/*
* 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 .
*/
/** @file newgrf_roadtype.cpp NewGRF handling of road types. */
#include "stdafx.h"
#include "core/container_func.hpp"
#include "debug.h"
#include "newgrf_roadtype.h"
#include "newgrf_railtype.h"
#include "timer/timer_game_calendar.h"
#include "depot_base.h"
#include "town.h"
#include "tunnelbridge_map.h"
#include "safeguards.h"
/**
* Variable 0x45 of road-/tram-/rail-types to query track types on a tile.
*
* Format: __RRttrr
* - rr: Translated roadtype.
* - tt: Translated tramtype.
* - RR: Translated railtype.
*
* Special values for rr, tt, RR:
* - 0xFF: Track not present on tile.
* - 0xFE: Track present, but no matching entry in translation table.
*/
uint32_t GetTrackTypes(TileIndex tile, const GRFFile *grffile)
{
uint8_t road = 0xFF;
uint8_t tram = 0xFF;
if (MayHaveRoad(tile)) {
if (auto tt = GetRoadTypeRoad(tile); tt != INVALID_ROADTYPE) {
road = GetReverseRoadTypeTranslation(tt, grffile);
if (road == 0xFF) road = 0xFE;
}
if (auto tt = GetRoadTypeTram(tile); tt != INVALID_ROADTYPE) {
tram = GetReverseRoadTypeTranslation(tt, grffile);
if (tram == 0xFF) tram = 0xFE;
}
}
uint8_t rail = 0xFF;
if (auto tt = GetTileRailType(tile); tt != INVALID_RAILTYPE) {
rail = GetReverseRailTypeTranslation(tt, grffile);
if (rail == 0xFF) rail = 0xFE;
}
return road | tram << 8 | rail << 16;
}
/* virtual */ uint32_t RoadTypeScopeResolver::GetRandomBits() const
{
uint tmp = CountBits(this->tile.base() + (TileX(this->tile) + TileY(this->tile)) * TILE_SIZE);
return GB(tmp, 0, 2);
}
/* virtual */ uint32_t RoadTypeScopeResolver::GetVariable(uint8_t variable, [[maybe_unused]] uint32_t parameter, bool &available) const
{
if (this->tile == INVALID_TILE) {
switch (variable) {
case 0x40: return 0;
case 0x41: return 0;
case 0x42: return 0;
case 0x43: return TimerGameCalendar::date.base();
case 0x44: return to_underlying(HouseZone::TownEdge);
case 0x45: {
auto rt = GetRoadTypeInfoIndex(this->rti);
uint8_t local = GetReverseRoadTypeTranslation(rt, this->ro.grffile);
if (local == 0xFF) local = 0xFE;
if (RoadTypeIsRoad(rt)) {
return 0xFFFF00 | local;
} else {
return 0xFF00FF | local << 8;
}
}
}
}
switch (variable) {
case 0x40: return GetTerrainType(this->tile, this->context);
case 0x41: return 0;
case 0x42: return IsLevelCrossingTile(this->tile) && IsCrossingBarred(this->tile);
case 0x43:
if (IsRoadDepotTile(this->tile)) return Depot::GetByTile(this->tile)->build_date.base();
return TimerGameCalendar::date.base();
case 0x44: {
const Town *t = nullptr;
if (IsRoadDepotTile(this->tile)) {
t = Depot::GetByTile(this->tile)->town;
} else {
t = ClosestTownFromTile(this->tile, UINT_MAX);
}
return to_underlying(t != nullptr ? GetTownRadiusGroup(t, this->tile) : HouseZone::TownEdge);
}
case 0x45:
return GetTrackTypes(this->tile, ro.grffile);
}
Debug(grf, 1, "Unhandled road type tile variable 0x{:X}", variable);
available = false;
return UINT_MAX;
}
GrfSpecFeature RoadTypeResolverObject::GetFeature() const
{
RoadType rt = GetRoadTypeByLabel(this->roadtype_scope.rti->label, false);
switch (GetRoadTramType(rt)) {
case RTT_ROAD: return GSF_ROADTYPES;
case RTT_TRAM: return GSF_TRAMTYPES;
default: return GSF_INVALID;
}
}
uint32_t RoadTypeResolverObject::GetDebugID() const
{
return this->roadtype_scope.rti->label;
}
/**
* Resolver object for road types.
* @param rti Roadtype. nullptr in NewGRF Inspect window.
* @param tile %Tile containing the track. For track on a bridge this is the southern bridgehead.
* @param context Are we resolving sprites for the upper halftile, or on a bridge?
* @param rtsg Roadpart of interest
* @param param1 Extra parameter (first parameter of the callback, except roadtypes do not have callbacks).
* @param param2 Extra parameter (second parameter of the callback, except roadtypes do not have callbacks).
*/
RoadTypeResolverObject::RoadTypeResolverObject(const RoadTypeInfo *rti, TileIndex tile, TileContext context, RoadTypeSpriteGroup rtsg, uint32_t param1, uint32_t param2)
: ResolverObject(rti != nullptr ? rti->grffile[rtsg] : nullptr, CBID_NO_CALLBACK, param1, param2), roadtype_scope(*this, rti, tile, context)
{
this->root_spritegroup = rti != nullptr ? rti->group[rtsg] : nullptr;
}
/**
* Get the sprite to draw for the given tile.
* @param rti The road type data (spec).
* @param tile The tile to get the sprite for.
* @param rtsg The type of sprite to draw.
* @param content Where are we drawing the tile?
* @param [out] num_results If not nullptr, return the number of sprites in the spriteset.
* @return The sprite to draw.
*/
SpriteID GetCustomRoadSprite(const RoadTypeInfo *rti, TileIndex tile, RoadTypeSpriteGroup rtsg, TileContext context, uint *num_results)
{
assert(rtsg < ROTSG_END);
if (rti->group[rtsg] == nullptr) return 0;
RoadTypeResolverObject object(rti, tile, context, rtsg);
const auto *group = object.Resolve();
if (group == nullptr || group->num_sprites == 0) return 0;
if (num_results) *num_results = group->num_sprites;
return group->sprite;
}
/**
* Translate an index to the GRF-local road/tramtype-translation table into a RoadType.
* @param rtt Whether to index the road- or tramtype-table.
* @param tracktype Index into GRF-local translation table.
* @param grffile Originating GRF file.
* @return RoadType or INVALID_ROADTYPE if the roadtype is unknown.
*/
RoadType GetRoadTypeTranslation(RoadTramType rtt, uint8_t tracktype, const GRFFile *grffile)
{
/* Because OpenTTD mixes RoadTypes and TramTypes into the same type,
* the mapping of the original road- and tramtypes does not match the default GRF-local mapping.
* So, this function cannot provide any similar behavior to GetCargoTranslation() and GetRailTypeTranslation()
* when the GRF defines no translation table.
* But since there is only one default road/tram-type, this makes little sense anyway.
* So for GRF without translation table, we always return INVALID_ROADTYPE.
*/
if (grffile == nullptr) return INVALID_ROADTYPE;
const auto &list = rtt == RTT_TRAM ? grffile->tramtype_list : grffile->roadtype_list;
if (tracktype >= list.size()) return INVALID_ROADTYPE;
/* Look up roadtype including alternate labels. */
RoadType result = GetRoadTypeByLabel(list[tracktype]);
/* Check whether the result is actually the wanted road/tram-type */
if (result != INVALID_ROADTYPE && GetRoadTramType(result) != rtt) return INVALID_ROADTYPE;
return result;
}
/**
* Perform a reverse roadtype lookup to get the GRF internal ID.
* @param roadtype The global (OpenTTD) roadtype.
* @param grffile The GRF to do the lookup for.
* @return the GRF internal ID.
*/
uint8_t GetReverseRoadTypeTranslation(RoadType roadtype, const GRFFile *grffile)
{
/* No road type table present, return road type as-is */
if (grffile == nullptr) return roadtype;
const std::vector *list = RoadTypeIsRoad(roadtype) ? &grffile->roadtype_list : &grffile->tramtype_list;
if (list->empty()) return roadtype;
/* Look for a matching road type label in the table */
RoadTypeLabel label = GetRoadTypeInfo(roadtype)->label;
int index = find_index(*list, label);
if (index >= 0) return index;
/* If not found, return as invalid */
return 0xFF;
}
std::vector> _roadtype_list;
/**
* Test if any saved road type labels are different to the currently loaded
* road types. Road types stored in the map will be converted if necessary.
*/
void ConvertRoadTypes()
{
std::vector roadtype_conversion_map;
bool needs_conversion = false;
for (auto it = std::begin(_roadtype_list); it != std::end(_roadtype_list); ++it) {
RoadType rt = GetRoadTypeByLabel(it->label);
if (rt == INVALID_ROADTYPE || GetRoadTramType(rt) != it->subtype) {
rt = it->subtype ? ROADTYPE_TRAM : ROADTYPE_ROAD;
}
roadtype_conversion_map.push_back(rt);
/* Conversion is needed if the road type is in a different position than the list. */
if (it->label != 0 && rt != std::distance(std::begin(_roadtype_list), it)) needs_conversion = true;
}
if (!needs_conversion) return;
for (TileIndex t : Map::Iterate()) {
switch (GetTileType(t)) {
case MP_ROAD:
if (RoadType rt = GetRoadTypeRoad(t); rt != INVALID_ROADTYPE) SetRoadTypeRoad(t, roadtype_conversion_map[rt]);
if (RoadType rt = GetRoadTypeTram(t); rt != INVALID_ROADTYPE) SetRoadTypeTram(t, roadtype_conversion_map[rt]);
break;
case MP_STATION:
if (IsAnyRoadStop(t)) {
if (RoadType rt = GetRoadTypeRoad(t); rt != INVALID_ROADTYPE) SetRoadTypeRoad(t, roadtype_conversion_map[rt]);
if (RoadType rt = GetRoadTypeTram(t); rt != INVALID_ROADTYPE) SetRoadTypeTram(t, roadtype_conversion_map[rt]);
}
break;
case MP_TUNNELBRIDGE:
if (GetTunnelBridgeTransportType(t) == TRANSPORT_ROAD) {
if (RoadType rt = GetRoadTypeRoad(t); rt != INVALID_ROADTYPE) SetRoadTypeRoad(t, roadtype_conversion_map[rt]);
if (RoadType rt = GetRoadTypeTram(t); rt != INVALID_ROADTYPE) SetRoadTypeTram(t, roadtype_conversion_map[rt]);
}
break;
default:
break;
}
}
}
/** Populate road type label list with current values. */
void SetCurrentRoadTypeLabelList()
{
_roadtype_list.clear();
for (RoadType rt = ROADTYPE_BEGIN; rt != ROADTYPE_END; rt++) {
_roadtype_list.emplace_back(GetRoadTypeInfo(rt)->label, GetRoadTramType(rt));
}
}
void ClearRoadTypeLabelList()
{
_roadtype_list.clear();
}