/*
* This file is part of OpenTTD.
* OpenTTD 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, version 2.
* OpenTTD 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 OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file ship_cmd.cpp Handling of ships. */
#include "stdafx.h"
#include "ship.h"
#include "landscape.h"
#include "timetable.h"
#include "news_func.h"
#include "company_func.h"
#include "pathfinder/npf/npf_func.h"
#include "depot_base.h"
#include "station_base.h"
#include "newgrf_engine.h"
#include "pathfinder/yapf/yapf.h"
#include "pathfinder/yapf/yapf_ship_regions.h"
#include "newgrf_sound.h"
#include "spritecache.h"
#include "strings_func.h"
#include "window_func.h"
#include "timer/timer_game_calendar.h"
#include "timer/timer_game_economy.h"
#include "vehicle_func.h"
#include "sound_func.h"
#include "ai/ai.hpp"
#include "game/game.hpp"
#include "engine_base.h"
#include "company_base.h"
#include "tunnelbridge_map.h"
#include "zoom_func.h"
#include "framerate_type.h"
#include "industry.h"
#include "industry_map.h"
#include "ship_cmd.h"
#include "table/strings.h"
#include <unordered_set>
#include "safeguards.h"
/** Max distance in tiles (as the crow flies) to search for depots when user clicks "go to depot". */
constexpr int MAX_SHIP_DEPOT_SEARCH_DISTANCE = 80;
/**
* Determine the effective #WaterClass for a ship travelling on a tile.
* @param tile Tile of interest
* @return the waterclass to be used by the ship.
*/
WaterClass GetEffectiveWaterClass(TileIndex tile)
{
if (HasTileWaterClass(tile)) return GetWaterClass(tile);
if (IsTileType(tile, MP_TUNNELBRIDGE)) {
assert(GetTunnelBridgeTransportType(tile) == TRANSPORT_WATER);
return WATER_CLASS_CANAL;
}
if (IsTileType(tile, MP_RAILWAY)) {
assert(GetRailGroundType(tile) == RAIL_GROUND_WATER);
return WATER_CLASS_SEA;
}
NOT_REACHED();
}
static const uint16_t _ship_sprites[] = {0x0E5D, 0x0E55, 0x0E65, 0x0E6D};
template <>
bool IsValidImageIndex<VEH_SHIP>(uint8_t image_index)
{
return image_index < lengthof(_ship_sprites);
}
static inline TrackBits GetTileShipTrackStatus(TileIndex tile)
{
return TrackStatusToTrackBits(GetTileTrackStatus(tile, TRANSPORT_WATER, 0));
}
static void GetShipIcon(EngineID engine, EngineImageType image_type, VehicleSpriteSeq *result)
{
const Engine *e = Engine::Get(engine);
uint8_t spritenum = e->u.ship.image_index;
if (is_custom_sprite(spritenum)) {
GetCustomVehicleIcon(engine, DIR_W, image_type, result);
if (result->IsValid()) return;
spritenum = e->original_image_index;
}
assert(IsValidImageIndex<VEH_SHIP>(spritenum));
result->Set(DIR_W + _ship_sprites[spritenum]);
}
void DrawShipEngine(int left, int right, int preferred_x, int y, EngineID engine, PaletteID pal, EngineImageType image_type)
{
VehicleSpriteSeq seq;
GetShipIcon(engine, image_type, &seq);
Rect rect;
seq.GetBounds(&rect);
preferred_x = Clamp(preferred_x,
left - UnScaleGUI(rect.left),
right - UnScaleGUI(rect.right));
seq.Draw(preferred_x, y, pal, pal == PALETTE_CRASH);
}
/**
* Get the size of the sprite of a ship sprite heading west (used for lists).
* @param engine The engine to get the sprite from.
* @param[out] width The width of the sprite.
* @param[out] height The height of the sprite.
* @param[out] xoffs Number of pixels to shift the sprite to the right.
* @param[out] yoffs Number of pixels to shift the sprite downwards.
* @param image_type Context the sprite is used in.
*/
void GetShipSpriteSize(EngineID engine, uint &width, uint &height, int &xoffs, int &yoffs, EngineImageType image_type)
{
VehicleSpriteSeq seq;
GetShipIcon(engine, image_type, &seq);
Rect rect;
seq.GetBounds(&rect);
width = UnScaleGUI(rect.Width());
height = UnScaleGUI(rect.Height());
xoffs = UnScaleGUI(rect.left);
yoffs = UnScaleGUI(rect.top);
}
void Ship::GetImage(Direction direction, EngineImageType image_type, VehicleSpriteSeq *result) const
{
uint8_t spritenum = this->spritenum;
if (image_type == EIT_ON_MAP) direction = this->rotation;
if (is_custom_sprite(spritenum)) {
GetCustomVehicleSprite(this, direction, image_type, result);
if (result->IsValid()) return;
spritenum = this->GetEngine()->original_image_index;
}
assert(IsValidImageIndex<VEH_SHIP>(spritenum));
result->Set(_ship_sprites[spritenum] + direction);
}
static const Depot *FindClosestShipDepot(const Vehicle *v, uint max_distance)
{
const int max_region_distance = (max_distance / WATER_REGION_EDGE_LENGTH) + 1;
static std::unordered_set<int> visited_patch_hashes;
static std::deque<WaterRegionPatchDesc> patches_to_search;
visited_patch_hashes.clear();
patches_to_search.clear();
/* Step 1: find a set of reachable Water Region Patches using BFS. */
const WaterRegionPatchDesc start_patch = GetWaterRegionPatchInfo(v->tile);
patches_to_search.push_back(start_patch);
visited_patch_hashes.insert(CalculateWaterRegionPatchHash(start_patch));
while (!patches_to_search.empty()) {
/* Remove first patch from the queue and make it the current patch. */
const WaterRegionPatchDesc current_node = patches_to_search.front();
patches_to_search.pop_front();
/* Add neighbors of the current patch to the search queue. */
TVisitWaterRegionPatchCallBack visitFunc = [&](const WaterRegionPatchDesc &water_region_patch) {
/* Note that we check the max distance per axis, not the total distance. */
if (std::abs(water_region_patch.x - start_patch.x) > max_region_distance ||
std::abs(water_region_patch.y - start_patch.y) > max_region_distance) return;
const int hash = CalculateWaterRegionPatchHash(water_region_patch);
if (visited_patch_hashes.count(hash) == 0) {
visited_patch_hashes.insert(hash);
patches_to_search.push_back(water_region_patch);
}
};
VisitWaterRegionPatchNeighbors(current_node, visitFunc);
}
/* Step 2: Find the closest depot within the reachable Water Region Patches. */
const Depot *best_depot = nullptr;
uint best_dist_sq = std::numeric_limits<uint>::max();
for (const Depot *depot : Depot::Iterate()) {
const TileIndex tile = depot->xy;
if (IsShipDepotTile(tile) && IsTileOwner(tile, v->owner)) {
const uint dist_sq = DistanceSquare(tile, v->tile);
if (dist_sq < best_dist_sq && dist_sq <= max_distance * max_distance &&
visited_patch_hashes.count(CalculateWaterRegionPatchHash(GetWaterRegionPatchInfo(tile))) > 0) {
best_dist_sq = dist_sq;
best_depot = depot;
}
}
}
return best_depot;
}
static void CheckIfShipNeedsService(Vehicle *v)
{
if (Company::Get(v->owner)->settings.vehicle.servint_ships == 0 || !v->NeedsAutomaticServicing()) return;
if (v->IsChainInDepot()) {
VehicleServiceInDepot(v);
return;
}
uint max_distance;
switch (_settings_game.pf.pathfinder_for_ships) {
case VPF_NPF: max_distance = _settings_game.pf.npf.maximum_go_to_depot_penalty / NPF_TILE_LENGTH; break;
case VPF_YAPF: max_distance = _settings_game.pf.yapf.maximum_go_to_depot_penalty / YAPF_TILE_LENGTH; break;
default: NOT_REACHED();
}
const Depot *depot = FindClosestShipDepot(v, max_distance);
if (depot == nullptr) {
if (v->current_order.IsType(OT_GOTO_DEPOT)) {
v->current_order.MakeDummy();
SetWindowWidgetDirty(WC_VEHICLE_VIEW, v->index, WID_VV_START_STOP);
}
return;
}
v->current_order.MakeGoToDepot(depot->index, ODTFB_SERVICE);
v->SetDestTile(depot->xy);
SetWindowWidgetDirty(WC_VEHICLE_VIEW, v->index, WID_VV_START_STOP);
}
/**
* Update the caches of this ship.
*/
void Ship::UpdateCache()
{
const ShipVehicleInfo *svi = ShipVehInfo(this->engine_type);
/* Get speed fraction for the current water type. Aqueducts are always canals. */
bool is_ocean = GetEffectiveWaterClass(this->tile) == WATER_CLASS_SEA;
uint raw_speed = GetVehicleProperty(this, PROP_SHIP_SPEED, svi->max_speed);
this->vcache.cached_max_speed = svi->ApplyWaterClassSpeedFrac(raw_speed, is_ocean);
/* Update cargo aging period. */
this->vcache.cached_cargo_age_period = GetVehicleProperty(this, PROP_SHIP_CARGO_AGE_PERIOD, EngInfo(this->engine_type)->cargo_age_period);
this->UpdateVisualEffect();
}
Money Ship::GetRunningCost() const
{
const Engine *e = this->GetEngine();
uint cost_factor = GetVehicleProperty(this, PROP_SHIP_RUNNING_COST_FACTOR, e->u.ship.running_cost);
return GetPrice(PR_RUNNING_SHIP, cost_factor, e->GetGRF());
}
/** Calendar day handler. */
void Ship::OnNewCalendarDay()
{
AgeVehicle(this);
}
/** Economy day handler. */
void Ship::OnNewEconomyDay()
{
if ((++this->day_counter & 7) == 0) {
DecreaseVehicleValue(this);
}
CheckVehicleBreakdown(this);
CheckIfShipNeedsService(this);
CheckOrders(this);
if (this->running_ticks == 0) return;
CommandCost cost(EXPENSES_SHIP_RUN, this->GetRunningCost() * this->running_ticks / (CalendarTime::DAYS_IN_YEAR * Ticks::DAY_TICKS));
this->profit_this_year -= cost.GetCost();
this->running_ticks = 0;
SubtractMoneyFromCompanyFract(this->owner, cost);
SetWindowDirty(WC_VEHICLE_DETAILS, this->index);
/* we need this for the profit */
SetWindowClassesDirty(WC_SHIPS_LIST);
}
Trackdir Ship::GetVehicleTrackdir() const
{
if (this->vehstatus & VS_CRASHED) return INVALID_TRACKDIR;
if (this->IsInDepot()) {
/* We'll assume the ship is facing outwards */
return DiagDirToDiagTrackdir(GetShipDepotDirection(this->tile));
}
if (this->state == TRACK_BIT_WORMHOLE) {
/* ship on aqueduct, so just use its direction and assume a diagonal track */
return DiagDirToDiagTrackdir(DirToDiagDir(this->direction));
}
return TrackDirectionToTrackdir(FindFirstTrack(this->state), this->direction);
}
void Ship::MarkDirty()
{
this->colourmap = PAL_NONE;
this->UpdateViewport(true, false);
this->UpdateCache();
}
void Ship::PlayLeaveStationSound(bool force) const
{
if (PlayVehicleSound(this, VSE_START, force)) return;
SndPlayVehicleFx(ShipVehInfo(this->engine_type)->sfx, this);
}
TileIndex Ship::GetOrderStationLocation(StationID station)
{
if (station == this->last_station_visited) this->last_station_visited = INVALID_STATION;
const Station *st = Station::Get(station);
if (CanVehicleUseStation(this, st)) {
return st->xy;
} else {
this->IncrementRealOrderIndex();
return 0;
}
}
void Ship::UpdateDeltaXY()
{
static const int8_t _delta_xy_table[8][4] = {
/* y_extent, x_extent, y_offs, x_offs */
{ 6, 6, -3, -3}, // N
{ 6, 32, -3, -16}, // NE
{ 6, 6, -3, -3}, // E
{32, 6, -16, -3}, // SE
{ 6, 6, -3, -3}, // S
{ 6, 32, -3, -16}, // SW
{ 6, 6, -3, -3}, // W
{32, 6, -16, -3}, // NW
};
const int8_t *bb = _delta_xy_table[this->rotation];
this->x_offs = bb[3];
this->y_offs = bb[2];
this->x_extent = bb[1];
this->y_extent = bb[0];
this->z_extent = 6;
if (this->direction != this->rotation) {
/* If we are rotating, then it is possible the ship was moved to its next position. In that
* case, because we are still showing the old direction, the ship will appear to glitch sideways
* slightly. We can work around this by applying an additional offset to make the ship appear
* where it was before it moved. */
this->x_offs -= this->x_pos - this->rotation_x_pos;
this->y_offs -= this->y_pos - this->rotation_y_pos;
}
}
/**
* Test-procedure for HasVehicleOnPos to check for any ships which are visible and not stopped by the player.
*/
static Vehicle *EnsureNoMovingShipProc(Vehicle *v, void *)
{
return v->type == VEH_SHIP && (v->vehstatus & (VS_HIDDEN | VS_STOPPED)) == 0 ? v : nullptr;
}
static bool CheckReverseShip(const Ship *v, Trackdir *trackdir = nullptr)
{
/* Ask pathfinder for best direction */
bool reverse = false;
switch (_settings_game.pf.pathfinder_for_ships) {
case VPF_NPF: reverse = NPFShipCheckReverse(v, trackdir); break;
case VPF_YAPF: reverse = YapfShipCheckReverse(v, trackdir); break;
default: NOT_REACHED();
}
return reverse;
}
static bool CheckShipLeaveDepot(Ship *v)
{
if (!v->IsChainInDepot()) return false;
/* Check if we should wait here for unbunching. */
if (v->IsWaitingForUnbunching()) return true;
/* We are leaving a depot, but have to go to the exact same one; re-enter */
if (v->current_order.IsType(OT_GOTO_DEPOT) &&
IsShipDepotTile(v->tile) && GetDepotIndex(v->tile) == v->current_order.GetDestination()) {
VehicleEnterDepot(v);
return true;
}
/* Don't leave depot if no destination set */
if (v->dest_tile == 0) return true;
/* Don't leave depot if another vehicle is already entering/leaving */
/* This helps avoid CPU load if many ships are set to start at the same time */
if (HasVehicleOnPos(v->tile, nullptr, &EnsureNoMovingShipProc)) return true;
TileIndex tile = v->tile;
Axis axis = GetShipDepotAxis(tile);
DiagDirection north_dir = ReverseDiagDir(AxisToDiagDir(axis));
TileIndex north_neighbour = TILE_ADD(tile, TileOffsByDiagDir(north_dir));
DiagDirection south_dir = AxisToDiagDir(axis);
TileIndex south_neighbour = TILE_ADD(tile, 2 * TileOffsByDiagDir(south_dir));
TrackBits north_tracks = DiagdirReachesTracks(north_dir) & GetTileShipTrackStatus(north_neighbour);
TrackBits south_tracks = DiagdirReachesTracks(south_dir) & GetTileShipTrackStatus(south_neighbour);
if (north_tracks && south_tracks) {
if (CheckReverseShip(v)) north_tracks = TRACK_BIT_NONE;
}
if (north_tracks) {
/* Leave towards north */
v->rotation = v->direction = DiagDirToDir(north_dir);
} else if (south_tracks) {
/* Leave towards south */
v->rotation = v->direction = DiagDirToDir(south_dir);
} else {
/* Both ways blocked */
return false;
}
v->state = AxisToTrackBits(axis);
v->vehstatus &= ~VS_HIDDEN;
v->cur_speed = 0;
v->UpdateViewport(true, true);
SetWindowDirty(WC_VEHICLE_DEPOT, v->tile);
VehicleServiceInDepot(v);
v->LeaveUnbunchingDepot();
v->PlayLeaveStationSound();
InvalidateWindowData(WC_VEHICLE_DEPOT, v->tile);
SetWindowClassesDirty(WC_SHIPS_LIST);
return false;
}
/**
* Accelerates the ship towards its target speed.
* @param v Ship to accelerate.
* @return Number of steps to move the ship.
*/
static uint ShipAccelerate(Vehicle *v)
{
uint speed;
speed = std::min<uint>(v->cur_speed + v->acceleration, v->vcache.cached_max_speed);
speed = std::min<uint>(speed, v->current_order.GetMaxSpeed() * 2);
/* updates statusbar only if speed have changed to save CPU time */
if (speed != v->cur_speed) {
v->cur_speed = speed;
SetWindowWidgetDirty(WC_VEHICLE_VIEW, v->index, WID_VV_START_STOP);
}
const uint advance_speed = v->GetAdvanceSpeed(speed);
const uint number_of_steps = (advance_speed + v->progress) / v->GetAdvanceDistance();
const uint remainder = (advance_speed + v->progress) % v->GetAdvanceDistance();
assert(remainder <= std::numeric_limits<byte>::max());
v->progress = static_cast<byte>(remainder);
return number_of_steps;
}
/**
* Ship arrives at a dock. If it is the first time, send out a news item.
* @param v Ship that arrived.
* @param st Station being visited.
*/
static void ShipArrivesAt(const Vehicle *v, Station *st)
{
/* Check if station was ever visited before */
if (!(st->had_vehicle_of_type & HVOT_SHIP)) {
st->had_vehicle_of_type |= HVOT_SHIP;
SetDParam(0, st->index);
AddVehicleNewsItem(
STR_NEWS_FIRST_SHIP_ARRIVAL,
(v->owner == _local_company) ? NT_ARRIVAL_COMPANY : NT_ARRIVAL_OTHER,
v->index,
st->index
);
AI::NewEvent(v->owner, new ScriptEventStationFirstVehicle(st->index, v->index));
Game::NewEvent(new ScriptEventStationFirstVehicle(st->index, v->index));
}
}
/**
* Runs the pathfinder to choose a track to continue along.
*
* @param v Ship to navigate
* @param tile Tile, the ship is about to enter
* @param enterdir Direction of entering
* @param tracks Available track choices on \a tile
* @return Track to choose, or INVALID_TRACK when to reverse.
*/
static Track ChooseShipTrack(Ship *v, TileIndex tile, DiagDirection enterdir, TrackBits tracks)
{
assert(IsValidDiagDirection(enterdir));
bool path_found = true;
Track track;
if (v->dest_tile == 0) {
/* No destination, don't invoke pathfinder. */
track = TrackBitsToTrack(v->state);
if (!IsDiagonalTrack(track)) track = TrackToOppositeTrack(track);
if (!HasBit(tracks, track)) track = FindFirstTrack(tracks);
path_found = false;
} else {
/* Attempt to follow cached path. */
if (!v->path.empty()) {
track = TrackdirToTrack(v->path.front());
if (HasBit(tracks, track)) {
v->path.pop_front();
/* HandlePathfindResult() is not called here because this is not a new pathfinder result. */
return track;
}
/* Cached path is invalid so continue with pathfinder. */
v->path.clear();
}
switch (_settings_game.pf.pathfinder_for_ships) {
case VPF_NPF: track = NPFShipChooseTrack(v, path_found); break;
case VPF_YAPF: track = YapfShipChooseTrack(v, tile, enterdir, tracks, path_found, v->path); break;
default: NOT_REACHED();
}
}
v->HandlePathfindingResult(path_found);
return track;
}
/**
* Get the available water tracks on a tile for a ship entering a tile.
* @param tile The tile about to enter.
* @param dir The entry direction.
* @return The available trackbits on the next tile.
*/
static inline TrackBits GetAvailShipTracks(TileIndex tile, DiagDirection dir)
{
TrackBits tracks = GetTileShipTrackStatus(tile) & DiagdirReachesTracks(dir);
return tracks;
}
/** Structure for ship sub-coordinate data for moving into a new tile via a Diagdir onto a Track. */
struct ShipSubcoordData {
byte x_subcoord; ///< New X sub-coordinate on the new tile
byte y_subcoord; ///< New Y sub-coordinate on the new tile
Direction dir; ///< New Direction to move in on the new track
};
/** Ship sub-coordinate data for moving into a new tile via a Diagdir onto a Track.
* Array indexes are Diagdir, Track.
* There will always be three possible tracks going into an adjacent tile via a Diagdir,
* so each Diagdir sub-array will have three valid and three invalid structures per Track.
*/
static const ShipSubcoordData _ship_subcoord[DIAGDIR_END][TRACK_END] = {
// DIAGDIR_NE
{
{15, 8, DIR_NE}, // TRACK_X
{ 0, 0, INVALID_DIR}, // TRACK_Y
{ 0, 0, INVALID_DIR}, // TRACK_UPPER
{15, 8, DIR_E}, // TRACK_LOWER
{15, 7, DIR_N}, // TRACK_LEFT
{ 0, 0, INVALID_DIR}, // TRACK_RIGHT
},
// DIAGDIR_SE
{
{ 0, 0, INVALID_DIR}, // TRACK_X
{ 8, 0, DIR_SE}, // TRACK_Y
{ 7, 0, DIR_E}, // TRACK_UPPER
{ 0, 0, INVALID_DIR}, // TRACK_LOWER
{ 8, 0, DIR_S}, // TRACK_LEFT
{ 0, 0, INVALID_DIR}, // TRACK_RIGHT
},
// DIAGDIR_SW
{
{ 0, 8, DIR_SW}, // TRACK_X
{ 0, 0, INVALID_DIR}, // TRACK_Y
{ 0, 7, DIR_W}, // TRACK_UPPER
{ 0, 0, INVALID_DIR}, // TRACK_LOWER
{ 0, 0, INVALID_DIR}, // TRACK_LEFT
{ 0, 8, DIR_S}, // TRACK_RIGHT
},
// DIAGDIR_NW
{
{ 0, 0, INVALID_DIR}, // TRACK_X
{ 8, 15, DIR_NW}, // TRACK_Y
{ 0, 0, INVALID_DIR}, // TRACK_UPPER
{ 8, 15, DIR_W}, // TRACK_LOWER
{ 0, 0, INVALID_DIR}, // TRACK_LEFT
{ 7, 15, DIR_N}, // TRACK_RIGHT
}
};
/**
* Test if a ship is in the centre of a lock and should move up or down.
* @param v Ship being tested.
* @return 0 if ship is not moving in lock, or -1 to move down, 1 to move up.
*/
static int ShipTestUpDownOnLock(const Ship *v)
{
/* Suitable tile? */
if (!IsTileType(v->tile, MP_WATER) || !IsLock(v->tile) || GetLockPart(v->tile) != LOCK_PART_MIDDLE) return 0;
/* Must be at the centre of the lock */
if ((v->x_pos & 0xF) != 8 || (v->y_pos & 0xF) != 8) return 0;
DiagDirection diagdir = GetInclinedSlopeDirection(GetTileSlope(v->tile));
assert(IsValidDiagDirection(diagdir));
if (DirToDiagDir(v->direction) == diagdir) {
/* Move up */
return (v->z_pos < GetTileMaxZ(v->tile) * (int)TILE_HEIGHT) ? 1 : 0;
} else {
/* Move down */
return (v->z_pos > GetTileZ(v->tile) * (int)TILE_HEIGHT) ? -1 : 0;
}
}
/**
* Test and move a ship up or down in a lock.
* @param v Ship to move.
* @return true iff ship is moving up or down in a lock.
*/
static bool ShipMoveUpDownOnLock(Ship *v)
{
/* Moving up/down through lock */
int dz = ShipTestUpDownOnLock(v);
if (dz == 0) return false;
if (v->cur_speed != 0) {
v->cur_speed = 0;
SetWindowWidgetDirty(WC_VEHICLE_VIEW, v->index, WID_VV_START_STOP);
}
if ((v->tick_counter & 7) == 0) {
v->z_pos += dz;
v->UpdatePosition();
v->UpdateViewport(true, true);
}
return true;
}
/**
* Test if a tile is a docking tile for the given station.
* @param tile Docking tile to test.
* @param station Destination station.
* @return true iff docking tile is next to station.
*/
bool IsShipDestinationTile(TileIndex tile, StationID station)
{
assert(IsDockingTile(tile));
/* Check each tile adjacent to docking tile. */
for (DiagDirection d = DIAGDIR_BEGIN; d != DIAGDIR_END; d++) {
TileIndex t = tile + TileOffsByDiagDir(d);
if (!IsValidTile(t)) continue;
if (IsDockTile(t) && GetStationIndex(t) == station && IsDockWaterPart(t)) return true;
if (IsTileType(t, MP_INDUSTRY)) {
const Industry *i = Industry::GetByTile(t);
if (i->neutral_station != nullptr && i->neutral_station->index == station) return true;
}
if (IsTileType(t, MP_STATION) && IsOilRig(t) && GetStationIndex(t) == station) return true;
}
return false;
}
static void ReverseShipIntoTrackdir(Ship *v, Trackdir trackdir)
{
static constexpr Direction _trackdir_to_direction[] = {
DIR_NE, DIR_SE, DIR_E, DIR_E, DIR_S, DIR_S, INVALID_DIR, INVALID_DIR,
DIR_SW, DIR_NW, DIR_W, DIR_W, DIR_N, DIR_N, INVALID_DIR, INVALID_DIR,
};
v->direction = _trackdir_to_direction[trackdir];
assert(v->direction != INVALID_DIR);
v->state = TrackdirBitsToTrackBits(TrackdirToTrackdirBits(trackdir));
/* Remember our current location to avoid movement glitch */
v->rotation_x_pos = v->x_pos;
v->rotation_y_pos = v->y_pos;
v->cur_speed = 0;
v->path.clear();
v->UpdatePosition();
v->UpdateViewport(true, true);
}
static void ReverseShip(Ship *v)
{
v->direction = ReverseDir(v->direction);
/* Remember our current location to avoid movement glitch */
v->rotation_x_pos = v->x_pos;
v->rotation_y_pos = v->y_pos;
v->cur_speed = 0;
v->path.clear();
v->UpdatePosition();
v->UpdateViewport(true, true);
}
static void ShipController(Ship *v)
{
v->tick_counter++;
v->current_order_time++;
if (v->HandleBreakdown()) return;
if (v->vehstatus & VS_STOPPED) return;
if (ProcessOrders(v) && CheckReverseShip(v)) return ReverseShip(v);
v->HandleLoading();
if (v->current_order.IsType(OT_LOADING)) return;
if (CheckShipLeaveDepot(v)) return;
v->ShowVisualEffect();
/* Rotating on spot */
if (v->direction != v->rotation) {
if ((v->tick_counter & 7) == 0) {
DirDiff diff = DirDifference(v->direction, v->rotation);
v->rotation = ChangeDir(v->rotation, diff > DIRDIFF_REVERSE ? DIRDIFF_45LEFT : DIRDIFF_45RIGHT);
/* Invalidate the sprite cache direction to force recalculation of viewport */
v->sprite_cache.last_direction = INVALID_DIR;
v->UpdateViewport(true, true);
}
return;
}
if (ShipMoveUpDownOnLock(v)) return;
const uint number_of_steps = ShipAccelerate(v);
for (uint i = 0; i < number_of_steps; ++i) {
if (ShipMoveUpDownOnLock(v)) return;
GetNewVehiclePosResult gp = GetNewVehiclePos(v);
if (v->state != TRACK_BIT_WORMHOLE) {
/* Not on a bridge */
if (gp.old_tile == gp.new_tile) {
/* Staying in tile */
if (v->IsInDepot()) {
gp.x = v->x_pos;
gp.y = v->y_pos;
} else {
/* Not inside depot */
const VehicleEnterTileStatus r = VehicleEnterTile(v, gp.new_tile, gp.x, gp.y);
if (HasBit(r, VETS_CANNOT_ENTER)) return ReverseShip(v);
/* A leave station order only needs one tick to get processed, so we can
* always skip ahead. */
if (v->current_order.IsType(OT_LEAVESTATION)) {
v->current_order.Free();
SetWindowWidgetDirty(WC_VEHICLE_VIEW, v->index, WID_VV_START_STOP);
/* Test if continuing forward would lead to a dead-end, moving into the dock. */
const DiagDirection exitdir = VehicleExitDir(v->direction, v->state);
const TileIndex tile = TileAddByDiagDir(v->tile, exitdir);
if (TrackStatusToTrackBits(GetTileTrackStatus(tile, TRANSPORT_WATER, 0, exitdir)) == TRACK_BIT_NONE) return ReverseShip(v);
} else if (v->dest_tile != 0) {
/* We have a target, let's see if we reached it... */
if (v->current_order.IsType(OT_GOTO_WAYPOINT) &&
DistanceManhattan(v->dest_tile, gp.new_tile) <= 3) {
/* We got within 3 tiles of our target buoy, so let's skip to our
* next order */
UpdateVehicleTimetable(v, true);
v->IncrementRealOrderIndex();
v->current_order.MakeDummy();
} else if (v->current_order.IsType(OT_GOTO_DEPOT) &&
v->dest_tile == gp.new_tile) {
/* Depot orders really need to reach the tile */
if ((gp.x & 0xF) == 8 && (gp.y & 0xF) == 8) {
VehicleEnterDepot(v);
return;
}
} else if (v->current_order.IsType(OT_GOTO_STATION) && IsDockingTile(gp.new_tile)) {
/* Process station in the orderlist. */
Station *st = Station::Get(v->current_order.GetDestination());
if (st->docking_station.Contains(gp.new_tile) && IsShipDestinationTile(gp.new_tile, st->index)) {
v->last_station_visited = st->index;
if (st->facilities & FACIL_DOCK) { // ugly, ugly workaround for problem with ships able to drop off cargo at wrong stations
ShipArrivesAt(v, st);
v->BeginLoading();
} else { // leave stations without docks right away
v->current_order.MakeLeaveStation();
v->IncrementRealOrderIndex();
}
}
}
}
}
} else {
/* New tile */
if (!IsValidTile(gp.new_tile)) return ReverseShip(v);
const DiagDirection diagdir = DiagdirBetweenTiles(gp.old_tile, gp.new_tile);
assert(diagdir != INVALID_DIAGDIR);
const TrackBits tracks = GetAvailShipTracks(gp.new_tile, diagdir);
if (tracks == TRACK_BIT_NONE) {
Trackdir trackdir = INVALID_TRACKDIR;
CheckReverseShip(v, &trackdir);
if (trackdir == INVALID_TRACKDIR) return ReverseShip(v);
return ReverseShipIntoTrackdir(v, trackdir);
}
/* Choose a direction, and continue if we find one */
const Track track = ChooseShipTrack(v, gp.new_tile, diagdir, tracks);
if (track == INVALID_TRACK) return ReverseShip(v);
const ShipSubcoordData &b = _ship_subcoord[diagdir][track];
gp.x = (gp.x & ~0xF) | b.x_subcoord;
gp.y = (gp.y & ~0xF) | b.y_subcoord;
/* Call the landscape function and tell it that the vehicle entered the tile */
const VehicleEnterTileStatus r = VehicleEnterTile(v, gp.new_tile, gp.x, gp.y);
if (HasBit(r, VETS_CANNOT_ENTER)) return ReverseShip(v);
if (!HasBit(r, VETS_ENTERED_WORMHOLE)) {
v->tile = gp.new_tile;
v->state = TrackToTrackBits(track);
/* Update ship cache when the water class changes. Aqueducts are always canals. */
if (GetEffectiveWaterClass(gp.old_tile) != GetEffectiveWaterClass(gp.new_tile)) v->UpdateCache();
}
const Direction new_direction = b.dir;
const DirDiff diff = DirDifference(new_direction, v->direction);
switch (diff) {
case DIRDIFF_SAME:
case DIRDIFF_45RIGHT:
case DIRDIFF_45LEFT:
/* Continue at speed */
v->rotation = v->direction = new_direction;
break;
default:
/* Stop for rotation */
v->cur_speed = 0;
v->direction = new_direction;
/* Remember our current location to avoid movement glitch */
v->rotation_x_pos = v->x_pos;
v->rotation_y_pos = v->y_pos;
break;
}
}
} else {
/* On a bridge */
if (!IsTileType(gp.new_tile, MP_TUNNELBRIDGE) || !HasBit(VehicleEnterTile(v, gp.new_tile, gp.x, gp.y), VETS_ENTERED_WORMHOLE)) {
v->x_pos = gp.x;
v->y_pos = gp.y;
v->UpdatePosition();
if ((v->vehstatus & VS_HIDDEN) == 0) v->Vehicle::UpdateViewport(true);
return;
}
/* Ship is back on the bridge head, we need to consume its path
* cache entry here as we didn't have to choose a ship track. */
if (!v->path.empty()) v->path.pop_front();
}
/* update image of ship, as well as delta XY */
v->x_pos = gp.x;
v->y_pos = gp.y;
v->UpdatePosition();
v->UpdateViewport(true, true);
}
}
bool Ship::Tick()
{
PerformanceAccumulator framerate(PFE_GL_SHIPS);
if (!(this->vehstatus & VS_STOPPED)) this->running_ticks++;
ShipController(this);
return true;
}
void Ship::SetDestTile(TileIndex tile)
{
if (tile == this->dest_tile) return;
this->path.clear();
this->dest_tile = tile;
}
/**
* Build a ship.
* @param flags type of operation.
* @param tile tile of the depot where ship is built.
* @param e the engine to build.
* @param[out] ret the vehicle that has been built.
* @return the cost of this operation or an error.
*/
CommandCost CmdBuildShip(DoCommandFlag flags, TileIndex tile, const Engine *e, Vehicle **ret)
{
tile = GetShipDepotNorthTile(tile);
if (flags & DC_EXEC) {
int x;
int y;
const ShipVehicleInfo *svi = &e->u.ship;
Ship *v = new Ship();
*ret = v;
v->owner = _current_company;
v->tile = tile;
x = TileX(tile) * TILE_SIZE + TILE_SIZE / 2;
y = TileY(tile) * TILE_SIZE + TILE_SIZE / 2;
v->x_pos = x;
v->y_pos = y;
v->z_pos = GetSlopePixelZ(x, y);
v->UpdateDeltaXY();
v->vehstatus = VS_HIDDEN | VS_STOPPED | VS_DEFPAL;
v->spritenum = svi->image_index;
v->cargo_type = e->GetDefaultCargoType();
assert(IsValidCargoID(v->cargo_type));
v->cargo_cap = svi->capacity;
v->refit_cap = 0;
v->last_station_visited = INVALID_STATION;
v->last_loading_station = INVALID_STATION;
v->engine_type = e->index;
v->reliability = e->reliability;
v->reliability_spd_dec = e->reliability_spd_dec;
v->max_age = e->GetLifeLengthInDays();
v->state = TRACK_BIT_DEPOT;
v->SetServiceInterval(Company::Get(_current_company)->settings.vehicle.servint_ships);
v->date_of_last_service = TimerGameEconomy::date;
v->date_of_last_service_newgrf = TimerGameCalendar::date;
v->build_year = TimerGameCalendar::year;
v->sprite_cache.sprite_seq.Set(SPR_IMG_QUERY);
v->random_bits = Random();
v->acceleration = svi->acceleration;
v->UpdateCache();
if (e->flags & ENGINE_EXCLUSIVE_PREVIEW) SetBit(v->vehicle_flags, VF_BUILT_AS_PROTOTYPE);
v->SetServiceIntervalIsPercent(Company::Get(_current_company)->settings.vehicle.servint_ispercent);
v->InvalidateNewGRFCacheOfChain();
v->cargo_cap = e->DetermineCapacity(v);
v->InvalidateNewGRFCacheOfChain();
v->UpdatePosition();
}
return CommandCost();
}
ClosestDepot Ship::FindClosestDepot()
{
const Depot *depot = FindClosestShipDepot(this, MAX_SHIP_DEPOT_SEARCH_DISTANCE);
if (depot == nullptr) return ClosestDepot();
return ClosestDepot(depot->xy, depot->index);
}