(160, 160, 160)); pts[0][1] = pts[1][1] = y-SLIDER_THICKNESS/2; pts[2][1] = pts[3][1] = y+SLIDER_THICKNESS/2; pts[0][0] = pts[3][0] = 0; pts[1][0] = pts[2][0] = SLIDER_WIDTH; wDrawPolygon(d, pts, NULL, 4, drawColor, 0, 0, 0, 1, 0); drawColor = wDrawFindColor(wRGB(220, 220, 220)); pts[0][1] = pts[1][1] = y+SLIDER_THICKNESS/2; pts[2][1] = pts[3][1] = y; pts[0][0] = pts[3][0] = 0; pts[1][0] = pts[2][0] = SLIDER_WIDTH; wDrawPolygon(d, pts, NULL, 4, drawColor, 0, 0, 0, 1, 0); wDrawLine(d, 0, y, SLIDER_WIDTH, y, 1, wDrawLineSolid, drawColorRed, 0); wDrawLine(d, 0, y+SLIDER_THICKNESS/2, SLIDER_WIDTH, y+SLIDER_THICKNESS/2, 1, wDrawLineSolid, drawColorBlack, 0); wDrawLine(d, 0, y-SLIDER_THICKNESS/2, SLIDER_WIDTH, y-SLIDER_THICKNESS/2, 1, wDrawLineSolid, drawColorBlack, 0); sprintf(dlg->speedS, "%3d %s", (int)(units==UNITS_ENGLISH?xx->speed:xx->speed*1.6), (units==UNITS_ENGLISH?"mph":"km/h")); ParamLoadMessage(dlg->trainPGp, I_SPEED, dlg->speedS); LOG(log_trainPlayback, 3, ("Speed = %d\n", (int)xx->speed)); } static void SpeedAction( wAction_t action, coOrd pos) { trainControlDlg_p dlg = curTrainDlg; struct extraData * xx; FLOAT_T speed; BOOL_T startStop; if (dlg == NULL || dlg->train == NULL) { return; } xx = GetTrkExtraData(dlg->train); switch (action) { case C_DOWN: InfoMessage(""); case C_MOVE: case C_UP: TrainTimeEndPause(); if (IsOnTrack(xx)) { speed = ((FLOAT_T)((pos.y*speedD.dpi)-SLIDER_THICKNESS/2))/ (SLIDER_HEIGHT-SLIDER_THICKNESS)*MAX_SPEED; } else { speed = 0; } if (speed > MAX_SPEED) { speed = MAX_SPEED; } if (speed < 0) { speed = 0; } startStop = (xx->speed == 0) != (speed == 0); xx->speed = speed; SpeedRedraw((wDraw_p)dlg->trainPGp->paramPtr[I_SLIDER].control, dlg, SLIDER_WIDTH, SLIDER_HEIGHT); if (startStop) { if (xx->speed == 0) { xx->status = ST_StopManual; } LocoListChangeEntry(dlg->train, dlg->train); } TrainTimeStartPause(); if (trainsState == TRAINS_IDLE) { RestartTrains(); } break; default: break; } } static void ControllerDialogSync( trainControlDlg_p dlg) { struct extraData * xx=NULL; wIndex_t inx; BOOL_T dir; BOOL_T followMe; BOOL_T autoReverse; coOrd pos; if (dlg == NULL) { return; } inx = wListGetIndex((wList_p)dlg->trainPGp->paramPtr[I_LIST].control); if (dlg->train) { if (inx >= 0 && inx < locoList_da.cnt && dlg->train && dlg->train != locoList(inx).loco) { inx = FindLoco(dlg->train); if (inx >= 0) { wListSetIndex((wList_p)dlg->trainPGp->paramPtr[I_LIST].control, inx); } } } else { wListSetIndex((wList_p)dlg->trainPGp->paramPtr[I_LIST].control, -1); } if (dlg->train) { char * statusMsg; DIST_T speed; xx = GetTrkExtraData(dlg->train); dir = xx->direction==0?0:1; speed = xx->speed; pos = xx->trvTrk.pos; followMe = followTrain == dlg->train; autoReverse = xx->autoReverse; if (xx->trvTrk.trk == NULL) { if (xx->status == ST_Crashed) { statusMsg = _("Crashed"); } else { statusMsg = _("Not on Track"); } } else if (xx->speed > 0) { if (trainsState == TRAINS_STOP) { statusMsg = _("Trains Paused"); } else { statusMsg = _("Running"); } } else { switch (xx->status) { case ST_EndOfTrack: statusMsg = _("End of Track"); break; case ST_OpenTurnout: statusMsg = _("Open Turnout"); break; case ST_StopManual: statusMsg = _("Manual Stop"); break; case ST_NoRoom: statusMsg = _("No Room"); break; case ST_Crashed: statusMsg = _("Crashed"); break; default: statusMsg = _("Unknown Status"); break; } } ParamLoadMessage(dlg->trainPGp, I_STATUS, statusMsg); } else { dir = 0; followMe = FALSE; autoReverse = FALSE; ParamLoadMessage(dlg->trainPGp, I_STATUS, _("No trains")); } if (dlg->followMe != followMe) { dlg->followMe = followMe; ParamLoadControl(dlg->trainPGp, I_FOLLOW); } if (dlg->autoReverse != autoReverse) { dlg->autoReverse = autoReverse; ParamLoadControl(dlg->trainPGp, I_AUTORVRS); } if (dlg->direction != dir) { dlg->direction = dir; wButtonSetLabel((wButton_p)dlg->trainPGp->paramPtr[I_DIR].control, (dlg->direction?_("Reverse"):_("Forward"))); } if (dlg->train) { if (dlg->posS[0] == '\0' || dlg->pos.x != xx->trvTrk.pos.x || dlg->pos.y != xx->trvTrk.pos.y) { long format; dlg->pos = xx->trvTrk.pos; format = GetDistanceFormat(); format &= ~DISTFMT_DECS; sprintf(dlg->posS, "X:%s Y:%s", FormatDistanceEx(xx->trvTrk.pos.x, format), FormatDistanceEx(xx->trvTrk.pos.y, format)); ParamLoadMessage(dlg->trainPGp, I_POS, dlg->posS); } if (dlg->speed != xx->speed) { dlg->speed = xx->speed; sprintf(dlg->speedS, "%3d", (int)(units==UNITS_ENGLISH?xx->speed:xx->speed*1.6)); ParamLoadMessage(dlg->trainPGp, I_SPEED, dlg->speedS); SpeedRedraw((wDraw_p)dlg->trainPGp->paramPtr[I_SLIDER].control, dlg, SLIDER_WIDTH, SLIDER_HEIGHT); } ParamLoadMessage(dlg->trainPGp, I_DIST, FormatDistance(xx->distance)); } else { if (dlg->posS[0] != '\0') { dlg->posS[0] = '\0'; ParamLoadMessage(dlg->trainPGp, I_POS, dlg->posS); } if (dlg->speed >= 0) { dlg->speed = -1; dlg->speedS[0] = '\0'; ParamLoadMessage(dlg->trainPGp, I_SPEED, dlg->speedS); wDrawClear((wDraw_p)dlg->trainPGp->paramPtr[I_SLIDER].control); } ParamLoadMessage(dlg->trainPGp, I_DIST, ""); } } static void ControllerDialogSyncAll(void) { if (curTrainDlg) { ControllerDialogSync(curTrainDlg); } } static void LocoListChangeEntry( track_p oldLoco, track_p newLoco) { wIndex_t inx = -1; struct extraData * xx; if (curTrainDlg == NULL) { return; } if (oldLoco && (inx=FindLoco(oldLoco))>=0) { if (newLoco) { locoList(inx).loco = newLoco; xx = GetTrkExtraData(newLoco); locoList(inx).running = IsOnTrack(xx) && xx->speed > 0; wListSetValues((wList_p)curTrainDlg->trainPGp->paramPtr[I_LIST].control, inx, CarItemNumber(xx->item), locoList(inx).running?goI:stopI, newLoco); } else { wListDelete((wList_p)curTrainDlg->trainPGp->paramPtr[I_LIST].control, inx); for (; inx= locoList_da.cnt) { inx--; } } } else if (newLoco) { inx = locoList_da.cnt; DYNARR_APPEND(locoList_t, locoList_da, 10); locoList(inx).loco = newLoco; xx = GetTrkExtraData(newLoco); locoList(inx).running = IsOnTrack(xx) && xx->speed > 0; wListAddValue((wList_p)curTrainDlg->trainPGp->paramPtr[I_LIST].control, CarItemNumber(xx->item), locoList(inx).running?goI:stopI, newLoco); } if (curTrainDlg->train == oldLoco) { if (newLoco || locoList_da.cnt <= 0) { curTrainDlg->train = newLoco; } else { curTrainDlg->train = wListGetItemContext((wList_p) curTrainDlg->trainPGp->paramPtr[I_LIST].control, inx); } } ControllerDialogSync(curTrainDlg); } static void LocoListInit(void) { track_p train; struct extraData * xx; locoList_da.cnt = 0; for (train=NULL; TrackIterate(&train);) { if (GetTrkType(train) != T_CAR) { continue; } xx = GetTrkExtraData(train); if (!CarItemIsLoco(xx->item)) { continue; } if (!IsLocoMaster(xx)) { continue; } LocoListChangeEntry(NULL, train); } } static void SetCurTrain( track_p train) { curTrainDlg->train = train; ControllerDialogSync(curTrainDlg); } static void StopTrain( track_p train, trainStatus_e status) { struct extraData * xx; if (train == NULL) { return; } xx = GetTrkExtraData(train); xx->speed = 0; xx->status = status; LocoListChangeEntry(train, train); } static void MoveMainWindow( coOrd pos, ANGLE_T angle) { DIST_T dist; static DIST_T factor = 0.5; ANGLE_T angle1 = angle, angle2; if (angle1 > 180.0) { angle1 = 360.0 - angle1; } if (angle1 > 90.0) { angle1 = 180.0 - angle1; } angle2 = R2D(atan2(mainD.size.x,mainD.size.y)); if (angle1 < angle2) { dist = mainD.size.y/2.0/cos(D2R(angle1)); } else { dist = mainD.size.x/2.0/cos(D2R(90.0-angle1)); } dist *= factor; Translate(&pos, pos, angle, dist); mainD.orig.x = pos.x-mainD.size.x/2;; mainD.orig.y = pos.y-mainD.size.y/2;; panCenter = pos; LOG( log_pan, 2, ( "PanCenter:%d %0.3f %0.3f\n", __LINE__, panCenter.x, panCenter.y ) ); MainLayout( TRUE, TRUE ); // MoveTrainWindow } static void SetTrainDirection( track_p train) { struct extraData *xx, *xx0=GetTrkExtraData(train); int dir0; track_p car; car = train; for (dir0 = 0; dir0 < 2; dir0++) { int dir; dir = dir0; WALK_CARS_START(car, xx, dir) if (car != train) { if (CarItemIsLoco(xx->item)) { xx->direction = (dir==dir0?xx0->direction:!xx0->direction); } } WALK_CARS_END(car, xx, dir) } } static void ControllerDialogUpdate( paramGroup_p pg, int inx, void * valueP) { trainControlDlg_p dlg = curTrainDlg; track_p train; struct extraData * xx; if (dlg == NULL) { return; } TrainTimeEndPause(); switch (inx) { case I_LIST: train = (track_p)wListGetItemContext((wList_p)pg->paramPtr[inx].control, (wIndex_t)*(long*)valueP); if (train == NULL) { return; } dlg->train = train; ControllerDialogSync(dlg); break; case I_ZERO: if (dlg->train == NULL) { return; } TrainTimeEndPause(); xx = GetTrkExtraData(dlg->train); xx->distance = 0.0; ParamLoadMessage(dlg->trainPGp, I_DIST, FormatDistance(xx->distance)); ParamLoadControl(curTrainDlg->trainPGp, I_DIST); TrainTimeStartPause(); break; case I_GOTO: if (dlg->train == NULL) { return; } TrainTimeEndPause(); xx = GetTrkExtraData(dlg->train); followTrain = NULL; dlg->followMe = FALSE; ParamLoadControl(curTrainDlg->trainPGp, I_FOLLOW); CarSetVisible(dlg->train); MoveMainWindow(xx->trvTrk.pos, xx->trvTrk.angle); TrainTimeStartPause(); break; case I_FOLLOW: if (dlg->train == NULL) { return; } if (*(long*)valueP) { followTrain = dlg->train; xx = GetTrkExtraData(dlg->train); if (OFF_MAIND(xx->trvTrk.pos, xx->trvTrk.pos)) { MoveMainWindow(xx->trvTrk.pos, xx->trvTrk.angle); } followCenter = mainCenter; } else { followTrain = NULL; } break; case I_AUTORVRS: if (dlg->train == NULL) { return; } xx = GetTrkExtraData(dlg->train); xx->autoReverse = *(long*)valueP!=0; break; case I_DIR: if (dlg->train == NULL) { return; } xx = GetTrkExtraData(dlg->train); dlg->direction = xx->direction = !xx->direction; wButtonSetLabel((wButton_p)pg->paramPtr[I_DIR].control, (dlg->direction?_("Reverse"):_("Forward"))); SetTrainDirection(dlg->train); TempRedraw(); // ctrain: change direction break; case I_STOP: if (dlg->train == NULL) { return; } TrainTimeEndPause(); StopTrain(dlg->train, ST_StopManual); TrainTimeStartPause(); break; case -1: /* Close window */ CmdTrainExit(NULL); break; } /*ControllerDialogSync( dlg );*/ TrainTimeStartPause(); } static trainControlDlg_p CreateTrainControlDlg(void) { trainControlDlg_p dlg; char * title; paramData_p PLp; dlg = (trainControlDlg_p)MyMalloc(sizeof *dlg); PLp = trainPLs; dlg->posS[0] = '\0'; dlg->speedS[0] = '\0'; PLp[I_LIST].valueP = &dlg->inx; PLp[I_LIST].context = dlg; PLp[I_POS].valueP = &dlg->posS; PLp[I_POS].context = dlg; /*PLp[I_GOTO].valueP = NULL;*/ PLp[I_GOTO].context = dlg; PLp[I_SLIDER].context = dlg; PLp[I_SPEED].valueP = &dlg->speedS; PLp[I_SPEED].context = dlg; PLp[I_DIR].context = dlg; /*PLp[I_STOP].valueP = NULL;*/ PLp[I_STOP].context = dlg; PLp[I_FOLLOW].valueP = &dlg->followMe; PLp[I_FOLLOW].context = dlg; PLp[I_AUTORVRS].valueP = &dlg->autoReverse; PLp[I_AUTORVRS].context = dlg; title = MyStrdup(_("Train Control XXX")); sprintf(title, _("Train Control %d"), ++numTrainDlg); dlg->trainPGp = &trainPG; dlg->win = ParamCreateDialog(dlg->trainPGp, _("Train Control"), NULL, NULL, NULL, FALSE, NULL, 0, ControllerDialogUpdate); return dlg; } /* * STATE INFO */ static struct { STATE_T state; coOrd pos0; } Dtrain; long trainPause = 200; static track_p followTrain = NULL; static void DrawAllCars(void) { track_p car; struct extraData * xx; coOrd size, lo, hi; BOOL_T drawCarEnable1 = drawCarEnable; drawCarEnable = TRUE; wDrawDelayUpdate(mainD.d, TRUE); wDrawRestoreImage(mainD.d); DrawPositionIndicators(); for (car=NULL; TrackIterate(&car);) { if (GetTrkType(car) == T_CAR) { xx = GetTrkExtraData(car); CarItemSize(xx->item, &size); /* TODO assumes xx->trvTrk.pos is the car center */ lo.x = xx->trvTrk.pos.x - size.x/2.0; lo.y = xx->trvTrk.pos.y - size.x/2.0; hi.x = lo.x + size.x; hi.y = lo.y + size.x; if (!OFF_MAIND(lo, hi)) { DrawCar(car, &tempD, wDrawColorBlack); } } } wDrawDelayUpdate(mainD.d, FALSE); drawCarEnable = drawCarEnable1; } static DIST_T GetTrainLength2( track_p * car0, BOOL_T * dir) { DIST_T length = 0, carLength; struct extraData * xx; WALK_CARS_START(*car0, xx, *dir) carLength = CarItemCoupledLength(xx->item); if (length == 0) { length = carLength/2.0; /* TODO assumes xx->trvTrk.pos is the car center */ } else { length += carLength; } WALK_CARS_END(*car0, xx, *dir) return length; } static DIST_T GetTrainLength( track_p car0, BOOL_T dir) { return GetTrainLength2(&car0, &dir); } static void PlaceCar( track_p car) { struct extraData *xx = GetTrkExtraData(car); DIST_T dists[2]; CarItemPlace(xx->item, &xx->trvTrk, dists); CarItemFindCouplerMountPoint(xx->item, xx->trvTrk, xx->couplerPos); car->endPt[0].angle = xx->trvTrk.angle; Translate(&car->endPt[0].pos, xx->trvTrk.pos, car->endPt[0].angle, dists[0]); car->endPt[1].angle = NormalizeAngle(xx->trvTrk.angle + 180.0); Translate(&car->endPt[1].pos, xx->trvTrk.pos, car->endPt[1].angle, dists[1]); LOG(log_trainMove, 4, ("%s @ [%0.3f,%0.3f] A%0.3f\n", CarItemNumber(xx->item), xx->trvTrk.pos.x, xx->trvTrk.pos.y, xx->trvTrk.angle)) SetCarBoundingBox(car); xx->state &= ~(CAR_STATE_ONHIDENTRACK); xx->trkLayer = NOTALAYER; if (xx->trvTrk.trk) { if (!GetTrkVisible(xx->trvTrk.trk)) { xx->state |= CAR_STATE_ONHIDENTRACK; } xx->trkLayer = GetTrkLayer(xx->trvTrk.trk); } } static track_p FindCar( coOrd * pos) { coOrd pos0, pos1; track_p trk, trk1; DIST_T dist1 = 100000, dist; struct extraData * xx; trk1 = NULL; for (trk=NULL; TrackIterate(&trk);) { if (GetTrkType(trk) == T_CAR) { xx = GetTrkExtraData(trk); if (IsIgnored(xx)) { continue; } pos0 = *pos; dist = DistanceCar(trk, &pos0); if (dist < dist1) { dist1 = dist; trk1 = trk; pos1 = pos0; } } } if (dist1 < 10) { *pos = pos1; return trk1; } else { return NULL; } } static track_p FindMasterLoco( track_p train, int * dirR) { struct extraData *xx0; int dir; for (dir = 0; dir<2; dir++) { track_p car0; int dir0; car0 = train; dir0 = dir; WALK_CARS_START(car0, xx0, dir0) if (CarItemIsLoco(xx0->item) && IsLocoMaster(xx0)) { if (dirR) { *dirR = 1-dir0; } return car0; } WALK_CARS_END(car0, xx0, dir0) } return NULL; } static track_p PickMasterLoco( track_p car, int dir) { track_p loco=NULL; struct extraData *xx; WALK_CARS_START(car, xx, dir) if (CarItemIsLoco(xx->item)) { if (IsLocoMaster(xx)) { return car; } if (loco == NULL) { loco = car; } } WALK_CARS_END(car, xx, dir) if (loco == NULL) { return NULL; } xx = GetTrkExtraData(loco); SetLocoMaster(xx); xx->speed = 0; LOG(log_trainMove, 1, ("%s becomes master\n", CarItemNumber(xx->item))) return loco; } static void UncoupleCars( track_p car1, track_p car2) { track_p loco; int dir1, dir2; if (GetTrkEndTrk(car1,0) == car2) { dir1 = 0; } else if (GetTrkEndTrk(car1,1) == car2) { dir1 = 1; } else { ErrorMessage("uncoupleCars - not coupled"); return; } if (GetTrkEndTrk(car2,0) == car1) { dir2 = 0; } else if (GetTrkEndTrk(car2,1) == car1) { dir2 = 1; } else { ErrorMessage("uncoupleCars - not coupled"); return; } loco = FindMasterLoco(car1, NULL); car1->endPt[dir1].track = NULL; car2->endPt[dir2].track = NULL; if (loco) { track_p loco1, loco2; loco1 = PickMasterLoco(car1, 1-dir1); if (loco1 != loco) { LocoListChangeEntry(NULL, loco1); } loco2 = PickMasterLoco(car2, 1-dir2); if (loco2 != loco) { LocoListChangeEntry(NULL, loco2); } } } static void CoupleCars( track_p car1, int dir1, track_p car2, int dir2) { struct extraData * xx1, * xx2; track_p loco1, loco2; track_p car; int dir; xx1 = GetTrkExtraData(car1); xx2 = GetTrkExtraData(car2); if (GetTrkEndTrk(car1,dir1) != NULL || GetTrkEndTrk(car2,dir2) != NULL) { LOG(log_trainMove, 1, ("coupleCars - already coupled\n")) return; } car = car1; dir = 1-dir1; WALK_CARS_START(car, xx1, dir) if (car == car2) { LOG(log_trainMove, 1, ("coupleCars - already coupled\n")) ErrorMessage("Car coupling loop"); return; } WALK_CARS_END(car, xx1, dir) car = car2; dir = 1-dir2; WALK_CARS_START(car, xx2, dir) if (car == car1) { LOG(log_trainMove, 1, ("coupleCars - already coupled\n")) ErrorMessage("Car coupling loop"); return; } WALK_CARS_END(car, xx1, dir) loco1 = FindMasterLoco(car1, NULL); loco2 = FindMasterLoco(car2, NULL); car1->endPt[dir1].track = car2; car2->endPt[dir2].track = car1; /*ConnectTracks( car1, dir1, car2, dir2 );*/ if (logTable(log_trainMove).level >= 2) { LogPrintf("Coupling %s[%d] ", CarItemNumber(xx1->item), dir1); LogPrintf(" and %s[%d]\n", CarItemNumber(xx2->item), dir2); } if ((loco1 != NULL && loco2 != NULL)) { xx1 = GetTrkExtraData(loco1); xx2 = GetTrkExtraData(loco2); if (xx1->speed == 0) { ClrLocoMaster(xx1); LOG(log_trainMove, 2, ("%s loses master\n", CarItemNumber(xx1->item))) if (followTrain == loco1) { followTrain = loco2; } LocoListChangeEntry(loco1, NULL); loco1 = loco2; } else { ClrLocoMaster(xx2); xx1->speed = (xx1->speed + xx2->speed)/2.0; if (xx1->speed < 0) { xx1->speed = 0; } if (xx1->speed > 100) { xx1->speed = 100; } LOG(log_trainMove, 2, ("%s loses master\n", CarItemNumber(xx2->item))) if (followTrain == loco2) { followTrain = loco1; } LocoListChangeEntry(loco2, NULL); } SetTrainDirection(loco1); } } long crashDistFactor=60; static void PlaceCars( track_p car0, int dir0, long crashSpeed, BOOL_T crashFlip) { struct extraData *xx0 = GetTrkExtraData(car0), *xx; int dir; traverseTrack_t trvTrk; DIST_T length; track_p car_curr; DIST_T flipflop = 1; if (crashFlip) { flipflop = -1; } dir = dir0; trvTrk = xx0->trvTrk; if (dir0) { FlipTraverseTrack(&trvTrk); } length = CarItemCoupledLength(xx0->item)/2.0; car_curr = car0; ClrIgnored(xx0); WALK_CARS_START(car_curr, xx, dir) if (car_curr != car0) { DIST_T dist, length1; ClrIgnored(xx); length1 = CarItemCoupledLength(xx->item)/2.0; dist = length + length1; crashSpeed = crashSpeed*CRASHSPEEDDECAY/10; if (crashSpeed > 0) { dist -= dist * crashSpeed/crashDistFactor; } TraverseTrack2(&trvTrk, dist); xx->trvTrk = trvTrk; if (crashSpeed > 0) { xx->trvTrk.angle = NormalizeAngle(xx->trvTrk.angle + flipflop*crashSpeed); xx->trvTrk.trk = NULL; } flipflop = -flipflop; if (dir != 0) { FlipTraverseTrack(&xx->trvTrk); } PlaceCar(car_curr); length = length1; } WALK_CARS_END(car_curr, xx, dir) } static void CrashTrain( track_p car, int dir, traverseTrack_p trvTrkP, long speed, BOOL_T flip) { track_p loco; struct extraData *xx; loco = FindMasterLoco(car,NULL); if (loco != NULL) { StopTrain(loco, ST_Crashed); } xx = GetTrkExtraData(car); xx->trvTrk = *trvTrkP; if (dir) { FlipTraverseTrack(&xx->trvTrk); } PlaceCars(car, 1-dir, speed, flip); if (flip) { speed = - speed; } xx->trvTrk.angle = NormalizeAngle(xx->trvTrk.angle - speed); xx->trvTrk.trk = NULL; PlaceCar(car); } /* * Check if this should couple or optionally if it should crash * It will call couple or crash if needed. * Returns TRUE if we should continue. */ static BOOL_T CheckCoupling( track_p car0, int dir00, BOOL_T doCheckCrash) { track_p car1; struct extraData *xx0, *xx1; coOrd pos1; DIST_T dist0, distc, dist=100000.0; int dir0, dir1, dirl; ANGLE_T angle; traverseTrack_t trvTrk0, trvTrk1; xx0 = xx1 = GetTrkExtraData(car0); /* find length of train from loco to start and end */ dir0 = dir00; dist0 = GetTrainLength2(&car0, &dir0); trvTrk0 = xx0->trvTrk; if (dir00) { FlipTraverseTrack(&trvTrk0); } TraverseTrack2(&trvTrk0, dist0); pos1 = trvTrk0.pos; car1 = FindCar(&pos1); if (!car1) { return TRUE; } xx1 = GetTrkExtraData(car1); if (!IsOnTrack(xx1)) { return TRUE; } /* determine which EP of the found car to couple to */ angle = NormalizeAngle(trvTrk0.angle-xx1->trvTrk.angle); if (angle > 90 && angle < 270) { dir1 = 0; angle = NormalizeAngle(angle+180); } else { dir1 = 1; } /* already coupled? */ if (GetTrkEndTrk(car1,dir1) != NULL) { return TRUE; } /* are we close to aligned? Uses 45 degrees offset today */ /* It assumes that if the cars are aligned they could/should be coupled */ if (angle > COUPLERCONNECTIONANGLE && angle < 360.0-COUPLERCONNECTIONANGLE) { return TRUE; } /* find pos of found end car's coupler, and dist btw couplers */ distc = CarItemCoupledLength(xx1->item); /* pos1 is the end of the xx1 car (end car) */ Translate(&pos1, xx1->trvTrk.pos, xx1->trvTrk.angle+(dir1?180.0:0.0), distc/2.0); dist = FindDistance(trvTrk0.pos, pos1); /* How far away are the two ends?*/ if (dist < trackGauge/10) { return TRUE; } /* not real close: are we overlapped? */ angle = FindAngle(trvTrk0.pos, pos1); angle = NormalizeAngle(angle - trvTrk0.angle); if (angle < 90 || angle > 270) { return TRUE; } /* are we beyond the end of the found car? */ if (dist > distc) { return TRUE; } /* are we on the same track? */ trvTrk1 = xx1->trvTrk; if (dir1) { FlipTraverseTrack(&trvTrk1); } /* Move second train back along track half a car length */ TraverseTrack2(&trvTrk1, distc/2.0-dist); if ( trvTrk0.trk == NULL || trvTrk1.trk == NULL ) // fell off the end of track return FALSE; /* If tracks are not the same - dont couple */ if (trvTrk1.trk != trvTrk0.trk) { return TRUE; } /* If this is further apart than 2 track gauges on a turnout, dont couple */ if (GetTrkType(trvTrk0.trk) == T_TURNOUT) { if (dist > GetTrkGauge(trvTrk0.trk)*2) { return TRUE; } } /* Concluded we are hitting each other */ if (doCheckCrash) { track_p loco1; long speed, speed0, speed1; speed0 = (long)xx0->speed; if ((xx0->direction==0) != (dir00==0)) { speed0 = - speed0; } loco1 = FindMasterLoco(car1, &dirl); xx1 = NULL; if (loco1) { xx1 = GetTrkExtraData(loco1); speed1 = (long)xx1->speed; if (car1 == loco1) { dirl = IsAligned(xx1->trvTrk.angle, FindAngle(trvTrk0.pos, xx1->trvTrk.pos))?1:0; } if ((xx1->direction==1) != (dirl==1)) { speed1 = -speed1; } } else { speed1 = 0; } speed = labs(speed0 + speed1); LOG(log_trainMove, 2, ("coupling speed=%ld\n", speed)) if (speed > maxCouplingSpeed) { CrashTrain(car0, dir0, &trvTrk0, speed, FALSE); CrashTrain(car1, dir1, &trvTrk1, speed, TRUE); return FALSE; } } if (dir00) { dist = -dist; } TraverseTrack2(&xx0->trvTrk, dist); CoupleCars(car0, dir0, car1, dir1); LOG(log_trainMove, 3, (" -> %0.3f\n", dist)) return TRUE; } static void PlaceTrain( track_p car0, BOOL_T doCheckCrash, BOOL_T doCheckCoupling) { track_p car_curr; struct extraData *xx0; int dir0; xx0 = GetTrkExtraData(car0); LOG(log_trainMove, 2, (" placeTrain: %s [%0.3f %0.3f] A%0.3f", CarItemNumber(xx0->item), xx0->trvTrk.pos.x, xx0->trvTrk.pos.y, xx0->trvTrk.angle)) car_curr = car0; for (dir0=0; dir0<2; dir0++) { int dir; struct extraData *xx; car_curr = car0; dir = dir0; xx = xx0; WALK_CARS_START(car_curr, xx, dir) SetIgnored(xx); WALK_CARS_END(car_curr, xx, dir); } /* check for coupling to other cars */ if (doCheckCoupling) { if (xx0->trvTrk.trk) if (!CheckCoupling(car0, 0, doCheckCrash)) { return; } if (xx0->trvTrk.trk) if (!CheckCoupling(car0, 1, doCheckCrash)) { return; } } PlaceCar(car0); for (dir0=0; dir0<2; dir0++) { PlaceCars(car0, dir0, 0, FALSE); } } static void PlaceTrainInit( track_p car0, track_p trk0, coOrd pos0, ANGLE_T angle0, BOOL_T doCheckCoupling) { struct extraData * xx = GetTrkExtraData(car0); xx->trvTrk.trk = trk0; xx->trvTrk.dist = xx->trvTrk.length = -1; xx->trvTrk.pos = pos0; xx->trvTrk.angle = angle0; PlaceTrain(car0, FALSE, doCheckCoupling); } static void FlipTrain( track_p train) { DIST_T d0, d1; struct extraData * xx; if (train == NULL) { return; } d0 = GetTrainLength(train, 0); d1 = GetTrainLength(train, 1); xx = GetTrkExtraData(train); TraverseTrack2(&xx->trvTrk, d0-d1); FlipTraverseTrack(&xx->trvTrk); xx->trvTrk.length = -1; PlaceTrain(train, FALSE, TRUE); } static BOOL_T MoveTrain( track_p train, long timeD) { DIST_T ips, dist0, dist1; struct extraData *xx, *xx1; traverseTrack_t trvTrk; DIST_T length; track_p car1; int dir1; int measured; /* make sure the distance is only measured once per train */ if (train == NULL) { return FALSE; } xx = GetTrkExtraData(train); if (xx->speed <= 0) { return FALSE; } ips = ((xx->speed*5280.0*12.0)/(60.0*60.0*GetScaleRatio(GetLayoutCurScale()))); dist0 = ips * timeD/1000.0; length = GetTrainLength(train, xx->direction); dist1 = length + dist0; trvTrk = xx->trvTrk; if (trvTrk.trk == NULL) { return FALSE; } LOG(log_trainMove, 1, ("moveTrain: %s t%ld->%0.3f S%0.3f D%d [%0.3f %0.3f] A%0.3f T%d\n", CarItemNumber(xx->item), timeD, dist0, xx->speed, xx->direction, xx->trvTrk.pos.x, xx->trvTrk.pos.y, xx->trvTrk.angle, xx->trvTrk.trk?GetTrkIndex(xx->trvTrk.trk):-1)) if (xx->direction) { FlipTraverseTrack(&trvTrk); } TraverseTrack(&trvTrk, &dist1); if (dist1 > 0.0) { if (dist1 > dist0) { /*ErrorMessage( "%s no room: L%0.3f D%0.3f", CarItemNumber(xx->item), length, dist1 );*/ StopTrain(train, ST_NoRoom); return FALSE; } else { dist0 -= dist1; LOG(log_trainMove, 1, (" %s STOP D%d [%0.3f %0.3f] A%0.3f D%0.3f\n", CarItemNumber(xx->item), xx->direction, xx->trvTrk.pos.x, xx->trvTrk.pos.y, xx->trvTrk.angle, dist0)) } /*ErrorMessage( "%s stopped at End Of Track", CarItemNumber(xx->item) );*/ if (xx->autoReverse) { xx->direction = !xx->direction; SetTrainDirection(train); } else { if (xx->speed > maxCouplingSpeed) { car1 = train; dir1 = xx->direction; GetTrainLength2(&car1, &dir1); CrashTrain(car1, dir1, &trvTrk, (long)xx->speed, FALSE); return TRUE; } else { if (trvTrk.trk && trvTrk.trk->endCnt > 1) //Test for null track after Traverse StopTrain(train, ST_OpenTurnout ); else StopTrain(train, ST_EndOfTrack); return (FALSE); } } } trvTrk = xx->trvTrk; TraverseTrack2(&xx->trvTrk, xx->direction==0?dist0:-dist0); car1 = train; dir1 = 0; GetTrainLength2(&car1, &dir1); dir1 = 1-dir1; measured = FALSE; WALK_CARS_START(car1, xx1, dir1); if (CarItemIsLoco(xx1->item) && !measured) { xx->distance += dist0; measured = TRUE; } WALK_CARS_END(car1, xx1, dir1); if (train == followTrain) { if (followCenter.x != mainCenter.x || followCenter.y != mainCenter.y) { if (curTrainDlg->train == followTrain) { curTrainDlg->followMe = FALSE; ParamLoadControl(curTrainDlg->trainPGp, I_FOLLOW); } followTrain = NULL; } else if (OFF_MAIND(xx->trvTrk.pos, xx->trvTrk.pos)) { MoveMainWindow(xx->trvTrk.pos, NormalizeAngle(xx->trvTrk.angle+(xx->direction?180.0:0.0))); followCenter = mainCenter; } } PlaceTrain(train, TRUE, TRUE); return TRUE; } static BOOL_T MoveTrains(long timeD) { BOOL_T trains_moved = FALSE; track_p train; struct extraData * xx; for (train=NULL; TrackIterate(&train);) { if (GetTrkType(train) != T_CAR) { continue; } xx = GetTrkExtraData(train); if (!CarItemIsLoco(xx->item)) { continue; } if (!IsLocoMaster(xx)) { continue; } if (xx->speed == 0) { continue; } trains_moved |= MoveTrain(train, timeD); } ControllerDialogSyncAll(); TempRedraw(); // MoveTrains return trains_moved; } static void MoveTrainsLoop(void) { long time1, timeD; static long time0 = 0; trainsTimeoutPending = FALSE; if (trainsState != TRAINS_RUN) { time0 = 0; return; } if (time0 == 0) { time0 = wGetTimer(); } time1 = wGetTimer(); timeD = time1-time0; time0 = time1; if (timeD > 1000) { timeD = 1000; } if (MoveTrains(timeD)) { wAlarm(trainPause, MoveTrainsLoop); trainsTimeoutPending = TRUE; } else { time0 = 0; trainsState = TRAINS_IDLE; TrainTimeEndPause(); } } static void RestartTrains(void) { if (trainsState != TRAINS_RUN) { TrainTimeStartPause(); } trainsState = TRAINS_RUN; if (!trainsTimeoutPending) { MoveTrainsLoop(); } } static long trainTime0 = 0; static long playbackTrainPause = 0; static drawCmd_t trainMovieD = { NULL, &screenDrawFuncs, 0, 16.0, 0, {0,0}, {1,1}, Pix2CoOrd, CoOrd2Pix }; static long trainMovieFrameDelay; static long trainMovieFrameNext; static void TrainTimeEndPause(void) { if (recordF) { if (trainTime0 != 0) { long delay; delay = wGetTimer()-trainTime0; if (delay > 0) { fprintf(recordF, "TRAINPAUSE %ld\n", delay); } } trainTime0 = 0; } } static void TrainTimeStartPause(void) { if (trainTime0 == 0) { trainTime0 = wGetTimer(); } } static BOOL_T TrainTimeDoPause(char * line) { BOOL_T drawCarEnable2; playbackTrainPause = atol(line); LOG(log_trainPlayback, 1, ("DoPause %ld\n", playbackTrainPause)); trainsState = TRAINS_RUN; if (trainMovieFrameDelay > 0) { drawCarEnable2 = drawCarEnable; drawCarEnable = TRUE; TakeSnapshot(&trainMovieD); drawCarEnable = drawCarEnable2; LOG(log_trainPlayback, 1, ("SNAP 0\n")); trainMovieFrameNext = trainMovieFrameDelay; } /*MoveTrains();*/ while (playbackTrainPause > 0) { if (playbackTrainPause > trainPause) { wPause(trainPause); MoveTrains(trainPause); playbackTrainPause -= trainPause; if (trainMovieFrameDelay > 0) { trainMovieFrameNext -= trainPause; } } else { wPause(playbackTrainPause); MoveTrains(playbackTrainPause); if (trainMovieFrameDelay > 0) { trainMovieFrameNext -= playbackTrainPause; } playbackTrainPause = 0; } if (trainMovieFrameDelay > 0 && trainMovieFrameNext <= 0) { drawCarEnable2 = drawCarEnable; drawCarEnable = TRUE; TakeSnapshot(&trainMovieD); drawCarEnable = drawCarEnable2; LOG(log_trainPlayback, 1, ("SNAP %ld\n", trainMovieFrameNext)); trainMovieFrameNext = trainMovieFrameDelay; } } return TRUE; } static BOOL_T TrainDoMovie(char * line) { /* on/off, scale, orig, size */ long fps; if (trainMovieD.dpi == 0) { trainMovieD.dpi = mainD.dpi; } if (!GetArgs(line, "lfpp", &fps, &trainMovieD.scale, &trainMovieD.orig, &trainMovieD.size)) { return FALSE; } if (fps > 0) { trainMovieFrameDelay = 1000/fps; } else { trainMovieFrameDelay = 0; } trainMovieFrameNext = 0; return TRUE; } void AttachTrains(void) { track_p car; track_p loco; struct extraData * xx; coOrd pos; track_p trk; ANGLE_T angle; EPINX_T ep0, ep1; int dir; for (car=NULL; TrackIterate(&car);) { ClrTrkBits(car, TB_CARATTACHED); if (GetTrkType(car) != T_CAR) { continue; } xx = GetTrkExtraData(car); ClrProcessed(xx); } for (car=NULL; TrackIterate(&car);) { if (GetTrkType(car) != T_CAR) { continue; } xx = GetTrkExtraData(car); if (IsProcessed(xx)) { continue; } loco = FindMasterLoco(car, NULL); if (loco != NULL) { xx = GetTrkExtraData(loco); } else { loco = car; } pos = xx->trvTrk.pos; if (xx->status == ST_Crashed) { continue; } TRK_ITERATE(trk) { if (trk == xx->trvTrk.trk) { break; } } if (trk!=NULL && !QueryTrack(trk, Q_ISTRACK)) { trk = NULL; } if (trk==NULL || GetTrkDistance(trk,&pos)>trackGauge*2.0) { trk = OnTrack2(&pos, FALSE, TRUE, FALSE, NULL); } if (trk!=NULL) { /*if ( trk == xx->trvTrk.trk ) continue;*/ angle = GetAngleAtPoint(trk, pos, &ep0, &ep1); if (NormalizeAngle(xx->trvTrk.angle-angle+90) > 180) { angle = NormalizeAngle(angle+180); } PlaceTrainInit(loco, trk, pos, angle, TRUE); } else { PlaceTrainInit(loco, NULL, xx->trvTrk.pos, xx->trvTrk.angle, FALSE); } dir = 0; WALK_CARS_START(loco, xx, dir) WALK_CARS_END(loco, xx, dir) dir = 1-dir; WALK_CARS_START(loco, xx, dir) SetProcessed(xx); if (xx->trvTrk.trk) { SetTrkBits(xx->trvTrk.trk, TB_CARATTACHED); xx->status = ST_StopManual; } else { xx->status = ST_NotOnTrack; } WALK_CARS_END(loco, xx, dir) } for (car=NULL; TrackIterate(&car);) { if (GetTrkType(car) != T_CAR) { continue; } xx = GetTrkExtraData(car); ClrProcessed(xx); } } static void UpdateTrainAttachment(void) { track_p trk; struct extraData * xx; for (trk=NULL; TrackIterate(&trk);) { ClrTrkBits(trk, TB_CARATTACHED); } for (trk=NULL; TrackIterate(&trk);) { if (GetTrkType(trk) == T_CAR) { xx = GetTrkExtraData(trk); if (xx->trvTrk.trk != NULL) { SetTrkBits(xx->trvTrk.trk, TB_CARATTACHED); } } } } static BOOL_T TrainOnMovableTrack( track_p trk, track_p *trainR) { track_p train; struct extraData * xx; int dir; for (train=NULL; TrackIterate(&train);) { if (GetTrkType(train) != T_CAR) { continue; } xx = GetTrkExtraData(train); if (IsOnTrack(xx)) { if (xx->trvTrk.trk == trk) { break; } } } *trainR = train; if (train == NULL) { return TRUE; } dir = 0; WALK_CARS_START(train, xx, dir) WALK_CARS_END(train, xx, dir) dir = 1-dir; WALK_CARS_START(train, xx, dir) if (xx->trvTrk.trk != trk) { ErrorMessage(MSG_CANT_MOVE_UNDER_TRAIN); return FALSE; } WALK_CARS_END(train, xx, dir) train = FindMasterLoco(train, NULL); if (train != NULL) { *trainR = train; } return TRUE; } /* * */ #define DO_UNCOUPLE (0) #define DO_FLIPCAR (1) #define DO_FLIPTRAIN (2) #define DO_DELCAR (3) #define DO_DELTRAIN (4) #define DO_MUMASTER (5) #define DO_CHANGEDIR (6) #define DO_STOP (7) #define DO_PENCILS_ON (8) #define DO_PENCILS_OFF (9) static track_p trainFuncCar; static coOrd trainFuncPos; static wButton_p trainPauseB; static STATUS_T CmdTrain(wAction_t action, coOrd pos) { track_p trk0, trk1; static track_p currCar; coOrd pos0, pos1; static coOrd delta; ANGLE_T angle1; EPINX_T ep0, ep1; int dir; struct extraData * xx=NULL; wPos_t w, h; switch (action) { case C_START: /*UndoStart( "Trains", "Trains" );*/ UndoSuspend(); programMode = MODE_TRAIN; drawCarEnable = FALSE; doDrawTurnoutPosition = 1; DoChangeNotification(CHANGE_PARAMS|CHANGE_TOOLBAR); if (CarAvailableCount() <= 0) { if (NoticeMessage(MSG_NO_CARS, _("Yes"), _("No")) > 0) { DoCarDlg(); DoChangeNotification(CHANGE_PARAMS); } } EnableCommands(); if (curTrainDlg == NULL) { curTrainDlg = CreateTrainControlDlg(); } curTrainDlg->train = NULL; wListClear((wList_p)curTrainDlg->trainPGp->paramPtr[I_LIST].control); Dtrain.state = 0; trk0 = NULL; tempSegs_da.cnt = 0; DYNARR_SET(trkSeg_t, tempSegs_da, 8); RestartTrains(); wButtonSetLabel(trainPauseB, (char*)goI); trainTime0 = 0; AttachTrains(); curTrainDlg->train = NULL; curTrainDlg->speed = -1; wDrawClear((wDraw_p)curTrainDlg->trainPGp->paramPtr[I_SLIDER].control); LocoListInit(); ControllerDialogSync(curTrainDlg); wShow(curTrainDlg->win); wControlShow((wControl_p)newcarB, (toolbarSet&(1<pencils = FALSE; dist = CarItemCoupledLength(xx->item)/2.0; Translate(&pos, xx->trvTrk.pos, xx->trvTrk.angle, dist); SetTrkEndPoint(currCar, 0, pos, xx->trvTrk.angle); Translate(&pos, xx->trvTrk.pos, xx->trvTrk.angle+180.0, dist); SetTrkEndPoint(currCar, 1, pos, NormalizeAngle(xx->trvTrk.angle+180.0)); /*xx->state |= (xx->item->options&CAR_DESC_BITS);*/ ClrLocoMaster(xx); if (CarItemIsLoco(xx->item)) { SetLocoMaster(xx); LocoListChangeEntry(NULL, currCar); } if ((trk0 = OnTrack(&pos0, FALSE, TRUE))) { xx->trvTrk.angle = GetAngleAtPoint(trk0, pos0, &ep0, &ep1); if (NormalizeAngle(FindAngle(pos, pos0) - xx->trvTrk.angle) > 180.0) { xx->trvTrk.angle = NormalizeAngle(xx->trvTrk.angle + 180); } xx->status = ST_StopManual; } else { xx->trvTrk.angle = 90; } PlaceTrainInit(currCar, trk0, pos0, xx->trvTrk.angle, (MyGetKeyState()&WKEY_SHIFT) == 0); /*DrawCars( &tempD, currCar, TRUE );*/ } else { currCar = FindCar(&pos); delta.x = pos.x - pos0.x; delta.y = pos.y - pos0.y; if (logTable(log_trainMove).level >= 1) { if (currCar) { xx = GetTrkExtraData(currCar); LogPrintf("selected %s\n", CarItemNumber(xx->item)); for (dir=0; dir<2; dir++) { int dir1 = dir; track_p car1 = currCar; struct extraData * xx1 = GetTrkExtraData(car1); LogPrintf("dir=%d\n", dir1); WALK_CARS_START(car1, xx1, dir1) LogPrintf(" %s [%0.3f,%d]\n", CarItemNumber(xx1->item), xx1->trvTrk.angle, dir1); WALK_CARS_END(car1, xx1, dir1) } } } } if (currCar == NULL) { return C_CONTINUE; } trk0 = FindMasterLoco(currCar, NULL); if (trk0) { SetCurTrain(trk0); } return C_CONTINUE; case C_MOVE: if (currCar == NULL) { return C_CONTINUE; } pos.x += delta.x; pos.y += delta.y; pos0 = pos; xx = GetTrkExtraData(currCar); trk0 = OnTrack(&pos0, FALSE, TRUE); if (/*currCarItemPtr != NULL &&*/ trk0) { angle1 = GetAngleAtPoint(trk0, pos0, &ep0, &ep1); if (currCarItemPtr != NULL) { if (NormalizeAngle(FindAngle(pos, pos0) - angle1) > 180.0) { angle1 = NormalizeAngle(angle1 + 180); } } else { if (NormalizeAngle(xx->trvTrk.angle - angle1 + 90.0) > 180.0) { angle1 = NormalizeAngle(angle1 + 180); } } xx->trvTrk.angle = angle1; } tempSegs_da.cnt = 1; PlaceTrainInit(currCar, trk0, pos0, xx->trvTrk.angle, (MyGetKeyState()&WKEY_SHIFT) == 0); ControllerDialogSync(curTrainDlg); return C_CONTINUE; case C_UP: if (currCar != NULL) { trk0 = FindMasterLoco(currCar, NULL); if (trk0) { xx = GetTrkExtraData(trk0); if (!IsOnTrack(xx) || xx->speed <= 0) { StopTrain(trk0, ST_StopManual); } } Dtrain.state = 1; ControllerDialogSync(curTrainDlg); } InfoSubstituteControls(NULL, NULL); currCar = trk0 = NULL; currCarItemPtr = NULL; /*trainEnable = TRUE;*/ if (trainsState == TRAINS_PAUSE) { RestartTrains(); } return C_CONTINUE; case C_LCLICK: if (MyGetKeyState() & WKEY_SHIFT) { pos0 = pos; programMode = MODE_DESIGN; if ((trk0=OnTrack(&pos,FALSE,TRUE)) && QueryTrack(trk0, Q_CAN_NEXT_POSITION) && TrainOnMovableTrack(trk0, &trk1)) { if (trk1) { xx = GetTrkExtraData(trk1); pos1 = xx->trvTrk.pos; angle1 = xx->trvTrk.angle; } else { pos1 = pos0; angle1 = 0; } AdvancePositionIndicator(trk0, pos0, &pos1, &angle1); if (trk1) { xx->trvTrk.pos = pos1; xx->trvTrk.angle = angle1; PlaceTrain(trk1, FALSE, TRUE); } } programMode = MODE_TRAIN; trk0 = NULL; MainRedraw(); //CmdTrain: Make sure track is redrawn after switch thrown } else { trk0 = FindCar(&pos); if (trk0 == NULL) { return C_CONTINUE; } trk0 = FindMasterLoco(trk0, NULL); if (trk0 == NULL) { return C_CONTINUE; } SetCurTrain(trk0); } return C_CONTINUE; case C_RCLICK: trainFuncPos = pos; trainFuncCar = FindCar(&pos); if (trainFuncCar == NULL || GetTrkType(trainFuncCar) != T_CAR) { return C_CONTINUE; } xx = GetTrkExtraData(trainFuncCar); if (xx->pencils) { wMenuPushEnable(trainPopupMI[DO_PENCILS_OFF], TRUE); wMenuPushEnable(trainPopupMI[DO_PENCILS_ON], FALSE); } else { wMenuPushEnable(trainPopupMI[DO_PENCILS_OFF], FALSE); wMenuPushEnable(trainPopupMI[DO_PENCILS_ON], TRUE); } trk0 = FindMasterLoco(trainFuncCar,NULL); dir = IsAligned(xx->trvTrk.angle, FindAngle(xx->trvTrk.pos, trainFuncPos)) ? 0 : 1; wMenuPushEnable(trainPopupMI[DO_UNCOUPLE], GetTrkEndTrk(trainFuncCar, dir)!=NULL); wMenuPushEnable(trainPopupMI[DO_MUMASTER], CarItemIsLoco(xx->item) && !IsLocoMaster(xx)); if (trk0) { xx = GetTrkExtraData(trk0); } wMenuPushEnable(trainPopupMI[DO_CHANGEDIR], trk0!=NULL); wMenuPushEnable(trainPopupMI[DO_STOP], trk0!=NULL && xx->speed>0); /*trainEnable = FALSE;*/ trk0 = FindMasterLoco(trainFuncCar, NULL); if (trk0) { SetCurTrain(trk0); } if (!inPlayback) { wMenuPopupShow(trainPopupM); } return C_CONTINUE; case C_REDRAW: wDrawSaveImage(mainD.d); DrawAllCars(); wWinGetSize(mainW, &w, &h); w -= wControlGetPosX(newCarControls[0]) + 4; if (w > 20) { wListSetSize((wList_p)newCarControls[0], w, wControlGetHeight(newCarControls[0])); } return C_CONTINUE; case C_CANCEL: /*trainEnable = FALSE;*/ trainsState = TRAINS_STOP; TrainTimeEndPause(); LOG(log_trainMove, 1, ("Train Cancel\n")) Dtrain.state = 0; doDrawTurnoutPosition = 0; drawCarEnable = TRUE; programMode = MODE_DESIGN; UpdateTrainAttachment(); UndoResume(); DoChangeNotification(CHANGE_PARAMS|CHANGE_TOOLBAR); if (curTrainDlg->win) { wHide(curTrainDlg->win); } MainRedraw(); // CmdTrain: Exit curTrainDlg->train = NULL; return C_CONTINUE; case C_CONFIRM: /*trainEnable = FALSE;*/ if (trainsState != TRAINS_STOP) { trainsState = TRAINS_STOP; wButtonSetLabel(trainPauseB, (char*)stopI); TrainTimeEndPause(); } currCar = NULL; currCarItemPtr = NULL; HotBarCancel(); InfoSubstituteControls(NULL, NULL); return C_TERMINATE; } return C_CONTINUE; } /* * */ STATUS_T CmdCarDescAction( wAction_t action, coOrd pos) { return CmdTrain(action, pos); } #include "bitmaps/train.xpm" #include "bitmaps/exit.xpm" #include "bitmaps/newcar.xpm" #include "bitmaps/zero.xpm" #include "bitmaps/ballgreen.xpm" #include "bitmaps/ballred.xpm" static void CmdTrainStopGo(void * junk) { wIcon_p icon; if (trainsState == TRAINS_STOP) { icon = goI; RestartTrains(); } else { trainsState = TRAINS_STOP; icon = stopI; TrainTimeEndPause(); } ControllerDialogSync(curTrainDlg); wButtonSetLabel(trainPauseB, (char*)icon); if (recordF) { fprintf(recordF, "TRAINSTOPGO %s\n", trainsState==TRAINS_STOP?"STOP":"GO"); } } static BOOL_T TrainStopGoPlayback(char * line) { while (*line && isspace((unsigned char)*line)) { line++; } if ((strcasecmp(line, "STOP") == 0) != (trainsState == TRAINS_STOP)) { CmdTrainStopGo(NULL); } return TRUE; } static void CmdTrainExit(void * junk) { Reset(); InfoSubstituteControls(NULL, NULL); } static void TrainFunc( void * action) { struct extraData * xx, *xx1; ANGLE_T angle; int dir; track_p loco; track_p temp0, temp1; coOrd pos0, pos1; ANGLE_T angle0, angle1; EPINX_T ep0=-1, ep1=-1; if (trainFuncCar == NULL) { fprintf(stderr, "trainFunc: trainFuncCar==NULL\n"); return; } xx = GetTrkExtraData(trainFuncCar); angle = FindAngle(xx->trvTrk.pos, trainFuncPos); angle = NormalizeAngle(angle-xx->trvTrk.angle); dir = (angle>90&&angle<270); switch ((int)(long)action) { case DO_UNCOUPLE: if (GetTrkEndTrk(trainFuncCar,dir)) { UncoupleCars(trainFuncCar, GetTrkEndTrk(trainFuncCar,dir)); } break; case DO_PENCILS_ON: xx->pencils = TRUE; break; case DO_PENCILS_OFF: xx->pencils = FALSE; break; case DO_FLIPCAR: temp0 = GetTrkEndTrk(trainFuncCar,0); pos0 = GetTrkEndPos(trainFuncCar,0); angle0 = GetTrkEndAngle(trainFuncCar,0); temp1 = GetTrkEndTrk(trainFuncCar,1); pos1 = GetTrkEndPos(trainFuncCar,1); angle1 = GetTrkEndAngle(trainFuncCar,1); if (temp0) { ep0 = GetEndPtConnectedToMe(temp0,trainFuncCar); trainFuncCar->endPt[0].track = NULL; temp0->endPt[ep0].track = NULL; } if (temp1) { ep1 = GetEndPtConnectedToMe(temp1,trainFuncCar); trainFuncCar->endPt[1].track = NULL; temp1->endPt[ep1].track = NULL; } xx->direction = !xx->direction; FlipTraverseTrack(&xx->trvTrk); SetTrkEndPoint(trainFuncCar, 0, pos1, angle1); SetTrkEndPoint(trainFuncCar, 1, pos0, angle0); if (temp0) { trainFuncCar->endPt[1].track = temp0; temp0->endPt[ep0].track = trainFuncCar; } if (temp1) { trainFuncCar->endPt[0].track = temp1; temp1->endPt[ep1].track = trainFuncCar; } ControllerDialogSync(curTrainDlg); PlaceCar(trainFuncCar); break; case DO_FLIPTRAIN: FlipTrain(trainFuncCar); /*PlaceTrain( trainFuncCar, xx->trk, xx->trvTrk.pos, xx->trvTrk.angle );*/ break; case DO_DELCAR: for (dir=0; dir<2; dir++) if (GetTrkEndTrk(trainFuncCar,dir)) { UncoupleCars(trainFuncCar, GetTrkEndTrk(trainFuncCar,dir)); } if (CarItemIsLoco(xx->item)) { LocoListChangeEntry(trainFuncCar, NULL); } trainFuncCar->deleted = TRUE; /*DeleteTrack( trainFuncCar, FALSE );*/ CarItemUpdate(xx->item); HotBarCancel(); InfoSubstituteControls(NULL, NULL); break; case DO_DELTRAIN: dir = 0; loco = FindMasterLoco(trainFuncCar, NULL); WALK_CARS_START(trainFuncCar, xx, dir) WALK_CARS_END(trainFuncCar, xx, dir) dir = 1-dir; temp0 = NULL; WALK_CARS_START(trainFuncCar, xx, dir) if (temp0) { xx1 = GetTrkExtraData(temp0); temp0->deleted = TRUE; /*DeleteTrack( temp0, FALSE );*/ CarItemUpdate(xx1->item); } temp0 = trainFuncCar; WALK_CARS_END(trainFuncCar, xx, dir) if (temp0) { xx1 = GetTrkExtraData(temp0); temp0->deleted = TRUE; /*DeleteTrack( temp0, FALSE );*/ CarItemUpdate(xx1->item); } if (loco) { LocoListChangeEntry(loco, NULL); } HotBarCancel(); InfoSubstituteControls(NULL, NULL); break; case DO_MUMASTER: if (CarItemIsLoco(xx->item)) { loco = FindMasterLoco(trainFuncCar, NULL); if (loco != trainFuncCar) { SetLocoMaster(xx); LOG(log_trainMove, 1, ("%s gets master\n", CarItemNumber(xx->item))) if (loco) { xx1 = GetTrkExtraData(loco); ClrLocoMaster(xx1); LOG(log_trainMove, 1, ("%s looses master\n", CarItemNumber(xx1->item))) xx->speed = xx1->speed; xx1->speed = 0; } LocoListChangeEntry(loco, trainFuncCar); } } break; case DO_CHANGEDIR: loco = FindMasterLoco(trainFuncCar, NULL); if (loco) { xx = GetTrkExtraData(loco); xx->direction = !xx->direction; SetTrainDirection(loco); ControllerDialogSync(curTrainDlg); } break; case DO_STOP: loco = FindMasterLoco(trainFuncCar, NULL); if (loco) { StopTrain(loco, ST_StopManual); ControllerDialogSync(curTrainDlg); } break; } MainRedraw(); //TrainFunc: Redraw if Train altered if (trainsState == TRAINS_PAUSE) { RestartTrains(); } else { } } EXPORT wIndex_t trainCmdInx; void InitCmdTrain(wMenu_p menu) { log_trainMove = LogFindIndex("trainMove"); log_trainPlayback = LogFindIndex("trainPlayback"); trainPLs[I_ZERO].winLabel = (char*)wIconCreatePixMap(zero_xpm); ParamRegister(&trainPG); trainCmdInx = AddMenuButton(menu, CmdTrain, "cmdTrain", _("Train"), wIconCreatePixMap(train_xpm), LEVEL0_50, IC_POPUP3|IC_LCLICK|IC_RCLICK, 0, NULL); stopI = wIconCreatePixMap(ballred); goI = wIconCreatePixMap(ballgreen); trainPauseB = AddToolbarButton("cmdTrainPause", stopI, IC_MODETRAIN_ONLY, CmdTrainStopGo, NULL); AddToolbarButton("cmdTrainExit", wIconCreatePixMap(exit_xpm), IC_MODETRAIN_ONLY, CmdTrainExit, NULL); newcarB = AddToolbarButton("cmdTrainNewCar", wIconCreatePixMap(newcar_xpm), IC_MODETRAIN_ONLY, CarItemLoadList, NULL); T_CAR = InitObject(&carCmds); trainPopupM = MenuRegister("Train Commands"); trainPopupMI[DO_UNCOUPLE] = wMenuPushCreate(trainPopupM, "", _("Uncouple"), 0, TrainFunc, (void*)DO_UNCOUPLE); trainPopupMI[DO_FLIPCAR] = wMenuPushCreate(trainPopupM, "", _("Flip Car"), 0, TrainFunc, (void*)DO_FLIPCAR); trainPopupMI[DO_PENCILS_ON] = wMenuPushCreate(trainPopupM, "", _("Clearance Lines On"), 0, TrainFunc, (void*)DO_PENCILS_ON); trainPopupMI[DO_PENCILS_OFF] = wMenuPushCreate(trainPopupM, "", _("Clearance Lines Off"), 0, TrainFunc, (void*)DO_PENCILS_OFF); trainPopupMI[DO_FLIPTRAIN] = wMenuPushCreate(trainPopupM, "", _("Flip Train"), 0, TrainFunc, (void*)DO_FLIPTRAIN); trainPopupMI[DO_MUMASTER] = wMenuPushCreate(trainPopupM, "", _("MU Master"), 0, TrainFunc, (void*)DO_MUMASTER); trainPopupMI[DO_CHANGEDIR] = wMenuPushCreate(trainPopupM, "", _("Change Direction"), 0, TrainFunc, (void*)DO_CHANGEDIR); trainPopupMI[DO_STOP] = wMenuPushCreate(trainPopupM, "", _("Stop"), 0, TrainFunc, (void*)DO_STOP); wMenuSeparatorCreate(trainPopupM); trainPopupMI[DO_DELCAR] = wMenuPushCreate(trainPopupM, "", _("Remove Car"), 0, TrainFunc, (void*)DO_DELCAR); trainPopupMI[DO_DELTRAIN] = wMenuPushCreate(trainPopupM, "", _("Remove Train"), 0, TrainFunc, (void*)DO_DELTRAIN); AddPlaybackProc("TRAINSTOPGO", (playbackProc_p)TrainStopGoPlayback, NULL); AddPlaybackProc("TRAINPAUSE", (playbackProc_p)TrainTimeDoPause, NULL); AddPlaybackProc("TRAINMOVIE", (playbackProc_p)TrainDoMovie, NULL); }