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/* $Id$ */
/*
* 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 yapf_road.cpp The road pathfinding. */
#include "../../stdafx.h"
#include "../../roadstop_base.h"
#include "yapf.hpp"
#include "yapf_node_road.hpp"
template <class Types>
class CYapfCostRoadT
{
public:
typedef typename Types::Tpf Tpf; ///< pathfinder (derived from THIS class)
typedef typename Types::TrackFollower TrackFollower; ///< track follower helper
typedef typename Types::NodeList::Titem Node; ///< this will be our node type
typedef typename Node::Key Key; ///< key to hash tables
protected:
/** to access inherited path finder */
Tpf& Yapf()
{
return *static_cast<Tpf*>(this);
}
int SlopeCost(TileIndex tile, TileIndex next_tile, Trackdir trackdir)
{
/* height of the center of the current tile */
int x1 = TileX(tile) * TILE_SIZE;
int y1 = TileY(tile) * TILE_SIZE;
int z1 = GetSlopeZ(x1 + TILE_SIZE / 2, y1 + TILE_SIZE / 2);
/* height of the center of the next tile */
int x2 = TileX(next_tile) * TILE_SIZE;
int y2 = TileY(next_tile) * TILE_SIZE;
int z2 = GetSlopeZ(x2 + TILE_SIZE / 2, y2 + TILE_SIZE / 2);
if (z2 - z1 > 1) {
/* Slope up */
return Yapf().PfGetSettings().road_slope_penalty;
}
return 0;
}
/** return one tile cost */
FORCEINLINE int OneTileCost(TileIndex tile, Trackdir trackdir)
{
int cost = 0;
/* set base cost */
if (IsDiagonalTrackdir(trackdir)) {
cost += YAPF_TILE_LENGTH;
switch (GetTileType(tile)) {
case MP_ROAD:
/* Increase the cost for level crossings */
if (IsLevelCrossing(tile)) {
cost += Yapf().PfGetSettings().road_crossing_penalty;
}
break;
case MP_STATION:
if (IsDriveThroughStopTile(tile)) {
cost += Yapf().PfGetSettings().road_stop_penalty;
}
break;
default:
break;
}
} else {
/* non-diagonal trackdir */
cost = YAPF_TILE_CORNER_LENGTH + Yapf().PfGetSettings().road_curve_penalty;
}
return cost;
}
public:
/** Called by YAPF to calculate the cost from the origin to the given node.
* Calculates only the cost of given node, adds it to the parent node cost
* and stores the result into Node::m_cost member */
FORCEINLINE bool PfCalcCost(Node& n, const TrackFollower *tf)
{
int segment_cost = 0;
/* start at n.m_key.m_tile / n.m_key.m_td and walk to the end of segment */
TileIndex tile = n.m_key.m_tile;
Trackdir trackdir = n.m_key.m_td;
while (true) {
/* base tile cost depending on distance between edges */
segment_cost += Yapf().OneTileCost(tile, trackdir);
const RoadVehicle *v = Yapf().GetVehicle();
/* we have reached the vehicle's destination - segment should end here to avoid target skipping */
if (Yapf().PfDetectDestinationTile(tile, trackdir)) break;
/* stop if we have just entered the depot */
if (IsRoadDepotTile(tile) && trackdir == DiagDirToDiagTrackdir(ReverseDiagDir(GetRoadDepotDirection(tile)))) {
/* next time we will reverse and leave the depot */
break;
}
/* if there are no reachable trackdirs on new tile, we have end of road */
TrackFollower F(Yapf().GetVehicle());
if (!F.Follow(tile, trackdir)) break;
/* if there are more trackdirs available & reachable, we are at the end of segment */
if (KillFirstBit(F.m_new_td_bits) != TRACKDIR_BIT_NONE) break;
Trackdir new_td = (Trackdir)FindFirstBit2x64(F.m_new_td_bits);
/* stop if RV is on simple loop with no junctions */
if (F.m_new_tile == n.m_key.m_tile && new_td == n.m_key.m_td) return false;
/* if we skipped some tunnel tiles, add their cost */
segment_cost += F.m_tiles_skipped * YAPF_TILE_LENGTH;
/* add hilly terrain penalty */
segment_cost += Yapf().SlopeCost(tile, F.m_new_tile, trackdir);
/* add min/max speed penalties */
int min_speed = 0;
int max_speed = F.GetSpeedLimit(&min_speed);
if (max_speed < v->max_speed) segment_cost += 1 * (v->max_speed - max_speed);
if (min_speed > v->max_speed) segment_cost += 10 * (min_speed - v->max_speed);
/* move to the next tile */
tile = F.m_new_tile;
trackdir = new_td;
};
/* save end of segment back to the node */
n.m_segment_last_tile = tile;
n.m_segment_last_td = trackdir;
/* save also tile cost */
int parent_cost = (n.m_parent != NULL) ? n.m_parent->m_cost : 0;
n.m_cost = parent_cost + segment_cost;
return true;
}
};
template <class Types>
class CYapfDestinationAnyDepotRoadT
{
public:
typedef typename Types::Tpf Tpf; ///< the pathfinder class (derived from THIS class)
typedef typename Types::TrackFollower TrackFollower;
typedef typename Types::NodeList::Titem Node; ///< this will be our node type
typedef typename Node::Key Key; ///< key to hash tables
/** to access inherited path finder */
Tpf& Yapf()
{
return *static_cast<Tpf*>(this);
}
/** Called by YAPF to detect if node ends in the desired destination */
FORCEINLINE bool PfDetectDestination(Node& n)
{
bool bDest = IsRoadDepotTile(n.m_segment_last_tile);
return bDest;
}
FORCEINLINE bool PfDetectDestinationTile(TileIndex tile, Trackdir trackdir)
{
return IsRoadDepotTile(tile);
}
/** Called by YAPF to calculate cost estimate. Calculates distance to the destination
* adds it to the actual cost from origin and stores the sum to the Node::m_estimate */
FORCEINLINE bool PfCalcEstimate(Node& n)
{
n.m_estimate = n.m_cost;
return true;
}
};
template <class Types>
class CYapfDestinationAnyRoadVehicleCompatibleStopOfGivenStationT
{
public:
typedef typename Types::Tpf Tpf; ///< the pathfinder class (derived from THIS class)
typedef typename Types::TrackFollower TrackFollower;
typedef typename Types::NodeList::Titem Node; ///< this will be our node type
typedef typename Node::Key Key; ///< key to hash tables
TileIndex m_destTile;
StationID m_dest_station;
bool m_bus;
bool m_non_artic;
/** to access inherited path finder */
Tpf& Yapf()
{
return *static_cast<Tpf*>(this);
}
void SetDestination(const RoadVehicle *v, StationID sid, TileIndex destTile)
{
m_dest_station = sid;
m_destTile = destTile;
m_bus = v->IsBus();
m_non_artic = !v->HasArticulatedPart();
}
/** Called by YAPF to detect if node ends in the desired destination */
FORCEINLINE bool PfDetectDestination(Node& n)
{
return PfDetectDestinationTile(n.m_segment_last_tile, INVALID_TRACKDIR);
}
FORCEINLINE bool PfDetectDestinationTile(TileIndex tile, Trackdir trackdir)
{
return
IsTileType(tile, MP_STATION) &&
GetStationIndex(tile) == m_dest_station &&
(m_bus ? IsBusStop(tile) : IsTruckStop(tile)) &&
(m_non_artic || IsDriveThroughStopTile(tile));
}
/** Called by YAPF to calculate cost estimate. Calculates distance to the destination
* adds it to the actual cost from origin and stores the sum to the Node::m_estimate */
FORCEINLINE bool PfCalcEstimate(Node& n)
{
static const int dg_dir_to_x_offs[] = {-1, 0, 1, 0};
static const int dg_dir_to_y_offs[] = {0, 1, 0, -1};
if (PfDetectDestination(n)) {
n.m_estimate = n.m_cost;
return true;
}
TileIndex tile = n.m_segment_last_tile;
DiagDirection exitdir = TrackdirToExitdir(n.m_segment_last_td);
int x1 = 2 * TileX(tile) + dg_dir_to_x_offs[(int)exitdir];
int y1 = 2 * TileY(tile) + dg_dir_to_y_offs[(int)exitdir];
int x2 = 2 * TileX(m_destTile);
int y2 = 2 * TileY(m_destTile);
int dx = abs(x1 - x2);
int dy = abs(y1 - y2);
int dmin = min(dx, dy);
int dxy = abs(dx - dy);
int d = dmin * YAPF_TILE_CORNER_LENGTH + (dxy - 1) * (YAPF_TILE_LENGTH / 2);
n.m_estimate = n.m_cost + d;
assert(n.m_estimate >= n.m_parent->m_estimate);
return true;
}
};
template <class Types>
class CYapfDestinationTileRoadT
{
public:
typedef typename Types::Tpf Tpf; ///< the pathfinder class (derived from THIS class)
typedef typename Types::TrackFollower TrackFollower;
typedef typename Types::NodeList::Titem Node; ///< this will be our node type
typedef typename Node::Key Key; ///< key to hash tables
protected:
TileIndex m_destTile;
TrackdirBits m_destTrackdirs;
public:
void SetDestination(const RoadVehicle *v)
{
m_destTile = v->dest_tile;
m_destTrackdirs = TrackStatusToTrackdirBits(GetTileTrackStatus(v->dest_tile, TRANSPORT_ROAD, v->compatible_roadtypes));
}
protected:
/** to access inherited path finder */
Tpf& Yapf()
{
return *static_cast<Tpf*>(this);
}
public:
/** Called by YAPF to detect if node ends in the desired destination */
FORCEINLINE bool PfDetectDestination(Node& n)
{
return PfDetectDestinationTile(n.m_segment_last_tile, n.m_segment_last_td);
}
FORCEINLINE bool PfDetectDestinationTile(TileIndex tile, Trackdir trackdir)
{
return tile == m_destTile && ((m_destTrackdirs & TrackdirToTrackdirBits(trackdir)) != TRACKDIR_BIT_NONE);
}
/** Called by YAPF to calculate cost estimate. Calculates distance to the destination
* adds it to the actual cost from origin and stores the sum to the Node::m_estimate */
inline bool PfCalcEstimate(Node& n)
{
static const int dg_dir_to_x_offs[] = {-1, 0, 1, 0};
static const int dg_dir_to_y_offs[] = {0, 1, 0, -1};
if (PfDetectDestination(n)) {
n.m_estimate = n.m_cost;
return true;
}
TileIndex tile = n.m_segment_last_tile;
DiagDirection exitdir = TrackdirToExitdir(n.m_segment_last_td);
int x1 = 2 * TileX(tile) + dg_dir_to_x_offs[(int)exitdir];
int y1 = 2 * TileY(tile) + dg_dir_to_y_offs[(int)exitdir];
int x2 = 2 * TileX(m_destTile);
int y2 = 2 * TileY(m_destTile);
int dx = abs(x1 - x2);
int dy = abs(y1 - y2);
int dmin = min(dx, dy);
int dxy = abs(dx - dy);
int d = dmin * YAPF_TILE_CORNER_LENGTH + (dxy - 1) * (YAPF_TILE_LENGTH / 2);
n.m_estimate = n.m_cost + d;
assert(n.m_estimate >= n.m_parent->m_estimate);
return true;
}
};
template <class Types>
class CYapfFollowRoadT
{
public:
typedef typename Types::Tpf Tpf; ///< the pathfinder class (derived from THIS class)
typedef typename Types::TrackFollower TrackFollower;
typedef typename Types::NodeList::Titem Node; ///< this will be our node type
typedef typename Node::Key Key; ///< key to hash tables
protected:
/** to access inherited path finder */
FORCEINLINE Tpf& Yapf()
{
return *static_cast<Tpf*>(this);
}
public:
/** Called by YAPF to move from the given node to the next tile. For each
* reachable trackdir on the new tile creates new node, initializes it
* and adds it to the open list by calling Yapf().AddNewNode(n) */
inline void PfFollowNode(Node& old_node)
{
TrackFollower F(Yapf().GetVehicle());
if (F.Follow(old_node.m_segment_last_tile, old_node.m_segment_last_td)) {
Yapf().AddMultipleNodes(&old_node, F);
}
}
/** return debug report character to identify the transportation type */
FORCEINLINE char TransportTypeChar() const
{
return 'r';
}
static Trackdir stChooseRoadTrack(const RoadVehicle *v, TileIndex tile, DiagDirection enterdir)
{
Tpf pf;
return pf.ChooseRoadTrack(v, tile, enterdir);
}
FORCEINLINE Trackdir ChooseRoadTrack(const RoadVehicle *v, TileIndex tile, DiagDirection enterdir)
{
/* handle special case - when next tile is destination tile */
if (tile == v->dest_tile) {
/* choose diagonal trackdir reachable from enterdir */
return DiagDirToDiagTrackdir(enterdir);
}
/* our source tile will be the next vehicle tile (should be the given one) */
TileIndex src_tile = tile;
/* get available trackdirs on the start tile */
TrackdirBits src_trackdirs = TrackStatusToTrackdirBits(GetTileTrackStatus(tile, TRANSPORT_ROAD, v->compatible_roadtypes));
/* select reachable trackdirs only */
src_trackdirs &= DiagdirReachesTrackdirs(enterdir);
/* set origin and destination nodes */
Yapf().SetOrigin(src_tile, src_trackdirs);
Yapf().SetDestination(v);
/* find the best path */
Yapf().FindPath(v);
/* if path not found - return INVALID_TRACKDIR */
Trackdir next_trackdir = INVALID_TRACKDIR;
Node *pNode = Yapf().GetBestNode();
if (pNode != NULL) {
/* path was found or at least suggested
* walk through the path back to its origin */
while (pNode->m_parent != NULL) {
pNode = pNode->m_parent;
}
/* return trackdir from the best origin node (one of start nodes) */
Node& best_next_node = *pNode;
assert(best_next_node.GetTile() == tile);
next_trackdir = best_next_node.GetTrackdir();
}
return next_trackdir;
}
static uint stDistanceToTile(const RoadVehicle *v, TileIndex tile)
{
Tpf pf;
return pf.DistanceToTile(v, tile);
}
FORCEINLINE uint DistanceToTile(const RoadVehicle *v, TileIndex dst_tile)
{
/* handle special case - when current tile is the destination tile */
if (dst_tile == v->tile) {
/* distance is zero in this case */
return 0;
}
if (!SetOriginFromVehiclePos(v)) return UINT_MAX;
/* get available trackdirs on the destination tile */
Yapf().SetDestination(v);
/* if path not found - return distance = UINT_MAX */
uint dist = UINT_MAX;
/* find the best path */
if (!Yapf().FindPath(v)) return dist;
Node *pNode = Yapf().GetBestNode();
if (pNode != NULL) {
/* path was found
* get the path cost estimate */
dist = pNode->GetCostEstimate();
}
return dist;
}
/** Return true if the valid origin (tile/trackdir) was set from the current vehicle position. */
FORCEINLINE bool SetOriginFromVehiclePos(const RoadVehicle *v)
{
/* set origin (tile, trackdir) */
TileIndex src_tile = v->tile;
Trackdir src_td = v->GetVehicleTrackdir();
if ((TrackStatusToTrackdirBits(GetTileTrackStatus(src_tile, TRANSPORT_ROAD, v->compatible_roadtypes)) & TrackdirToTrackdirBits(src_td)) == 0) {
/* sometimes the roadveh is not on the road (it resides on non-existing track)
* how should we handle that situation? */
return false;
}
Yapf().SetOrigin(src_tile, TrackdirToTrackdirBits(src_td));
return true;
}
static bool stFindNearestDepot(const RoadVehicle *v, TileIndex tile, Trackdir td, int max_distance, TileIndex *depot_tile)
{
Tpf pf;
return pf.FindNearestDepot(v, tile, td, max_distance, depot_tile);
}
FORCEINLINE bool FindNearestDepot(const RoadVehicle *v, TileIndex tile, Trackdir td, int max_distance, TileIndex *depot_tile)
{
/* set origin and destination nodes */
Yapf().SetOrigin(tile, TrackdirToTrackdirBits(td));
/* find the best path */
bool bFound = Yapf().FindPath(v);
if (!bFound) return false;
/* some path found
* get found depot tile */
Node *n = Yapf().GetBestNode();
if (max_distance > 0 && n->m_cost > max_distance * YAPF_TILE_LENGTH) return false;
*depot_tile = n->m_segment_last_tile;
return true;
}
static bool stFindNearestRoadVehicleCompatibleStop(const RoadVehicle *v, TileIndex tile, TileIndex destTile, Trackdir td, StationID sid, TileIndex *stop_tile)
{
Tpf pf;
return pf.FindNearestRoadVehicleCompatibleStop(v, tile, destTile, td, sid, stop_tile);
}
FORCEINLINE bool FindNearestRoadVehicleCompatibleStop(const RoadVehicle *v, TileIndex tile, TileIndex destTile, Trackdir td, StationID sid, TileIndex *stop_tile)
{
/* set origin and destination nodes */
Yapf().SetOrigin(tile, TrackdirToTrackdirBits(td));
Yapf().SetDestination(v, sid, destTile);
/* find the best path */
bool bFound = Yapf().FindPath(v);
if (!bFound) return false;
/* some path found
* get found depot tile */
const Node *n = Yapf().GetBestNode();
*stop_tile = n->m_segment_last_tile;
return true;
}
};
template <class Tpf_, class Tnode_list, template <class Types> class Tdestination>
struct CYapfRoad_TypesT
{
typedef CYapfRoad_TypesT<Tpf_, Tnode_list, Tdestination> Types;
typedef Tpf_ Tpf;
typedef CFollowTrackRoad TrackFollower;
typedef Tnode_list NodeList;
typedef RoadVehicle VehicleType;
typedef CYapfBaseT<Types> PfBase;
typedef CYapfFollowRoadT<Types> PfFollow;
typedef CYapfOriginTileT<Types> PfOrigin;
typedef Tdestination<Types> PfDestination;
typedef CYapfSegmentCostCacheNoneT<Types> PfCache;
typedef CYapfCostRoadT<Types> PfCost;
};
struct CYapfRoad1 : CYapfT<CYapfRoad_TypesT<CYapfRoad1 , CRoadNodeListTrackDir, CYapfDestinationTileRoadT > > {};
struct CYapfRoad2 : CYapfT<CYapfRoad_TypesT<CYapfRoad2 , CRoadNodeListExitDir , CYapfDestinationTileRoadT > > {};
struct CYapfRoadAnyDepot1 : CYapfT<CYapfRoad_TypesT<CYapfRoadAnyDepot1, CRoadNodeListTrackDir, CYapfDestinationAnyDepotRoadT> > {};
struct CYapfRoadAnyDepot2 : CYapfT<CYapfRoad_TypesT<CYapfRoadAnyDepot2, CRoadNodeListExitDir , CYapfDestinationAnyDepotRoadT> > {};
struct CYapfRoadAnyRoadVehicleCompatibleStopOfGivenStation1 : CYapfT<CYapfRoad_TypesT<CYapfRoadAnyRoadVehicleCompatibleStopOfGivenStation1, CRoadNodeListTrackDir, CYapfDestinationAnyRoadVehicleCompatibleStopOfGivenStationT> > {};
struct CYapfRoadAnyRoadVehicleCompatibleStopOfGivenStation2 : CYapfT<CYapfRoad_TypesT<CYapfRoadAnyRoadVehicleCompatibleStopOfGivenStation2, CRoadNodeListExitDir , CYapfDestinationAnyRoadVehicleCompatibleStopOfGivenStationT> > {};
Trackdir YapfRoadVehicleChooseTrack(const RoadVehicle *v, TileIndex tile, DiagDirection enterdir, TrackdirBits trackdirs)
{
/* default is YAPF type 2 */
typedef Trackdir (*PfnChooseRoadTrack)(const RoadVehicle*, TileIndex, DiagDirection);
PfnChooseRoadTrack pfnChooseRoadTrack = &CYapfRoad2::stChooseRoadTrack; // default: ExitDir, allow 90-deg
/* check if non-default YAPF type should be used */
if (_settings_game.pf.yapf.disable_node_optimization) {
pfnChooseRoadTrack = &CYapfRoad1::stChooseRoadTrack; // Trackdir, allow 90-deg
}
Trackdir td_ret = pfnChooseRoadTrack(v, tile, enterdir);
return (td_ret != INVALID_TRACKDIR) ? td_ret : (Trackdir)FindFirstBit2x64(trackdirs);
}
uint YapfRoadVehDistanceToTile(const RoadVehicle *v, TileIndex tile)
{
/* default is YAPF type 2 */
typedef uint (*PfnDistanceToTile)(const RoadVehicle*, TileIndex);
PfnDistanceToTile pfnDistanceToTile = &CYapfRoad2::stDistanceToTile; // default: ExitDir, allow 90-deg
/* check if non-default YAPF type should be used */
if (_settings_game.pf.yapf.disable_node_optimization) {
pfnDistanceToTile = &CYapfRoad1::stDistanceToTile; // Trackdir, allow 90-deg
}
/* measure distance in YAPF units */
uint dist = pfnDistanceToTile(v, tile);
/* convert distance to tiles */
if (dist != UINT_MAX) {
dist = (dist + YAPF_TILE_LENGTH - 1) / YAPF_TILE_LENGTH;
}
return dist;
}
FindDepotData YapfRoadVehicleFindNearestDepot(const RoadVehicle *v, int max_distance)
{
TileIndex tile = v->tile;
Trackdir trackdir = v->GetVehicleTrackdir();
if ((TrackStatusToTrackdirBits(GetTileTrackStatus(tile, TRANSPORT_ROAD, v->compatible_roadtypes)) & TrackdirToTrackdirBits(trackdir)) == 0) {
return FindDepotData();
}
/* default is YAPF type 2 */
typedef bool (*PfnFindNearestDepot)(const RoadVehicle*, TileIndex, Trackdir, int, TileIndex*);
PfnFindNearestDepot pfnFindNearestDepot = &CYapfRoadAnyDepot2::stFindNearestDepot;
/* check if non-default YAPF type should be used */
if (_settings_game.pf.yapf.disable_node_optimization) {
pfnFindNearestDepot = &CYapfRoadAnyDepot1::stFindNearestDepot; // Trackdir, allow 90-deg
}
FindDepotData fdd;
bool ret = pfnFindNearestDepot(v, tile, trackdir, max_distance, &fdd.tile);
fdd.best_length = ret ? max_distance / 2 : UINT_MAX; // some fake distance or NOT_FOUND
return ret;
}
bool YapfFindNearestRoadVehicleCompatibleStop(const RoadVehicle *v, StationID station, TileIndex *stop_tile)
{
*stop_tile = INVALID_TILE;
const RoadStop *rs = Station::Get(station)->GetPrimaryRoadStop(v);
if (rs == NULL) return false;
TileIndex tile = v->tile;
Trackdir trackdir = v->GetVehicleTrackdir();
if ((TrackStatusToTrackdirBits(GetTileTrackStatus(tile, TRANSPORT_ROAD, v->compatible_roadtypes)) & TrackdirToTrackdirBits(trackdir)) == 0) {
return false;
}
/* default is YAPF type 2 */
typedef bool (*PfnFindNearestRoadVehicleCompatibleStop)(const RoadVehicle*, TileIndex, TileIndex, Trackdir, StationID, TileIndex*);
PfnFindNearestRoadVehicleCompatibleStop pfnFindNearestRoadVehicleCompatibleStop = &CYapfRoadAnyRoadVehicleCompatibleStopOfGivenStation2::stFindNearestRoadVehicleCompatibleStop;
/* check if non-default YAPF type should be used */
if (_settings_game.pf.yapf.disable_node_optimization) {
pfnFindNearestRoadVehicleCompatibleStop = &CYapfRoadAnyRoadVehicleCompatibleStopOfGivenStation1::stFindNearestRoadVehicleCompatibleStop; // Trackdir, allow 90-deg
}
bool ret = pfnFindNearestRoadVehicleCompatibleStop(v, tile, rs->xy, trackdir, station, stop_tile);
return ret;
}
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