/* $Id$ */ #include "stdafx.h" #include "openttd.h" #include "train.h" #include "aircraft.h" #include "debug.h" #include "functions.h" #include "table/sprites.h" #include "table/strings.h" #include "window.h" #include "gui.h" #include "vehicle.h" #include "gfx.h" #include "station.h" #include "command.h" #include "engine.h" #include "player.h" #include "depot.h" #include "airport.h" #include "vehicle_gui.h" #include "newgrf_engine.h" #include "date.h" #include "strings.h" enum BuildVehicleWidgets { BUILD_VEHICLE_WIDGET_CLOSEBOX = 0, BUILD_VEHICLE_WIDGET_CAPTION, BUILD_VEHICLE_WIDGET_SORT_ASSENDING_DESCENDING, BUILD_VEHICLE_WIDGET_SORT_TEXT, BUILD_VEHICLE_WIDGET_SORT_DROPDOWN, BUILD_VEHICLE_WIDGET_LIST, BUILD_VEHICLE_WIDGET_SCROLLBAR, BUILD_VEHICLE_WIDGET_PANEL, BUILD_VEHICLE_WIDGET_BUILD, BUILD_VEHICLE_WIDGET_RENAME, BUILD_VEHICLE_WIDGET_RESIZE, }; static const Widget _build_vehicle_widgets[] = { { WWT_CLOSEBOX, RESIZE_NONE, 14, 0, 10, 0, 13, STR_00C5, STR_018B_CLOSE_WINDOW }, { WWT_CAPTION, RESIZE_RIGHT, 14, 11, 227, 0, 13, 0x0, STR_018C_WINDOW_TITLE_DRAG_THIS }, { WWT_PUSHTXTBTN, RESIZE_NONE, 14, 0, 80, 14, 25, STR_SORT_BY, STR_SORT_ORDER_TIP}, { WWT_PANEL, RESIZE_RIGHT, 14, 81, 215, 14, 25, 0x0, STR_SORT_CRITERIA_TIP}, { WWT_TEXTBTN, RESIZE_LR, 14, 216, 227, 14, 25, STR_0225, STR_SORT_CRITERIA_TIP}, { WWT_MATRIX, RESIZE_RB, 14, 0, 215, 26, 121, 0x0, STR_NULL }, { WWT_SCROLLBAR, RESIZE_LRB, 14, 216, 227, 26, 121, 0x0, STR_0190_SCROLL_BAR_SCROLLS_LIST }, { WWT_PANEL, RESIZE_RTB, 14, 0, 227, 122, 213, 0x0, STR_NULL }, { WWT_PUSHTXTBTN, RESIZE_TB, 14, 0, 114, 214, 225, 0x0, STR_NULL }, { WWT_PUSHTXTBTN, RESIZE_RTB, 14, 115, 215, 214, 225, 0x0, STR_NULL }, { WWT_RESIZEBOX, RESIZE_LRTB, 14, 216, 227, 214, 225, 0x0, STR_RESIZE_BUTTON }, { WIDGETS_END}, }; /* Setup widget strings to fit the different types of vehicles */ static void SetupWindowStrings(const Window *w, byte type) { switch (type) { case VEH_Train: w->widget[BUILD_VEHICLE_WIDGET_CAPTION].data = STR_JUST_STRING; w->widget[BUILD_VEHICLE_WIDGET_LIST].tooltips = STR_8843_TRAIN_VEHICLE_SELECTION; w->widget[BUILD_VEHICLE_WIDGET_BUILD].data = STR_881F_BUILD_VEHICLE; w->widget[BUILD_VEHICLE_WIDGET_BUILD].tooltips = STR_8844_BUILD_THE_HIGHLIGHTED_TRAIN; w->widget[BUILD_VEHICLE_WIDGET_RENAME].data = STR_8820_RENAME; w->widget[BUILD_VEHICLE_WIDGET_RENAME].tooltips = STR_8845_RENAME_TRAIN_VEHICLE_TYPE; break; case VEH_Aircraft: w->widget[BUILD_VEHICLE_WIDGET_CAPTION].data = STR_A005_NEW_AIRCRAFT; w->widget[BUILD_VEHICLE_WIDGET_LIST].tooltips = STR_A025_AIRCRAFT_SELECTION_LIST; w->widget[BUILD_VEHICLE_WIDGET_BUILD].data = STR_A006_BUILD_AIRCRAFT; w->widget[BUILD_VEHICLE_WIDGET_BUILD].tooltips = STR_A026_BUILD_THE_HIGHLIGHTED_AIRCRAFT; w->widget[BUILD_VEHICLE_WIDGET_RENAME].data = STR_A037_RENAME; w->widget[BUILD_VEHICLE_WIDGET_RENAME].tooltips = STR_A038_RENAME_AIRCRAFT_TYPE; break; } } static bool _internal_sort_order; // descending/ascending static byte _last_sort_criteria_train = 0; static bool _last_sort_order_train = false; static byte _last_sort_criteria_aircraft = 0; static bool _last_sort_order_aircraft = false; static int CDECL EngineNumberSorter(const void *a, const void *b) { const EngineID va = *(const EngineID*)a; const EngineID vb = *(const EngineID*)b; int r = va - vb; return _internal_sort_order ? -r : r; } static int CDECL EngineIntroDateSorter(const void *a, const void *b) { const int va = GetEngine(*(const EngineID*)a)->intro_date; const int vb = GetEngine(*(const EngineID*)b)->intro_date; const int r = va - vb; if (r == 0) { /* Use EngineID to sort instead since we want consistent sorting */ return EngineNumberSorter(a, b); } return _internal_sort_order ? -r : r; } static int CDECL EngineNameSorter(const void *a, const void *b) { static EngineID last_engine[2] = { INVALID_ENGINE, INVALID_ENGINE }; static char last_name[2][64] = { "\0", "\0" }; const EngineID va = *(const EngineID*)a; const EngineID vb = *(const EngineID*)b; int r; if (va != last_engine[0]) { last_engine[0] = va; GetString(last_name[0], GetCustomEngineName(va), lastof(last_name[0])); } if (vb != last_engine[1]) { last_engine[1] = vb; GetString(last_name[1], GetCustomEngineName(vb), lastof(last_name[1])); } r = strcmp(last_name[0], last_name[1]); // sort by name if (r == 0) { /* Use EngineID to sort instead since we want consistent sorting */ return EngineNumberSorter(a, b); } return _internal_sort_order ? -r : r; } static int CDECL EngineReliabilitySorter(const void *a, const void *b) { const int va = GetEngine(*(const EngineID*)a)->reliability; const int vb = GetEngine(*(const EngineID*)b)->reliability; const int r = va - vb; if (r == 0) { /* Use EngineID to sort instead since we want consistent sorting */ return EngineNumberSorter(a, b); } return _internal_sort_order ? -r : r; } /* Train sorting functions */ static int CDECL TrainEngineCostSorter(const void *a, const void *b) { int va = RailVehInfo(*(const EngineID*)a)->base_cost; int vb = RailVehInfo(*(const EngineID*)b)->base_cost; int r = va - vb; return _internal_sort_order ? -r : r; } static int CDECL TrainEngineSpeedSorter(const void *a, const void *b) { int va = RailVehInfo(*(const EngineID*)a)->max_speed; int vb = RailVehInfo(*(const EngineID*)b)->max_speed; int r = va - vb; return _internal_sort_order ? -r : r; } static int CDECL TrainEnginePowerSorter(const void *a, const void *b) { const RailVehicleInfo *rvi_a = RailVehInfo(*(const EngineID*)a); const RailVehicleInfo *rvi_b = RailVehInfo(*(const EngineID*)b); int va = rvi_a->power << (rvi_a->flags & RVI_MULTIHEAD ? 1 : 0); int vb = rvi_b->power << (rvi_b->flags & RVI_MULTIHEAD ? 1 : 0); int r = va - vb; return _internal_sort_order ? -r : r; } static int CDECL TrainEngineRunningCostSorter(const void *a, const void *b) { const RailVehicleInfo *rvi_a = RailVehInfo(*(const EngineID*)a); const RailVehicleInfo *rvi_b = RailVehInfo(*(const EngineID*)b); int va = rvi_a->running_cost_base * _price.running_rail[rvi_a->running_cost_class] * (rvi_a->flags & RVI_MULTIHEAD ? 2 : 1); int vb = rvi_b->running_cost_base * _price.running_rail[rvi_b->running_cost_class] * (rvi_b->flags & RVI_MULTIHEAD ? 2 : 1); int r = va - vb; return _internal_sort_order ? -r : r; } static int CDECL TrainEnginePowerVsRunningCostSorter(const void *a, const void *b) { const RailVehicleInfo *rvi_a = RailVehInfo(*(const EngineID*)a); const RailVehicleInfo *rvi_b = RailVehInfo(*(const EngineID*)b); /* Here we are using a few tricks to get the right sort. * We want power/running cost, but since we usually got higher running cost than power and we store the result in an int, * we will actually calculate cunning cost/power (to make it more than 1). * Because of this, the return value have to be reversed as well and we return b - a instead of a - b. * Another thing is that both power and running costs should be doubled for multiheaded engines. * Since it would be multipling with 2 in both numerator and denumerator, it will even themselves out and we skip checking for multiheaded. */ int va = (rvi_a->running_cost_base * _price.running_rail[rvi_a->running_cost_class]) / max((uint16)1, rvi_a->power); int vb = (rvi_b->running_cost_base * _price.running_rail[rvi_b->running_cost_class]) / max((uint16)1, rvi_b->power); int r = vb - va; return _internal_sort_order ? -r : r; } static int CDECL TrainEnginesThenWagonsSorter(const void *a, const void *b) { EngineID va = *(const EngineID*)a; EngineID vb = *(const EngineID*)b; int val_a = ((RailVehInfo(va)->flags & RVI_WAGON) != 0) ? 1 : 0; int val_b = ((RailVehInfo(vb)->flags & RVI_WAGON) != 0) ? 1 : 0; int r = val_a - val_b; /* Use EngineID to sort instead since we want consistent sorting */ if (r == 0) return EngineNumberSorter(a, b); return _internal_sort_order ? -r : r; } /* Aircraft sorting functions */ static int CDECL AircraftEngineCostSorter(const void *a, const void *b) { const int va = AircraftVehInfo(*(const EngineID*)a)->base_cost; const int vb = AircraftVehInfo(*(const EngineID*)b)->base_cost; int r = va - vb; return _internal_sort_order ? -r : r; } static int CDECL AircraftEngineSpeedSorter(const void *a, const void *b) { const int va = AircraftVehInfo(*(const EngineID*)a)->max_speed; const int vb = AircraftVehInfo(*(const EngineID*)b)->max_speed; const int r = va - vb; if (r == 0) { /* Use EngineID to sort instead since we want consistent sorting */ return EngineNumberSorter(a, b); } return _internal_sort_order ? -r : r; } static int CDECL AircraftEngineRunningCostSorter(const void *a, const void *b) { const int va = AircraftVehInfo(*(const EngineID*)a)->running_cost; const int vb = AircraftVehInfo(*(const EngineID*)b)->running_cost; const int r = va - vb; if (r == 0) { /* Use EngineID to sort instead since we want consistent sorting */ return EngineNumberSorter(a, b); } return _internal_sort_order ? -r : r; } static int CDECL AircraftEngineCargoSorter(const void *a, const void *b) { const int va = AircraftVehInfo(*(const EngineID*)a)->passenger_capacity; const int vb = AircraftVehInfo(*(const EngineID*)b)->passenger_capacity; const int r = va - vb; if (r == 0) { /* Use EngineID to sort instead since we want consistent sorting */ return EngineNumberSorter(a, b); } return _internal_sort_order ? -r : r; } static EngList_SortTypeFunction * const _train_sorter[] = { &EngineNumberSorter, &TrainEngineCostSorter, &TrainEngineSpeedSorter, &TrainEnginePowerSorter, &EngineIntroDateSorter, &EngineNameSorter, &TrainEngineRunningCostSorter, &TrainEnginePowerVsRunningCostSorter, &EngineReliabilitySorter, }; static const StringID _train_sort_listing[] = { STR_ENGINE_SORT_ENGINE_ID, STR_ENGINE_SORT_COST, STR_SORT_BY_MAX_SPEED, STR_ENGINE_SORT_POWER, STR_ENGINE_SORT_INTRO_DATE, STR_SORT_BY_DROPDOWN_NAME, STR_ENGINE_SORT_RUNNING_COST, STR_ENGINE_SORT_POWER_VS_RUNNING_COST, STR_SORT_BY_RELIABILITY, INVALID_STRING_ID }; static EngList_SortTypeFunction * const _aircraft_sorter[] = { &EngineNumberSorter, &AircraftEngineCostSorter, &AircraftEngineSpeedSorter, &EngineIntroDateSorter, &EngineNameSorter, &AircraftEngineRunningCostSorter, &EngineReliabilitySorter, &AircraftEngineCargoSorter, }; static const StringID _aircraft_sort_listing[] = { STR_ENGINE_SORT_ENGINE_ID, STR_ENGINE_SORT_COST, STR_SORT_BY_MAX_SPEED, STR_ENGINE_SORT_INTRO_DATE, STR_SORT_BY_DROPDOWN_NAME, STR_ENGINE_SORT_RUNNING_COST, STR_SORT_BY_RELIABILITY, STR_ENGINE_SORT_CARGO_CAPACITY, INVALID_STRING_ID }; /* Draw rail wagon specific details */ static int DrawVehiclePurchaseInfo(int x, int y, EngineID engine_number, const RailVehicleInfo *rvi) { /* Purchase cost */ SetDParam(0, (rvi->base_cost * _price.build_railwagon) >> 8); DrawString(x, y, STR_PURCHASE_INFO_COST, 0); y += 10; /* Wagon weight - (including cargo) */ SetDParam(0, rvi->weight); SetDParam(1, (_cargoc.weights[rvi->cargo_type] * rvi->capacity >> 4) + rvi->weight); DrawString(x, y, STR_PURCHASE_INFO_WEIGHT_CWEIGHT, 0); y += 10; /* Wagon speed limit, displayed if above zero */ if (rvi->max_speed > 0 && _patches.wagon_speed_limits) { SetDParam(0, rvi->max_speed); DrawString(x,y, STR_PURCHASE_INFO_SPEED, 0); y += 10; } return y; } /* Draw locomotive specific details */ static int DrawVehiclePurchaseInfo(int x, int y, EngineID engine_number, const RailVehicleInfo *rvi, const Engine *e) { int multihead = (rvi->flags&RVI_MULTIHEAD?1:0); /* Purchase Cost - Engine weight */ SetDParam(0, rvi->base_cost * (_price.build_railvehicle >> 3) >> 5); SetDParam(1, rvi->weight << multihead); DrawString(x,y, STR_PURCHASE_INFO_COST_WEIGHT, 0); y += 10; /* Max speed - Engine power */ SetDParam(0, rvi->max_speed); SetDParam(1, rvi->power << multihead); DrawString(x,y, STR_PURCHASE_INFO_SPEED_POWER, 0); y += 10; /* Max tractive effort - not applicable if old acceleration or maglev */ if (_patches.realistic_acceleration && e->railtype != RAILTYPE_MAGLEV) { SetDParam(0, ((rvi->weight << multihead) * 10 * rvi->tractive_effort) / 256); DrawString(x, y, STR_PURCHASE_INFO_MAX_TE, 0); y += 10; } /* Running cost */ SetDParam(0, (rvi->running_cost_base * _price.running_rail[rvi->running_cost_class] >> 8) << multihead); DrawString(x,y, STR_PURCHASE_INFO_RUNNINGCOST, 0); y += 10; /* Powered wagons power - Powered wagons extra weight */ if (rvi->pow_wag_power != 0) { SetDParam(0, rvi->pow_wag_power); SetDParam(1, rvi->pow_wag_weight); DrawString(x,y, STR_PURCHASE_INFO_PWAGPOWER_PWAGWEIGHT, 0); y += 10; }; return y; } /* Draw aircraft specific details */ static int DrawVehiclePurchaseInfo(int x, int y, EngineID engine_number, const AircraftVehicleInfo *avi) { CargoID cargo; /* Purchase cost - Max speed */ SetDParam(0, avi->base_cost * (_price.aircraft_base>>3)>>5); SetDParam(1, avi->max_speed * 128 / 10); DrawString(x, y, STR_PURCHASE_INFO_COST_SPEED, 0); y += 10; /* Cargo capacity */ cargo = FindFirstRefittableCargo(engine_number); if (cargo == CT_INVALID || cargo == CT_PASSENGERS) { SetDParam(0, avi->passenger_capacity); SetDParam(1, avi->mail_capacity); DrawString(x, y, STR_PURCHASE_INFO_AIRCRAFT_CAPACITY, 0); } else { /* Note, if the default capacity is selected by the refit capacity * callback, then the capacity shown is likely to be incorrect. */ SetDParam(0, cargo); SetDParam(1, AircraftDefaultCargoCapacity(cargo, engine_number)); SetDParam(2, STR_9842_REFITTABLE); DrawString(x, y, STR_PURCHASE_INFO_CAPACITY, 0); } y += 10; /* Running cost */ SetDParam(0, avi->running_cost * _price.aircraft_running >> 8); DrawString(x, y, STR_PURCHASE_INFO_RUNNINGCOST, 0); y += 10; return y; } /** * Draw the purchase info details of a vehicle at a given location. * @param x,y location where to draw the info * @param w how wide are the text allowed to be (size of widget/window to Draw in) * @param engine_number the engine of which to draw the info of */ void DrawVehiclePurchaseInfo(int x, int y, uint w, EngineID engine_number) { const Engine *e = GetEngine(engine_number); YearMonthDay ymd; ConvertDateToYMD(e->intro_date, &ymd); switch (e->type) { case VEH_Train: { const RailVehicleInfo *rvi = RailVehInfo(engine_number); if (rvi->flags & RVI_WAGON) { y = DrawVehiclePurchaseInfo(x, y, engine_number, rvi); } else { y = DrawVehiclePurchaseInfo(x, y, engine_number, rvi, e); } /* Cargo type + capacity, or N/A */ if (rvi->capacity == 0) { SetDParam(0, CT_INVALID); SetDParam(2, STR_EMPTY); } else { int multihead = (rvi->flags & RVI_MULTIHEAD ? 1 : 0); SetDParam(0, rvi->cargo_type); SetDParam(1, (rvi->capacity * (CountArticulatedParts(engine_number) + 1)) << multihead); SetDParam(2, STR_9842_REFITTABLE); } DrawString(x,y, STR_PURCHASE_INFO_CAPACITY, 0); y += 10; } break; case VEH_Aircraft: y = DrawVehiclePurchaseInfo(x, y, engine_number, AircraftVehInfo(engine_number)); break; default: NOT_REACHED(); } /* Draw details, that applies to all types except rail wagons */ if (e->type != VEH_Train || (RailVehInfo(engine_number)->flags & RVI_WAGON == 0)) { /* Design date - Life length */ SetDParam(0, ymd.year); SetDParam(1, e->lifelength); DrawString(x, y, STR_PURCHASE_INFO_DESIGNED_LIFE, 0); y += 10; /* Reliability */ SetDParam(0, e->reliability * 100 >> 16); DrawString(x, y, STR_PURCHASE_INFO_RELIABILITY, 0); y += 10; } /* Additional text from NewGRF */ y += ShowAdditionalText(x, y, w, engine_number); switch (e->type) { case VEH_Train: { const RailVehicleInfo *rvi = RailVehInfo(engine_number); if (rvi->capacity > 0) y += ShowRefitOptionsList(x, y, w, engine_number); } break; case VEH_Aircraft: y += ShowRefitOptionsList(x, y, w, engine_number); break; } } void DrawAircraftImage(const Vehicle *v, int x, int y, VehicleID selection) { SpriteID pal = (v->vehstatus & VS_CRASHED) ? PALETTE_CRASH : GetVehiclePalette(v); DrawSprite(GetAircraftImage(v, DIR_W), pal, x + 25, y + 10); if (v->subtype == 0) { SpriteID rotor_sprite = GetCustomRotorSprite(v, true); if (rotor_sprite == 0) rotor_sprite = SPR_ROTOR_STOPPED; DrawSprite(rotor_sprite, PAL_NONE, x + 25, y + 5); } if (v->index == selection) { DrawFrameRect(x - 1, y - 1, x + 58, y + 21, 0xF, FR_BORDERONLY); } } void CcBuildAircraft(bool success, TileIndex tile, uint32 p1, uint32 p2) { if (success) { const Vehicle *v = GetVehicle(_new_vehicle_id); if (v->tile == _backup_orders_tile) { _backup_orders_tile = 0; RestoreVehicleOrders(v, _backup_orders_data); } ShowAircraftViewWindow(v); } } /* Figure out what train EngineIDs to put in the list */ static void GenerateBuildTrainList(Window *w) { EngineID eid, sel_id; int num_engines = 0; int num_wagons = 0; buildvehicle_d *bv = &WP(w, buildvehicle_d); bv->filter.railtype = (w->window_number == 0) ? RAILTYPE_END : GetRailType(w->window_number); EngList_RemoveAll(&bv->eng_list); /* Make list of all available train engines and wagons. * Also check to see if the previously selected engine is still available, * and if not, reset selection to INVALID_ENGINE. This could be the case * when engines become obsolete and are removed */ for (sel_id = INVALID_ENGINE, eid = 0; eid < NUM_TRAIN_ENGINES; eid++) { const Engine *e = GetEngine(eid); const RailVehicleInfo *rvi = RailVehInfo(eid); if (bv->filter.railtype != RAILTYPE_END && !HasPowerOnRail(e->railtype, bv->filter.railtype)) continue; if (!IsEngineBuildable(eid, VEH_Train, _local_player)) continue; EngList_Add(&bv->eng_list, eid); if ((rvi->flags & RVI_WAGON) == 0) { num_engines++; } else { num_wagons++; } if (eid == bv->sel_engine) sel_id = eid; } bv->sel_engine = sel_id; // make engines first, and then wagons, sorted by ListPositionOfEngine() _internal_sort_order = false; EngList_Sort(&bv->eng_list, TrainEnginesThenWagonsSorter); // and then sort engines _internal_sort_order = bv->descending_sort_order; EngList_SortPartial(&bv->eng_list, _train_sorter[bv->sort_criteria], 0, num_engines); // and finally sort wagons EngList_SortPartial(&bv->eng_list, _train_sorter[bv->sort_criteria], num_engines, num_wagons); } /* Figure out what aircraft EngineIDs to put in the list */ static void GenerateBuildAircraftList(Window *w) { EngineID eid, sel_id; buildvehicle_d *bv = &WP(w, buildvehicle_d); EngList_RemoveAll(&bv->eng_list); /* Make list of all available planes. * Also check to see if the previously selected plane is still available, * and if not, reset selection to INVALID_ENGINE. This could be the case * when planes become obsolete and are removed */ sel_id = INVALID_ENGINE; for (eid = AIRCRAFT_ENGINES_INDEX; eid < AIRCRAFT_ENGINES_INDEX + NUM_AIRCRAFT_ENGINES; eid++) { if (IsEngineBuildable(eid, VEH_Aircraft, _local_player)) { const AircraftVehicleInfo *avi = AircraftVehInfo(eid); switch (bv->filter.acc_planes) { case HELICOPTERS_ONLY: if (avi->subtype != 0) continue; // if not helicopter break; case AIRCRAFT_ONLY: if (avi->subtype == 0) continue; // if helicopter break; case ALL: break; default: NOT_REACHED(); } EngList_Add(&bv->eng_list, eid); if (eid == bv->sel_engine) sel_id = eid; } } bv->sel_engine = sel_id; } /* Generate the list of vehicles */ static void GenerateBuildList(Window *w) { buildvehicle_d *bv = &WP(w, buildvehicle_d); switch (bv->vehicle_type) { case VEH_Train: GenerateBuildTrainList(w); break; case VEH_Aircraft: GenerateBuildAircraftList(w); _internal_sort_order = bv->descending_sort_order; EngList_Sort(&bv->eng_list, _aircraft_sorter[bv->sort_criteria]); break; } } static void DrawBuildVehicleWindow(Window *w) { const buildvehicle_d *bv = &WP(w, buildvehicle_d); SetWindowWidgetDisabledState(w, BUILD_VEHICLE_WIDGET_BUILD, w->window_number == 0); SetVScrollCount(w, EngList_Count(&bv->eng_list)); SetDParam(0, bv->filter.railtype + STR_881C_NEW_RAIL_VEHICLES); // This should only affect rail vehicles DrawWindowWidgets(w); { int x = 2; int y = 27; EngineID selected_id = bv->sel_engine; uint16 position = w->vscroll.pos; uint16 max = min(w->vscroll.pos + w->vscroll.cap, EngList_Count(&bv->eng_list)); switch (bv->vehicle_type) { case VEH_Train: for (; position < max; position++, y += 14) { const EngineID engine = bv->eng_list[position]; DrawString(x + 59, y + 2, GetCustomEngineName(engine), engine == selected_id ? 0xC : 0x10); DrawTrainEngine(x + 29, y + 6, engine, GetEnginePalette(engine, _local_player)); } break; case VEH_Aircraft: for (; position < max; position++, y += 24) { const EngineID engine = bv->eng_list[position]; DrawString(x + 62, y + 7, GetCustomEngineName(engine), engine == selected_id ? 0xC : 0x10); DrawAircraftEngine(x + 29, y + 10, engine, GetEnginePalette(engine, _local_player)); } break; } if (selected_id != INVALID_ENGINE) { const Widget *wi = &w->widget[BUILD_VEHICLE_WIDGET_PANEL]; DrawVehiclePurchaseInfo(x, wi->top + 1, wi->right - wi->left - 2, selected_id); } } { StringID str = STR_NULL; switch (bv->vehicle_type) { case VEH_Train: str = _train_sort_listing[bv->sort_criteria]; break; case VEH_Aircraft: str = _aircraft_sort_listing[bv->sort_criteria]; break; } DrawString(85, 15, str, 0x10); DoDrawString(bv->descending_sort_order ? DOWNARROW : UPARROW, 69, 15, 0x10); } } static void BuildVehicleClickEvent(Window *w, WindowEvent *e) { buildvehicle_d *bv = &WP(w, buildvehicle_d); switch (e->we.click.widget) { case BUILD_VEHICLE_WIDGET_SORT_ASSENDING_DESCENDING: bv->descending_sort_order ^= true; switch (bv->vehicle_type) { case VEH_Train: _last_sort_order_train = bv->descending_sort_order; break; case VEH_Aircraft: _last_sort_order_aircraft = bv->descending_sort_order; break; } GenerateBuildList(w); SetWindowDirty(w); break; case BUILD_VEHICLE_WIDGET_LIST: { uint i = (e->we.click.pt.y - 26) / GetVehicleListHeight(bv->vehicle_type) + w->vscroll.pos; uint num_items = EngList_Count(&bv->eng_list); bv->sel_engine = (i < num_items) ? bv->eng_list[i] : INVALID_ENGINE; SetWindowDirty(w); break; } case BUILD_VEHICLE_WIDGET_SORT_TEXT: case BUILD_VEHICLE_WIDGET_SORT_DROPDOWN: // Select sorting criteria dropdown menu switch (bv->vehicle_type) { case VEH_Train: ShowDropDownMenu(w, _train_sort_listing, bv->sort_criteria, BUILD_VEHICLE_WIDGET_SORT_DROPDOWN, 0, 0); break; case VEH_Aircraft: ShowDropDownMenu(w, _aircraft_sort_listing, bv->sort_criteria, BUILD_VEHICLE_WIDGET_SORT_DROPDOWN, 0, 0); break; } return; case BUILD_VEHICLE_WIDGET_BUILD: { EngineID sel_eng = bv->sel_engine; if (sel_eng != INVALID_ENGINE) { switch (bv->vehicle_type) { case VEH_Train: DoCommandP(w->window_number, sel_eng, 0, (RailVehInfo(sel_eng)->flags & RVI_WAGON) ? CcBuildWagon : CcBuildLoco, CMD_BUILD_RAIL_VEHICLE | CMD_MSG(STR_882B_CAN_T_BUILD_RAILROAD_VEHICLE)); break; case VEH_Aircraft: DoCommandP(w->window_number, sel_eng, 0, CcBuildAircraft, CMD_BUILD_AIRCRAFT | CMD_MSG(STR_A008_CAN_T_BUILD_AIRCRAFT)); break; } } break; } case BUILD_VEHICLE_WIDGET_RENAME: { EngineID sel_eng = bv->sel_engine; if (sel_eng != INVALID_ENGINE) { StringID str = STR_NULL; bv->rename_engine = sel_eng; switch (bv->vehicle_type) { case VEH_Train: str = STR_886A_RENAME_TRAIN_VEHICLE_TYPE; break; case VEH_Aircraft: str = STR_A039_RENAME_AIRCRAFT_TYPE; break; } ShowQueryString(GetCustomEngineName(sel_eng), str, 31, 160, w, CS_ALPHANUMERAL); } break; } } } static void NewVehicleWndProc(Window *w, WindowEvent *e) { buildvehicle_d *bv = &WP(w, buildvehicle_d); switch (e->event) { case WE_INVALIDATE_DATA: GenerateBuildList(w); break; case WE_DESTROY: EngList_Destroy(&bv->eng_list); break; case WE_PAINT: DrawBuildVehicleWindow(w); break; case WE_CLICK: BuildVehicleClickEvent(w, e); break; case WE_ON_EDIT_TEXT: { if (e->we.edittext.str[0] != '\0') { StringID str = STR_NULL; _cmd_text = e->we.edittext.str; switch (bv->vehicle_type) { case VEH_Train: str = STR_886B_CAN_T_RENAME_TRAIN_VEHICLE; break; case VEH_Aircraft: str = STR_A03A_CAN_T_RENAME_AIRCRAFT_TYPE; break; } DoCommandP(0, bv->rename_engine, 0, NULL, CMD_RENAME_ENGINE | CMD_MSG(str)); } break; } case WE_DROPDOWN_SELECT: /* we have selected a dropdown item in the list */ if (bv->sort_criteria != e->we.dropdown.index) { bv->sort_criteria = e->we.dropdown.index; switch (bv->vehicle_type) { case VEH_Train: _last_sort_criteria_train = bv->sort_criteria; break; case VEH_Aircraft: _last_sort_criteria_aircraft = bv->sort_criteria; break; } GenerateBuildList(w); } SetWindowDirty(w); break; case WE_RESIZE: if (e->we.sizing.diff.y == 0) break; w->vscroll.cap += e->we.sizing.diff.y / GetVehicleListHeight(bv->vehicle_type); w->widget[BUILD_VEHICLE_WIDGET_LIST].data = (w->vscroll.cap << 8) + 1; break; } } static const WindowDesc _build_vehicle_desc = { WDP_AUTO, WDP_AUTO, 228, 226, WC_BUILD_VEHICLE,0, WDF_STD_TOOLTIPS | WDF_STD_BTN | WDF_DEF_WIDGET | WDF_UNCLICK_BUTTONS | WDF_RESIZABLE, _build_vehicle_widgets, NewVehicleWndProc }; void ShowBuildVehicleWindow(TileIndex tile, byte type) { buildvehicle_d *bv; Window *w; assert(IsPlayerBuildableVehicleType(type)); DeleteWindowById(WC_BUILD_VEHICLE, tile); w = AllocateWindowDescFront(&_build_vehicle_desc, tile); if (w == NULL) return; w->caption_color = (tile != 0) ? GetTileOwner(tile) : _local_player; w->resize.step_height = GetVehicleListHeight(type); w->vscroll.cap = w->resize.step_height == 24 ? 4 : 8; w->widget[BUILD_VEHICLE_WIDGET_LIST].data = (w->vscroll.cap << 8) + 1; bv = &WP(w, buildvehicle_d); EngList_Create(&bv->eng_list); bv->sel_engine = INVALID_ENGINE; bv->vehicle_type = type; switch (type) { case VEH_Train: WP(w,buildvehicle_d).filter.railtype = (tile == 0) ? RAILTYPE_END : GetRailType(tile); ResizeWindow(w, 0, 16); bv->sort_criteria = _last_sort_criteria_train; bv->descending_sort_order = _last_sort_order_train; break; case VEH_Aircraft: { AcceptPlanes acc_planes = (tile == 0) ? ALL : GetAirport(GetStationByTile(tile)->airport_type)->acc_planes; bv->filter.acc_planes = acc_planes; ResizeWindow(w, 12, 0); bv->sort_criteria = _last_sort_criteria_aircraft; bv->descending_sort_order = _last_sort_order_aircraft; break; } } SetupWindowStrings(w, type); w->resize.width = w->width; w->resize.height = w->height; GenerateBuildList(w); /* Select the first engine in the list as default when opening the window */ if (EngList_Count(&bv->eng_list) > 0) bv->sel_engine = bv->eng_list[0]; }