/*
* 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.cpp Base of all NewGRF support. */
#include "stdafx.h"
#include
#include "debug.h"
#include "fileio_func.h"
#include "engine_func.h"
#include "engine_base.h"
#include "bridge.h"
#include "town.h"
#include "newgrf_engine.h"
#include "newgrf_text.h"
#include "fontcache.h"
#include "currency.h"
#include "landscape.h"
#include "newgrf_cargo.h"
#include "newgrf_house.h"
#include "newgrf_sound.h"
#include "newgrf_station.h"
#include "industrytype.h"
#include "newgrf_canal.h"
#include "newgrf_townname.h"
#include "newgrf_industries.h"
#include "newgrf_airporttiles.h"
#include "newgrf_airport.h"
#include "newgrf_object.h"
#include "rev.h"
#include "fios.h"
#include "strings_func.h"
#include "date_func.h"
#include "string_func.h"
#include "network/core/config.h"
#include
#include "smallmap_gui.h"
#include "genworld.h"
#include "error.h"
#include "vehicle_func.h"
#include "language.h"
#include "vehicle_base.h"
#include "road.h"
#include "table/strings.h"
#include "table/build_industry.h"
#include "safeguards.h"
/* TTDPatch extended GRF format codec
* (c) Petr Baudis 2004 (GPL'd)
* Changes by Florian octo Forster are (c) by the OpenTTD development team.
*
* Contains portions of documentation by TTDPatch team.
* Thanks especially to Josef Drexler for the documentation as well as a lot
* of help at #tycoon. Also thanks to Michael Blunck for his GRF files which
* served as subject to the initial testing of this codec. */
/** List of all loaded GRF files */
static std::vector _grf_files;
const std::vector &GetAllGRFFiles()
{
return _grf_files;
}
/** Miscellaneous GRF features, set by Action 0x0D, parameter 0x9E */
byte _misc_grf_features = 0;
/** 32 * 8 = 256 flags. Apparently TTDPatch uses this many.. */
static uint32 _ttdpatch_flags[8];
/** Indicates which are the newgrf features currently loaded ingame */
GRFLoadedFeatures _loaded_newgrf_features;
static const uint MAX_SPRITEGROUP = UINT8_MAX; ///< Maximum GRF-local ID for a spritegroup.
/** Temporary data during loading of GRFs */
struct GrfProcessingState {
private:
/** Definition of a single Action1 spriteset */
struct SpriteSet {
SpriteID sprite; ///< SpriteID of the first sprite of the set.
uint num_sprites; ///< Number of sprites in the set.
};
/** Currently referenceable spritesets */
std::map spritesets[GSF_END];
public:
/* Global state */
GrfLoadingStage stage; ///< Current loading stage
SpriteID spriteid; ///< First available SpriteID for loading realsprites.
/* Local state in the file */
SpriteFile *file; ///< File of currently processed GRF file.
GRFFile *grffile; ///< Currently processed GRF file.
GRFConfig *grfconfig; ///< Config of the currently processed GRF file.
uint32 nfo_line; ///< Currently processed pseudo sprite number in the GRF.
/* Kind of return values when processing certain actions */
int skip_sprites; ///< Number of pseudo sprites to skip before processing the next one. (-1 to skip to end of file)
/* Currently referenceable spritegroups */
const SpriteGroup *spritegroups[MAX_SPRITEGROUP + 1];
/** Clear temporary data before processing the next file in the current loading stage */
void ClearDataForNextFile()
{
this->nfo_line = 0;
this->skip_sprites = 0;
for (uint i = 0; i < GSF_END; i++) {
this->spritesets[i].clear();
}
memset(this->spritegroups, 0, sizeof(this->spritegroups));
}
/**
* Records new spritesets.
* @param feature GrfSpecFeature the set is defined for.
* @param first_sprite SpriteID of the first sprite in the set.
* @param first_set First spriteset to define.
* @param numsets Number of sets to define.
* @param numents Number of sprites per set to define.
*/
void AddSpriteSets(byte feature, SpriteID first_sprite, uint first_set, uint numsets, uint numents)
{
assert(feature < GSF_END);
for (uint i = 0; i < numsets; i++) {
SpriteSet &set = this->spritesets[feature][first_set + i];
set.sprite = first_sprite + i * numents;
set.num_sprites = numents;
}
}
/**
* Check whether there are any valid spritesets for a feature.
* @param feature GrfSpecFeature to check.
* @return true if there are any valid sets.
* @note Spritesets with zero sprites are valid to allow callback-failures.
*/
bool HasValidSpriteSets(byte feature) const
{
assert(feature < GSF_END);
return !this->spritesets[feature].empty();
}
/**
* Check whether a specific set is defined.
* @param feature GrfSpecFeature to check.
* @param set Set to check.
* @return true if the set is valid.
* @note Spritesets with zero sprites are valid to allow callback-failures.
*/
bool IsValidSpriteSet(byte feature, uint set) const
{
assert(feature < GSF_END);
return this->spritesets[feature].find(set) != this->spritesets[feature].end();
}
/**
* Returns the first sprite of a spriteset.
* @param feature GrfSpecFeature to query.
* @param set Set to query.
* @return First sprite of the set.
*/
SpriteID GetSprite(byte feature, uint set) const
{
assert(IsValidSpriteSet(feature, set));
return this->spritesets[feature].find(set)->second.sprite;
}
/**
* Returns the number of sprites in a spriteset
* @param feature GrfSpecFeature to query.
* @param set Set to query.
* @return Number of sprites in the set.
*/
uint GetNumEnts(byte feature, uint set) const
{
assert(IsValidSpriteSet(feature, set));
return this->spritesets[feature].find(set)->second.num_sprites;
}
};
static GrfProcessingState _cur;
/**
* Helper to check whether an image index is valid for a particular NewGRF vehicle.
* @tparam T The type of vehicle.
* @param image_index The image index to check.
* @return True iff the image index is valid, or 0xFD (use new graphics).
*/
template
static inline bool IsValidNewGRFImageIndex(uint8 image_index)
{
return image_index == 0xFD || IsValidImageIndex(image_index);
}
class OTTDByteReaderSignal { };
/** Class to read from a NewGRF file */
class ByteReader {
protected:
byte *data;
byte *end;
public:
ByteReader(byte *data, byte *end) : data(data), end(end) { }
inline byte *ReadBytes(size_t size)
{
if (data + size >= end) {
/* Put data at the end, as would happen if every byte had been individually read. */
data = end;
throw OTTDByteReaderSignal();
}
byte *ret = data;
data += size;
return ret;
}
inline byte ReadByte()
{
if (data < end) return *(data)++;
throw OTTDByteReaderSignal();
}
uint16 ReadWord()
{
uint16 val = ReadByte();
return val | (ReadByte() << 8);
}
uint16 ReadExtendedByte()
{
uint16 val = ReadByte();
return val == 0xFF ? ReadWord() : val;
}
uint32 ReadDWord()
{
uint32 val = ReadWord();
return val | (ReadWord() << 16);
}
uint32 ReadVarSize(byte size)
{
switch (size) {
case 1: return ReadByte();
case 2: return ReadWord();
case 4: return ReadDWord();
default:
NOT_REACHED();
return 0;
}
}
const char *ReadString()
{
char *string = reinterpret_cast(data);
size_t string_length = ttd_strnlen(string, Remaining());
if (string_length == Remaining()) {
/* String was not NUL terminated, so make sure it is now. */
string[string_length - 1] = '\0';
grfmsg(7, "String was not terminated with a zero byte.");
} else {
/* Increase the string length to include the NUL byte. */
string_length++;
}
Skip(string_length);
return string;
}
inline size_t Remaining() const
{
return end - data;
}
inline bool HasData(size_t count = 1) const
{
return data + count <= end;
}
inline byte *Data()
{
return data;
}
inline void Skip(size_t len)
{
data += len;
/* It is valid to move the buffer to exactly the end of the data,
* as there may not be any more data read. */
if (data > end) throw OTTDByteReaderSignal();
}
};
typedef void (*SpecialSpriteHandler)(ByteReader *buf);
static const uint NUM_STATIONS_PER_GRF = 255; ///< Number of StationSpecs per NewGRF; limited to 255 to allow extending Action3 with an extended byte later on.
/** Temporary engine data used when loading only */
struct GRFTempEngineData {
/** Summary state of refittability properties */
enum Refittability {
UNSET = 0, ///< No properties assigned. Default refit masks shall be activated.
EMPTY, ///< GRF defined vehicle as not-refittable. The vehicle shall only carry the default cargo.
NONEMPTY, ///< GRF defined the vehicle as refittable. If the refitmask is empty after translation (cargotypes not available), disable the vehicle.
};
uint16 cargo_allowed;
uint16 cargo_disallowed;
RailTypeLabel railtypelabel;
uint8 roadtramtype;
const GRFFile *defaultcargo_grf; ///< GRF defining the cargo translation table to use if the default cargo is the 'first refittable'.
Refittability refittability; ///< Did the newgrf set any refittability property? If not, default refittability will be applied.
bool prop27_set; ///< Did the NewGRF set property 27 (misc flags)?
uint8 rv_max_speed; ///< Temporary storage of RV prop 15, maximum speed in mph/0.8
CargoTypes ctt_include_mask; ///< Cargo types always included in the refit mask.
CargoTypes ctt_exclude_mask; ///< Cargo types always excluded from the refit mask.
/**
* Update the summary refittability on setting a refittability property.
* @param non_empty true if the GRF sets the vehicle to be refittable.
*/
void UpdateRefittability(bool non_empty)
{
if (non_empty) {
this->refittability = NONEMPTY;
} else if (this->refittability == UNSET) {
this->refittability = EMPTY;
}
}
};
static GRFTempEngineData *_gted; ///< Temporary engine data used during NewGRF loading
/**
* Contains the GRF ID of the owner of a vehicle if it has been reserved.
* GRM for vehicles is only used if dynamic engine allocation is disabled,
* so 256 is the number of original engines. */
static uint32 _grm_engines[256];
/** Contains the GRF ID of the owner of a cargo if it has been reserved */
static uint32 _grm_cargoes[NUM_CARGO * 2];
struct GRFLocation {
uint32 grfid;
uint32 nfoline;
GRFLocation(uint32 grfid, uint32 nfoline) : grfid(grfid), nfoline(nfoline) { }
bool operator<(const GRFLocation &other) const
{
return this->grfid < other.grfid || (this->grfid == other.grfid && this->nfoline < other.nfoline);
}
bool operator == (const GRFLocation &other) const
{
return this->grfid == other.grfid && this->nfoline == other.nfoline;
}
};
static std::map _grm_sprites;
typedef std::map GRFLineToSpriteOverride;
static GRFLineToSpriteOverride _grf_line_to_action6_sprite_override;
/**
* Debug() function dedicated to newGRF debugging messages
* Function is essentially the same as Debug(grf, severity, ...) with the
* addition of file:line information when parsing grf files.
* NOTE: for the above reason(s) grfmsg() should ONLY be used for
* loading/parsing grf files, not for runtime debug messages as there
* is no file information available during that time.
* @param severity debugging severity level, see debug.h
* @param str message in printf() format
*/
void CDECL grfmsg(int severity, const char *str, ...)
{
char buf[1024];
va_list va;
va_start(va, str);
vseprintf(buf, lastof(buf), str, va);
va_end(va);
Debug(grf, severity, "[{}:{}] {}", _cur.grfconfig->filename, _cur.nfo_line, buf);
}
/**
* Obtain a NewGRF file by its grfID
* @param grfid The grfID to obtain the file for
* @return The file.
*/
static GRFFile *GetFileByGRFID(uint32 grfid)
{
for (GRFFile * const file : _grf_files) {
if (file->grfid == grfid) return file;
}
return nullptr;
}
/**
* Obtain a NewGRF file by its filename
* @param filename The filename to obtain the file for.
* @return The file.
*/
static GRFFile *GetFileByFilename(const char *filename)
{
for (GRFFile * const file : _grf_files) {
if (strcmp(file->filename, filename) == 0) return file;
}
return nullptr;
}
/** Reset all NewGRFData that was used only while processing data */
static void ClearTemporaryNewGRFData(GRFFile *gf)
{
/* Clear the GOTO labels used for GRF processing */
for (GRFLabel *l = gf->label; l != nullptr;) {
GRFLabel *l2 = l->next;
free(l);
l = l2;
}
gf->label = nullptr;
}
/**
* Disable a GRF
* @param message Error message or STR_NULL.
* @param config GRFConfig to disable, nullptr for current.
* @return Error message of the GRF for further customisation.
*/
static GRFError *DisableGrf(StringID message = STR_NULL, GRFConfig *config = nullptr)
{
GRFFile *file;
if (config != nullptr) {
file = GetFileByGRFID(config->ident.grfid);
} else {
config = _cur.grfconfig;
file = _cur.grffile;
}
config->status = GCS_DISABLED;
if (file != nullptr) ClearTemporaryNewGRFData(file);
if (config == _cur.grfconfig) _cur.skip_sprites = -1;
if (message != STR_NULL) {
delete config->error;
config->error = new GRFError(STR_NEWGRF_ERROR_MSG_FATAL, message);
if (config == _cur.grfconfig) config->error->param_value[0] = _cur.nfo_line;
}
return config->error;
}
/**
* Information for mapping static StringIDs.
*/
struct StringIDMapping {
uint32 grfid; ///< Source NewGRF.
StringID source; ///< Source StringID (GRF local).
StringID *target; ///< Destination for mapping result.
};
typedef std::vector StringIDMappingVector;
static StringIDMappingVector _string_to_grf_mapping;
/**
* Record a static StringID for getting translated later.
* @param source Source StringID (GRF local).
* @param target Destination for the mapping result.
*/
static void AddStringForMapping(StringID source, StringID *target)
{
*target = STR_UNDEFINED;
_string_to_grf_mapping.push_back({_cur.grffile->grfid, source, target});
}
/**
* Perform a mapping from TTDPatch's string IDs to OpenTTD's
* string IDs, but only for the ones we are aware off; the rest
* like likely unused and will show a warning.
* @param str the string ID to convert
* @return the converted string ID
*/
static StringID TTDPStringIDToOTTDStringIDMapping(StringID str)
{
/* StringID table for TextIDs 0x4E->0x6D */
static const StringID units_volume[] = {
STR_ITEMS, STR_PASSENGERS, STR_TONS, STR_BAGS,
STR_LITERS, STR_ITEMS, STR_CRATES, STR_TONS,
STR_TONS, STR_TONS, STR_TONS, STR_BAGS,
STR_TONS, STR_TONS, STR_TONS, STR_BAGS,
STR_TONS, STR_TONS, STR_BAGS, STR_LITERS,
STR_TONS, STR_LITERS, STR_TONS, STR_ITEMS,
STR_BAGS, STR_LITERS, STR_TONS, STR_ITEMS,
STR_TONS, STR_ITEMS, STR_LITERS, STR_ITEMS
};
/* A string straight from a NewGRF; this was already translated by MapGRFStringID(). */
assert(!IsInsideMM(str, 0xD000, 0xD7FF));
#define TEXTID_TO_STRINGID(begin, end, stringid, stringend) \
static_assert(stringend - stringid == end - begin); \
if (str >= begin && str <= end) return str + (stringid - begin)
/* We have some changes in our cargo strings, resulting in some missing. */
TEXTID_TO_STRINGID(0x000E, 0x002D, STR_CARGO_PLURAL_NOTHING, STR_CARGO_PLURAL_FIZZY_DRINKS);
TEXTID_TO_STRINGID(0x002E, 0x004D, STR_CARGO_SINGULAR_NOTHING, STR_CARGO_SINGULAR_FIZZY_DRINK);
if (str >= 0x004E && str <= 0x006D) return units_volume[str - 0x004E];
TEXTID_TO_STRINGID(0x006E, 0x008D, STR_QUANTITY_NOTHING, STR_QUANTITY_FIZZY_DRINKS);
TEXTID_TO_STRINGID(0x008E, 0x00AD, STR_ABBREV_NOTHING, STR_ABBREV_FIZZY_DRINKS);
TEXTID_TO_STRINGID(0x00D1, 0x00E0, STR_COLOUR_DARK_BLUE, STR_COLOUR_WHITE);
/* Map building names according to our lang file changes. There are several
* ranges of house ids, all of which need to be remapped to allow newgrfs
* to use original house names. */
TEXTID_TO_STRINGID(0x200F, 0x201F, STR_TOWN_BUILDING_NAME_TALL_OFFICE_BLOCK_1, STR_TOWN_BUILDING_NAME_OLD_HOUSES_1);
TEXTID_TO_STRINGID(0x2036, 0x2041, STR_TOWN_BUILDING_NAME_COTTAGES_1, STR_TOWN_BUILDING_NAME_SHOPPING_MALL_1);
TEXTID_TO_STRINGID(0x2059, 0x205C, STR_TOWN_BUILDING_NAME_IGLOO_1, STR_TOWN_BUILDING_NAME_PIGGY_BANK_1);
/* Same thing for industries */
TEXTID_TO_STRINGID(0x4802, 0x4826, STR_INDUSTRY_NAME_COAL_MINE, STR_INDUSTRY_NAME_SUGAR_MINE);
TEXTID_TO_STRINGID(0x482D, 0x482E, STR_NEWS_INDUSTRY_CONSTRUCTION, STR_NEWS_INDUSTRY_PLANTED);
TEXTID_TO_STRINGID(0x4832, 0x4834, STR_NEWS_INDUSTRY_CLOSURE_GENERAL, STR_NEWS_INDUSTRY_CLOSURE_LACK_OF_TREES);
TEXTID_TO_STRINGID(0x4835, 0x4838, STR_NEWS_INDUSTRY_PRODUCTION_INCREASE_GENERAL, STR_NEWS_INDUSTRY_PRODUCTION_INCREASE_FARM);
TEXTID_TO_STRINGID(0x4839, 0x483A, STR_NEWS_INDUSTRY_PRODUCTION_DECREASE_GENERAL, STR_NEWS_INDUSTRY_PRODUCTION_DECREASE_FARM);
switch (str) {
case 0x4830: return STR_ERROR_CAN_T_CONSTRUCT_THIS_INDUSTRY;
case 0x4831: return STR_ERROR_FOREST_CAN_ONLY_BE_PLANTED;
case 0x483B: return STR_ERROR_CAN_ONLY_BE_POSITIONED;
}
#undef TEXTID_TO_STRINGID
if (str == STR_NULL) return STR_EMPTY;
Debug(grf, 0, "Unknown StringID 0x{:04X} remapped to STR_EMPTY. Please open a Feature Request if you need it", str);
return STR_EMPTY;
}
/**
* Used when setting an object's property to map to the GRF's strings
* while taking in consideration the "drift" between TTDPatch string system and OpenTTD's one
* @param grfid Id of the grf file.
* @param str StringID that we want to have the equivalent in OoenTTD.
* @return The properly adjusted StringID.
*/
StringID MapGRFStringID(uint32 grfid, StringID str)
{
if (IsInsideMM(str, 0xD800, 0xE000)) {
/* General text provided by NewGRF.
* In the specs this is called the 0xDCxx range (misc persistent texts),
* but we meanwhile extended the range to 0xD800-0xDFFF.
* Note: We are not involved in the "persistent" business, since we do not store
* any NewGRF strings in savegames. */
return GetGRFStringID(grfid, str);
} else if (IsInsideMM(str, 0xD000, 0xD800)) {
/* Callback text provided by NewGRF.
* In the specs this is called the 0xD0xx range (misc graphics texts).
* These texts can be returned by various callbacks.
*
* Due to how TTDP implements the GRF-local- to global-textid translation
* texts included via 0x80 or 0x81 control codes have to add 0x400 to the textid.
* We do not care about that difference and just mask out the 0x400 bit.
*/
str &= ~0x400;
return GetGRFStringID(grfid, str);
} else {
/* The NewGRF wants to include/reference an original TTD string.
* Try our best to find an equivalent one. */
return TTDPStringIDToOTTDStringIDMapping(str);
}
}
static std::map _grf_id_overrides;
/**
* Set the override for a NewGRF
* @param source_grfid The grfID which wants to override another NewGRF.
* @param target_grfid The grfID which is being overridden.
*/
static void SetNewGRFOverride(uint32 source_grfid, uint32 target_grfid)
{
_grf_id_overrides[source_grfid] = target_grfid;
grfmsg(5, "SetNewGRFOverride: Added override of 0x%X to 0x%X", BSWAP32(source_grfid), BSWAP32(target_grfid));
}
/**
* Returns the engine associated to a certain internal_id, resp. allocates it.
* @param file NewGRF that wants to change the engine.
* @param type Vehicle type.
* @param internal_id Engine ID inside the NewGRF.
* @param static_access If the engine is not present, return nullptr instead of allocating a new engine. (Used for static Action 0x04).
* @return The requested engine.
*/
static Engine *GetNewEngine(const GRFFile *file, VehicleType type, uint16 internal_id, bool static_access = false)
{
/* Hack for add-on GRFs that need to modify another GRF's engines. This lets
* them use the same engine slots. */
uint32 scope_grfid = INVALID_GRFID; // If not using dynamic_engines, all newgrfs share their ID range
if (_settings_game.vehicle.dynamic_engines) {
/* If dynamic_engies is enabled, there can be multiple independent ID ranges. */
scope_grfid = file->grfid;
uint32 override = _grf_id_overrides[file->grfid];
if (override != 0) {
scope_grfid = override;
const GRFFile *grf_match = GetFileByGRFID(override);
if (grf_match == nullptr) {
grfmsg(5, "Tried mapping from GRFID %x to %x but target is not loaded", BSWAP32(file->grfid), BSWAP32(override));
} else {
grfmsg(5, "Mapping from GRFID %x to %x", BSWAP32(file->grfid), BSWAP32(override));
}
}
/* Check if the engine is registered in the override manager */
EngineID engine = _engine_mngr.GetID(type, internal_id, scope_grfid);
if (engine != INVALID_ENGINE) {
Engine *e = Engine::Get(engine);
if (e->grf_prop.grffile == nullptr) e->grf_prop.grffile = file;
return e;
}
}
/* Check if there is an unreserved slot */
EngineID engine = _engine_mngr.GetID(type, internal_id, INVALID_GRFID);
if (engine != INVALID_ENGINE) {
Engine *e = Engine::Get(engine);
if (e->grf_prop.grffile == nullptr) {
e->grf_prop.grffile = file;
grfmsg(5, "Replaced engine at index %d for GRFID %x, type %d, index %d", e->index, BSWAP32(file->grfid), type, internal_id);
}
/* Reserve the engine slot */
if (!static_access) {
EngineIDMapping *eid = _engine_mngr.data() + engine;
eid->grfid = scope_grfid; // Note: this is INVALID_GRFID if dynamic_engines is disabled, so no reservation
}
return e;
}
if (static_access) return nullptr;
if (!Engine::CanAllocateItem()) {
grfmsg(0, "Can't allocate any more engines");
return nullptr;
}
size_t engine_pool_size = Engine::GetPoolSize();
/* ... it's not, so create a new one based off an existing engine */
Engine *e = new Engine(type, internal_id);
e->grf_prop.grffile = file;
/* Reserve the engine slot */
assert(_engine_mngr.size() == e->index);
_engine_mngr.push_back({
scope_grfid, // Note: this is INVALID_GRFID if dynamic_engines is disabled, so no reservation
internal_id,
type,
std::min(internal_id, _engine_counts[type]) // substitute_id == _engine_counts[subtype] means "no substitute"
});
if (engine_pool_size != Engine::GetPoolSize()) {
/* Resize temporary engine data ... */
_gted = ReallocT(_gted, Engine::GetPoolSize());
/* and blank the new block. */
size_t len = (Engine::GetPoolSize() - engine_pool_size) * sizeof(*_gted);
memset(_gted + engine_pool_size, 0, len);
}
if (type == VEH_TRAIN) {
_gted[e->index].railtypelabel = GetRailTypeInfo(e->u.rail.railtype)->label;
}
grfmsg(5, "Created new engine at index %d for GRFID %x, type %d, index %d", e->index, BSWAP32(file->grfid), type, internal_id);
return e;
}
/**
* Return the ID of a new engine
* @param file The NewGRF file providing the engine.
* @param type The Vehicle type.
* @param internal_id NewGRF-internal ID of the engine.
* @return The new EngineID.
* @note depending on the dynamic_engine setting and a possible override
* property the grfID may be unique or overwriting or partially re-defining
* properties of an existing engine.
*/
EngineID GetNewEngineID(const GRFFile *file, VehicleType type, uint16 internal_id)
{
uint32 scope_grfid = INVALID_GRFID; // If not using dynamic_engines, all newgrfs share their ID range
if (_settings_game.vehicle.dynamic_engines) {
scope_grfid = file->grfid;
uint32 override = _grf_id_overrides[file->grfid];
if (override != 0) scope_grfid = override;
}
return _engine_mngr.GetID(type, internal_id, scope_grfid);
}
/**
* Map the colour modifiers of TTDPatch to those that Open is using.
* @param grf_sprite Pointer to the structure been modified.
*/
static void MapSpriteMappingRecolour(PalSpriteID *grf_sprite)
{
if (HasBit(grf_sprite->pal, 14)) {
ClrBit(grf_sprite->pal, 14);
SetBit(grf_sprite->sprite, SPRITE_MODIFIER_OPAQUE);
}
if (HasBit(grf_sprite->sprite, 14)) {
ClrBit(grf_sprite->sprite, 14);
SetBit(grf_sprite->sprite, PALETTE_MODIFIER_TRANSPARENT);
}
if (HasBit(grf_sprite->sprite, 15)) {
ClrBit(grf_sprite->sprite, 15);
SetBit(grf_sprite->sprite, PALETTE_MODIFIER_COLOUR);
}
}
/**
* Read a sprite and a palette from the GRF and convert them into a format
* suitable to OpenTTD.
* @param buf Input stream.
* @param read_flags Whether to read TileLayoutFlags.
* @param invert_action1_flag Set to true, if palette bit 15 means 'not from action 1'.
* @param use_cur_spritesets Whether to use currently referenceable action 1 sets.
* @param feature GrfSpecFeature to use spritesets from.
* @param[out] grf_sprite Read sprite and palette.
* @param[out] max_sprite_offset Optionally returns the number of sprites in the spriteset of the sprite. (0 if no spritset)
* @param[out] max_palette_offset Optionally returns the number of sprites in the spriteset of the palette. (0 if no spritset)
* @return Read TileLayoutFlags.
*/
static TileLayoutFlags ReadSpriteLayoutSprite(ByteReader *buf, bool read_flags, bool invert_action1_flag, bool use_cur_spritesets, int feature, PalSpriteID *grf_sprite, uint16 *max_sprite_offset = nullptr, uint16 *max_palette_offset = nullptr)
{
grf_sprite->sprite = buf->ReadWord();
grf_sprite->pal = buf->ReadWord();
TileLayoutFlags flags = read_flags ? (TileLayoutFlags)buf->ReadWord() : TLF_NOTHING;
MapSpriteMappingRecolour(grf_sprite);
bool custom_sprite = HasBit(grf_sprite->pal, 15) != invert_action1_flag;
ClrBit(grf_sprite->pal, 15);
if (custom_sprite) {
/* Use sprite from Action 1 */
uint index = GB(grf_sprite->sprite, 0, 14);
if (use_cur_spritesets && (!_cur.IsValidSpriteSet(feature, index) || _cur.GetNumEnts(feature, index) == 0)) {
grfmsg(1, "ReadSpriteLayoutSprite: Spritelayout uses undefined custom spriteset %d", index);
grf_sprite->sprite = SPR_IMG_QUERY;
grf_sprite->pal = PAL_NONE;
} else {
SpriteID sprite = use_cur_spritesets ? _cur.GetSprite(feature, index) : index;
if (max_sprite_offset != nullptr) *max_sprite_offset = use_cur_spritesets ? _cur.GetNumEnts(feature, index) : UINT16_MAX;
SB(grf_sprite->sprite, 0, SPRITE_WIDTH, sprite);
SetBit(grf_sprite->sprite, SPRITE_MODIFIER_CUSTOM_SPRITE);
}
} else if ((flags & TLF_SPRITE_VAR10) && !(flags & TLF_SPRITE_REG_FLAGS)) {
grfmsg(1, "ReadSpriteLayoutSprite: Spritelayout specifies var10 value for non-action-1 sprite");
DisableGrf(STR_NEWGRF_ERROR_INVALID_SPRITE_LAYOUT);
return flags;
}
if (flags & TLF_CUSTOM_PALETTE) {
/* Use palette from Action 1 */
uint index = GB(grf_sprite->pal, 0, 14);
if (use_cur_spritesets && (!_cur.IsValidSpriteSet(feature, index) || _cur.GetNumEnts(feature, index) == 0)) {
grfmsg(1, "ReadSpriteLayoutSprite: Spritelayout uses undefined custom spriteset %d for 'palette'", index);
grf_sprite->pal = PAL_NONE;
} else {
SpriteID sprite = use_cur_spritesets ? _cur.GetSprite(feature, index) : index;
if (max_palette_offset != nullptr) *max_palette_offset = use_cur_spritesets ? _cur.GetNumEnts(feature, index) : UINT16_MAX;
SB(grf_sprite->pal, 0, SPRITE_WIDTH, sprite);
SetBit(grf_sprite->pal, SPRITE_MODIFIER_CUSTOM_SPRITE);
}
} else if ((flags & TLF_PALETTE_VAR10) && !(flags & TLF_PALETTE_REG_FLAGS)) {
grfmsg(1, "ReadSpriteLayoutRegisters: Spritelayout specifies var10 value for non-action-1 palette");
DisableGrf(STR_NEWGRF_ERROR_INVALID_SPRITE_LAYOUT);
return flags;
}
return flags;
}
/**
* Preprocess the TileLayoutFlags and read register modifiers from the GRF.
* @param buf Input stream.
* @param flags TileLayoutFlags to process.
* @param is_parent Whether the sprite is a parentsprite with a bounding box.
* @param dts Sprite layout to insert data into.
* @param index Sprite index to process; 0 for ground sprite.
*/
static void ReadSpriteLayoutRegisters(ByteReader *buf, TileLayoutFlags flags, bool is_parent, NewGRFSpriteLayout *dts, uint index)
{
if (!(flags & TLF_DRAWING_FLAGS)) return;
if (dts->registers == nullptr) dts->AllocateRegisters();
TileLayoutRegisters ®s = const_cast(dts->registers[index]);
regs.flags = flags & TLF_DRAWING_FLAGS;
if (flags & TLF_DODRAW) regs.dodraw = buf->ReadByte();
if (flags & TLF_SPRITE) regs.sprite = buf->ReadByte();
if (flags & TLF_PALETTE) regs.palette = buf->ReadByte();
if (is_parent) {
if (flags & TLF_BB_XY_OFFSET) {
regs.delta.parent[0] = buf->ReadByte();
regs.delta.parent[1] = buf->ReadByte();
}
if (flags & TLF_BB_Z_OFFSET) regs.delta.parent[2] = buf->ReadByte();
} else {
if (flags & TLF_CHILD_X_OFFSET) regs.delta.child[0] = buf->ReadByte();
if (flags & TLF_CHILD_Y_OFFSET) regs.delta.child[1] = buf->ReadByte();
}
if (flags & TLF_SPRITE_VAR10) {
regs.sprite_var10 = buf->ReadByte();
if (regs.sprite_var10 > TLR_MAX_VAR10) {
grfmsg(1, "ReadSpriteLayoutRegisters: Spritelayout specifies var10 (%d) exceeding the maximal allowed value %d", regs.sprite_var10, TLR_MAX_VAR10);
DisableGrf(STR_NEWGRF_ERROR_INVALID_SPRITE_LAYOUT);
return;
}
}
if (flags & TLF_PALETTE_VAR10) {
regs.palette_var10 = buf->ReadByte();
if (regs.palette_var10 > TLR_MAX_VAR10) {
grfmsg(1, "ReadSpriteLayoutRegisters: Spritelayout specifies var10 (%d) exceeding the maximal allowed value %d", regs.palette_var10, TLR_MAX_VAR10);
DisableGrf(STR_NEWGRF_ERROR_INVALID_SPRITE_LAYOUT);
return;
}
}
}
/**
* Read a spritelayout from the GRF.
* @param buf Input
* @param num_building_sprites Number of building sprites to read
* @param use_cur_spritesets Whether to use currently referenceable action 1 sets.
* @param feature GrfSpecFeature to use spritesets from.
* @param allow_var10 Whether the spritelayout may specify var10 values for resolving multiple action-1-2-3 chains
* @param no_z_position Whether bounding boxes have no Z offset
* @param dts Layout container to output into
* @return True on error (GRF was disabled).
*/
static bool ReadSpriteLayout(ByteReader *buf, uint num_building_sprites, bool use_cur_spritesets, byte feature, bool allow_var10, bool no_z_position, NewGRFSpriteLayout *dts)
{
bool has_flags = HasBit(num_building_sprites, 6);
ClrBit(num_building_sprites, 6);
TileLayoutFlags valid_flags = TLF_KNOWN_FLAGS;
if (!allow_var10) valid_flags &= ~TLF_VAR10_FLAGS;
dts->Allocate(num_building_sprites); // allocate before reading groundsprite flags
uint16 *max_sprite_offset = AllocaM(uint16, num_building_sprites + 1);
uint16 *max_palette_offset = AllocaM(uint16, num_building_sprites + 1);
MemSetT(max_sprite_offset, 0, num_building_sprites + 1);
MemSetT(max_palette_offset, 0, num_building_sprites + 1);
/* Groundsprite */
TileLayoutFlags flags = ReadSpriteLayoutSprite(buf, has_flags, false, use_cur_spritesets, feature, &dts->ground, max_sprite_offset, max_palette_offset);
if (_cur.skip_sprites < 0) return true;
if (flags & ~(valid_flags & ~TLF_NON_GROUND_FLAGS)) {
grfmsg(1, "ReadSpriteLayout: Spritelayout uses invalid flag 0x%x for ground sprite", flags & ~(valid_flags & ~TLF_NON_GROUND_FLAGS));
DisableGrf(STR_NEWGRF_ERROR_INVALID_SPRITE_LAYOUT);
return true;
}
ReadSpriteLayoutRegisters(buf, flags, false, dts, 0);
if (_cur.skip_sprites < 0) return true;
for (uint i = 0; i < num_building_sprites; i++) {
DrawTileSeqStruct *seq = const_cast(&dts->seq[i]);
flags = ReadSpriteLayoutSprite(buf, has_flags, false, use_cur_spritesets, feature, &seq->image, max_sprite_offset + i + 1, max_palette_offset + i + 1);
if (_cur.skip_sprites < 0) return true;
if (flags & ~valid_flags) {
grfmsg(1, "ReadSpriteLayout: Spritelayout uses unknown flag 0x%x", flags & ~valid_flags);
DisableGrf(STR_NEWGRF_ERROR_INVALID_SPRITE_LAYOUT);
return true;
}
seq->delta_x = buf->ReadByte();
seq->delta_y = buf->ReadByte();
if (!no_z_position) seq->delta_z = buf->ReadByte();
if (seq->IsParentSprite()) {
seq->size_x = buf->ReadByte();
seq->size_y = buf->ReadByte();
seq->size_z = buf->ReadByte();
}
ReadSpriteLayoutRegisters(buf, flags, seq->IsParentSprite(), dts, i + 1);
if (_cur.skip_sprites < 0) return true;
}
/* Check if the number of sprites per spriteset is consistent */
bool is_consistent = true;
dts->consistent_max_offset = 0;
for (uint i = 0; i < num_building_sprites + 1; i++) {
if (max_sprite_offset[i] > 0) {
if (dts->consistent_max_offset == 0) {
dts->consistent_max_offset = max_sprite_offset[i];
} else if (dts->consistent_max_offset != max_sprite_offset[i]) {
is_consistent = false;
break;
}
}
if (max_palette_offset[i] > 0) {
if (dts->consistent_max_offset == 0) {
dts->consistent_max_offset = max_palette_offset[i];
} else if (dts->consistent_max_offset != max_palette_offset[i]) {
is_consistent = false;
break;
}
}
}
/* When the Action1 sets are unknown, everything should be 0 (no spriteset usage) or UINT16_MAX (some spriteset usage) */
assert(use_cur_spritesets || (is_consistent && (dts->consistent_max_offset == 0 || dts->consistent_max_offset == UINT16_MAX)));
if (!is_consistent || dts->registers != nullptr) {
dts->consistent_max_offset = 0;
if (dts->registers == nullptr) dts->AllocateRegisters();
for (uint i = 0; i < num_building_sprites + 1; i++) {
TileLayoutRegisters ®s = const_cast(dts->registers[i]);
regs.max_sprite_offset = max_sprite_offset[i];
regs.max_palette_offset = max_palette_offset[i];
}
}
return false;
}
/**
* Translate the refit mask. refit_mask is uint32 as it has not been mapped to CargoTypes.
*/
static CargoTypes TranslateRefitMask(uint32 refit_mask)
{
CargoTypes result = 0;
for (uint8 bit : SetBitIterator(refit_mask)) {
CargoID cargo = GetCargoTranslation(bit, _cur.grffile, true);
if (cargo != CT_INVALID) SetBit(result, cargo);
}
return result;
}
/**
* Converts TTD(P) Base Price pointers into the enum used by OTTD
* See http://wiki.ttdpatch.net/tiki-index.php?page=BaseCosts
* @param base_pointer TTD(P) Base Price Pointer
* @param error_location Function name for grf error messages
* @param[out] index If \a base_pointer is valid, \a index is assigned to the matching price; else it is left unchanged
*/
static void ConvertTTDBasePrice(uint32 base_pointer, const char *error_location, Price *index)
{
/* Special value for 'none' */
if (base_pointer == 0) {
*index = INVALID_PRICE;
return;
}
static const uint32 start = 0x4B34; ///< Position of first base price
static const uint32 size = 6; ///< Size of each base price record
if (base_pointer < start || (base_pointer - start) % size != 0 || (base_pointer - start) / size >= PR_END) {
grfmsg(1, "%s: Unsupported running cost base 0x%04X, ignoring", error_location, base_pointer);
return;
}
*index = (Price)((base_pointer - start) / size);
}
/** Possible return values for the FeatureChangeInfo functions */
enum ChangeInfoResult {
CIR_SUCCESS, ///< Variable was parsed and read
CIR_DISABLED, ///< GRF was disabled due to error
CIR_UNHANDLED, ///< Variable was parsed but unread
CIR_UNKNOWN, ///< Variable is unknown
CIR_INVALID_ID, ///< Attempt to modify an invalid ID
};
typedef ChangeInfoResult (*VCI_Handler)(uint engine, int numinfo, int prop, ByteReader *buf);
/**
* Define properties common to all vehicles
* @param ei Engine info.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult CommonVehicleChangeInfo(EngineInfo *ei, int prop, ByteReader *buf)
{
switch (prop) {
case 0x00: // Introduction date
ei->base_intro = buf->ReadWord() + DAYS_TILL_ORIGINAL_BASE_YEAR;
break;
case 0x02: // Decay speed
ei->decay_speed = buf->ReadByte();
break;
case 0x03: // Vehicle life
ei->lifelength = buf->ReadByte();
break;
case 0x04: // Model life
ei->base_life = buf->ReadByte();
break;
case 0x06: // Climates available
ei->climates = buf->ReadByte();
break;
case PROP_VEHICLE_LOAD_AMOUNT: // 0x07 Loading speed
/* Amount of cargo loaded during a vehicle's "loading tick" */
ei->load_amount = buf->ReadByte();
break;
default:
return CIR_UNKNOWN;
}
return CIR_SUCCESS;
}
/**
* Define properties for rail vehicles
* @param engine :ocal ID of the first vehicle.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult RailVehicleChangeInfo(uint engine, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
for (int i = 0; i < numinfo; i++) {
Engine *e = GetNewEngine(_cur.grffile, VEH_TRAIN, engine + i);
if (e == nullptr) return CIR_INVALID_ID; // No engine could be allocated, so neither can any next vehicles
EngineInfo *ei = &e->info;
RailVehicleInfo *rvi = &e->u.rail;
switch (prop) {
case 0x05: { // Track type
uint8 tracktype = buf->ReadByte();
if (tracktype < _cur.grffile->railtype_list.size()) {
_gted[e->index].railtypelabel = _cur.grffile->railtype_list[tracktype];
break;
}
switch (tracktype) {
case 0: _gted[e->index].railtypelabel = rvi->engclass >= 2 ? RAILTYPE_ELECTRIC_LABEL : RAILTYPE_RAIL_LABEL; break;
case 1: _gted[e->index].railtypelabel = RAILTYPE_MONO_LABEL; break;
case 2: _gted[e->index].railtypelabel = RAILTYPE_MAGLEV_LABEL; break;
default:
grfmsg(1, "RailVehicleChangeInfo: Invalid track type %d specified, ignoring", tracktype);
break;
}
break;
}
case 0x08: // AI passenger service
/* Tells the AI that this engine is designed for
* passenger services and shouldn't be used for freight. */
rvi->ai_passenger_only = buf->ReadByte();
break;
case PROP_TRAIN_SPEED: { // 0x09 Speed (1 unit is 1 km-ish/h)
uint16 speed = buf->ReadWord();
if (speed == 0xFFFF) speed = 0;
rvi->max_speed = speed;
break;
}
case PROP_TRAIN_POWER: // 0x0B Power
rvi->power = buf->ReadWord();
/* Set engine / wagon state based on power */
if (rvi->power != 0) {
if (rvi->railveh_type == RAILVEH_WAGON) {
rvi->railveh_type = RAILVEH_SINGLEHEAD;
}
} else {
rvi->railveh_type = RAILVEH_WAGON;
}
break;
case PROP_TRAIN_RUNNING_COST_FACTOR: // 0x0D Running cost factor
rvi->running_cost = buf->ReadByte();
break;
case 0x0E: // Running cost base
ConvertTTDBasePrice(buf->ReadDWord(), "RailVehicleChangeInfo", &rvi->running_cost_class);
break;
case 0x12: { // Sprite ID
uint8 spriteid = buf->ReadByte();
uint8 orig_spriteid = spriteid;
/* TTD sprite IDs point to a location in a 16bit array, but we use it
* as an array index, so we need it to be half the original value. */
if (spriteid < 0xFD) spriteid >>= 1;
if (IsValidNewGRFImageIndex(spriteid)) {
rvi->image_index = spriteid;
} else {
grfmsg(1, "RailVehicleChangeInfo: Invalid Sprite %d specified, ignoring", orig_spriteid);
rvi->image_index = 0;
}
break;
}
case 0x13: { // Dual-headed
uint8 dual = buf->ReadByte();
if (dual != 0) {
rvi->railveh_type = RAILVEH_MULTIHEAD;
} else {
rvi->railveh_type = rvi->power == 0 ?
RAILVEH_WAGON : RAILVEH_SINGLEHEAD;
}
break;
}
case PROP_TRAIN_CARGO_CAPACITY: // 0x14 Cargo capacity
rvi->capacity = buf->ReadByte();
break;
case 0x15: { // Cargo type
_gted[e->index].defaultcargo_grf = _cur.grffile;
uint8 ctype = buf->ReadByte();
if (ctype == 0xFF) {
/* 0xFF is specified as 'use first refittable' */
ei->cargo_type = CT_INVALID;
} else if (_cur.grffile->grf_version >= 8) {
/* Use translated cargo. Might result in CT_INVALID (first refittable), if cargo is not defined. */
ei->cargo_type = GetCargoTranslation(ctype, _cur.grffile);
} else if (ctype < NUM_CARGO) {
/* Use untranslated cargo. */
ei->cargo_type = ctype;
} else {
ei->cargo_type = CT_INVALID;
grfmsg(2, "RailVehicleChangeInfo: Invalid cargo type %d, using first refittable", ctype);
}
break;
}
case PROP_TRAIN_WEIGHT: // 0x16 Weight
SB(rvi->weight, 0, 8, buf->ReadByte());
break;
case PROP_TRAIN_COST_FACTOR: // 0x17 Cost factor
rvi->cost_factor = buf->ReadByte();
break;
case 0x18: // AI rank
grfmsg(2, "RailVehicleChangeInfo: Property 0x18 'AI rank' not used by NoAI, ignored.");
buf->ReadByte();
break;
case 0x19: { // Engine traction type
/* What do the individual numbers mean?
* 0x00 .. 0x07: Steam
* 0x08 .. 0x27: Diesel
* 0x28 .. 0x31: Electric
* 0x32 .. 0x37: Monorail
* 0x38 .. 0x41: Maglev
*/
uint8 traction = buf->ReadByte();
EngineClass engclass;
if (traction <= 0x07) {
engclass = EC_STEAM;
} else if (traction <= 0x27) {
engclass = EC_DIESEL;
} else if (traction <= 0x31) {
engclass = EC_ELECTRIC;
} else if (traction <= 0x37) {
engclass = EC_MONORAIL;
} else if (traction <= 0x41) {
engclass = EC_MAGLEV;
} else {
break;
}
if (_cur.grffile->railtype_list.size() == 0) {
/* Use traction type to select between normal and electrified
* rail only when no translation list is in place. */
if (_gted[e->index].railtypelabel == RAILTYPE_RAIL_LABEL && engclass >= EC_ELECTRIC) _gted[e->index].railtypelabel = RAILTYPE_ELECTRIC_LABEL;
if (_gted[e->index].railtypelabel == RAILTYPE_ELECTRIC_LABEL && engclass < EC_ELECTRIC) _gted[e->index].railtypelabel = RAILTYPE_RAIL_LABEL;
}
rvi->engclass = engclass;
break;
}
case 0x1A: // Alter purchase list sort order
AlterVehicleListOrder(e->index, buf->ReadExtendedByte());
break;
case 0x1B: // Powered wagons power bonus
rvi->pow_wag_power = buf->ReadWord();
break;
case 0x1C: // Refit cost
ei->refit_cost = buf->ReadByte();
break;
case 0x1D: { // Refit cargo
uint32 mask = buf->ReadDWord();
_gted[e->index].UpdateRefittability(mask != 0);
ei->refit_mask = TranslateRefitMask(mask);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
}
case 0x1E: // Callback
ei->callback_mask = buf->ReadByte();
break;
case PROP_TRAIN_TRACTIVE_EFFORT: // 0x1F Tractive effort coefficient
rvi->tractive_effort = buf->ReadByte();
break;
case 0x20: // Air drag
rvi->air_drag = buf->ReadByte();
break;
case PROP_TRAIN_SHORTEN_FACTOR: // 0x21 Shorter vehicle
rvi->shorten_factor = buf->ReadByte();
break;
case 0x22: // Visual effect
rvi->visual_effect = buf->ReadByte();
/* Avoid accidentally setting visual_effect to the default value
* Since bit 6 (disable effects) is set anyways, we can safely erase some bits. */
if (rvi->visual_effect == VE_DEFAULT) {
assert(HasBit(rvi->visual_effect, VE_DISABLE_EFFECT));
SB(rvi->visual_effect, VE_TYPE_START, VE_TYPE_COUNT, 0);
}
break;
case 0x23: // Powered wagons weight bonus
rvi->pow_wag_weight = buf->ReadByte();
break;
case 0x24: { // High byte of vehicle weight
byte weight = buf->ReadByte();
if (weight > 4) {
grfmsg(2, "RailVehicleChangeInfo: Nonsensical weight of %d tons, ignoring", weight << 8);
} else {
SB(rvi->weight, 8, 8, weight);
}
break;
}
case PROP_TRAIN_USER_DATA: // 0x25 User-defined bit mask to set when checking veh. var. 42
rvi->user_def_data = buf->ReadByte();
break;
case 0x26: // Retire vehicle early
ei->retire_early = buf->ReadByte();
break;
case 0x27: // Miscellaneous flags
ei->misc_flags = buf->ReadByte();
_loaded_newgrf_features.has_2CC |= HasBit(ei->misc_flags, EF_USES_2CC);
_gted[e->index].prop27_set = true;
break;
case 0x28: // Cargo classes allowed
_gted[e->index].cargo_allowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(_gted[e->index].cargo_allowed != 0);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
case 0x29: // Cargo classes disallowed
_gted[e->index].cargo_disallowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(false);
break;
case 0x2A: // Long format introduction date (days since year 0)
ei->base_intro = buf->ReadDWord();
break;
case PROP_TRAIN_CARGO_AGE_PERIOD: // 0x2B Cargo aging period
ei->cargo_age_period = buf->ReadWord();
break;
case 0x2C: // CTT refit include list
case 0x2D: { // CTT refit exclude list
uint8 count = buf->ReadByte();
_gted[e->index].UpdateRefittability(prop == 0x2C && count != 0);
if (prop == 0x2C) _gted[e->index].defaultcargo_grf = _cur.grffile;
CargoTypes &ctt = prop == 0x2C ? _gted[e->index].ctt_include_mask : _gted[e->index].ctt_exclude_mask;
ctt = 0;
while (count--) {
CargoID ctype = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
if (ctype == CT_INVALID) continue;
SetBit(ctt, ctype);
}
break;
}
default:
ret = CommonVehicleChangeInfo(ei, prop, buf);
break;
}
}
return ret;
}
/**
* Define properties for road vehicles
* @param engine Local ID of the first vehicle.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult RoadVehicleChangeInfo(uint engine, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
for (int i = 0; i < numinfo; i++) {
Engine *e = GetNewEngine(_cur.grffile, VEH_ROAD, engine + i);
if (e == nullptr) return CIR_INVALID_ID; // No engine could be allocated, so neither can any next vehicles
EngineInfo *ei = &e->info;
RoadVehicleInfo *rvi = &e->u.road;
switch (prop) {
case 0x05: // Road/tram type
/* RoadTypeLabel is looked up later after the engine's road/tram
* flag is set, however 0 means the value has not been set. */
_gted[e->index].roadtramtype = buf->ReadByte() + 1;
break;
case 0x08: // Speed (1 unit is 0.5 kmh)
rvi->max_speed = buf->ReadByte();
break;
case PROP_ROADVEH_RUNNING_COST_FACTOR: // 0x09 Running cost factor
rvi->running_cost = buf->ReadByte();
break;
case 0x0A: // Running cost base
ConvertTTDBasePrice(buf->ReadDWord(), "RoadVehicleChangeInfo", &rvi->running_cost_class);
break;
case 0x0E: { // Sprite ID
uint8 spriteid = buf->ReadByte();
uint8 orig_spriteid = spriteid;
/* cars have different custom id in the GRF file */
if (spriteid == 0xFF) spriteid = 0xFD;
if (spriteid < 0xFD) spriteid >>= 1;
if (IsValidNewGRFImageIndex(spriteid)) {
rvi->image_index = spriteid;
} else {
grfmsg(1, "RoadVehicleChangeInfo: Invalid Sprite %d specified, ignoring", orig_spriteid);
rvi->image_index = 0;
}
break;
}
case PROP_ROADVEH_CARGO_CAPACITY: // 0x0F Cargo capacity
rvi->capacity = buf->ReadByte();
break;
case 0x10: { // Cargo type
_gted[e->index].defaultcargo_grf = _cur.grffile;
uint8 ctype = buf->ReadByte();
if (ctype == 0xFF) {
/* 0xFF is specified as 'use first refittable' */
ei->cargo_type = CT_INVALID;
} else if (_cur.grffile->grf_version >= 8) {
/* Use translated cargo. Might result in CT_INVALID (first refittable), if cargo is not defined. */
ei->cargo_type = GetCargoTranslation(ctype, _cur.grffile);
} else if (ctype < NUM_CARGO) {
/* Use untranslated cargo. */
ei->cargo_type = ctype;
} else {
ei->cargo_type = CT_INVALID;
grfmsg(2, "RailVehicleChangeInfo: Invalid cargo type %d, using first refittable", ctype);
}
break;
}
case PROP_ROADVEH_COST_FACTOR: // 0x11 Cost factor
rvi->cost_factor = buf->ReadByte();
break;
case 0x12: // SFX
rvi->sfx = GetNewGRFSoundID(_cur.grffile, buf->ReadByte());
break;
case PROP_ROADVEH_POWER: // Power in units of 10 HP.
rvi->power = buf->ReadByte();
break;
case PROP_ROADVEH_WEIGHT: // Weight in units of 1/4 tons.
rvi->weight = buf->ReadByte();
break;
case PROP_ROADVEH_SPEED: // Speed in mph/0.8
_gted[e->index].rv_max_speed = buf->ReadByte();
break;
case 0x16: { // Cargoes available for refitting
uint32 mask = buf->ReadDWord();
_gted[e->index].UpdateRefittability(mask != 0);
ei->refit_mask = TranslateRefitMask(mask);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
}
case 0x17: // Callback mask
ei->callback_mask = buf->ReadByte();
break;
case PROP_ROADVEH_TRACTIVE_EFFORT: // Tractive effort coefficient in 1/256.
rvi->tractive_effort = buf->ReadByte();
break;
case 0x19: // Air drag
rvi->air_drag = buf->ReadByte();
break;
case 0x1A: // Refit cost
ei->refit_cost = buf->ReadByte();
break;
case 0x1B: // Retire vehicle early
ei->retire_early = buf->ReadByte();
break;
case 0x1C: // Miscellaneous flags
ei->misc_flags = buf->ReadByte();
_loaded_newgrf_features.has_2CC |= HasBit(ei->misc_flags, EF_USES_2CC);
break;
case 0x1D: // Cargo classes allowed
_gted[e->index].cargo_allowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(_gted[e->index].cargo_allowed != 0);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
case 0x1E: // Cargo classes disallowed
_gted[e->index].cargo_disallowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(false);
break;
case 0x1F: // Long format introduction date (days since year 0)
ei->base_intro = buf->ReadDWord();
break;
case 0x20: // Alter purchase list sort order
AlterVehicleListOrder(e->index, buf->ReadExtendedByte());
break;
case 0x21: // Visual effect
rvi->visual_effect = buf->ReadByte();
/* Avoid accidentally setting visual_effect to the default value
* Since bit 6 (disable effects) is set anyways, we can safely erase some bits. */
if (rvi->visual_effect == VE_DEFAULT) {
assert(HasBit(rvi->visual_effect, VE_DISABLE_EFFECT));
SB(rvi->visual_effect, VE_TYPE_START, VE_TYPE_COUNT, 0);
}
break;
case PROP_ROADVEH_CARGO_AGE_PERIOD: // 0x22 Cargo aging period
ei->cargo_age_period = buf->ReadWord();
break;
case PROP_ROADVEH_SHORTEN_FACTOR: // 0x23 Shorter vehicle
rvi->shorten_factor = buf->ReadByte();
break;
case 0x24: // CTT refit include list
case 0x25: { // CTT refit exclude list
uint8 count = buf->ReadByte();
_gted[e->index].UpdateRefittability(prop == 0x24 && count != 0);
if (prop == 0x24) _gted[e->index].defaultcargo_grf = _cur.grffile;
CargoTypes &ctt = prop == 0x24 ? _gted[e->index].ctt_include_mask : _gted[e->index].ctt_exclude_mask;
ctt = 0;
while (count--) {
CargoID ctype = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
if (ctype == CT_INVALID) continue;
SetBit(ctt, ctype);
}
break;
}
default:
ret = CommonVehicleChangeInfo(ei, prop, buf);
break;
}
}
return ret;
}
/**
* Define properties for ships
* @param engine Local ID of the first vehicle.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult ShipVehicleChangeInfo(uint engine, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
for (int i = 0; i < numinfo; i++) {
Engine *e = GetNewEngine(_cur.grffile, VEH_SHIP, engine + i);
if (e == nullptr) return CIR_INVALID_ID; // No engine could be allocated, so neither can any next vehicles
EngineInfo *ei = &e->info;
ShipVehicleInfo *svi = &e->u.ship;
switch (prop) {
case 0x08: { // Sprite ID
uint8 spriteid = buf->ReadByte();
uint8 orig_spriteid = spriteid;
/* ships have different custom id in the GRF file */
if (spriteid == 0xFF) spriteid = 0xFD;
if (spriteid < 0xFD) spriteid >>= 1;
if (IsValidNewGRFImageIndex(spriteid)) {
svi->image_index = spriteid;
} else {
grfmsg(1, "ShipVehicleChangeInfo: Invalid Sprite %d specified, ignoring", orig_spriteid);
svi->image_index = 0;
}
break;
}
case 0x09: // Refittable
svi->old_refittable = (buf->ReadByte() != 0);
break;
case PROP_SHIP_COST_FACTOR: // 0x0A Cost factor
svi->cost_factor = buf->ReadByte();
break;
case PROP_SHIP_SPEED: // 0x0B Speed (1 unit is 0.5 km-ish/h)
svi->max_speed = buf->ReadByte();
break;
case 0x0C: { // Cargo type
_gted[e->index].defaultcargo_grf = _cur.grffile;
uint8 ctype = buf->ReadByte();
if (ctype == 0xFF) {
/* 0xFF is specified as 'use first refittable' */
ei->cargo_type = CT_INVALID;
} else if (_cur.grffile->grf_version >= 8) {
/* Use translated cargo. Might result in CT_INVALID (first refittable), if cargo is not defined. */
ei->cargo_type = GetCargoTranslation(ctype, _cur.grffile);
} else if (ctype < NUM_CARGO) {
/* Use untranslated cargo. */
ei->cargo_type = ctype;
} else {
ei->cargo_type = CT_INVALID;
grfmsg(2, "RailVehicleChangeInfo: Invalid cargo type %d, using first refittable", ctype);
}
break;
}
case PROP_SHIP_CARGO_CAPACITY: // 0x0D Cargo capacity
svi->capacity = buf->ReadWord();
break;
case PROP_SHIP_RUNNING_COST_FACTOR: // 0x0F Running cost factor
svi->running_cost = buf->ReadByte();
break;
case 0x10: // SFX
svi->sfx = GetNewGRFSoundID(_cur.grffile, buf->ReadByte());
break;
case 0x11: { // Cargoes available for refitting
uint32 mask = buf->ReadDWord();
_gted[e->index].UpdateRefittability(mask != 0);
ei->refit_mask = TranslateRefitMask(mask);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
}
case 0x12: // Callback mask
ei->callback_mask = buf->ReadByte();
break;
case 0x13: // Refit cost
ei->refit_cost = buf->ReadByte();
break;
case 0x14: // Ocean speed fraction
svi->ocean_speed_frac = buf->ReadByte();
break;
case 0x15: // Canal speed fraction
svi->canal_speed_frac = buf->ReadByte();
break;
case 0x16: // Retire vehicle early
ei->retire_early = buf->ReadByte();
break;
case 0x17: // Miscellaneous flags
ei->misc_flags = buf->ReadByte();
_loaded_newgrf_features.has_2CC |= HasBit(ei->misc_flags, EF_USES_2CC);
break;
case 0x18: // Cargo classes allowed
_gted[e->index].cargo_allowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(_gted[e->index].cargo_allowed != 0);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
case 0x19: // Cargo classes disallowed
_gted[e->index].cargo_disallowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(false);
break;
case 0x1A: // Long format introduction date (days since year 0)
ei->base_intro = buf->ReadDWord();
break;
case 0x1B: // Alter purchase list sort order
AlterVehicleListOrder(e->index, buf->ReadExtendedByte());
break;
case 0x1C: // Visual effect
svi->visual_effect = buf->ReadByte();
/* Avoid accidentally setting visual_effect to the default value
* Since bit 6 (disable effects) is set anyways, we can safely erase some bits. */
if (svi->visual_effect == VE_DEFAULT) {
assert(HasBit(svi->visual_effect, VE_DISABLE_EFFECT));
SB(svi->visual_effect, VE_TYPE_START, VE_TYPE_COUNT, 0);
}
break;
case PROP_SHIP_CARGO_AGE_PERIOD: // 0x1D Cargo aging period
ei->cargo_age_period = buf->ReadWord();
break;
case 0x1E: // CTT refit include list
case 0x1F: { // CTT refit exclude list
uint8 count = buf->ReadByte();
_gted[e->index].UpdateRefittability(prop == 0x1E && count != 0);
if (prop == 0x1E) _gted[e->index].defaultcargo_grf = _cur.grffile;
CargoTypes &ctt = prop == 0x1E ? _gted[e->index].ctt_include_mask : _gted[e->index].ctt_exclude_mask;
ctt = 0;
while (count--) {
CargoID ctype = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
if (ctype == CT_INVALID) continue;
SetBit(ctt, ctype);
}
break;
}
default:
ret = CommonVehicleChangeInfo(ei, prop, buf);
break;
}
}
return ret;
}
/**
* Define properties for aircraft
* @param engine Local ID of the aircraft.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult AircraftVehicleChangeInfo(uint engine, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
for (int i = 0; i < numinfo; i++) {
Engine *e = GetNewEngine(_cur.grffile, VEH_AIRCRAFT, engine + i);
if (e == nullptr) return CIR_INVALID_ID; // No engine could be allocated, so neither can any next vehicles
EngineInfo *ei = &e->info;
AircraftVehicleInfo *avi = &e->u.air;
switch (prop) {
case 0x08: { // Sprite ID
uint8 spriteid = buf->ReadByte();
uint8 orig_spriteid = spriteid;
/* aircraft have different custom id in the GRF file */
if (spriteid == 0xFF) spriteid = 0xFD;
if (spriteid < 0xFD) spriteid >>= 1;
if (IsValidNewGRFImageIndex(spriteid)) {
avi->image_index = spriteid;
} else {
grfmsg(1, "AircraftVehicleChangeInfo: Invalid Sprite %d specified, ignoring", orig_spriteid);
avi->image_index = 0;
}
break;
}
case 0x09: // Helicopter
if (buf->ReadByte() == 0) {
avi->subtype = AIR_HELI;
} else {
SB(avi->subtype, 0, 1, 1); // AIR_CTOL
}
break;
case 0x0A: // Large
SB(avi->subtype, 1, 1, (buf->ReadByte() != 0 ? 1 : 0)); // AIR_FAST
break;
case PROP_AIRCRAFT_COST_FACTOR: // 0x0B Cost factor
avi->cost_factor = buf->ReadByte();
break;
case PROP_AIRCRAFT_SPEED: // 0x0C Speed (1 unit is 8 mph, we translate to 1 unit is 1 km-ish/h)
avi->max_speed = (buf->ReadByte() * 128) / 10;
break;
case 0x0D: // Acceleration
avi->acceleration = buf->ReadByte();
break;
case PROP_AIRCRAFT_RUNNING_COST_FACTOR: // 0x0E Running cost factor
avi->running_cost = buf->ReadByte();
break;
case PROP_AIRCRAFT_PASSENGER_CAPACITY: // 0x0F Passenger capacity
avi->passenger_capacity = buf->ReadWord();
break;
case PROP_AIRCRAFT_MAIL_CAPACITY: // 0x11 Mail capacity
avi->mail_capacity = buf->ReadByte();
break;
case 0x12: // SFX
avi->sfx = GetNewGRFSoundID(_cur.grffile, buf->ReadByte());
break;
case 0x13: { // Cargoes available for refitting
uint32 mask = buf->ReadDWord();
_gted[e->index].UpdateRefittability(mask != 0);
ei->refit_mask = TranslateRefitMask(mask);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
}
case 0x14: // Callback mask
ei->callback_mask = buf->ReadByte();
break;
case 0x15: // Refit cost
ei->refit_cost = buf->ReadByte();
break;
case 0x16: // Retire vehicle early
ei->retire_early = buf->ReadByte();
break;
case 0x17: // Miscellaneous flags
ei->misc_flags = buf->ReadByte();
_loaded_newgrf_features.has_2CC |= HasBit(ei->misc_flags, EF_USES_2CC);
break;
case 0x18: // Cargo classes allowed
_gted[e->index].cargo_allowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(_gted[e->index].cargo_allowed != 0);
_gted[e->index].defaultcargo_grf = _cur.grffile;
break;
case 0x19: // Cargo classes disallowed
_gted[e->index].cargo_disallowed = buf->ReadWord();
_gted[e->index].UpdateRefittability(false);
break;
case 0x1A: // Long format introduction date (days since year 0)
ei->base_intro = buf->ReadDWord();
break;
case 0x1B: // Alter purchase list sort order
AlterVehicleListOrder(e->index, buf->ReadExtendedByte());
break;
case PROP_AIRCRAFT_CARGO_AGE_PERIOD: // 0x1C Cargo aging period
ei->cargo_age_period = buf->ReadWord();
break;
case 0x1D: // CTT refit include list
case 0x1E: { // CTT refit exclude list
uint8 count = buf->ReadByte();
_gted[e->index].UpdateRefittability(prop == 0x1D && count != 0);
if (prop == 0x1D) _gted[e->index].defaultcargo_grf = _cur.grffile;
CargoTypes &ctt = prop == 0x1D ? _gted[e->index].ctt_include_mask : _gted[e->index].ctt_exclude_mask;
ctt = 0;
while (count--) {
CargoID ctype = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
if (ctype == CT_INVALID) continue;
SetBit(ctt, ctype);
}
break;
}
case PROP_AIRCRAFT_RANGE: // 0x1F Max aircraft range
avi->max_range = buf->ReadWord();
break;
default:
ret = CommonVehicleChangeInfo(ei, prop, buf);
break;
}
}
return ret;
}
/**
* Define properties for stations
* @param stid StationID of the first station tile.
* @param numinfo Number of subsequent station tiles to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult StationChangeInfo(uint stid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (stid + numinfo > NUM_STATIONS_PER_GRF) {
grfmsg(1, "StationChangeInfo: Station %u is invalid, max %u, ignoring", stid + numinfo, NUM_STATIONS_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate station specs if necessary */
if (_cur.grffile->stations == nullptr) _cur.grffile->stations = CallocT(NUM_STATIONS_PER_GRF);
for (int i = 0; i < numinfo; i++) {
StationSpec *statspec = _cur.grffile->stations[stid + i];
/* Check that the station we are modifying is defined. */
if (statspec == nullptr && prop != 0x08) {
grfmsg(2, "StationChangeInfo: Attempt to modify undefined station %u, ignoring", stid + i);
return CIR_INVALID_ID;
}
switch (prop) {
case 0x08: { // Class ID
StationSpec **spec = &_cur.grffile->stations[stid + i];
/* Property 0x08 is special; it is where the station is allocated */
if (*spec == nullptr) *spec = new StationSpec();
/* Swap classid because we read it in BE meaning WAYP or DFLT */
uint32 classid = buf->ReadDWord();
(*spec)->cls_id = StationClass::Allocate(BSWAP32(classid));
break;
}
case 0x09: { // Define sprite layout
uint16 tiles = buf->ReadExtendedByte();
statspec->renderdata.clear(); // delete earlier loaded stuff
statspec->renderdata.reserve(tiles);
for (uint t = 0; t < tiles; t++) {
NewGRFSpriteLayout *dts = &statspec->renderdata.emplace_back();
dts->consistent_max_offset = UINT16_MAX; // Spritesets are unknown, so no limit.
if (buf->HasData(4) && *(uint32*)buf->Data() == 0) {
buf->Skip(4);
extern const DrawTileSprites _station_display_datas_rail[8];
dts->Clone(&_station_display_datas_rail[t % 8]);
continue;
}
ReadSpriteLayoutSprite(buf, false, false, false, GSF_STATIONS, &dts->ground);
/* On error, bail out immediately. Temporary GRF data was already freed */
if (_cur.skip_sprites < 0) return CIR_DISABLED;
static std::vector tmp_layout;
tmp_layout.clear();
for (;;) {
/* no relative bounding box support */
DrawTileSeqStruct &dtss = tmp_layout.emplace_back();
MemSetT(&dtss, 0);
dtss.delta_x = buf->ReadByte();
if (dtss.IsTerminator()) break;
dtss.delta_y = buf->ReadByte();
dtss.delta_z = buf->ReadByte();
dtss.size_x = buf->ReadByte();
dtss.size_y = buf->ReadByte();
dtss.size_z = buf->ReadByte();
ReadSpriteLayoutSprite(buf, false, true, false, GSF_STATIONS, &dtss.image);
/* On error, bail out immediately. Temporary GRF data was already freed */
if (_cur.skip_sprites < 0) return CIR_DISABLED;
}
dts->Clone(tmp_layout.data());
}
break;
}
case 0x0A: { // Copy sprite layout
byte srcid = buf->ReadByte();
const StationSpec *srcstatspec = _cur.grffile->stations[srcid];
if (srcstatspec == nullptr) {
grfmsg(1, "StationChangeInfo: Station %u is not defined, cannot copy sprite layout to %u.", srcid, stid + i);
continue;
}
statspec->renderdata.clear(); // delete earlier loaded stuff
statspec->renderdata.reserve(srcstatspec->renderdata.size());
for (const auto &it : srcstatspec->renderdata) {
NewGRFSpriteLayout *dts = &statspec->renderdata.emplace_back();
dts->Clone(&it);
}
break;
}
case 0x0B: // Callback mask
statspec->callback_mask = buf->ReadByte();
break;
case 0x0C: // Disallowed number of platforms
statspec->disallowed_platforms = buf->ReadByte();
break;
case 0x0D: // Disallowed platform lengths
statspec->disallowed_lengths = buf->ReadByte();
break;
case 0x0E: // Define custom layout
while (buf->HasData()) {
byte length = buf->ReadByte();
byte number = buf->ReadByte();
if (length == 0 || number == 0) break;
if (statspec->layouts.size() < length) statspec->layouts.resize(length);
if (statspec->layouts[length - 1].size() < number) statspec->layouts[length - 1].resize(number);
const byte *layout = buf->ReadBytes(length * number);
statspec->layouts[length - 1][number - 1].assign(layout, layout + length * number);
/* Validate tile values are only the permitted 00, 02, 04 and 06. */
for (auto &tile : statspec->layouts[length - 1][number - 1]) {
if ((tile & 6) != tile) {
grfmsg(1, "StationChangeInfo: Invalid tile %u in layout %ux%u", tile, length, number);
tile &= 6;
}
}
}
break;
case 0x0F: { // Copy custom layout
byte srcid = buf->ReadByte();
const StationSpec *srcstatspec = _cur.grffile->stations[srcid];
if (srcstatspec == nullptr) {
grfmsg(1, "StationChangeInfo: Station %u is not defined, cannot copy tile layout to %u.", srcid, stid + i);
continue;
}
statspec->layouts = srcstatspec->layouts;
break;
}
case 0x10: // Little/lots cargo threshold
statspec->cargo_threshold = buf->ReadWord();
break;
case 0x11: // Pylon placement
statspec->pylons = buf->ReadByte();
break;
case 0x12: // Cargo types for random triggers
if (_cur.grffile->grf_version >= 7) {
statspec->cargo_triggers = TranslateRefitMask(buf->ReadDWord());
} else {
statspec->cargo_triggers = (CargoTypes)buf->ReadDWord();
}
break;
case 0x13: // General flags
statspec->flags = buf->ReadByte();
break;
case 0x14: // Overhead wire placement
statspec->wires = buf->ReadByte();
break;
case 0x15: // Blocked tiles
statspec->blocked = buf->ReadByte();
break;
case 0x16: // Animation info
statspec->animation.frames = buf->ReadByte();
statspec->animation.status = buf->ReadByte();
break;
case 0x17: // Animation speed
statspec->animation.speed = buf->ReadByte();
break;
case 0x18: // Animation triggers
statspec->animation.triggers = buf->ReadWord();
break;
case 0x1A: { // Advanced sprite layout
uint16 tiles = buf->ReadExtendedByte();
statspec->renderdata.clear(); // delete earlier loaded stuff
statspec->renderdata.reserve(tiles);
for (uint t = 0; t < tiles; t++) {
NewGRFSpriteLayout *dts = &statspec->renderdata.emplace_back();
uint num_building_sprites = buf->ReadByte();
/* On error, bail out immediately. Temporary GRF data was already freed */
if (ReadSpriteLayout(buf, num_building_sprites, false, GSF_STATIONS, true, false, dts)) return CIR_DISABLED;
}
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Define properties for water features
* @param id Type of the first water feature.
* @param numinfo Number of subsequent water feature ids to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult CanalChangeInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (id + numinfo > CF_END) {
grfmsg(1, "CanalChangeInfo: Canal feature 0x%02X is invalid, max %u, ignoring", id + numinfo, CF_END);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
CanalProperties *cp = &_cur.grffile->canal_local_properties[id + i];
switch (prop) {
case 0x08:
cp->callback_mask = buf->ReadByte();
break;
case 0x09:
cp->flags = buf->ReadByte();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Define properties for bridges
* @param brid BridgeID of the bridge.
* @param numinfo Number of subsequent bridgeIDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult BridgeChangeInfo(uint brid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (brid + numinfo > MAX_BRIDGES) {
grfmsg(1, "BridgeChangeInfo: Bridge %u is invalid, max %u, ignoring", brid + numinfo, MAX_BRIDGES);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
BridgeSpec *bridge = &_bridge[brid + i];
switch (prop) {
case 0x08: { // Year of availability
/* We treat '0' as always available */
byte year = buf->ReadByte();
bridge->avail_year = (year > 0 ? ORIGINAL_BASE_YEAR + year : 0);
break;
}
case 0x09: // Minimum length
bridge->min_length = buf->ReadByte();
break;
case 0x0A: // Maximum length
bridge->max_length = buf->ReadByte();
if (bridge->max_length > 16) bridge->max_length = 0xFFFF;
break;
case 0x0B: // Cost factor
bridge->price = buf->ReadByte();
break;
case 0x0C: // Maximum speed
bridge->speed = buf->ReadWord();
break;
case 0x0D: { // Bridge sprite tables
byte tableid = buf->ReadByte();
byte numtables = buf->ReadByte();
if (bridge->sprite_table == nullptr) {
/* Allocate memory for sprite table pointers and zero out */
bridge->sprite_table = CallocT(7);
}
for (; numtables-- != 0; tableid++) {
if (tableid >= 7) { // skip invalid data
grfmsg(1, "BridgeChangeInfo: Table %d >= 7, skipping", tableid);
for (byte sprite = 0; sprite < 32; sprite++) buf->ReadDWord();
continue;
}
if (bridge->sprite_table[tableid] == nullptr) {
bridge->sprite_table[tableid] = MallocT(32);
}
for (byte sprite = 0; sprite < 32; sprite++) {
SpriteID image = buf->ReadWord();
PaletteID pal = buf->ReadWord();
bridge->sprite_table[tableid][sprite].sprite = image;
bridge->sprite_table[tableid][sprite].pal = pal;
MapSpriteMappingRecolour(&bridge->sprite_table[tableid][sprite]);
}
}
break;
}
case 0x0E: // Flags; bit 0 - disable far pillars
bridge->flags = buf->ReadByte();
break;
case 0x0F: // Long format year of availability (year since year 0)
bridge->avail_year = Clamp(buf->ReadDWord(), MIN_YEAR, MAX_YEAR);
break;
case 0x10: { // purchase string
StringID newone = GetGRFStringID(_cur.grffile->grfid, buf->ReadWord());
if (newone != STR_UNDEFINED) bridge->material = newone;
break;
}
case 0x11: // description of bridge with rails or roads
case 0x12: {
StringID newone = GetGRFStringID(_cur.grffile->grfid, buf->ReadWord());
if (newone != STR_UNDEFINED) bridge->transport_name[prop - 0x11] = newone;
break;
}
case 0x13: // 16 bits cost multiplier
bridge->price = buf->ReadWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Ignore a house property
* @param prop Property to read.
* @param buf Property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult IgnoreTownHouseProperty(int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
switch (prop) {
case 0x09:
case 0x0B:
case 0x0C:
case 0x0D:
case 0x0E:
case 0x0F:
case 0x11:
case 0x14:
case 0x15:
case 0x16:
case 0x18:
case 0x19:
case 0x1A:
case 0x1B:
case 0x1C:
case 0x1D:
case 0x1F:
buf->ReadByte();
break;
case 0x0A:
case 0x10:
case 0x12:
case 0x13:
case 0x21:
case 0x22:
buf->ReadWord();
break;
case 0x1E:
buf->ReadDWord();
break;
case 0x17:
for (uint j = 0; j < 4; j++) buf->ReadByte();
break;
case 0x20: {
byte count = buf->ReadByte();
for (byte j = 0; j < count; j++) buf->ReadByte();
break;
}
case 0x23:
buf->Skip(buf->ReadByte() * 2);
break;
default:
ret = CIR_UNKNOWN;
break;
}
return ret;
}
/**
* Define properties for houses
* @param hid HouseID of the house.
* @param numinfo Number of subsequent houseIDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult TownHouseChangeInfo(uint hid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (hid + numinfo > NUM_HOUSES_PER_GRF) {
grfmsg(1, "TownHouseChangeInfo: Too many houses loaded (%u), max (%u). Ignoring.", hid + numinfo, NUM_HOUSES_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate house specs if they haven't been allocated already. */
if (_cur.grffile->housespec == nullptr) {
_cur.grffile->housespec = CallocT(NUM_HOUSES_PER_GRF);
}
for (int i = 0; i < numinfo; i++) {
HouseSpec *housespec = _cur.grffile->housespec[hid + i];
if (prop != 0x08 && housespec == nullptr) {
/* If the house property 08 is not yet set, ignore this property */
ChangeInfoResult cir = IgnoreTownHouseProperty(prop, buf);
if (cir > ret) ret = cir;
continue;
}
switch (prop) {
case 0x08: { // Substitute building type, and definition of a new house
HouseSpec **house = &_cur.grffile->housespec[hid + i];
byte subs_id = buf->ReadByte();
if (subs_id == 0xFF) {
/* Instead of defining a new house, a substitute house id
* of 0xFF disables the old house with the current id. */
HouseSpec::Get(hid + i)->enabled = false;
continue;
} else if (subs_id >= NEW_HOUSE_OFFSET) {
/* The substitute id must be one of the original houses. */
grfmsg(2, "TownHouseChangeInfo: Attempt to use new house %u as substitute house for %u. Ignoring.", subs_id, hid + i);
continue;
}
/* Allocate space for this house. */
if (*house == nullptr) *house = CallocT(1);
housespec = *house;
MemCpyT(housespec, HouseSpec::Get(subs_id));
housespec->enabled = true;
housespec->grf_prop.local_id = hid + i;
housespec->grf_prop.subst_id = subs_id;
housespec->grf_prop.grffile = _cur.grffile;
housespec->random_colour[0] = 0x04; // those 4 random colours are the base colour
housespec->random_colour[1] = 0x08; // for all new houses
housespec->random_colour[2] = 0x0C; // they stand for red, blue, orange and green
housespec->random_colour[3] = 0x06;
/* Make sure that the third cargo type is valid in this
* climate. This can cause problems when copying the properties
* of a house that accepts food, where the new house is valid
* in the temperate climate. */
if (!CargoSpec::Get(housespec->accepts_cargo[2])->IsValid()) {
housespec->cargo_acceptance[2] = 0;
}
break;
}
case 0x09: // Building flags
housespec->building_flags = (BuildingFlags)buf->ReadByte();
break;
case 0x0A: { // Availability years
uint16 years = buf->ReadWord();
housespec->min_year = GB(years, 0, 8) > 150 ? MAX_YEAR : ORIGINAL_BASE_YEAR + GB(years, 0, 8);
housespec->max_year = GB(years, 8, 8) > 150 ? MAX_YEAR : ORIGINAL_BASE_YEAR + GB(years, 8, 8);
break;
}
case 0x0B: // Population
housespec->population = buf->ReadByte();
break;
case 0x0C: // Mail generation multiplier
housespec->mail_generation = buf->ReadByte();
break;
case 0x0D: // Passenger acceptance
case 0x0E: // Mail acceptance
housespec->cargo_acceptance[prop - 0x0D] = buf->ReadByte();
break;
case 0x0F: { // Goods/candy, food/fizzy drinks acceptance
int8 goods = buf->ReadByte();
/* If value of goods is negative, it means in fact food or, if in toyland, fizzy_drink acceptance.
* Else, we have "standard" 3rd cargo type, goods or candy, for toyland once more */
CargoID cid = (goods >= 0) ? ((_settings_game.game_creation.landscape == LT_TOYLAND) ? CT_CANDY : CT_GOODS) :
((_settings_game.game_creation.landscape == LT_TOYLAND) ? CT_FIZZY_DRINKS : CT_FOOD);
/* Make sure the cargo type is valid in this climate. */
if (!CargoSpec::Get(cid)->IsValid()) goods = 0;
housespec->accepts_cargo[2] = cid;
housespec->cargo_acceptance[2] = abs(goods); // but we do need positive value here
break;
}
case 0x10: // Local authority rating decrease on removal
housespec->remove_rating_decrease = buf->ReadWord();
break;
case 0x11: // Removal cost multiplier
housespec->removal_cost = buf->ReadByte();
break;
case 0x12: // Building name ID
AddStringForMapping(buf->ReadWord(), &housespec->building_name);
break;
case 0x13: // Building availability mask
housespec->building_availability = (HouseZones)buf->ReadWord();
break;
case 0x14: // House callback mask
housespec->callback_mask |= buf->ReadByte();
break;
case 0x15: { // House override byte
byte override = buf->ReadByte();
/* The house being overridden must be an original house. */
if (override >= NEW_HOUSE_OFFSET) {
grfmsg(2, "TownHouseChangeInfo: Attempt to override new house %u with house id %u. Ignoring.", override, hid + i);
continue;
}
_house_mngr.Add(hid + i, _cur.grffile->grfid, override);
break;
}
case 0x16: // Periodic refresh multiplier
housespec->processing_time = std::min(buf->ReadByte(), 63u);
break;
case 0x17: // Four random colours to use
for (uint j = 0; j < 4; j++) housespec->random_colour[j] = buf->ReadByte();
break;
case 0x18: // Relative probability of appearing
housespec->probability = buf->ReadByte();
break;
case 0x19: // Extra flags
housespec->extra_flags = (HouseExtraFlags)buf->ReadByte();
break;
case 0x1A: // Animation frames
housespec->animation.frames = buf->ReadByte();
housespec->animation.status = GB(housespec->animation.frames, 7, 1);
SB(housespec->animation.frames, 7, 1, 0);
break;
case 0x1B: // Animation speed
housespec->animation.speed = Clamp(buf->ReadByte(), 2, 16);
break;
case 0x1C: // Class of the building type
housespec->class_id = AllocateHouseClassID(buf->ReadByte(), _cur.grffile->grfid);
break;
case 0x1D: // Callback mask part 2
housespec->callback_mask |= (buf->ReadByte() << 8);
break;
case 0x1E: { // Accepted cargo types
uint32 cargotypes = buf->ReadDWord();
/* Check if the cargo types should not be changed */
if (cargotypes == 0xFFFFFFFF) break;
for (uint j = 0; j < 3; j++) {
/* Get the cargo number from the 'list' */
uint8 cargo_part = GB(cargotypes, 8 * j, 8);
CargoID cargo = GetCargoTranslation(cargo_part, _cur.grffile);
if (cargo == CT_INVALID) {
/* Disable acceptance of invalid cargo type */
housespec->cargo_acceptance[j] = 0;
} else {
housespec->accepts_cargo[j] = cargo;
}
}
break;
}
case 0x1F: // Minimum life span
housespec->minimum_life = buf->ReadByte();
break;
case 0x20: { // Cargo acceptance watch list
byte count = buf->ReadByte();
for (byte j = 0; j < count; j++) {
CargoID cargo = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
if (cargo != CT_INVALID) SetBit(housespec->watched_cargoes, cargo);
}
break;
}
case 0x21: // long introduction year
housespec->min_year = buf->ReadWord();
break;
case 0x22: // long maximum year
housespec->max_year = buf->ReadWord();
break;
case 0x23: { // variable length cargo types accepted
uint count = buf->ReadByte();
if (count > lengthof(housespec->accepts_cargo)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LIST_PROPERTY_TOO_LONG);
error->param_value[1] = prop;
return CIR_DISABLED;
}
/* Always write the full accepts_cargo array, and check each index for being inside the
* provided data. This ensures all values are properly initialized, and also avoids
* any risks of array overrun. */
for (uint i = 0; i < lengthof(housespec->accepts_cargo); i++) {
if (i < count) {
housespec->accepts_cargo[i] = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
housespec->cargo_acceptance[i] = buf->ReadByte();
} else {
housespec->accepts_cargo[i] = CT_INVALID;
housespec->cargo_acceptance[i] = 0;
}
}
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Get the language map associated with a given NewGRF and language.
* @param grfid The NewGRF to get the map for.
* @param language_id The (NewGRF) language ID to get the map for.
* @return The LanguageMap, or nullptr if it couldn't be found.
*/
/* static */ const LanguageMap *LanguageMap::GetLanguageMap(uint32 grfid, uint8 language_id)
{
/* LanguageID "MAX_LANG", i.e. 7F is any. This language can't have a gender/case mapping, but has to be handled gracefully. */
const GRFFile *grffile = GetFileByGRFID(grfid);
return (grffile != nullptr && grffile->language_map != nullptr && language_id < MAX_LANG) ? &grffile->language_map[language_id] : nullptr;
}
/**
* Load a cargo- or railtype-translation table.
* @param gvid ID of the global variable. This is basically only checked for zerones.
* @param numinfo Number of subsequent IDs to change the property for.
* @param buf The property value.
* @param[in,out] translation_table Storage location for the translation table.
* @param name Name of the table for debug output.
* @return ChangeInfoResult.
*/
template
static ChangeInfoResult LoadTranslationTable(uint gvid, int numinfo, ByteReader *buf, T &translation_table, const char *name)
{
if (gvid != 0) {
grfmsg(1, "LoadTranslationTable: %s translation table must start at zero", name);
return CIR_INVALID_ID;
}
translation_table.clear();
for (int i = 0; i < numinfo; i++) {
uint32 item = buf->ReadDWord();
translation_table.push_back(BSWAP32(item));
}
return CIR_SUCCESS;
}
/**
* Helper to read a DWord worth of bytes from the reader
* and to return it as a valid string.
* @param reader The source of the DWord.
* @return The read DWord as string.
*/
static std::string ReadDWordAsString(ByteReader *reader)
{
char output[5];
for (int i = 0; i < 4; i++) output[i] = reader->ReadByte();
output[4] = '\0';
StrMakeValidInPlace(output, lastof(output));
return std::string(output);
}
/**
* Define properties for global variables
* @param gvid ID of the global variable.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult GlobalVarChangeInfo(uint gvid, int numinfo, int prop, ByteReader *buf)
{
/* Properties which are handled as a whole */
switch (prop) {
case 0x09: // Cargo Translation Table; loading during both reservation and activation stage (in case it is selected depending on defined cargos)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->cargo_list, "Cargo");
case 0x12: // Rail type translation table; loading during both reservation and activation stage (in case it is selected depending on defined railtypes)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->railtype_list, "Rail type");
case 0x16: // Road type translation table; loading during both reservation and activation stage (in case it is selected depending on defined railtypes)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->roadtype_list, "Road type");
case 0x17: // Tram type translation table; loading during both reservation and activation stage (in case it is selected depending on defined railtypes)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->tramtype_list, "Tram type");
default:
break;
}
/* Properties which are handled per item */
ChangeInfoResult ret = CIR_SUCCESS;
for (int i = 0; i < numinfo; i++) {
switch (prop) {
case 0x08: { // Cost base factor
int factor = buf->ReadByte();
uint price = gvid + i;
if (price < PR_END) {
_cur.grffile->price_base_multipliers[price] = std::min(factor - 8, MAX_PRICE_MODIFIER);
} else {
grfmsg(1, "GlobalVarChangeInfo: Price %d out of range, ignoring", price);
}
break;
}
case 0x0A: { // Currency display names
uint curidx = GetNewgrfCurrencyIdConverted(gvid + i);
StringID newone = GetGRFStringID(_cur.grffile->grfid, buf->ReadWord());
if ((newone != STR_UNDEFINED) && (curidx < CURRENCY_END)) {
_currency_specs[curidx].name = newone;
}
break;
}
case 0x0B: { // Currency multipliers
uint curidx = GetNewgrfCurrencyIdConverted(gvid + i);
uint32 rate = buf->ReadDWord();
if (curidx < CURRENCY_END) {
/* TTDPatch uses a multiple of 1000 for its conversion calculations,
* which OTTD does not. For this reason, divide grf value by 1000,
* to be compatible */
_currency_specs[curidx].rate = rate / 1000;
} else {
grfmsg(1, "GlobalVarChangeInfo: Currency multipliers %d out of range, ignoring", curidx);
}
break;
}
case 0x0C: { // Currency options
uint curidx = GetNewgrfCurrencyIdConverted(gvid + i);
uint16 options = buf->ReadWord();
if (curidx < CURRENCY_END) {
_currency_specs[curidx].separator[0] = GB(options, 0, 8);
_currency_specs[curidx].separator[1] = '\0';
/* By specifying only one bit, we prevent errors,
* since newgrf specs said that only 0 and 1 can be set for symbol_pos */
_currency_specs[curidx].symbol_pos = GB(options, 8, 1);
} else {
grfmsg(1, "GlobalVarChangeInfo: Currency option %d out of range, ignoring", curidx);
}
break;
}
case 0x0D: { // Currency prefix symbol
uint curidx = GetNewgrfCurrencyIdConverted(gvid + i);
std::string prefix = ReadDWordAsString(buf);
if (curidx < CURRENCY_END) {
_currency_specs[curidx].prefix = prefix;
} else {
grfmsg(1, "GlobalVarChangeInfo: Currency symbol %d out of range, ignoring", curidx);
}
break;
}
case 0x0E: { // Currency suffix symbol
uint curidx = GetNewgrfCurrencyIdConverted(gvid + i);
std::string suffix = ReadDWordAsString(buf);
if (curidx < CURRENCY_END) {
_currency_specs[curidx].suffix = suffix;
} else {
grfmsg(1, "GlobalVarChangeInfo: Currency symbol %d out of range, ignoring", curidx);
}
break;
}
case 0x0F: { // Euro introduction dates
uint curidx = GetNewgrfCurrencyIdConverted(gvid + i);
Year year_euro = buf->ReadWord();
if (curidx < CURRENCY_END) {
_currency_specs[curidx].to_euro = year_euro;
} else {
grfmsg(1, "GlobalVarChangeInfo: Euro intro date %d out of range, ignoring", curidx);
}
break;
}
case 0x10: // Snow line height table
if (numinfo > 1 || IsSnowLineSet()) {
grfmsg(1, "GlobalVarChangeInfo: The snowline can only be set once (%d)", numinfo);
} else if (buf->Remaining() < SNOW_LINE_MONTHS * SNOW_LINE_DAYS) {
grfmsg(1, "GlobalVarChangeInfo: Not enough entries set in the snowline table (" PRINTF_SIZE ")", buf->Remaining());
} else {
byte table[SNOW_LINE_MONTHS][SNOW_LINE_DAYS];
for (uint i = 0; i < SNOW_LINE_MONTHS; i++) {
for (uint j = 0; j < SNOW_LINE_DAYS; j++) {
table[i][j] = buf->ReadByte();
if (_cur.grffile->grf_version >= 8) {
if (table[i][j] != 0xFF) table[i][j] = table[i][j] * (1 + _settings_game.construction.map_height_limit) / 256;
} else {
if (table[i][j] >= 128) {
/* no snow */
table[i][j] = 0xFF;
} else {
table[i][j] = table[i][j] * (1 + _settings_game.construction.map_height_limit) / 128;
}
}
}
}
SetSnowLine(table);
}
break;
case 0x11: // GRF match for engine allocation
/* This is loaded during the reservation stage, so just skip it here. */
/* Each entry is 8 bytes. */
buf->Skip(8);
break;
case 0x13: // Gender translation table
case 0x14: // Case translation table
case 0x15: { // Plural form translation
uint curidx = gvid + i; // The current index, i.e. language.
const LanguageMetadata *lang = curidx < MAX_LANG ? GetLanguage(curidx) : nullptr;
if (lang == nullptr) {
grfmsg(1, "GlobalVarChangeInfo: Language %d is not known, ignoring", curidx);
/* Skip over the data. */
if (prop == 0x15) {
buf->ReadByte();
} else {
while (buf->ReadByte() != 0) {
buf->ReadString();
}
}
break;
}
if (_cur.grffile->language_map == nullptr) _cur.grffile->language_map = new LanguageMap[MAX_LANG];
if (prop == 0x15) {
uint plural_form = buf->ReadByte();
if (plural_form >= LANGUAGE_MAX_PLURAL) {
grfmsg(1, "GlobalVarChanceInfo: Plural form %d is out of range, ignoring", plural_form);
} else {
_cur.grffile->language_map[curidx].plural_form = plural_form;
}
break;
}
byte newgrf_id = buf->ReadByte(); // The NewGRF (custom) identifier.
while (newgrf_id != 0) {
const char *name = buf->ReadString(); // The name for the OpenTTD identifier.
/* We'll just ignore the UTF8 identifier character. This is (fairly)
* safe as OpenTTD's strings gender/cases are usually in ASCII which
* is just a subset of UTF8, or they need the bigger UTF8 characters
* such as Cyrillic. Thus we will simply assume they're all UTF8. */
WChar c;
size_t len = Utf8Decode(&c, name);
if (c == NFO_UTF8_IDENTIFIER) name += len;
LanguageMap::Mapping map;
map.newgrf_id = newgrf_id;
if (prop == 0x13) {
map.openttd_id = lang->GetGenderIndex(name);
if (map.openttd_id >= MAX_NUM_GENDERS) {
grfmsg(1, "GlobalVarChangeInfo: Gender name %s is not known, ignoring", name);
} else {
_cur.grffile->language_map[curidx].gender_map.push_back(map);
}
} else {
map.openttd_id = lang->GetCaseIndex(name);
if (map.openttd_id >= MAX_NUM_CASES) {
grfmsg(1, "GlobalVarChangeInfo: Case name %s is not known, ignoring", name);
} else {
_cur.grffile->language_map[curidx].case_map.push_back(map);
}
}
newgrf_id = buf->ReadByte();
}
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
static ChangeInfoResult GlobalVarReserveInfo(uint gvid, int numinfo, int prop, ByteReader *buf)
{
/* Properties which are handled as a whole */
switch (prop) {
case 0x09: // Cargo Translation Table; loading during both reservation and activation stage (in case it is selected depending on defined cargos)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->cargo_list, "Cargo");
case 0x12: // Rail type translation table; loading during both reservation and activation stage (in case it is selected depending on defined railtypes)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->railtype_list, "Rail type");
case 0x16: // Road type translation table; loading during both reservation and activation stage (in case it is selected depending on defined roadtypes)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->roadtype_list, "Road type");
case 0x17: // Tram type translation table; loading during both reservation and activation stage (in case it is selected depending on defined tramtypes)
return LoadTranslationTable(gvid, numinfo, buf, _cur.grffile->tramtype_list, "Tram type");
default:
break;
}
/* Properties which are handled per item */
ChangeInfoResult ret = CIR_SUCCESS;
for (int i = 0; i < numinfo; i++) {
switch (prop) {
case 0x08: // Cost base factor
case 0x15: // Plural form translation
buf->ReadByte();
break;
case 0x0A: // Currency display names
case 0x0C: // Currency options
case 0x0F: // Euro introduction dates
buf->ReadWord();
break;
case 0x0B: // Currency multipliers
case 0x0D: // Currency prefix symbol
case 0x0E: // Currency suffix symbol
buf->ReadDWord();
break;
case 0x10: // Snow line height table
buf->Skip(SNOW_LINE_MONTHS * SNOW_LINE_DAYS);
break;
case 0x11: { // GRF match for engine allocation
uint32 s = buf->ReadDWord();
uint32 t = buf->ReadDWord();
SetNewGRFOverride(s, t);
break;
}
case 0x13: // Gender translation table
case 0x14: // Case translation table
while (buf->ReadByte() != 0) {
buf->ReadString();
}
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Define properties for cargoes
* @param cid Local ID of the cargo.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult CargoChangeInfo(uint cid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (cid + numinfo > NUM_CARGO) {
grfmsg(2, "CargoChangeInfo: Cargo type %d out of range (max %d)", cid + numinfo, NUM_CARGO - 1);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
CargoSpec *cs = CargoSpec::Get(cid + i);
switch (prop) {
case 0x08: // Bit number of cargo
cs->bitnum = buf->ReadByte();
if (cs->IsValid()) {
cs->grffile = _cur.grffile;
SetBit(_cargo_mask, cid + i);
} else {
ClrBit(_cargo_mask, cid + i);
}
break;
case 0x09: // String ID for cargo type name
AddStringForMapping(buf->ReadWord(), &cs->name);
break;
case 0x0A: // String for 1 unit of cargo
AddStringForMapping(buf->ReadWord(), &cs->name_single);
break;
case 0x0B: // String for singular quantity of cargo (e.g. 1 tonne of coal)
case 0x1B: // String for cargo units
/* String for units of cargo. This is different in OpenTTD
* (e.g. tonnes) to TTDPatch (e.g. {COMMA} tonne of coal).
* Property 1B is used to set OpenTTD's behaviour. */
AddStringForMapping(buf->ReadWord(), &cs->units_volume);
break;
case 0x0C: // String for plural quantity of cargo (e.g. 10 tonnes of coal)
case 0x1C: // String for any amount of cargo
/* Strings for an amount of cargo. This is different in OpenTTD
* (e.g. {WEIGHT} of coal) to TTDPatch (e.g. {COMMA} tonnes of coal).
* Property 1C is used to set OpenTTD's behaviour. */
AddStringForMapping(buf->ReadWord(), &cs->quantifier);
break;
case 0x0D: // String for two letter cargo abbreviation
AddStringForMapping(buf->ReadWord(), &cs->abbrev);
break;
case 0x0E: // Sprite ID for cargo icon
cs->sprite = buf->ReadWord();
break;
case 0x0F: // Weight of one unit of cargo
cs->weight = buf->ReadByte();
break;
case 0x10: // Used for payment calculation
cs->transit_days[0] = buf->ReadByte();
break;
case 0x11: // Used for payment calculation
cs->transit_days[1] = buf->ReadByte();
break;
case 0x12: // Base cargo price
cs->initial_payment = buf->ReadDWord();
break;
case 0x13: // Colour for station rating bars
cs->rating_colour = buf->ReadByte();
break;
case 0x14: // Colour for cargo graph
cs->legend_colour = buf->ReadByte();
break;
case 0x15: // Freight status
cs->is_freight = (buf->ReadByte() != 0);
break;
case 0x16: // Cargo classes
cs->classes = buf->ReadWord();
break;
case 0x17: // Cargo label
cs->label = buf->ReadDWord();
cs->label = BSWAP32(cs->label);
break;
case 0x18: { // Town growth substitute type
uint8 substitute_type = buf->ReadByte();
switch (substitute_type) {
case 0x00: cs->town_effect = TE_PASSENGERS; break;
case 0x02: cs->town_effect = TE_MAIL; break;
case 0x05: cs->town_effect = TE_GOODS; break;
case 0x09: cs->town_effect = TE_WATER; break;
case 0x0B: cs->town_effect = TE_FOOD; break;
default:
grfmsg(1, "CargoChangeInfo: Unknown town growth substitute value %d, setting to none.", substitute_type);
FALLTHROUGH;
case 0xFF: cs->town_effect = TE_NONE; break;
}
break;
}
case 0x19: // Town growth coefficient
cs->multipliertowngrowth = buf->ReadWord();
break;
case 0x1A: // Bitmask of callbacks to use
cs->callback_mask = buf->ReadByte();
break;
case 0x1D: // Vehicle capacity muliplier
cs->multiplier = std::max(1u, buf->ReadWord());
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Define properties for sound effects
* @param sid Local ID of the sound.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult SoundEffectChangeInfo(uint sid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (_cur.grffile->sound_offset == 0) {
grfmsg(1, "SoundEffectChangeInfo: No effects defined, skipping");
return CIR_INVALID_ID;
}
if (sid + numinfo - ORIGINAL_SAMPLE_COUNT > _cur.grffile->num_sounds) {
grfmsg(1, "SoundEffectChangeInfo: Attempting to change undefined sound effect (%u), max (%u). Ignoring.", sid + numinfo, ORIGINAL_SAMPLE_COUNT + _cur.grffile->num_sounds);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
SoundEntry *sound = GetSound(sid + i + _cur.grffile->sound_offset - ORIGINAL_SAMPLE_COUNT);
switch (prop) {
case 0x08: // Relative volume
sound->volume = buf->ReadByte();
break;
case 0x09: // Priority
sound->priority = buf->ReadByte();
break;
case 0x0A: { // Override old sound
SoundID orig_sound = buf->ReadByte();
if (orig_sound >= ORIGINAL_SAMPLE_COUNT) {
grfmsg(1, "SoundEffectChangeInfo: Original sound %d not defined (max %d)", orig_sound, ORIGINAL_SAMPLE_COUNT);
} else {
SoundEntry *old_sound = GetSound(orig_sound);
/* Literally copy the data of the new sound over the original */
*old_sound = *sound;
}
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Ignore an industry tile property
* @param prop The property to ignore.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult IgnoreIndustryTileProperty(int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
switch (prop) {
case 0x09:
case 0x0D:
case 0x0E:
case 0x10:
case 0x11:
case 0x12:
buf->ReadByte();
break;
case 0x0A:
case 0x0B:
case 0x0C:
case 0x0F:
buf->ReadWord();
break;
case 0x13:
buf->Skip(buf->ReadByte() * 2);
break;
default:
ret = CIR_UNKNOWN;
break;
}
return ret;
}
/**
* Define properties for industry tiles
* @param indtid Local ID of the industry tile.
* @param numinfo Number of subsequent industry tile IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult IndustrytilesChangeInfo(uint indtid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (indtid + numinfo > NUM_INDUSTRYTILES_PER_GRF) {
grfmsg(1, "IndustryTilesChangeInfo: Too many industry tiles loaded (%u), max (%u). Ignoring.", indtid + numinfo, NUM_INDUSTRYTILES_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate industry tile specs if they haven't been allocated already. */
if (_cur.grffile->indtspec == nullptr) {
_cur.grffile->indtspec = CallocT(NUM_INDUSTRYTILES_PER_GRF);
}
for (int i = 0; i < numinfo; i++) {
IndustryTileSpec *tsp = _cur.grffile->indtspec[indtid + i];
if (prop != 0x08 && tsp == nullptr) {
ChangeInfoResult cir = IgnoreIndustryTileProperty(prop, buf);
if (cir > ret) ret = cir;
continue;
}
switch (prop) {
case 0x08: { // Substitute industry tile type
IndustryTileSpec **tilespec = &_cur.grffile->indtspec[indtid + i];
byte subs_id = buf->ReadByte();
if (subs_id >= NEW_INDUSTRYTILEOFFSET) {
/* The substitute id must be one of the original industry tile. */
grfmsg(2, "IndustryTilesChangeInfo: Attempt to use new industry tile %u as substitute industry tile for %u. Ignoring.", subs_id, indtid + i);
continue;
}
/* Allocate space for this industry. */
if (*tilespec == nullptr) {
*tilespec = CallocT(1);
tsp = *tilespec;
memcpy(tsp, &_industry_tile_specs[subs_id], sizeof(_industry_tile_specs[subs_id]));
tsp->enabled = true;
/* A copied tile should not have the animation infos copied too.
* The anim_state should be left untouched, though
* It is up to the author to animate them */
tsp->anim_production = INDUSTRYTILE_NOANIM;
tsp->anim_next = INDUSTRYTILE_NOANIM;
tsp->grf_prop.local_id = indtid + i;
tsp->grf_prop.subst_id = subs_id;
tsp->grf_prop.grffile = _cur.grffile;
_industile_mngr.AddEntityID(indtid + i, _cur.grffile->grfid, subs_id); // pre-reserve the tile slot
}
break;
}
case 0x09: { // Industry tile override
byte ovrid = buf->ReadByte();
/* The industry being overridden must be an original industry. */
if (ovrid >= NEW_INDUSTRYTILEOFFSET) {
grfmsg(2, "IndustryTilesChangeInfo: Attempt to override new industry tile %u with industry tile id %u. Ignoring.", ovrid, indtid + i);
continue;
}
_industile_mngr.Add(indtid + i, _cur.grffile->grfid, ovrid);
break;
}
case 0x0A: // Tile acceptance
case 0x0B:
case 0x0C: {
uint16 acctp = buf->ReadWord();
tsp->accepts_cargo[prop - 0x0A] = GetCargoTranslation(GB(acctp, 0, 8), _cur.grffile);
tsp->acceptance[prop - 0x0A] = Clamp(GB(acctp, 8, 8), 0, 16);
break;
}
case 0x0D: // Land shape flags
tsp->slopes_refused = (Slope)buf->ReadByte();
break;
case 0x0E: // Callback mask
tsp->callback_mask = buf->ReadByte();
break;
case 0x0F: // Animation information
tsp->animation.frames = buf->ReadByte();
tsp->animation.status = buf->ReadByte();
break;
case 0x10: // Animation speed
tsp->animation.speed = buf->ReadByte();
break;
case 0x11: // Triggers for callback 25
tsp->animation.triggers = buf->ReadByte();
break;
case 0x12: // Special flags
tsp->special_flags = (IndustryTileSpecialFlags)buf->ReadByte();
break;
case 0x13: { // variable length cargo acceptance
byte num_cargoes = buf->ReadByte();
if (num_cargoes > lengthof(tsp->acceptance)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LIST_PROPERTY_TOO_LONG);
error->param_value[1] = prop;
return CIR_DISABLED;
}
for (uint i = 0; i < lengthof(tsp->acceptance); i++) {
if (i < num_cargoes) {
tsp->accepts_cargo[i] = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
/* Tile acceptance can be negative to counteract the INDTILE_SPECIAL_ACCEPTS_ALL_CARGO flag */
tsp->acceptance[i] = (int8)buf->ReadByte();
} else {
tsp->accepts_cargo[i] = CT_INVALID;
tsp->acceptance[i] = 0;
}
}
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Ignore an industry property
* @param prop The property to ignore.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult IgnoreIndustryProperty(int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
switch (prop) {
case 0x09:
case 0x0B:
case 0x0F:
case 0x12:
case 0x13:
case 0x14:
case 0x17:
case 0x18:
case 0x19:
case 0x21:
case 0x22:
buf->ReadByte();
break;
case 0x0C:
case 0x0D:
case 0x0E:
case 0x10:
case 0x1B:
case 0x1F:
case 0x24:
buf->ReadWord();
break;
case 0x11:
case 0x1A:
case 0x1C:
case 0x1D:
case 0x1E:
case 0x20:
case 0x23:
buf->ReadDWord();
break;
case 0x0A: {
byte num_table = buf->ReadByte();
for (byte j = 0; j < num_table; j++) {
for (uint k = 0;; k++) {
byte x = buf->ReadByte();
if (x == 0xFE && k == 0) {
buf->ReadByte();
buf->ReadByte();
break;
}
byte y = buf->ReadByte();
if (x == 0 && y == 0x80) break;
byte gfx = buf->ReadByte();
if (gfx == 0xFE) buf->ReadWord();
}
}
break;
}
case 0x16:
for (byte j = 0; j < 3; j++) buf->ReadByte();
break;
case 0x15:
case 0x25:
case 0x26:
case 0x27:
buf->Skip(buf->ReadByte());
break;
case 0x28: {
int num_inputs = buf->ReadByte();
int num_outputs = buf->ReadByte();
buf->Skip(num_inputs * num_outputs * 2);
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
return ret;
}
/**
* Validate the industry layout; e.g. to prevent duplicate tiles.
* @param layout The layout to check.
* @return True if the layout is deemed valid.
*/
static bool ValidateIndustryLayout(const IndustryTileLayout &layout)
{
const size_t size = layout.size();
for (size_t i = 0; i < size - 1; i++) {
for (size_t j = i + 1; j < size; j++) {
if (layout[i].ti.x == layout[j].ti.x &&
layout[i].ti.y == layout[j].ti.y) {
return false;
}
}
}
return true;
}
/**
* Define properties for industries
* @param indid Local ID of the industry.
* @param numinfo Number of subsequent industry IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult IndustriesChangeInfo(uint indid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (indid + numinfo > NUM_INDUSTRYTYPES_PER_GRF) {
grfmsg(1, "IndustriesChangeInfo: Too many industries loaded (%u), max (%u). Ignoring.", indid + numinfo, NUM_INDUSTRYTYPES_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate industry specs if they haven't been allocated already. */
if (_cur.grffile->industryspec == nullptr) {
_cur.grffile->industryspec = CallocT(NUM_INDUSTRYTYPES_PER_GRF);
}
for (int i = 0; i < numinfo; i++) {
IndustrySpec *indsp = _cur.grffile->industryspec[indid + i];
if (prop != 0x08 && indsp == nullptr) {
ChangeInfoResult cir = IgnoreIndustryProperty(prop, buf);
if (cir > ret) ret = cir;
continue;
}
switch (prop) {
case 0x08: { // Substitute industry type
IndustrySpec **indspec = &_cur.grffile->industryspec[indid + i];
byte subs_id = buf->ReadByte();
if (subs_id == 0xFF) {
/* Instead of defining a new industry, a substitute industry id
* of 0xFF disables the old industry with the current id. */
_industry_specs[indid + i].enabled = false;
continue;
} else if (subs_id >= NEW_INDUSTRYOFFSET) {
/* The substitute id must be one of the original industry. */
grfmsg(2, "_industry_specs: Attempt to use new industry %u as substitute industry for %u. Ignoring.", subs_id, indid + i);
continue;
}
/* Allocate space for this industry.
* Only need to do it once. If ever it is called again, it should not
* do anything */
if (*indspec == nullptr) {
*indspec = new IndustrySpec;
indsp = *indspec;
*indsp = _origin_industry_specs[subs_id];
indsp->enabled = true;
indsp->grf_prop.local_id = indid + i;
indsp->grf_prop.subst_id = subs_id;
indsp->grf_prop.grffile = _cur.grffile;
/* If the grf industry needs to check its surrounding upon creation, it should
* rely on callbacks, not on the original placement functions */
indsp->check_proc = CHECK_NOTHING;
}
break;
}
case 0x09: { // Industry type override
byte ovrid = buf->ReadByte();
/* The industry being overridden must be an original industry. */
if (ovrid >= NEW_INDUSTRYOFFSET) {
grfmsg(2, "IndustriesChangeInfo: Attempt to override new industry %u with industry id %u. Ignoring.", ovrid, indid + i);
continue;
}
indsp->grf_prop.override = ovrid;
_industry_mngr.Add(indid + i, _cur.grffile->grfid, ovrid);
break;
}
case 0x0A: { // Set industry layout(s)
byte new_num_layouts = buf->ReadByte();
uint32 definition_size = buf->ReadDWord();
uint32 bytes_read = 0;
std::vector new_layouts;
IndustryTileLayout layout;
for (byte j = 0; j < new_num_layouts; j++) {
layout.clear();
for (uint k = 0;; k++) {
if (bytes_read >= definition_size) {
grfmsg(3, "IndustriesChangeInfo: Incorrect size for industry tile layout definition for industry %u.", indid);
/* Avoid warning twice */
definition_size = UINT32_MAX;
}
layout.push_back(IndustryTileLayoutTile{});
IndustryTileLayoutTile &it = layout.back();
it.ti.x = buf->ReadByte(); // Offsets from northermost tile
++bytes_read;
if (it.ti.x == 0xFE && k == 0) {
/* This means we have to borrow the layout from an old industry */
IndustryType type = buf->ReadByte();
byte laynbr = buf->ReadByte();
bytes_read += 2;
if (type >= lengthof(_origin_industry_specs)) {
grfmsg(1, "IndustriesChangeInfo: Invalid original industry number for layout import, industry %u", indid);
DisableGrf(STR_NEWGRF_ERROR_INVALID_ID);
return CIR_DISABLED;
}
if (laynbr >= _origin_industry_specs[type].layouts.size()) {
grfmsg(1, "IndustriesChangeInfo: Invalid original industry layout index for layout import, industry %u", indid);
DisableGrf(STR_NEWGRF_ERROR_INVALID_ID);
return CIR_DISABLED;
}
layout = _origin_industry_specs[type].layouts[laynbr];
break;
}
it.ti.y = buf->ReadByte(); // Or table definition finalisation
++bytes_read;
if (it.ti.x == 0 && it.ti.y == 0x80) {
/* Terminator, remove and finish up */
layout.pop_back();
break;
}
it.gfx = buf->ReadByte();
++bytes_read;
if (it.gfx == 0xFE) {
/* Use a new tile from this GRF */
int local_tile_id = buf->ReadWord();
bytes_read += 2;
/* Read the ID from the _industile_mngr. */
int tempid = _industile_mngr.GetID(local_tile_id, _cur.grffile->grfid);
if (tempid == INVALID_INDUSTRYTILE) {
grfmsg(2, "IndustriesChangeInfo: Attempt to use industry tile %u with industry id %u, not yet defined. Ignoring.", local_tile_id, indid);
} else {
/* Declared as been valid, can be used */
it.gfx = tempid;
}
} else if (it.gfx == 0xFF) {
it.ti.x = (int8)GB(it.ti.x, 0, 8);
it.ti.y = (int8)GB(it.ti.y, 0, 8);
/* When there were only 256x256 maps, TileIndex was a uint16 and
* it.ti was just a TileIndexDiff that was added to it.
* As such negative "x" values were shifted into the "y" position.
* x = -1, y = 1 -> x = 255, y = 0
* Since GRF version 8 the position is interpreted as pair of independent int8.
* For GRF version < 8 we need to emulate the old shifting behaviour.
*/
if (_cur.grffile->grf_version < 8 && it.ti.x < 0) it.ti.y += 1;
}
}
if (!ValidateIndustryLayout(layout)) {
/* The industry layout was not valid, so skip this one. */
grfmsg(1, "IndustriesChangeInfo: Invalid industry layout for industry id %u. Ignoring", indid);
new_num_layouts--;
j--;
} else {
new_layouts.push_back(layout);
}
}
/* Install final layout construction in the industry spec */
indsp->layouts = new_layouts;
break;
}
case 0x0B: // Industry production flags
indsp->life_type = (IndustryLifeType)buf->ReadByte();
break;
case 0x0C: // Industry closure message
AddStringForMapping(buf->ReadWord(), &indsp->closure_text);
break;
case 0x0D: // Production increase message
AddStringForMapping(buf->ReadWord(), &indsp->production_up_text);
break;
case 0x0E: // Production decrease message
AddStringForMapping(buf->ReadWord(), &indsp->production_down_text);
break;
case 0x0F: // Fund cost multiplier
indsp->cost_multiplier = buf->ReadByte();
break;
case 0x10: // Production cargo types
for (byte j = 0; j < 2; j++) {
indsp->produced_cargo[j] = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
}
break;
case 0x11: // Acceptance cargo types
for (byte j = 0; j < 3; j++) {
indsp->accepts_cargo[j] = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
}
buf->ReadByte(); // Unnused, eat it up
break;
case 0x12: // Production multipliers
case 0x13:
indsp->production_rate[prop - 0x12] = buf->ReadByte();
break;
case 0x14: // Minimal amount of cargo distributed
indsp->minimal_cargo = buf->ReadByte();
break;
case 0x15: { // Random sound effects
indsp->number_of_sounds = buf->ReadByte();
uint8 *sounds = MallocT(indsp->number_of_sounds);
try {
for (uint8 j = 0; j < indsp->number_of_sounds; j++) {
sounds[j] = buf->ReadByte();
}
} catch (...) {
free(sounds);
throw;
}
if (HasBit(indsp->cleanup_flag, CLEAN_RANDOMSOUNDS)) {
free(indsp->random_sounds);
}
indsp->random_sounds = sounds;
SetBit(indsp->cleanup_flag, CLEAN_RANDOMSOUNDS);
break;
}
case 0x16: // Conflicting industry types
for (byte j = 0; j < 3; j++) indsp->conflicting[j] = buf->ReadByte();
break;
case 0x17: // Probability in random game
indsp->appear_creation[_settings_game.game_creation.landscape] = buf->ReadByte();
break;
case 0x18: // Probability during gameplay
indsp->appear_ingame[_settings_game.game_creation.landscape] = buf->ReadByte();
break;
case 0x19: // Map colour
indsp->map_colour = buf->ReadByte();
break;
case 0x1A: // Special industry flags to define special behavior
indsp->behaviour = (IndustryBehaviour)buf->ReadDWord();
break;
case 0x1B: // New industry text ID
AddStringForMapping(buf->ReadWord(), &indsp->new_industry_text);
break;
case 0x1C: // Input cargo multipliers for the three input cargo types
case 0x1D:
case 0x1E: {
uint32 multiples = buf->ReadDWord();
indsp->input_cargo_multiplier[prop - 0x1C][0] = GB(multiples, 0, 16);
indsp->input_cargo_multiplier[prop - 0x1C][1] = GB(multiples, 16, 16);
break;
}
case 0x1F: // Industry name
AddStringForMapping(buf->ReadWord(), &indsp->name);
break;
case 0x20: // Prospecting success chance
indsp->prospecting_chance = buf->ReadDWord();
break;
case 0x21: // Callback mask
case 0x22: { // Callback additional mask
byte aflag = buf->ReadByte();
SB(indsp->callback_mask, (prop - 0x21) * 8, 8, aflag);
break;
}
case 0x23: // removal cost multiplier
indsp->removal_cost_multiplier = buf->ReadDWord();
break;
case 0x24: { // name for nearby station
uint16 str = buf->ReadWord();
if (str == 0) {
indsp->station_name = STR_NULL;
} else {
AddStringForMapping(str, &indsp->station_name);
}
break;
}
case 0x25: { // variable length produced cargoes
byte num_cargoes = buf->ReadByte();
if (num_cargoes > lengthof(indsp->produced_cargo)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LIST_PROPERTY_TOO_LONG);
error->param_value[1] = prop;
return CIR_DISABLED;
}
for (uint i = 0; i < lengthof(indsp->produced_cargo); i++) {
if (i < num_cargoes) {
CargoID cargo = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
indsp->produced_cargo[i] = cargo;
} else {
indsp->produced_cargo[i] = CT_INVALID;
}
}
break;
}
case 0x26: { // variable length accepted cargoes
byte num_cargoes = buf->ReadByte();
if (num_cargoes > lengthof(indsp->accepts_cargo)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LIST_PROPERTY_TOO_LONG);
error->param_value[1] = prop;
return CIR_DISABLED;
}
for (uint i = 0; i < lengthof(indsp->accepts_cargo); i++) {
if (i < num_cargoes) {
CargoID cargo = GetCargoTranslation(buf->ReadByte(), _cur.grffile);
indsp->accepts_cargo[i] = cargo;
} else {
indsp->accepts_cargo[i] = CT_INVALID;
}
}
break;
}
case 0x27: { // variable length production rates
byte num_cargoes = buf->ReadByte();
if (num_cargoes > lengthof(indsp->production_rate)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LIST_PROPERTY_TOO_LONG);
error->param_value[1] = prop;
return CIR_DISABLED;
}
for (uint i = 0; i < lengthof(indsp->production_rate); i++) {
if (i < num_cargoes) {
indsp->production_rate[i] = buf->ReadByte();
} else {
indsp->production_rate[i] = 0;
}
}
break;
}
case 0x28: { // variable size input/output production multiplier table
byte num_inputs = buf->ReadByte();
byte num_outputs = buf->ReadByte();
if (num_inputs > lengthof(indsp->accepts_cargo) || num_outputs > lengthof(indsp->produced_cargo)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LIST_PROPERTY_TOO_LONG);
error->param_value[1] = prop;
return CIR_DISABLED;
}
for (uint i = 0; i < lengthof(indsp->accepts_cargo); i++) {
for (uint j = 0; j < lengthof(indsp->produced_cargo); j++) {
uint16 mult = 0;
if (i < num_inputs && j < num_outputs) mult = buf->ReadWord();
indsp->input_cargo_multiplier[i][j] = mult;
}
}
break;
}
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Create a copy of the tile table so it can be freed later
* without problems.
* @param as The AirportSpec to copy the arrays of.
*/
static void DuplicateTileTable(AirportSpec *as)
{
AirportTileTable **table_list = MallocT(as->num_table);
for (int i = 0; i < as->num_table; i++) {
uint num_tiles = 1;
const AirportTileTable *it = as->table[0];
do {
num_tiles++;
} while ((++it)->ti.x != -0x80);
table_list[i] = MallocT(num_tiles);
MemCpyT(table_list[i], as->table[i], num_tiles);
}
as->table = table_list;
HangarTileTable *depot_table = MallocT(as->nof_depots);
MemCpyT(depot_table, as->depot_table, as->nof_depots);
as->depot_table = depot_table;
Direction *rotation = MallocT(as->num_table);
MemCpyT(rotation, as->rotation, as->num_table);
as->rotation = rotation;
}
/**
* Define properties for airports
* @param airport Local ID of the airport.
* @param numinfo Number of subsequent airport IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult AirportChangeInfo(uint airport, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (airport + numinfo > NUM_AIRPORTS_PER_GRF) {
grfmsg(1, "AirportChangeInfo: Too many airports, trying id (%u), max (%u). Ignoring.", airport + numinfo, NUM_AIRPORTS_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate industry specs if they haven't been allocated already. */
if (_cur.grffile->airportspec == nullptr) {
_cur.grffile->airportspec = CallocT(NUM_AIRPORTS_PER_GRF);
}
for (int i = 0; i < numinfo; i++) {
AirportSpec *as = _cur.grffile->airportspec[airport + i];
if (as == nullptr && prop != 0x08 && prop != 0x09) {
grfmsg(2, "AirportChangeInfo: Attempt to modify undefined airport %u, ignoring", airport + i);
return CIR_INVALID_ID;
}
switch (prop) {
case 0x08: { // Modify original airport
byte subs_id = buf->ReadByte();
if (subs_id == 0xFF) {
/* Instead of defining a new airport, an airport id
* of 0xFF disables the old airport with the current id. */
AirportSpec::GetWithoutOverride(airport + i)->enabled = false;
continue;
} else if (subs_id >= NEW_AIRPORT_OFFSET) {
/* The substitute id must be one of the original airports. */
grfmsg(2, "AirportChangeInfo: Attempt to use new airport %u as substitute airport for %u. Ignoring.", subs_id, airport + i);
continue;
}
AirportSpec **spec = &_cur.grffile->airportspec[airport + i];
/* Allocate space for this airport.
* Only need to do it once. If ever it is called again, it should not
* do anything */
if (*spec == nullptr) {
*spec = MallocT(1);
as = *spec;
memcpy(as, AirportSpec::GetWithoutOverride(subs_id), sizeof(*as));
as->enabled = true;
as->grf_prop.local_id = airport + i;
as->grf_prop.subst_id = subs_id;
as->grf_prop.grffile = _cur.grffile;
/* override the default airport */
_airport_mngr.Add(airport + i, _cur.grffile->grfid, subs_id);
/* Create a copy of the original tiletable so it can be freed later. */
DuplicateTileTable(as);
}
break;
}
case 0x0A: { // Set airport layout
byte old_num_table = as->num_table;
free(as->rotation);
as->num_table = buf->ReadByte(); // Number of layaouts
as->rotation = MallocT(as->num_table);
uint32 defsize = buf->ReadDWord(); // Total size of the definition
AirportTileTable **tile_table = CallocT(as->num_table); // Table with tiles to compose the airport
AirportTileTable *att = CallocT(defsize); // Temporary array to read the tile layouts from the GRF
int size;
const AirportTileTable *copy_from;
try {
for (byte j = 0; j < as->num_table; j++) {
const_cast(as->rotation[j]) = (Direction)buf->ReadByte();
for (int k = 0;; k++) {
att[k].ti.x = buf->ReadByte(); // Offsets from northermost tile
att[k].ti.y = buf->ReadByte();
if (att[k].ti.x == 0 && att[k].ti.y == 0x80) {
/* Not the same terminator. The one we are using is rather
* x = -80, y = 0 . So, adjust it. */
att[k].ti.x = -0x80;
att[k].ti.y = 0;
att[k].gfx = 0;
size = k + 1;
copy_from = att;
break;
}
att[k].gfx = buf->ReadByte();
if (att[k].gfx == 0xFE) {
/* Use a new tile from this GRF */
int local_tile_id = buf->ReadWord();
/* Read the ID from the _airporttile_mngr. */
uint16 tempid = _airporttile_mngr.GetID(local_tile_id, _cur.grffile->grfid);
if (tempid == INVALID_AIRPORTTILE) {
grfmsg(2, "AirportChangeInfo: Attempt to use airport tile %u with airport id %u, not yet defined. Ignoring.", local_tile_id, airport + i);
} else {
/* Declared as been valid, can be used */
att[k].gfx = tempid;
}
} else if (att[k].gfx == 0xFF) {
att[k].ti.x = (int8)GB(att[k].ti.x, 0, 8);
att[k].ti.y = (int8)GB(att[k].ti.y, 0, 8);
}
if (as->rotation[j] == DIR_E || as->rotation[j] == DIR_W) {
as->size_x = std::max(as->size_x, att[k].ti.y + 1);
as->size_y = std::max(as->size_y, att[k].ti.x + 1);
} else {
as->size_x = std::max(as->size_x, att[k].ti.x + 1);
as->size_y = std::max(as->size_y, att[k].ti.y + 1);
}
}
tile_table[j] = CallocT(size);
memcpy(tile_table[j], copy_from, sizeof(*copy_from) * size);
}
/* Free old layouts in the airport spec */
for (int j = 0; j < old_num_table; j++) {
/* remove the individual layouts */
free(as->table[j]);
}
free(as->table);
/* Install final layout construction in the airport spec */
as->table = tile_table;
free(att);
} catch (...) {
for (int i = 0; i < as->num_table; i++) {
free(tile_table[i]);
}
free(tile_table);
free(att);
throw;
}
break;
}
case 0x0C:
as->min_year = buf->ReadWord();
as->max_year = buf->ReadWord();
if (as->max_year == 0xFFFF) as->max_year = MAX_YEAR;
break;
case 0x0D:
as->ttd_airport_type = (TTDPAirportType)buf->ReadByte();
break;
case 0x0E:
as->catchment = Clamp(buf->ReadByte(), 1, MAX_CATCHMENT);
break;
case 0x0F:
as->noise_level = buf->ReadByte();
break;
case 0x10:
AddStringForMapping(buf->ReadWord(), &as->name);
break;
case 0x11: // Maintenance cost factor
as->maintenance_cost = buf->ReadWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Ignore properties for objects
* @param prop The property to ignore.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult IgnoreObjectProperty(uint prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
switch (prop) {
case 0x0B:
case 0x0C:
case 0x0D:
case 0x12:
case 0x14:
case 0x16:
case 0x17:
buf->ReadByte();
break;
case 0x09:
case 0x0A:
case 0x10:
case 0x11:
case 0x13:
case 0x15:
buf->ReadWord();
break;
case 0x08:
case 0x0E:
case 0x0F:
buf->ReadDWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
return ret;
}
/**
* Define properties for objects
* @param id Local ID of the object.
* @param numinfo Number of subsequent objectIDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult ObjectChangeInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (id + numinfo > NUM_OBJECTS_PER_GRF) {
grfmsg(1, "ObjectChangeInfo: Too many objects loaded (%u), max (%u). Ignoring.", id + numinfo, NUM_OBJECTS_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate object specs if they haven't been allocated already. */
if (_cur.grffile->objectspec == nullptr) {
_cur.grffile->objectspec = CallocT(NUM_OBJECTS_PER_GRF);
}
for (int i = 0; i < numinfo; i++) {
ObjectSpec *spec = _cur.grffile->objectspec[id + i];
if (prop != 0x08 && spec == nullptr) {
/* If the object property 08 is not yet set, ignore this property */
ChangeInfoResult cir = IgnoreObjectProperty(prop, buf);
if (cir > ret) ret = cir;
continue;
}
switch (prop) {
case 0x08: { // Class ID
ObjectSpec **ospec = &_cur.grffile->objectspec[id + i];
/* Allocate space for this object. */
if (*ospec == nullptr) {
*ospec = CallocT(1);
(*ospec)->views = 1; // Default for NewGRFs that don't set it.
(*ospec)->size = 0x11; // Default for NewGRFs that manage to not set it (1x1)
}
/* Swap classid because we read it in BE. */
uint32 classid = buf->ReadDWord();
(*ospec)->cls_id = ObjectClass::Allocate(BSWAP32(classid));
(*ospec)->enabled = true;
break;
}
case 0x09: { // Class name
ObjectClass *objclass = ObjectClass::Get(spec->cls_id);
AddStringForMapping(buf->ReadWord(), &objclass->name);
break;
}
case 0x0A: // Object name
AddStringForMapping(buf->ReadWord(), &spec->name);
break;
case 0x0B: // Climate mask
spec->climate = buf->ReadByte();
break;
case 0x0C: // Size
spec->size = buf->ReadByte();
if ((spec->size & 0xF0) == 0 || (spec->size & 0x0F) == 0) {
grfmsg(1, "ObjectChangeInfo: Invalid object size requested (%u) for object id %u. Ignoring.", spec->size, id + i);
spec->size = 0x11; // 1x1
}
break;
case 0x0D: // Build cost multipler
spec->build_cost_multiplier = buf->ReadByte();
spec->clear_cost_multiplier = spec->build_cost_multiplier;
break;
case 0x0E: // Introduction date
spec->introduction_date = buf->ReadDWord();
break;
case 0x0F: // End of life
spec->end_of_life_date = buf->ReadDWord();
break;
case 0x10: // Flags
spec->flags = (ObjectFlags)buf->ReadWord();
_loaded_newgrf_features.has_2CC |= (spec->flags & OBJECT_FLAG_2CC_COLOUR) != 0;
break;
case 0x11: // Animation info
spec->animation.frames = buf->ReadByte();
spec->animation.status = buf->ReadByte();
break;
case 0x12: // Animation speed
spec->animation.speed = buf->ReadByte();
break;
case 0x13: // Animation triggers
spec->animation.triggers = buf->ReadWord();
break;
case 0x14: // Removal cost multiplier
spec->clear_cost_multiplier = buf->ReadByte();
break;
case 0x15: // Callback mask
spec->callback_mask = buf->ReadWord();
break;
case 0x16: // Building height
spec->height = buf->ReadByte();
break;
case 0x17: // Views
spec->views = buf->ReadByte();
if (spec->views != 1 && spec->views != 2 && spec->views != 4) {
grfmsg(2, "ObjectChangeInfo: Invalid number of views (%u) for object id %u. Ignoring.", spec->views, id + i);
spec->views = 1;
}
break;
case 0x18: // Amount placed on 256^2 map on map creation
spec->generate_amount = buf->ReadByte();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Define properties for railtypes
* @param id ID of the railtype.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult RailTypeChangeInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
extern RailtypeInfo _railtypes[RAILTYPE_END];
if (id + numinfo > RAILTYPE_END) {
grfmsg(1, "RailTypeChangeInfo: Rail type %u is invalid, max %u, ignoring", id + numinfo, RAILTYPE_END);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
RailType rt = _cur.grffile->railtype_map[id + i];
if (rt == INVALID_RAILTYPE) return CIR_INVALID_ID;
RailtypeInfo *rti = &_railtypes[rt];
switch (prop) {
case 0x08: // Label of rail type
/* Skipped here as this is loaded during reservation stage. */
buf->ReadDWord();
break;
case 0x09: { // Toolbar caption of railtype (sets name as well for backwards compatibility for grf ver < 8)
uint16 str = buf->ReadWord();
AddStringForMapping(str, &rti->strings.toolbar_caption);
if (_cur.grffile->grf_version < 8) {
AddStringForMapping(str, &rti->strings.name);
}
break;
}
case 0x0A: // Menu text of railtype
AddStringForMapping(buf->ReadWord(), &rti->strings.menu_text);
break;
case 0x0B: // Build window caption
AddStringForMapping(buf->ReadWord(), &rti->strings.build_caption);
break;
case 0x0C: // Autoreplace text
AddStringForMapping(buf->ReadWord(), &rti->strings.replace_text);
break;
case 0x0D: // New locomotive text
AddStringForMapping(buf->ReadWord(), &rti->strings.new_loco);
break;
case 0x0E: // Compatible railtype list
case 0x0F: // Powered railtype list
case 0x18: // Railtype list required for date introduction
case 0x19: // Introduced railtype list
{
/* Rail type compatibility bits are added to the existing bits
* to allow multiple GRFs to modify compatibility with the
* default rail types. */
int n = buf->ReadByte();
for (int j = 0; j != n; j++) {
RailTypeLabel label = buf->ReadDWord();
RailType rt = GetRailTypeByLabel(BSWAP32(label), false);
if (rt != INVALID_RAILTYPE) {
switch (prop) {
case 0x0F: SetBit(rti->powered_railtypes, rt); FALLTHROUGH; // Powered implies compatible.
case 0x0E: SetBit(rti->compatible_railtypes, rt); break;
case 0x18: SetBit(rti->introduction_required_railtypes, rt); break;
case 0x19: SetBit(rti->introduces_railtypes, rt); break;
}
}
}
break;
}
case 0x10: // Rail Type flags
rti->flags = (RailTypeFlags)buf->ReadByte();
break;
case 0x11: // Curve speed advantage
rti->curve_speed = buf->ReadByte();
break;
case 0x12: // Station graphic
rti->fallback_railtype = Clamp(buf->ReadByte(), 0, 2);
break;
case 0x13: // Construction cost factor
rti->cost_multiplier = buf->ReadWord();
break;
case 0x14: // Speed limit
rti->max_speed = buf->ReadWord();
break;
case 0x15: // Acceleration model
rti->acceleration_type = Clamp(buf->ReadByte(), 0, 2);
break;
case 0x16: // Map colour
rti->map_colour = buf->ReadByte();
break;
case 0x17: // Introduction date
rti->introduction_date = buf->ReadDWord();
break;
case 0x1A: // Sort order
rti->sorting_order = buf->ReadByte();
break;
case 0x1B: // Name of railtype (overridden by prop 09 for grf ver < 8)
AddStringForMapping(buf->ReadWord(), &rti->strings.name);
break;
case 0x1C: // Maintenance cost factor
rti->maintenance_multiplier = buf->ReadWord();
break;
case 0x1D: // Alternate rail type label list
/* Skipped here as this is loaded during reservation stage. */
for (int j = buf->ReadByte(); j != 0; j--) buf->ReadDWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
static ChangeInfoResult RailTypeReserveInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
extern RailtypeInfo _railtypes[RAILTYPE_END];
if (id + numinfo > RAILTYPE_END) {
grfmsg(1, "RailTypeReserveInfo: Rail type %u is invalid, max %u, ignoring", id + numinfo, RAILTYPE_END);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
switch (prop) {
case 0x08: // Label of rail type
{
RailTypeLabel rtl = buf->ReadDWord();
rtl = BSWAP32(rtl);
RailType rt = GetRailTypeByLabel(rtl, false);
if (rt == INVALID_RAILTYPE) {
/* Set up new rail type */
rt = AllocateRailType(rtl);
}
_cur.grffile->railtype_map[id + i] = rt;
break;
}
case 0x09: // Toolbar caption of railtype
case 0x0A: // Menu text
case 0x0B: // Build window caption
case 0x0C: // Autoreplace text
case 0x0D: // New loco
case 0x13: // Construction cost
case 0x14: // Speed limit
case 0x1B: // Name of railtype
case 0x1C: // Maintenance cost factor
buf->ReadWord();
break;
case 0x1D: // Alternate rail type label list
if (_cur.grffile->railtype_map[id + i] != INVALID_RAILTYPE) {
int n = buf->ReadByte();
for (int j = 0; j != n; j++) {
_railtypes[_cur.grffile->railtype_map[id + i]].alternate_labels.push_back(BSWAP32(buf->ReadDWord()));
}
break;
}
grfmsg(1, "RailTypeReserveInfo: Ignoring property 1D for rail type %u because no label was set", id + i);
FALLTHROUGH;
case 0x0E: // Compatible railtype list
case 0x0F: // Powered railtype list
case 0x18: // Railtype list required for date introduction
case 0x19: // Introduced railtype list
for (int j = buf->ReadByte(); j != 0; j--) buf->ReadDWord();
break;
case 0x10: // Rail Type flags
case 0x11: // Curve speed advantage
case 0x12: // Station graphic
case 0x15: // Acceleration model
case 0x16: // Map colour
case 0x1A: // Sort order
buf->ReadByte();
break;
case 0x17: // Introduction date
buf->ReadDWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
/**
* Define properties for roadtypes
* @param id ID of the roadtype.
* @param numinfo Number of subsequent IDs to change the property for.
* @param prop The property to change.
* @param buf The property value.
* @return ChangeInfoResult.
*/
static ChangeInfoResult RoadTypeChangeInfo(uint id, int numinfo, int prop, ByteReader *buf, RoadTramType rtt)
{
ChangeInfoResult ret = CIR_SUCCESS;
extern RoadTypeInfo _roadtypes[ROADTYPE_END];
RoadType *type_map = (rtt == RTT_TRAM) ? _cur.grffile->tramtype_map : _cur.grffile->roadtype_map;
if (id + numinfo > ROADTYPE_END) {
grfmsg(1, "RoadTypeChangeInfo: Road type %u is invalid, max %u, ignoring", id + numinfo, ROADTYPE_END);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
RoadType rt = type_map[id + i];
if (rt == INVALID_ROADTYPE) return CIR_INVALID_ID;
RoadTypeInfo *rti = &_roadtypes[rt];
switch (prop) {
case 0x08: // Label of road type
/* Skipped here as this is loaded during reservation stage. */
buf->ReadDWord();
break;
case 0x09: { // Toolbar caption of roadtype (sets name as well for backwards compatibility for grf ver < 8)
uint16 str = buf->ReadWord();
AddStringForMapping(str, &rti->strings.toolbar_caption);
break;
}
case 0x0A: // Menu text of roadtype
AddStringForMapping(buf->ReadWord(), &rti->strings.menu_text);
break;
case 0x0B: // Build window caption
AddStringForMapping(buf->ReadWord(), &rti->strings.build_caption);
break;
case 0x0C: // Autoreplace text
AddStringForMapping(buf->ReadWord(), &rti->strings.replace_text);
break;
case 0x0D: // New engine text
AddStringForMapping(buf->ReadWord(), &rti->strings.new_engine);
break;
case 0x0F: // Powered roadtype list
case 0x18: // Roadtype list required for date introduction
case 0x19: { // Introduced roadtype list
/* Road type compatibility bits are added to the existing bits
* to allow multiple GRFs to modify compatibility with the
* default road types. */
int n = buf->ReadByte();
for (int j = 0; j != n; j++) {
RoadTypeLabel label = buf->ReadDWord();
RoadType rt = GetRoadTypeByLabel(BSWAP32(label), false);
if (rt != INVALID_ROADTYPE) {
switch (prop) {
case 0x0F: SetBit(rti->powered_roadtypes, rt); break;
case 0x18: SetBit(rti->introduction_required_roadtypes, rt); break;
case 0x19: SetBit(rti->introduces_roadtypes, rt); break;
}
}
}
break;
}
case 0x10: // Road Type flags
rti->flags = (RoadTypeFlags)buf->ReadByte();
break;
case 0x13: // Construction cost factor
rti->cost_multiplier = buf->ReadWord();
break;
case 0x14: // Speed limit
rti->max_speed = buf->ReadWord();
break;
case 0x16: // Map colour
rti->map_colour = buf->ReadByte();
break;
case 0x17: // Introduction date
rti->introduction_date = buf->ReadDWord();
break;
case 0x1A: // Sort order
rti->sorting_order = buf->ReadByte();
break;
case 0x1B: // Name of roadtype
AddStringForMapping(buf->ReadWord(), &rti->strings.name);
break;
case 0x1C: // Maintenance cost factor
rti->maintenance_multiplier = buf->ReadWord();
break;
case 0x1D: // Alternate road type label list
/* Skipped here as this is loaded during reservation stage. */
for (int j = buf->ReadByte(); j != 0; j--) buf->ReadDWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
static ChangeInfoResult RoadTypeChangeInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
return RoadTypeChangeInfo(id, numinfo, prop, buf, RTT_ROAD);
}
static ChangeInfoResult TramTypeChangeInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
return RoadTypeChangeInfo(id, numinfo, prop, buf, RTT_TRAM);
}
static ChangeInfoResult RoadTypeReserveInfo(uint id, int numinfo, int prop, ByteReader *buf, RoadTramType rtt)
{
ChangeInfoResult ret = CIR_SUCCESS;
extern RoadTypeInfo _roadtypes[ROADTYPE_END];
RoadType *type_map = (rtt == RTT_TRAM) ? _cur.grffile->tramtype_map : _cur.grffile->roadtype_map;
if (id + numinfo > ROADTYPE_END) {
grfmsg(1, "RoadTypeReserveInfo: Road type %u is invalid, max %u, ignoring", id + numinfo, ROADTYPE_END);
return CIR_INVALID_ID;
}
for (int i = 0; i < numinfo; i++) {
switch (prop) {
case 0x08: { // Label of road type
RoadTypeLabel rtl = buf->ReadDWord();
rtl = BSWAP32(rtl);
RoadType rt = GetRoadTypeByLabel(rtl, false);
if (rt == INVALID_ROADTYPE) {
/* Set up new road type */
rt = AllocateRoadType(rtl, rtt);
} else if (GetRoadTramType(rt) != rtt) {
grfmsg(1, "RoadTypeReserveInfo: Road type %u is invalid type (road/tram), ignoring", id + numinfo);
return CIR_INVALID_ID;
}
type_map[id + i] = rt;
break;
}
case 0x09: // Toolbar caption of roadtype
case 0x0A: // Menu text
case 0x0B: // Build window caption
case 0x0C: // Autoreplace text
case 0x0D: // New loco
case 0x13: // Construction cost
case 0x14: // Speed limit
case 0x1B: // Name of roadtype
case 0x1C: // Maintenance cost factor
buf->ReadWord();
break;
case 0x1D: // Alternate road type label list
if (type_map[id + i] != INVALID_ROADTYPE) {
int n = buf->ReadByte();
for (int j = 0; j != n; j++) {
_roadtypes[type_map[id + i]].alternate_labels.push_back(BSWAP32(buf->ReadDWord()));
}
break;
}
grfmsg(1, "RoadTypeReserveInfo: Ignoring property 1D for road type %u because no label was set", id + i);
/* FALL THROUGH */
case 0x0F: // Powered roadtype list
case 0x18: // Roadtype list required for date introduction
case 0x19: // Introduced roadtype list
for (int j = buf->ReadByte(); j != 0; j--) buf->ReadDWord();
break;
case 0x10: // Road Type flags
case 0x16: // Map colour
case 0x1A: // Sort order
buf->ReadByte();
break;
case 0x17: // Introduction date
buf->ReadDWord();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
static ChangeInfoResult RoadTypeReserveInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
return RoadTypeReserveInfo(id, numinfo, prop, buf, RTT_ROAD);
}
static ChangeInfoResult TramTypeReserveInfo(uint id, int numinfo, int prop, ByteReader *buf)
{
return RoadTypeReserveInfo(id, numinfo, prop, buf, RTT_TRAM);
}
static ChangeInfoResult AirportTilesChangeInfo(uint airtid, int numinfo, int prop, ByteReader *buf)
{
ChangeInfoResult ret = CIR_SUCCESS;
if (airtid + numinfo > NUM_AIRPORTTILES_PER_GRF) {
grfmsg(1, "AirportTileChangeInfo: Too many airport tiles loaded (%u), max (%u). Ignoring.", airtid + numinfo, NUM_AIRPORTTILES_PER_GRF);
return CIR_INVALID_ID;
}
/* Allocate airport tile specs if they haven't been allocated already. */
if (_cur.grffile->airtspec == nullptr) {
_cur.grffile->airtspec = CallocT(NUM_AIRPORTTILES_PER_GRF);
}
for (int i = 0; i < numinfo; i++) {
AirportTileSpec *tsp = _cur.grffile->airtspec[airtid + i];
if (prop != 0x08 && tsp == nullptr) {
grfmsg(2, "AirportTileChangeInfo: Attempt to modify undefined airport tile %u. Ignoring.", airtid + i);
return CIR_INVALID_ID;
}
switch (prop) {
case 0x08: { // Substitute airport tile type
AirportTileSpec **tilespec = &_cur.grffile->airtspec[airtid + i];
byte subs_id = buf->ReadByte();
if (subs_id >= NEW_AIRPORTTILE_OFFSET) {
/* The substitute id must be one of the original airport tiles. */
grfmsg(2, "AirportTileChangeInfo: Attempt to use new airport tile %u as substitute airport tile for %u. Ignoring.", subs_id, airtid + i);
continue;
}
/* Allocate space for this airport tile. */
if (*tilespec == nullptr) {
*tilespec = CallocT(1);
tsp = *tilespec;
memcpy(tsp, AirportTileSpec::Get(subs_id), sizeof(AirportTileSpec));
tsp->enabled = true;
tsp->animation.status = ANIM_STATUS_NO_ANIMATION;
tsp->grf_prop.local_id = airtid + i;
tsp->grf_prop.subst_id = subs_id;
tsp->grf_prop.grffile = _cur.grffile;
_airporttile_mngr.AddEntityID(airtid + i, _cur.grffile->grfid, subs_id); // pre-reserve the tile slot
}
break;
}
case 0x09: { // Airport tile override
byte override = buf->ReadByte();
/* The airport tile being overridden must be an original airport tile. */
if (override >= NEW_AIRPORTTILE_OFFSET) {
grfmsg(2, "AirportTileChangeInfo: Attempt to override new airport tile %u with airport tile id %u. Ignoring.", override, airtid + i);
continue;
}
_airporttile_mngr.Add(airtid + i, _cur.grffile->grfid, override);
break;
}
case 0x0E: // Callback mask
tsp->callback_mask = buf->ReadByte();
break;
case 0x0F: // Animation information
tsp->animation.frames = buf->ReadByte();
tsp->animation.status = buf->ReadByte();
break;
case 0x10: // Animation speed
tsp->animation.speed = buf->ReadByte();
break;
case 0x11: // Animation triggers
tsp->animation.triggers = buf->ReadByte();
break;
default:
ret = CIR_UNKNOWN;
break;
}
}
return ret;
}
static bool HandleChangeInfoResult(const char *caller, ChangeInfoResult cir, uint8 feature, uint8 property)
{
switch (cir) {
default: NOT_REACHED();
case CIR_DISABLED:
/* Error has already been printed; just stop parsing */
return true;
case CIR_SUCCESS:
return false;
case CIR_UNHANDLED:
grfmsg(1, "%s: Ignoring property 0x%02X of feature 0x%02X (not implemented)", caller, property, feature);
return false;
case CIR_UNKNOWN:
grfmsg(0, "%s: Unknown property 0x%02X of feature 0x%02X, disabling", caller, property, feature);
FALLTHROUGH;
case CIR_INVALID_ID: {
/* No debug message for an invalid ID, as it has already been output */
GRFError *error = DisableGrf(cir == CIR_INVALID_ID ? STR_NEWGRF_ERROR_INVALID_ID : STR_NEWGRF_ERROR_UNKNOWN_PROPERTY);
if (cir != CIR_INVALID_ID) error->param_value[1] = property;
return true;
}
}
}
/* Action 0x00 */
static void FeatureChangeInfo(ByteReader *buf)
{
/* <00> ()...
*
* B feature
* B num-props how many properties to change per vehicle/station
* B num-info how many vehicles/stations to change
* E id ID of first vehicle/station to change, if num-info is
* greater than one, this one and the following
* vehicles/stations will be changed
* B property what property to change, depends on the feature
* V new-info new bytes of info (variable size; depends on properties) */
static const VCI_Handler handler[] = {
/* GSF_TRAINS */ RailVehicleChangeInfo,
/* GSF_ROADVEHICLES */ RoadVehicleChangeInfo,
/* GSF_SHIPS */ ShipVehicleChangeInfo,
/* GSF_AIRCRAFT */ AircraftVehicleChangeInfo,
/* GSF_STATIONS */ StationChangeInfo,
/* GSF_CANALS */ CanalChangeInfo,
/* GSF_BRIDGES */ BridgeChangeInfo,
/* GSF_HOUSES */ TownHouseChangeInfo,
/* GSF_GLOBALVAR */ GlobalVarChangeInfo,
/* GSF_INDUSTRYTILES */ IndustrytilesChangeInfo,
/* GSF_INDUSTRIES */ IndustriesChangeInfo,
/* GSF_CARGOES */ nullptr, // Cargo is handled during reservation
/* GSF_SOUNDFX */ SoundEffectChangeInfo,
/* GSF_AIRPORTS */ AirportChangeInfo,
/* GSF_SIGNALS */ nullptr,
/* GSF_OBJECTS */ ObjectChangeInfo,
/* GSF_RAILTYPES */ RailTypeChangeInfo,
/* GSF_AIRPORTTILES */ AirportTilesChangeInfo,
/* GSF_ROADTYPES */ RoadTypeChangeInfo,
/* GSF_TRAMTYPES */ TramTypeChangeInfo,
};
static_assert(GSF_END == lengthof(handler));
uint8 feature = buf->ReadByte();
uint8 numprops = buf->ReadByte();
uint numinfo = buf->ReadByte();
uint engine = buf->ReadExtendedByte();
if (feature >= GSF_END) {
grfmsg(1, "FeatureChangeInfo: Unsupported feature 0x%02X, skipping", feature);
return;
}
grfmsg(6, "FeatureChangeInfo: Feature 0x%02X, %d properties, to apply to %d+%d",
feature, numprops, engine, numinfo);
if (handler[feature] == nullptr) {
if (feature != GSF_CARGOES) grfmsg(1, "FeatureChangeInfo: Unsupported feature 0x%02X, skipping", feature);
return;
}
/* Mark the feature as used by the grf */
SetBit(_cur.grffile->grf_features, feature);
while (numprops-- && buf->HasData()) {
uint8 prop = buf->ReadByte();
ChangeInfoResult cir = handler[feature](engine, numinfo, prop, buf);
if (HandleChangeInfoResult("FeatureChangeInfo", cir, feature, prop)) return;
}
}
/* Action 0x00 (GLS_SAFETYSCAN) */
static void SafeChangeInfo(ByteReader *buf)
{
uint8 feature = buf->ReadByte();
uint8 numprops = buf->ReadByte();
uint numinfo = buf->ReadByte();
buf->ReadExtendedByte(); // id
if (feature == GSF_BRIDGES && numprops == 1) {
uint8 prop = buf->ReadByte();
/* Bridge property 0x0D is redefinition of sprite layout tables, which
* is considered safe. */
if (prop == 0x0D) return;
} else if (feature == GSF_GLOBALVAR && numprops == 1) {
uint8 prop = buf->ReadByte();
/* Engine ID Mappings are safe, if the source is static */
if (prop == 0x11) {
bool is_safe = true;
for (uint i = 0; i < numinfo; i++) {
uint32 s = buf->ReadDWord();
buf->ReadDWord(); // dest
const GRFConfig *grfconfig = GetGRFConfig(s);
if (grfconfig != nullptr && !HasBit(grfconfig->flags, GCF_STATIC)) {
is_safe = false;
break;
}
}
if (is_safe) return;
}
}
SetBit(_cur.grfconfig->flags, GCF_UNSAFE);
/* Skip remainder of GRF */
_cur.skip_sprites = -1;
}
/* Action 0x00 (GLS_RESERVE) */
static void ReserveChangeInfo(ByteReader *buf)
{
uint8 feature = buf->ReadByte();
if (feature != GSF_CARGOES && feature != GSF_GLOBALVAR && feature != GSF_RAILTYPES && feature != GSF_ROADTYPES && feature != GSF_TRAMTYPES) return;
uint8 numprops = buf->ReadByte();
uint8 numinfo = buf->ReadByte();
uint8 index = buf->ReadExtendedByte();
while (numprops-- && buf->HasData()) {
uint8 prop = buf->ReadByte();
ChangeInfoResult cir = CIR_SUCCESS;
switch (feature) {
default: NOT_REACHED();
case GSF_CARGOES:
cir = CargoChangeInfo(index, numinfo, prop, buf);
break;
case GSF_GLOBALVAR:
cir = GlobalVarReserveInfo(index, numinfo, prop, buf);
break;
case GSF_RAILTYPES:
cir = RailTypeReserveInfo(index, numinfo, prop, buf);
break;
case GSF_ROADTYPES:
cir = RoadTypeReserveInfo(index, numinfo, prop, buf);
break;
case GSF_TRAMTYPES:
cir = TramTypeReserveInfo(index, numinfo, prop, buf);
break;
}
if (HandleChangeInfoResult("ReserveChangeInfo", cir, feature, prop)) return;
}
}
/* Action 0x01 */
static void NewSpriteSet(ByteReader *buf)
{
/* Basic format: <01>
* Extended format: <01> 00
*
* B feature feature to define sprites for
* 0, 1, 2, 3: veh-type, 4: train stations
* E first-set first sprite set to define
* B num-sets number of sprite sets (extended byte in extended format)
* E num-ent how many entries per sprite set
* For vehicles, this is the number of different
* vehicle directions in each sprite set
* Set num-dirs=8, unless your sprites are symmetric.
* In that case, use num-dirs=4.
*/
uint8 feature = buf->ReadByte();
uint16 num_sets = buf->ReadByte();
uint16 first_set = 0;
if (num_sets == 0 && buf->HasData(3)) {
/* Extended Action1 format.
* Some GRFs define zero sets of zero sprites, though there is actually no use in that. Ignore them. */
first_set = buf->ReadExtendedByte();
num_sets = buf->ReadExtendedByte();
}
uint16 num_ents = buf->ReadExtendedByte();
if (feature >= GSF_END) {
_cur.skip_sprites = num_sets * num_ents;
grfmsg(1, "NewSpriteSet: Unsupported feature 0x%02X, skipping %d sprites", feature, _cur.skip_sprites);
return;
}
_cur.AddSpriteSets(feature, _cur.spriteid, first_set, num_sets, num_ents);
grfmsg(7, "New sprite set at %d of feature 0x%02X, consisting of %d sets with %d views each (total %d)",
_cur.spriteid, feature, num_sets, num_ents, num_sets * num_ents
);
for (int i = 0; i < num_sets * num_ents; i++) {
_cur.nfo_line++;
LoadNextSprite(_cur.spriteid++, *_cur.file, _cur.nfo_line);
}
}
/* Action 0x01 (SKIP) */
static void SkipAct1(ByteReader *buf)
{
buf->ReadByte();
uint16 num_sets = buf->ReadByte();
if (num_sets == 0 && buf->HasData(3)) {
/* Extended Action1 format.
* Some GRFs define zero sets of zero sprites, though there is actually no use in that. Ignore them. */
buf->ReadExtendedByte(); // first_set
num_sets = buf->ReadExtendedByte();
}
uint16 num_ents = buf->ReadExtendedByte();
_cur.skip_sprites = num_sets * num_ents;
grfmsg(3, "SkipAct1: Skipping %d sprites", _cur.skip_sprites);
}
/* Helper function to either create a callback or link to a previously
* defined spritegroup. */
static const SpriteGroup *GetGroupFromGroupID(byte setid, byte type, uint16 groupid)
{
if (HasBit(groupid, 15)) {
assert(CallbackResultSpriteGroup::CanAllocateItem());
return new CallbackResultSpriteGroup(groupid, _cur.grffile->grf_version >= 8);
}
if (groupid > MAX_SPRITEGROUP || _cur.spritegroups[groupid] == nullptr) {
grfmsg(1, "GetGroupFromGroupID(0x%02X:0x%02X): Groupid 0x%04X does not exist, leaving empty", setid, type, groupid);
return nullptr;
}
return _cur.spritegroups[groupid];
}
/**
* Helper function to either create a callback or a result sprite group.
* @param feature GrfSpecFeature to define spritegroup for.
* @param setid SetID of the currently being parsed Action2. (only for debug output)
* @param type Type of the currently being parsed Action2. (only for debug output)
* @param spriteid Raw value from the GRF for the new spritegroup; describes either the return value or the referenced spritegroup.
* @return Created spritegroup.
*/
static const SpriteGroup *CreateGroupFromGroupID(byte feature, byte setid, byte type, uint16 spriteid)
{
if (HasBit(spriteid, 15)) {
assert(CallbackResultSpriteGroup::CanAllocateItem());
return new CallbackResultSpriteGroup(spriteid, _cur.grffile->grf_version >= 8);
}
if (!_cur.IsValidSpriteSet(feature, spriteid)) {
grfmsg(1, "CreateGroupFromGroupID(0x%02X:0x%02X): Sprite set %u invalid", setid, type, spriteid);
return nullptr;
}
SpriteID spriteset_start = _cur.GetSprite(feature, spriteid);
uint num_sprites = _cur.GetNumEnts(feature, spriteid);
/* Ensure that the sprites are loeded */
assert(spriteset_start + num_sprites <= _cur.spriteid);
assert(ResultSpriteGroup::CanAllocateItem());
return new ResultSpriteGroup(spriteset_start, num_sprites);
}
/* Action 0x02 */
static void NewSpriteGroup(ByteReader *buf)
{
/* <02>
*
* B feature see action 1
* B set-id ID of this particular definition
* B type/num-entries
* if 80 or greater, this is a randomized or variational
* list definition, see below
* otherwise it specifies a number of entries, the exact
* meaning depends on the feature
* V feature-specific-data (huge mess, don't even look it up --pasky) */
const SpriteGroup *act_group = nullptr;
uint8 feature = buf->ReadByte();
if (feature >= GSF_END) {
grfmsg(1, "NewSpriteGroup: Unsupported feature 0x%02X, skipping", feature);
return;
}
uint8 setid = buf->ReadByte();
uint8 type = buf->ReadByte();
/* Sprite Groups are created here but they are allocated from a pool, so
* we do not need to delete anything if there is an exception from the
* ByteReader. */
switch (type) {
/* Deterministic Sprite Group */
case 0x81: // Self scope, byte
case 0x82: // Parent scope, byte
case 0x85: // Self scope, word
case 0x86: // Parent scope, word
case 0x89: // Self scope, dword
case 0x8A: // Parent scope, dword
{
byte varadjust;
byte varsize;
assert(DeterministicSpriteGroup::CanAllocateItem());
DeterministicSpriteGroup *group = new DeterministicSpriteGroup();
group->nfo_line = _cur.nfo_line;
act_group = group;
group->var_scope = HasBit(type, 1) ? VSG_SCOPE_PARENT : VSG_SCOPE_SELF;
switch (GB(type, 2, 2)) {
default: NOT_REACHED();
case 0: group->size = DSG_SIZE_BYTE; varsize = 1; break;
case 1: group->size = DSG_SIZE_WORD; varsize = 2; break;
case 2: group->size = DSG_SIZE_DWORD; varsize = 4; break;
}
/* Loop through the var adjusts. Unfortunately we don't know how many we have
* from the outset, so we shall have to keep reallocing. */
do {
DeterministicSpriteGroupAdjust &adjust = group->adjusts.emplace_back();
/* The first var adjust doesn't have an operation specified, so we set it to add. */
adjust.operation = group->adjusts.size() == 1 ? DSGA_OP_ADD : (DeterministicSpriteGroupAdjustOperation)buf->ReadByte();
adjust.variable = buf->ReadByte();
if (adjust.variable == 0x7E) {
/* Link subroutine group */
adjust.subroutine = GetGroupFromGroupID(setid, type, buf->ReadByte());
} else {
adjust.parameter = IsInsideMM(adjust.variable, 0x60, 0x80) ? buf->ReadByte() : 0;
}
varadjust = buf->ReadByte();
adjust.shift_num = GB(varadjust, 0, 5);
adjust.type = (DeterministicSpriteGroupAdjustType)GB(varadjust, 6, 2);
adjust.and_mask = buf->ReadVarSize(varsize);
if (adjust.type != DSGA_TYPE_NONE) {
adjust.add_val = buf->ReadVarSize(varsize);
adjust.divmod_val = buf->ReadVarSize(varsize);
} else {
adjust.add_val = 0;
adjust.divmod_val = 0;
}
/* Continue reading var adjusts while bit 5 is set. */
} while (HasBit(varadjust, 5));
std::vector ranges;
ranges.resize(buf->ReadByte());
for (uint i = 0; i < ranges.size(); i++) {
ranges[i].group = GetGroupFromGroupID(setid, type, buf->ReadWord());
ranges[i].low = buf->ReadVarSize(varsize);
ranges[i].high = buf->ReadVarSize(varsize);
}
group->default_group = GetGroupFromGroupID(setid, type, buf->ReadWord());
group->error_group = ranges.size() > 0 ? ranges[0].group : group->default_group;
/* nvar == 0 is a special case -- we turn our value into a callback result */
group->calculated_result = ranges.size() == 0;
/* Sort ranges ascending. When ranges overlap, this may required clamping or splitting them */
std::vector bounds;
for (uint i = 0; i < ranges.size(); i++) {
bounds.push_back(ranges[i].low);
if (ranges[i].high != UINT32_MAX) bounds.push_back(ranges[i].high + 1);
}
std::sort(bounds.begin(), bounds.end());
bounds.erase(std::unique(bounds.begin(), bounds.end()), bounds.end());
std::vector target;
for (uint j = 0; j < bounds.size(); ++j) {
uint32 v = bounds[j];
const SpriteGroup *t = group->default_group;
for (uint i = 0; i < ranges.size(); i++) {
if (ranges[i].low <= v && v <= ranges[i].high) {
t = ranges[i].group;
break;
}
}
target.push_back(t);
}
assert(target.size() == bounds.size());
for (uint j = 0; j < bounds.size(); ) {
if (target[j] != group->default_group) {
DeterministicSpriteGroupRange &r = group->ranges.emplace_back();
r.group = target[j];
r.low = bounds[j];
while (j < bounds.size() && target[j] == r.group) {
j++;
}
r.high = j < bounds.size() ? bounds[j] - 1 : UINT32_MAX;
} else {
j++;
}
}
break;
}
/* Randomized Sprite Group */
case 0x80: // Self scope
case 0x83: // Parent scope
case 0x84: // Relative scope
{
assert(RandomizedSpriteGroup::CanAllocateItem());
RandomizedSpriteGroup *group = new RandomizedSpriteGroup();
group->nfo_line = _cur.nfo_line;
act_group = group;
group->var_scope = HasBit(type, 1) ? VSG_SCOPE_PARENT : VSG_SCOPE_SELF;
if (HasBit(type, 2)) {
if (feature <= GSF_AIRCRAFT) group->var_scope = VSG_SCOPE_RELATIVE;
group->count = buf->ReadByte();
}
uint8 triggers = buf->ReadByte();
group->triggers = GB(triggers, 0, 7);
group->cmp_mode = HasBit(triggers, 7) ? RSG_CMP_ALL : RSG_CMP_ANY;
group->lowest_randbit = buf->ReadByte();
byte num_groups = buf->ReadByte();
if (!HasExactlyOneBit(num_groups)) {
grfmsg(1, "NewSpriteGroup: Random Action 2 nrand should be power of 2");
}
for (uint i = 0; i < num_groups; i++) {
group->groups.push_back(GetGroupFromGroupID(setid, type, buf->ReadWord()));
}
break;
}
/* Neither a variable or randomized sprite group... must be a real group */
default:
{
switch (feature) {
case GSF_TRAINS:
case GSF_ROADVEHICLES:
case GSF_SHIPS:
case GSF_AIRCRAFT:
case GSF_STATIONS:
case GSF_CANALS:
case GSF_CARGOES:
case GSF_AIRPORTS:
case GSF_RAILTYPES:
case GSF_ROADTYPES:
case GSF_TRAMTYPES:
{
byte num_loaded = type;
byte num_loading = buf->ReadByte();
if (!_cur.HasValidSpriteSets(feature)) {
grfmsg(0, "NewSpriteGroup: No sprite set to work on! Skipping");
return;
}
grfmsg(6, "NewSpriteGroup: New SpriteGroup 0x%02X, %u loaded, %u loading",
setid, num_loaded, num_loading);
if (num_loaded + num_loading == 1) {
/* Avoid creating 'Real' sprite group if only one option. */
uint16 spriteid = buf->ReadWord();
act_group = CreateGroupFromGroupID(feature, setid, type, spriteid);
grfmsg(8, "NewSpriteGroup: one result, skipping RealSpriteGroup = subset %u", spriteid);
break;
}
std::vector loaded;
std::vector loading;
for (uint i = 0; i < num_loaded; i++) {
loaded.push_back(buf->ReadWord());
grfmsg(8, "NewSpriteGroup: + rg->loaded[%i] = subset %u", i, loaded[i]);
}
for (uint i = 0; i < num_loading; i++) {
loading.push_back(buf->ReadWord());
grfmsg(8, "NewSpriteGroup: + rg->loading[%i] = subset %u", i, loading[i]);
}
if (std::adjacent_find(loaded.begin(), loaded.end(), std::not_equal_to<>()) == loaded.end() &&
std::adjacent_find(loading.begin(), loading.end(), std::not_equal_to<>()) == loading.end() &&
loaded[0] == loading[0])
{
/* Both lists only contain the same value, so don't create 'Real' sprite group */
act_group = CreateGroupFromGroupID(feature, setid, type, loaded[0]);
grfmsg(8, "NewSpriteGroup: same result, skipping RealSpriteGroup = subset %u", loaded[0]);
break;
}
assert(RealSpriteGroup::CanAllocateItem());
RealSpriteGroup *group = new RealSpriteGroup();
group->nfo_line = _cur.nfo_line;
act_group = group;
for (uint16 spriteid : loaded) {
const SpriteGroup *t = CreateGroupFromGroupID(feature, setid, type, spriteid);
group->loaded.push_back(t);
}
for (uint16 spriteid : loading) {
const SpriteGroup *t = CreateGroupFromGroupID(feature, setid, type, spriteid);
group->loading.push_back(t);
}
break;
}
case GSF_HOUSES:
case GSF_AIRPORTTILES:
case GSF_OBJECTS:
case GSF_INDUSTRYTILES: {
byte num_building_sprites = std::max((uint8)1, type);
assert(TileLayoutSpriteGroup::CanAllocateItem());
TileLayoutSpriteGroup *group = new TileLayoutSpriteGroup();
group->nfo_line = _cur.nfo_line;
act_group = group;
/* On error, bail out immediately. Temporary GRF data was already freed */
if (ReadSpriteLayout(buf, num_building_sprites, true, feature, false, type == 0, &group->dts)) return;
break;
}
case GSF_INDUSTRIES: {
if (type > 2) {
grfmsg(1, "NewSpriteGroup: Unsupported industry production version %d, skipping", type);
break;
}
assert(IndustryProductionSpriteGroup::CanAllocateItem());
IndustryProductionSpriteGroup *group = new IndustryProductionSpriteGroup();
group->nfo_line = _cur.nfo_line;
act_group = group;
group->version = type;
if (type == 0) {
group->num_input = 3;
for (uint i = 0; i < 3; i++) {
group->subtract_input[i] = (int16)buf->ReadWord(); // signed
}
group->num_output = 2;
for (uint i = 0; i < 2; i++) {
group->add_output[i] = buf->ReadWord(); // unsigned
}
group->again = buf->ReadByte();
} else if (type == 1) {
group->num_input = 3;
for (uint i = 0; i < 3; i++) {
group->subtract_input[i] = buf->ReadByte();
}
group->num_output = 2;
for (uint i = 0; i < 2; i++) {
group->add_output[i] = buf->ReadByte();
}
group->again = buf->ReadByte();
} else if (type == 2) {
group->num_input = buf->ReadByte();
if (group->num_input > lengthof(group->subtract_input)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_INDPROD_CALLBACK);
error->data = "too many inputs (max 16)";
return;
}
for (uint i = 0; i < group->num_input; i++) {
byte rawcargo = buf->ReadByte();
CargoID cargo = GetCargoTranslation(rawcargo, _cur.grffile);
if (cargo == CT_INVALID) {
/* The mapped cargo is invalid. This is permitted at this point,
* as long as the result is not used. Mark it invalid so this
* can be tested later. */
group->version = 0xFF;
} else if (std::find(group->cargo_input, group->cargo_input + i, cargo) != group->cargo_input + i) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_INDPROD_CALLBACK);
error->data = "duplicate input cargo";
return;
}
group->cargo_input[i] = cargo;
group->subtract_input[i] = buf->ReadByte();
}
group->num_output = buf->ReadByte();
if (group->num_output > lengthof(group->add_output)) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_INDPROD_CALLBACK);
error->data = "too many outputs (max 16)";
return;
}
for (uint i = 0; i < group->num_output; i++) {
byte rawcargo = buf->ReadByte();
CargoID cargo = GetCargoTranslation(rawcargo, _cur.grffile);
if (cargo == CT_INVALID) {
/* Mark this result as invalid to use */
group->version = 0xFF;
} else if (std::find(group->cargo_output, group->cargo_output + i, cargo) != group->cargo_output + i) {
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_INDPROD_CALLBACK);
error->data = "duplicate output cargo";
return;
}
group->cargo_output[i] = cargo;
group->add_output[i] = buf->ReadByte();
}
group->again = buf->ReadByte();
} else {
NOT_REACHED();
}
break;
}
/* Loading of Tile Layout and Production Callback groups would happen here */
default: grfmsg(1, "NewSpriteGroup: Unsupported feature 0x%02X, skipping", feature);
}
}
}
_cur.spritegroups[setid] = act_group;
}
static CargoID TranslateCargo(uint8 feature, uint8 ctype)
{
if (feature == GSF_OBJECTS) {
switch (ctype) {
case 0: return 0;
case 0xFF: return CT_PURCHASE_OBJECT;
default:
grfmsg(1, "TranslateCargo: Invalid cargo bitnum %d for objects, skipping.", ctype);
return CT_INVALID;
}
}
/* Special cargo types for purchase list and stations */
if (feature == GSF_STATIONS && ctype == 0xFE) return CT_DEFAULT_NA;
if (ctype == 0xFF) return CT_PURCHASE;
if (_cur.grffile->cargo_list.size() == 0) {
/* No cargo table, so use bitnum values */
if (ctype >= 32) {
grfmsg(1, "TranslateCargo: Cargo bitnum %d out of range (max 31), skipping.", ctype);
return CT_INVALID;
}
for (const CargoSpec *cs : CargoSpec::Iterate()) {
if (cs->bitnum == ctype) {
grfmsg(6, "TranslateCargo: Cargo bitnum %d mapped to cargo type %d.", ctype, cs->Index());
return cs->Index();
}
}
grfmsg(5, "TranslateCargo: Cargo bitnum %d not available in this climate, skipping.", ctype);
return CT_INVALID;
}
/* Check if the cargo type is out of bounds of the cargo translation table */
if (ctype >= _cur.grffile->cargo_list.size()) {
grfmsg(1, "TranslateCargo: Cargo type %d out of range (max %d), skipping.", ctype, (unsigned int)_cur.grffile->cargo_list.size() - 1);
return CT_INVALID;
}
/* Look up the cargo label from the translation table */
CargoLabel cl = _cur.grffile->cargo_list[ctype];
if (cl == 0) {
grfmsg(5, "TranslateCargo: Cargo type %d not available in this climate, skipping.", ctype);
return CT_INVALID;
}
ctype = GetCargoIDByLabel(cl);
if (ctype == CT_INVALID) {
grfmsg(5, "TranslateCargo: Cargo '%c%c%c%c' unsupported, skipping.", GB(cl, 24, 8), GB(cl, 16, 8), GB(cl, 8, 8), GB(cl, 0, 8));
return CT_INVALID;
}
grfmsg(6, "TranslateCargo: Cargo '%c%c%c%c' mapped to cargo type %d.", GB(cl, 24, 8), GB(cl, 16, 8), GB(cl, 8, 8), GB(cl, 0, 8), ctype);
return ctype;
}
static bool IsValidGroupID(uint16 groupid, const char *function)
{
if (groupid > MAX_SPRITEGROUP || _cur.spritegroups[groupid] == nullptr) {
grfmsg(1, "%s: Spritegroup 0x%04X out of range or empty, skipping.", function, groupid);
return false;
}
return true;
}
static void VehicleMapSpriteGroup(ByteReader *buf, byte feature, uint8 idcount)
{
static EngineID *last_engines;
static uint last_engines_count;
bool wagover = false;
/* Test for 'wagon override' flag */
if (HasBit(idcount, 7)) {
wagover = true;
/* Strip off the flag */
idcount = GB(idcount, 0, 7);
if (last_engines_count == 0) {
grfmsg(0, "VehicleMapSpriteGroup: WagonOverride: No engine to do override with");
return;
}
grfmsg(6, "VehicleMapSpriteGroup: WagonOverride: %u engines, %u wagons",
last_engines_count, idcount);
} else {
if (last_engines_count != idcount) {
last_engines = ReallocT(last_engines, idcount);
last_engines_count = idcount;
}
}
EngineID *engines = AllocaM(EngineID, idcount);
for (uint i = 0; i < idcount; i++) {
Engine *e = GetNewEngine(_cur.grffile, (VehicleType)feature, buf->ReadExtendedByte());
if (e == nullptr) {
/* No engine could be allocated?!? Deal with it. Okay,
* this might look bad. Also make sure this NewGRF
* gets disabled, as a half loaded one is bad. */
HandleChangeInfoResult("VehicleMapSpriteGroup", CIR_INVALID_ID, 0, 0);
return;
}
engines[i] = e->index;
if (!wagover) last_engines[i] = engines[i];
}
uint8 cidcount = buf->ReadByte();
for (uint c = 0; c < cidcount; c++) {
uint8 ctype = buf->ReadByte();
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "VehicleMapSpriteGroup")) continue;
grfmsg(8, "VehicleMapSpriteGroup: * [%d] Cargo type 0x%X, group id 0x%02X", c, ctype, groupid);
ctype = TranslateCargo(feature, ctype);
if (ctype == CT_INVALID) continue;
for (uint i = 0; i < idcount; i++) {
EngineID engine = engines[i];
grfmsg(7, "VehicleMapSpriteGroup: [%d] Engine %d...", i, engine);
if (wagover) {
SetWagonOverrideSprites(engine, ctype, _cur.spritegroups[groupid], last_engines, last_engines_count);
} else {
SetCustomEngineSprites(engine, ctype, _cur.spritegroups[groupid]);
}
}
}
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "VehicleMapSpriteGroup")) return;
grfmsg(8, "-- Default group id 0x%04X", groupid);
for (uint i = 0; i < idcount; i++) {
EngineID engine = engines[i];
if (wagover) {
SetWagonOverrideSprites(engine, CT_DEFAULT, _cur.spritegroups[groupid], last_engines, last_engines_count);
} else {
SetCustomEngineSprites(engine, CT_DEFAULT, _cur.spritegroups[groupid]);
SetEngineGRF(engine, _cur.grffile);
}
}
}
static void CanalMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
CanalFeature *cfs = AllocaM(CanalFeature, idcount);
for (uint i = 0; i < idcount; i++) {
cfs[i] = (CanalFeature)buf->ReadByte();
}
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "CanalMapSpriteGroup")) return;
for (uint i = 0; i < idcount; i++) {
CanalFeature cf = cfs[i];
if (cf >= CF_END) {
grfmsg(1, "CanalMapSpriteGroup: Canal subset %d out of range, skipping", cf);
continue;
}
_water_feature[cf].grffile = _cur.grffile;
_water_feature[cf].group = _cur.spritegroups[groupid];
}
}
static void StationMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *stations = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
stations[i] = buf->ReadByte();
}
uint8 cidcount = buf->ReadByte();
for (uint c = 0; c < cidcount; c++) {
uint8 ctype = buf->ReadByte();
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "StationMapSpriteGroup")) continue;
ctype = TranslateCargo(GSF_STATIONS, ctype);
if (ctype == CT_INVALID) continue;
for (uint i = 0; i < idcount; i++) {
StationSpec *statspec = _cur.grffile->stations == nullptr ? nullptr : _cur.grffile->stations[stations[i]];
if (statspec == nullptr) {
grfmsg(1, "StationMapSpriteGroup: Station with ID 0x%02X does not exist, skipping", stations[i]);
continue;
}
statspec->grf_prop.spritegroup[ctype] = _cur.spritegroups[groupid];
}
}
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "StationMapSpriteGroup")) return;
for (uint i = 0; i < idcount; i++) {
StationSpec *statspec = _cur.grffile->stations == nullptr ? nullptr : _cur.grffile->stations[stations[i]];
if (statspec == nullptr) {
grfmsg(1, "StationMapSpriteGroup: Station with ID 0x%02X does not exist, skipping", stations[i]);
continue;
}
if (statspec->grf_prop.grffile != nullptr) {
grfmsg(1, "StationMapSpriteGroup: Station with ID 0x%02X mapped multiple times, skipping", stations[i]);
continue;
}
statspec->grf_prop.spritegroup[CT_DEFAULT] = _cur.spritegroups[groupid];
statspec->grf_prop.grffile = _cur.grffile;
statspec->grf_prop.local_id = stations[i];
StationClass::Assign(statspec);
}
}
static void TownHouseMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *houses = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
houses[i] = buf->ReadByte();
}
/* Skip the cargo type section, we only care about the default group */
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "TownHouseMapSpriteGroup")) return;
if (_cur.grffile->housespec == nullptr) {
grfmsg(1, "TownHouseMapSpriteGroup: No houses defined, skipping");
return;
}
for (uint i = 0; i < idcount; i++) {
HouseSpec *hs = _cur.grffile->housespec[houses[i]];
if (hs == nullptr) {
grfmsg(1, "TownHouseMapSpriteGroup: House %d undefined, skipping.", houses[i]);
continue;
}
hs->grf_prop.spritegroup[0] = _cur.spritegroups[groupid];
}
}
static void IndustryMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *industries = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
industries[i] = buf->ReadByte();
}
/* Skip the cargo type section, we only care about the default group */
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "IndustryMapSpriteGroup")) return;
if (_cur.grffile->industryspec == nullptr) {
grfmsg(1, "IndustryMapSpriteGroup: No industries defined, skipping");
return;
}
for (uint i = 0; i < idcount; i++) {
IndustrySpec *indsp = _cur.grffile->industryspec[industries[i]];
if (indsp == nullptr) {
grfmsg(1, "IndustryMapSpriteGroup: Industry %d undefined, skipping", industries[i]);
continue;
}
indsp->grf_prop.spritegroup[0] = _cur.spritegroups[groupid];
}
}
static void IndustrytileMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *indtiles = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
indtiles[i] = buf->ReadByte();
}
/* Skip the cargo type section, we only care about the default group */
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "IndustrytileMapSpriteGroup")) return;
if (_cur.grffile->indtspec == nullptr) {
grfmsg(1, "IndustrytileMapSpriteGroup: No industry tiles defined, skipping");
return;
}
for (uint i = 0; i < idcount; i++) {
IndustryTileSpec *indtsp = _cur.grffile->indtspec[indtiles[i]];
if (indtsp == nullptr) {
grfmsg(1, "IndustrytileMapSpriteGroup: Industry tile %d undefined, skipping", indtiles[i]);
continue;
}
indtsp->grf_prop.spritegroup[0] = _cur.spritegroups[groupid];
}
}
static void CargoMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
CargoID *cargoes = AllocaM(CargoID, idcount);
for (uint i = 0; i < idcount; i++) {
cargoes[i] = buf->ReadByte();
}
/* Skip the cargo type section, we only care about the default group */
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "CargoMapSpriteGroup")) return;
for (uint i = 0; i < idcount; i++) {
CargoID cid = cargoes[i];
if (cid >= NUM_CARGO) {
grfmsg(1, "CargoMapSpriteGroup: Cargo ID %d out of range, skipping", cid);
continue;
}
CargoSpec *cs = CargoSpec::Get(cid);
cs->grffile = _cur.grffile;
cs->group = _cur.spritegroups[groupid];
}
}
static void ObjectMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
if (_cur.grffile->objectspec == nullptr) {
grfmsg(1, "ObjectMapSpriteGroup: No object tiles defined, skipping");
return;
}
uint8 *objects = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
objects[i] = buf->ReadByte();
}
uint8 cidcount = buf->ReadByte();
for (uint c = 0; c < cidcount; c++) {
uint8 ctype = buf->ReadByte();
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "ObjectMapSpriteGroup")) continue;
ctype = TranslateCargo(GSF_OBJECTS, ctype);
if (ctype == CT_INVALID) continue;
for (uint i = 0; i < idcount; i++) {
ObjectSpec *spec = _cur.grffile->objectspec[objects[i]];
if (spec == nullptr) {
grfmsg(1, "ObjectMapSpriteGroup: Object with ID 0x%02X undefined, skipping", objects[i]);
continue;
}
spec->grf_prop.spritegroup[ctype] = _cur.spritegroups[groupid];
}
}
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "ObjectMapSpriteGroup")) return;
for (uint i = 0; i < idcount; i++) {
ObjectSpec *spec = _cur.grffile->objectspec[objects[i]];
if (spec == nullptr) {
grfmsg(1, "ObjectMapSpriteGroup: Object with ID 0x%02X undefined, skipping", objects[i]);
continue;
}
if (spec->grf_prop.grffile != nullptr) {
grfmsg(1, "ObjectMapSpriteGroup: Object with ID 0x%02X mapped multiple times, skipping", objects[i]);
continue;
}
spec->grf_prop.spritegroup[0] = _cur.spritegroups[groupid];
spec->grf_prop.grffile = _cur.grffile;
spec->grf_prop.local_id = objects[i];
}
}
static void RailTypeMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *railtypes = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
uint8 id = buf->ReadByte();
railtypes[i] = id < RAILTYPE_END ? _cur.grffile->railtype_map[id] : INVALID_RAILTYPE;
}
uint8 cidcount = buf->ReadByte();
for (uint c = 0; c < cidcount; c++) {
uint8 ctype = buf->ReadByte();
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "RailTypeMapSpriteGroup")) continue;
if (ctype >= RTSG_END) continue;
extern RailtypeInfo _railtypes[RAILTYPE_END];
for (uint i = 0; i < idcount; i++) {
if (railtypes[i] != INVALID_RAILTYPE) {
RailtypeInfo *rti = &_railtypes[railtypes[i]];
rti->grffile[ctype] = _cur.grffile;
rti->group[ctype] = _cur.spritegroups[groupid];
}
}
}
/* Railtypes do not use the default group. */
buf->ReadWord();
}
static void RoadTypeMapSpriteGroup(ByteReader *buf, uint8 idcount, RoadTramType rtt)
{
RoadType *type_map = (rtt == RTT_TRAM) ? _cur.grffile->tramtype_map : _cur.grffile->roadtype_map;
uint8 *roadtypes = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
uint8 id = buf->ReadByte();
roadtypes[i] = id < ROADTYPE_END ? type_map[id] : INVALID_ROADTYPE;
}
uint8 cidcount = buf->ReadByte();
for (uint c = 0; c < cidcount; c++) {
uint8 ctype = buf->ReadByte();
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "RoadTypeMapSpriteGroup")) continue;
if (ctype >= ROTSG_END) continue;
extern RoadTypeInfo _roadtypes[ROADTYPE_END];
for (uint i = 0; i < idcount; i++) {
if (roadtypes[i] != INVALID_ROADTYPE) {
RoadTypeInfo *rti = &_roadtypes[roadtypes[i]];
rti->grffile[ctype] = _cur.grffile;
rti->group[ctype] = _cur.spritegroups[groupid];
}
}
}
/* Roadtypes do not use the default group. */
buf->ReadWord();
}
static void AirportMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *airports = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
airports[i] = buf->ReadByte();
}
/* Skip the cargo type section, we only care about the default group */
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "AirportMapSpriteGroup")) return;
if (_cur.grffile->airportspec == nullptr) {
grfmsg(1, "AirportMapSpriteGroup: No airports defined, skipping");
return;
}
for (uint i = 0; i < idcount; i++) {
AirportSpec *as = _cur.grffile->airportspec[airports[i]];
if (as == nullptr) {
grfmsg(1, "AirportMapSpriteGroup: Airport %d undefined, skipping", airports[i]);
continue;
}
as->grf_prop.spritegroup[0] = _cur.spritegroups[groupid];
}
}
static void AirportTileMapSpriteGroup(ByteReader *buf, uint8 idcount)
{
uint8 *airptiles = AllocaM(uint8, idcount);
for (uint i = 0; i < idcount; i++) {
airptiles[i] = buf->ReadByte();
}
/* Skip the cargo type section, we only care about the default group */
uint8 cidcount = buf->ReadByte();
buf->Skip(cidcount * 3);
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "AirportTileMapSpriteGroup")) return;
if (_cur.grffile->airtspec == nullptr) {
grfmsg(1, "AirportTileMapSpriteGroup: No airport tiles defined, skipping");
return;
}
for (uint i = 0; i < idcount; i++) {
AirportTileSpec *airtsp = _cur.grffile->airtspec[airptiles[i]];
if (airtsp == nullptr) {
grfmsg(1, "AirportTileMapSpriteGroup: Airport tile %d undefined, skipping", airptiles[i]);
continue;
}
airtsp->grf_prop.spritegroup[0] = _cur.spritegroups[groupid];
}
}
/* Action 0x03 */
static void FeatureMapSpriteGroup(ByteReader *buf)
{
/* <03> ... [ ]...
* id-list := [] [id-list]
* cargo-list := [cargo-list]
*
* B feature see action 0
* B n-id bits 0-6: how many IDs this definition applies to
* bit 7: if set, this is a wagon override definition (see below)
* B ids the IDs for which this definition applies
* B num-cid number of cargo IDs (sprite group IDs) in this definition
* can be zero, in that case the def-cid is used always
* B cargo-type type of this cargo type (e.g. mail=2, wood=7, see below)
* W cid cargo ID (sprite group ID) for this type of cargo
* W def-cid default cargo ID (sprite group ID) */
uint8 feature = buf->ReadByte();
uint8 idcount = buf->ReadByte();
if (feature >= GSF_END) {
grfmsg(1, "FeatureMapSpriteGroup: Unsupported feature 0x%02X, skipping", feature);
return;
}
/* If idcount is zero, this is a feature callback */
if (idcount == 0) {
/* Skip number of cargo ids? */
buf->ReadByte();
uint16 groupid = buf->ReadWord();
if (!IsValidGroupID(groupid, "FeatureMapSpriteGroup")) return;
grfmsg(6, "FeatureMapSpriteGroup: Adding generic feature callback for feature 0x%02X", feature);
AddGenericCallback(feature, _cur.grffile, _cur.spritegroups[groupid]);
return;
}
/* Mark the feature as used by the grf (generic callbacks do not count) */
SetBit(_cur.grffile->grf_features, feature);
grfmsg(6, "FeatureMapSpriteGroup: Feature 0x%02X, %d ids", feature, idcount);
switch (feature) {
case GSF_TRAINS:
case GSF_ROADVEHICLES:
case GSF_SHIPS:
case GSF_AIRCRAFT:
VehicleMapSpriteGroup(buf, feature, idcount);
return;
case GSF_CANALS:
CanalMapSpriteGroup(buf, idcount);
return;
case GSF_STATIONS:
StationMapSpriteGroup(buf, idcount);
return;
case GSF_HOUSES:
TownHouseMapSpriteGroup(buf, idcount);
return;
case GSF_INDUSTRIES:
IndustryMapSpriteGroup(buf, idcount);
return;
case GSF_INDUSTRYTILES:
IndustrytileMapSpriteGroup(buf, idcount);
return;
case GSF_CARGOES:
CargoMapSpriteGroup(buf, idcount);
return;
case GSF_AIRPORTS:
AirportMapSpriteGroup(buf, idcount);
return;
case GSF_OBJECTS:
ObjectMapSpriteGroup(buf, idcount);
break;
case GSF_RAILTYPES:
RailTypeMapSpriteGroup(buf, idcount);
break;
case GSF_ROADTYPES:
RoadTypeMapSpriteGroup(buf, idcount, RTT_ROAD);
break;
case GSF_TRAMTYPES:
RoadTypeMapSpriteGroup(buf, idcount, RTT_TRAM);
break;
case GSF_AIRPORTTILES:
AirportTileMapSpriteGroup(buf, idcount);
return;
default:
grfmsg(1, "FeatureMapSpriteGroup: Unsupported feature 0x%02X, skipping", feature);
return;
}
}
/* Action 0x04 */
static void FeatureNewName(ByteReader *buf)
{
/* <04>
*
* B veh-type see action 0 (as 00..07, + 0A
* But IF veh-type = 48, then generic text
* B language-id If bit 6 is set, This is the extended language scheme,
* with up to 64 language.
* Otherwise, it is a mapping where set bits have meaning
* 0 = american, 1 = english, 2 = german, 3 = french, 4 = spanish
* Bit 7 set means this is a generic text, not a vehicle one (or else)
* B num-veh number of vehicles which are getting a new name
* B/W offset number of the first vehicle that gets a new name
* Byte : ID of vehicle to change
* Word : ID of string to change/add
* S data new texts, each of them zero-terminated, after
* which the next name begins. */
bool new_scheme = _cur.grffile->grf_version >= 7;
uint8 feature = buf->ReadByte();
if (feature >= GSF_END && feature != 0x48) {
grfmsg(1, "FeatureNewName: Unsupported feature 0x%02X, skipping", feature);
return;
}
uint8 lang = buf->ReadByte();
uint8 num = buf->ReadByte();
bool generic = HasBit(lang, 7);
uint16 id;
if (generic) {
id = buf->ReadWord();
} else if (feature <= GSF_AIRCRAFT) {
id = buf->ReadExtendedByte();
} else {
id = buf->ReadByte();
}
ClrBit(lang, 7);
uint16 endid = id + num;
grfmsg(6, "FeatureNewName: About to rename engines %d..%d (feature 0x%02X) in language 0x%02X",
id, endid, feature, lang);
for (; id < endid && buf->HasData(); id++) {
const char *name = buf->ReadString();
grfmsg(8, "FeatureNewName: 0x%04X <- %s", id, name);
switch (feature) {
case GSF_TRAINS:
case GSF_ROADVEHICLES:
case GSF_SHIPS:
case GSF_AIRCRAFT:
if (!generic) {
Engine *e = GetNewEngine(_cur.grffile, (VehicleType)feature, id, HasBit(_cur.grfconfig->flags, GCF_STATIC));
if (e == nullptr) break;
StringID string = AddGRFString(_cur.grffile->grfid, e->index, lang, new_scheme, false, name, e->info.string_id);
e->info.string_id = string;
} else {
AddGRFString(_cur.grffile->grfid, id, lang, new_scheme, true, name, STR_UNDEFINED);
}
break;
default:
if (IsInsideMM(id, 0xD000, 0xD400) || IsInsideMM(id, 0xD800, 0xE000)) {
AddGRFString(_cur.grffile->grfid, id, lang, new_scheme, true, name, STR_UNDEFINED);
break;
}
switch (GB(id, 8, 8)) {
case 0xC4: // Station class name
if (_cur.grffile->stations == nullptr || _cur.grffile->stations[GB(id, 0, 8)] == nullptr) {
grfmsg(1, "FeatureNewName: Attempt to name undefined station 0x%X, ignoring", GB(id, 0, 8));
} else {
StationClassID cls_id = _cur.grffile->stations[GB(id, 0, 8)]->cls_id;
StationClass::Get(cls_id)->name = AddGRFString(_cur.grffile->grfid, id, lang, new_scheme, false, name, STR_UNDEFINED);
}
break;
case 0xC5: // Station name
if (_cur.grffile->stations == nullptr || _cur.grffile->stations[GB(id, 0, 8)] == nullptr) {
grfmsg(1, "FeatureNewName: Attempt to name undefined station 0x%X, ignoring", GB(id, 0, 8));
} else {
_cur.grffile->stations[GB(id, 0, 8)]->name = AddGRFString(_cur.grffile->grfid, id, lang, new_scheme, false, name, STR_UNDEFINED);
}
break;
case 0xC7: // Airporttile name
if (_cur.grffile->airtspec == nullptr || _cur.grffile->airtspec[GB(id, 0, 8)] == nullptr) {
grfmsg(1, "FeatureNewName: Attempt to name undefined airport tile 0x%X, ignoring", GB(id, 0, 8));
} else {
_cur.grffile->airtspec[GB(id, 0, 8)]->name = AddGRFString(_cur.grffile->grfid, id, lang, new_scheme, false, name, STR_UNDEFINED);
}
break;
case 0xC9: // House name
if (_cur.grffile->housespec == nullptr || _cur.grffile->housespec[GB(id, 0, 8)] == nullptr) {
grfmsg(1, "FeatureNewName: Attempt to name undefined house 0x%X, ignoring.", GB(id, 0, 8));
} else {
_cur.grffile->housespec[GB(id, 0, 8)]->building_name = AddGRFString(_cur.grffile->grfid, id, lang, new_scheme, false, name, STR_UNDEFINED);
}
break;
default:
grfmsg(7, "FeatureNewName: Unsupported ID (0x%04X)", id);
break;
}
break;
}
}
}
/**
* Sanitize incoming sprite offsets for Action 5 graphics replacements.
* @param num The number of sprites to load.
* @param offset Offset from the base.
* @param max_sprites The maximum number of sprites that can be loaded in this action 5.
* @param name Used for error warnings.
* @return The number of sprites that is going to be skipped.
*/
static uint16 SanitizeSpriteOffset(uint16& num, uint16 offset, int max_sprites, const char *name)
{
if (offset >= max_sprites) {
grfmsg(1, "GraphicsNew: %s sprite offset must be less than %i, skipping", name, max_sprites);
uint orig_num = num;
num = 0;
return orig_num;
}
if (offset + num > max_sprites) {
grfmsg(4, "GraphicsNew: %s sprite overflow, truncating...", name);
uint orig_num = num;
num = std::max(max_sprites - offset, 0);
return orig_num - num;
}
return 0;
}
/** The type of action 5 type. */
enum Action5BlockType {
A5BLOCK_FIXED, ///< Only allow replacing a whole block of sprites. (TTDP compatible)
A5BLOCK_ALLOW_OFFSET, ///< Allow replacing any subset by specifiing an offset.
A5BLOCK_INVALID, ///< unknown/not-implemented type
};
/** Information about a single action 5 type. */
struct Action5Type {
Action5BlockType block_type; ///< How is this Action5 type processed?
SpriteID sprite_base; ///< Load the sprites starting from this sprite.
uint16 min_sprites; ///< If the Action5 contains less sprites, the whole block will be ignored.
uint16 max_sprites; ///< If the Action5 contains more sprites, only the first max_sprites sprites will be used.
const char *name; ///< Name for error messages.
};
/** The information about action 5 types. */
static const Action5Type _action5_types[] = {
/* Note: min_sprites should not be changed. Therefore these constants are directly here and not in sprites.h */
/* 0x00 */ { A5BLOCK_INVALID, 0, 0, 0, "Type 0x00" },
/* 0x01 */ { A5BLOCK_INVALID, 0, 0, 0, "Type 0x01" },
/* 0x02 */ { A5BLOCK_INVALID, 0, 0, 0, "Type 0x02" },
/* 0x03 */ { A5BLOCK_INVALID, 0, 0, 0, "Type 0x03" },
/* 0x04 */ { A5BLOCK_ALLOW_OFFSET, SPR_SIGNALS_BASE, 1, PRESIGNAL_SEMAPHORE_AND_PBS_SPRITE_COUNT, "Signal graphics" },
/* 0x05 */ { A5BLOCK_ALLOW_OFFSET, SPR_ELRAIL_BASE, 1, ELRAIL_SPRITE_COUNT, "Rail catenary graphics" },
/* 0x06 */ { A5BLOCK_ALLOW_OFFSET, SPR_SLOPES_BASE, 1, NORMAL_AND_HALFTILE_FOUNDATION_SPRITE_COUNT, "Foundation graphics" },
/* 0x07 */ { A5BLOCK_INVALID, 0, 75, 0, "TTDP GUI graphics" }, // Not used by OTTD.
/* 0x08 */ { A5BLOCK_ALLOW_OFFSET, SPR_CANALS_BASE, 1, CANALS_SPRITE_COUNT, "Canal graphics" },
/* 0x09 */ { A5BLOCK_ALLOW_OFFSET, SPR_ONEWAY_BASE, 1, ONEWAY_SPRITE_COUNT, "One way road graphics" },
/* 0x0A */ { A5BLOCK_ALLOW_OFFSET, SPR_2CCMAP_BASE, 1, TWOCCMAP_SPRITE_COUNT, "2CC colour maps" },
/* 0x0B */ { A5BLOCK_ALLOW_OFFSET, SPR_TRAMWAY_BASE, 1, TRAMWAY_SPRITE_COUNT, "Tramway graphics" },
/* 0x0C */ { A5BLOCK_INVALID, 0, 133, 0, "Snowy temperate tree" }, // Not yet used by OTTD.
/* 0x0D */ { A5BLOCK_FIXED, SPR_SHORE_BASE, 16, SPR_SHORE_SPRITE_COUNT, "Shore graphics" },
/* 0x0E */ { A5BLOCK_INVALID, 0, 0, 0, "New Signals graphics" }, // Not yet used by OTTD.
/* 0x0F */ { A5BLOCK_ALLOW_OFFSET, SPR_TRACKS_FOR_SLOPES_BASE, 1, TRACKS_FOR_SLOPES_SPRITE_COUNT, "Sloped rail track" },
/* 0x10 */ { A5BLOCK_ALLOW_OFFSET, SPR_AIRPORTX_BASE, 1, AIRPORTX_SPRITE_COUNT, "Airport graphics" },
/* 0x11 */ { A5BLOCK_ALLOW_OFFSET, SPR_ROADSTOP_BASE, 1, ROADSTOP_SPRITE_COUNT, "Road stop graphics" },
/* 0x12 */ { A5BLOCK_ALLOW_OFFSET, SPR_AQUEDUCT_BASE, 1, AQUEDUCT_SPRITE_COUNT, "Aqueduct graphics" },
/* 0x13 */ { A5BLOCK_ALLOW_OFFSET, SPR_AUTORAIL_BASE, 1, AUTORAIL_SPRITE_COUNT, "Autorail graphics" },
/* 0x14 */ { A5BLOCK_ALLOW_OFFSET, SPR_FLAGS_BASE, 1, FLAGS_SPRITE_COUNT, "Flag graphics" },
/* 0x15 */ { A5BLOCK_ALLOW_OFFSET, SPR_OPENTTD_BASE, 1, OPENTTD_SPRITE_COUNT, "OpenTTD GUI graphics" },
/* 0x16 */ { A5BLOCK_ALLOW_OFFSET, SPR_AIRPORT_PREVIEW_BASE, 1, SPR_AIRPORT_PREVIEW_COUNT, "Airport preview graphics" },
/* 0x17 */ { A5BLOCK_ALLOW_OFFSET, SPR_RAILTYPE_TUNNEL_BASE, 1, RAILTYPE_TUNNEL_BASE_COUNT, "Railtype tunnel base" },
/* 0x18 */ { A5BLOCK_ALLOW_OFFSET, SPR_PALETTE_BASE, 1, PALETTE_SPRITE_COUNT, "Palette" },
};
/* Action 0x05 */
static void GraphicsNew(ByteReader *buf)
{
/* <05>
*
* B graphics-type What set of graphics the sprites define.
* E num-sprites How many sprites are in this set?
* V other data Graphics type specific data. Currently unused. */
uint8 type = buf->ReadByte();
uint16 num = buf->ReadExtendedByte();
uint16 offset = HasBit(type, 7) ? buf->ReadExtendedByte() : 0;
ClrBit(type, 7); // Clear the high bit as that only indicates whether there is an offset.
if ((type == 0x0D) && (num == 10) && HasBit(_cur.grfconfig->flags, GCF_SYSTEM)) {
/* Special not-TTDP-compatible case used in openttd.grf
* Missing shore sprites and initialisation of SPR_SHORE_BASE */
grfmsg(2, "GraphicsNew: Loading 10 missing shore sprites from extra grf.");
LoadNextSprite(SPR_SHORE_BASE + 0, *_cur.file, _cur.nfo_line++); // SLOPE_STEEP_S
LoadNextSprite(SPR_SHORE_BASE + 5, *_cur.file, _cur.nfo_line++); // SLOPE_STEEP_W
LoadNextSprite(SPR_SHORE_BASE + 7, *_cur.file, _cur.nfo_line++); // SLOPE_WSE
LoadNextSprite(SPR_SHORE_BASE + 10, *_cur.file, _cur.nfo_line++); // SLOPE_STEEP_N
LoadNextSprite(SPR_SHORE_BASE + 11, *_cur.file, _cur.nfo_line++); // SLOPE_NWS
LoadNextSprite(SPR_SHORE_BASE + 13, *_cur.file, _cur.nfo_line++); // SLOPE_ENW
LoadNextSprite(SPR_SHORE_BASE + 14, *_cur.file, _cur.nfo_line++); // SLOPE_SEN
LoadNextSprite(SPR_SHORE_BASE + 15, *_cur.file, _cur.nfo_line++); // SLOPE_STEEP_E
LoadNextSprite(SPR_SHORE_BASE + 16, *_cur.file, _cur.nfo_line++); // SLOPE_EW
LoadNextSprite(SPR_SHORE_BASE + 17, *_cur.file, _cur.nfo_line++); // SLOPE_NS
if (_loaded_newgrf_features.shore == SHORE_REPLACE_NONE) _loaded_newgrf_features.shore = SHORE_REPLACE_ONLY_NEW;
return;
}
/* Supported type? */
if ((type >= lengthof(_action5_types)) || (_action5_types[type].block_type == A5BLOCK_INVALID)) {
grfmsg(2, "GraphicsNew: Custom graphics (type 0x%02X) sprite block of length %u (unimplemented, ignoring)", type, num);
_cur.skip_sprites = num;
return;
}
const Action5Type *action5_type = &_action5_types[type];
/* Contrary to TTDP we allow always to specify too few sprites as we allow always an offset,
* except for the long version of the shore type:
* Ignore offset if not allowed */
if ((action5_type->block_type != A5BLOCK_ALLOW_OFFSET) && (offset != 0)) {
grfmsg(1, "GraphicsNew: %s (type 0x%02X) do not allow an field. Ignoring offset.", action5_type->name, type);
offset = 0;
}
/* Ignore action5 if too few sprites are specified. (for TTDP compatibility)
* This does not make sense, if is allowed */
if ((action5_type->block_type == A5BLOCK_FIXED) && (num < action5_type->min_sprites)) {
grfmsg(1, "GraphicsNew: %s (type 0x%02X) count must be at least %d. Only %d were specified. Skipping.", action5_type->name, type, action5_type->min_sprites, num);
_cur.skip_sprites = num;
return;
}
/* Load at most max_sprites sprites. Skip remaining sprites. (for compatibility with TTDP and future extensions) */
uint16 skip_num = SanitizeSpriteOffset(num, offset, action5_type->max_sprites, action5_type->name);
SpriteID replace = action5_type->sprite_base + offset;
/* Load sprites starting from , then skip sprites. */
grfmsg(2, "GraphicsNew: Replacing sprites %d to %d of %s (type 0x%02X) at SpriteID 0x%04X", offset, offset + num - 1, action5_type->name, type, replace);
if (type == 0x0D) _loaded_newgrf_features.shore = SHORE_REPLACE_ACTION_5;
if (type == 0x0B) {
static const SpriteID depot_with_track_offset = SPR_TRAMWAY_DEPOT_WITH_TRACK - SPR_TRAMWAY_BASE;
static const SpriteID depot_no_track_offset = SPR_TRAMWAY_DEPOT_NO_TRACK - SPR_TRAMWAY_BASE;
if (offset <= depot_with_track_offset && offset + num > depot_with_track_offset) _loaded_newgrf_features.tram = TRAMWAY_REPLACE_DEPOT_WITH_TRACK;
if (offset <= depot_no_track_offset && offset + num > depot_no_track_offset) _loaded_newgrf_features.tram = TRAMWAY_REPLACE_DEPOT_NO_TRACK;
}
for (; num > 0; num--) {
_cur.nfo_line++;
LoadNextSprite(replace == 0 ? _cur.spriteid++ : replace++, *_cur.file, _cur.nfo_line);
}
_cur.skip_sprites = skip_num;
}
/* Action 0x05 (SKIP) */
static void SkipAct5(ByteReader *buf)
{
/* Ignore type byte */
buf->ReadByte();
/* Skip the sprites of this action */
_cur.skip_sprites = buf->ReadExtendedByte();
grfmsg(3, "SkipAct5: Skipping %d sprites", _cur.skip_sprites);
}
/**
* Reads a variable common to VarAction2 and Action7/9/D.
*
* Returns VarAction2 variable 'param' resp. Action7/9/D variable '0x80 + param'.
* If a variable is not accessible from all four actions, it is handled in the action specific functions.
*
* @param param variable number (as for VarAction2, for Action7/9/D you have to subtract 0x80 first).
* @param value returns the value of the variable.
* @param grffile NewGRF querying the variable
* @return true iff the variable is known and the value is returned in 'value'.
*/
bool GetGlobalVariable(byte param, uint32 *value, const GRFFile *grffile)
{
switch (param) {
case 0x00: // current date
*value = std::max(_date - DAYS_TILL_ORIGINAL_BASE_YEAR, 0);
return true;
case 0x01: // current year
*value = Clamp(_cur_year, ORIGINAL_BASE_YEAR, ORIGINAL_MAX_YEAR) - ORIGINAL_BASE_YEAR;
return true;
case 0x02: { // detailed date information: month of year (bit 0-7), day of month (bit 8-12), leap year (bit 15), day of year (bit 16-24)
YearMonthDay ymd;
ConvertDateToYMD(_date, &ymd);
Date start_of_year = ConvertYMDToDate(ymd.year, 0, 1);
*value = ymd.month | (ymd.day - 1) << 8 | (IsLeapYear(ymd.year) ? 1 << 15 : 0) | (_date - start_of_year) << 16;
return true;
}
case 0x03: // current climate, 0=temp, 1=arctic, 2=trop, 3=toyland
*value = _settings_game.game_creation.landscape;
return true;
case 0x06: // road traffic side, bit 4 clear=left, set=right
*value = _settings_game.vehicle.road_side << 4;
return true;
case 0x09: // date fraction
*value = _date_fract * 885;
return true;
case 0x0A: // animation counter
*value = _tick_counter;
return true;
case 0x0B: { // TTDPatch version
uint major = 2;
uint minor = 6;
uint revision = 1; // special case: 2.0.1 is 2.0.10
uint build = 1382;
*value = (major << 24) | (minor << 20) | (revision << 16) | build;
return true;
}
case 0x0D: // TTD Version, 00=DOS, 01=Windows
*value = _cur.grfconfig->palette & GRFP_USE_MASK;
return true;
case 0x0E: // Y-offset for train sprites
*value = _cur.grffile->traininfo_vehicle_pitch;
return true;
case 0x0F: // Rail track type cost factors
*value = 0;
SB(*value, 0, 8, GetRailTypeInfo(RAILTYPE_RAIL)->cost_multiplier); // normal rail
if (_settings_game.vehicle.disable_elrails) {
/* skip elrail multiplier - disabled */
SB(*value, 8, 8, GetRailTypeInfo(RAILTYPE_MONO)->cost_multiplier); // monorail
} else {
SB(*value, 8, 8, GetRailTypeInfo(RAILTYPE_ELECTRIC)->cost_multiplier); // electified railway
/* Skip monorail multiplier - no space in result */
}
SB(*value, 16, 8, GetRailTypeInfo(RAILTYPE_MAGLEV)->cost_multiplier); // maglev
return true;
case 0x11: // current rail tool type
*value = 0; // constant fake value to avoid desync
return true;
case 0x12: // Game mode
*value = _game_mode;
return true;
/* case 0x13: // Tile refresh offset to left not implemented */
/* case 0x14: // Tile refresh offset to right not implemented */
/* case 0x15: // Tile refresh offset upwards not implemented */
/* case 0x16: // Tile refresh offset downwards not implemented */
/* case 0x17: // temperate snow line not implemented */
case 0x1A: // Always -1
*value = UINT_MAX;
return true;
case 0x1B: // Display options
*value = 0x3F; // constant fake value to avoid desync
return true;
case 0x1D: // TTD Platform, 00=TTDPatch, 01=OpenTTD
*value = 1;
return true;
case 0x1E: // Miscellaneous GRF features
*value = _misc_grf_features;
/* Add the local flags */
assert(!HasBit(*value, GMB_TRAIN_WIDTH_32_PIXELS));
if (_cur.grffile->traininfo_vehicle_width == VEHICLEINFO_FULL_VEHICLE_WIDTH) SetBit(*value, GMB_TRAIN_WIDTH_32_PIXELS);
return true;
/* case 0x1F: // locale dependent settings not implemented to avoid desync */
case 0x20: { // snow line height
byte snowline = GetSnowLine();
if (_settings_game.game_creation.landscape == LT_ARCTIC && snowline <= _settings_game.construction.map_height_limit) {
*value = Clamp(snowline * (grffile->grf_version >= 8 ? 1 : TILE_HEIGHT), 0, 0xFE);
} else {
/* No snow */
*value = 0xFF;
}
return true;
}
case 0x21: // OpenTTD version
*value = _openttd_newgrf_version;
return true;
case 0x22: // difficulty level
*value = SP_CUSTOM;
return true;
case 0x23: // long format date
*value = _date;
return true;
case 0x24: // long format year
*value = _cur_year;
return true;
default: return false;
}
}
static uint32 GetParamVal(byte param, uint32 *cond_val)
{
/* First handle variable common with VarAction2 */
uint32 value;
if (GetGlobalVariable(param - 0x80, &value, _cur.grffile)) return value;
/* Non-common variable */
switch (param) {
case 0x84: { // GRF loading stage
uint32 res = 0;
if (_cur.stage > GLS_INIT) SetBit(res, 0);
if (_cur.stage == GLS_RESERVE) SetBit(res, 8);
if (_cur.stage == GLS_ACTIVATION) SetBit(res, 9);
return res;
}
case 0x85: // TTDPatch flags, only for bit tests
if (cond_val == nullptr) {
/* Supported in Action 0x07 and 0x09, not 0x0D */
return 0;
} else {
uint32 index = *cond_val / 0x20;
uint32 param_val = index < lengthof(_ttdpatch_flags) ? _ttdpatch_flags[index] : 0;
*cond_val %= 0x20;
return param_val;
}
case 0x88: // GRF ID check
return 0;
/* case 0x99: Global ID offset not implemented */
default:
/* GRF Parameter */
if (param < 0x80) return _cur.grffile->GetParam(param);
/* In-game variable. */
grfmsg(1, "Unsupported in-game variable 0x%02X", param);
return UINT_MAX;
}
}
/* Action 0x06 */
static void CfgApply(ByteReader *buf)
{
/* <06> ...
*
* B param-num Number of parameter to substitute (First = "zero")
* Ignored if that parameter was not specified in newgrf.cfg
* B param-size How many bytes to replace. If larger than 4, the
* bytes of the following parameter are used. In that
* case, nothing is applied unless *all* parameters
* were specified.
* B offset Offset into data from beginning of next sprite
* to place where parameter is to be stored. */
/* Preload the next sprite */
SpriteFile &file = *_cur.file;
size_t pos = file.GetPos();
uint32 num = file.GetContainerVersion() >= 2 ? file.ReadDword() : file.ReadWord();
uint8 type = file.ReadByte();
byte *preload_sprite = nullptr;
/* Check if the sprite is a pseudo sprite. We can't operate on real sprites. */
if (type == 0xFF) {
preload_sprite = MallocT(num);
file.ReadBlock(preload_sprite, num);
}
/* Reset the file position to the start of the next sprite */
file.SeekTo(pos, SEEK_SET);
if (type != 0xFF) {
grfmsg(2, "CfgApply: Ignoring (next sprite is real, unsupported)");
free(preload_sprite);
return;
}
GRFLocation location(_cur.grfconfig->ident.grfid, _cur.nfo_line + 1);
GRFLineToSpriteOverride::iterator it = _grf_line_to_action6_sprite_override.find(location);
if (it != _grf_line_to_action6_sprite_override.end()) {
free(preload_sprite);
preload_sprite = _grf_line_to_action6_sprite_override[location];
} else {
_grf_line_to_action6_sprite_override[location] = preload_sprite;
}
/* Now perform the Action 0x06 on our data. */
for (;;) {
uint i;
uint param_num;
uint param_size;
uint offset;
bool add_value;
/* Read the parameter to apply. 0xFF indicates no more data to change. */
param_num = buf->ReadByte();
if (param_num == 0xFF) break;
/* Get the size of the parameter to use. If the size covers multiple
* double words, sequential parameter values are used. */
param_size = buf->ReadByte();
/* Bit 7 of param_size indicates we should add to the original value
* instead of replacing it. */
add_value = HasBit(param_size, 7);
param_size = GB(param_size, 0, 7);
/* Where to apply the data to within the pseudo sprite data. */
offset = buf->ReadExtendedByte();
/* If the parameter is a GRF parameter (not an internal variable) check
* if it (and all further sequential parameters) has been defined. */
if (param_num < 0x80 && (param_num + (param_size - 1) / 4) >= _cur.grffile->param_end) {
grfmsg(2, "CfgApply: Ignoring (param %d not set)", (param_num + (param_size - 1) / 4));
break;
}
grfmsg(8, "CfgApply: Applying %u bytes from parameter 0x%02X at offset 0x%04X", param_size, param_num, offset);
bool carry = false;
for (i = 0; i < param_size && offset + i < num; i++) {
uint32 value = GetParamVal(param_num + i / 4, nullptr);
/* Reset carry flag for each iteration of the variable (only really
* matters if param_size is greater than 4) */
if (i % 4 == 0) carry = false;
if (add_value) {
uint new_value = preload_sprite[offset + i] + GB(value, (i % 4) * 8, 8) + (carry ? 1 : 0);
preload_sprite[offset + i] = GB(new_value, 0, 8);
/* Check if the addition overflowed */
carry = new_value >= 256;
} else {
preload_sprite[offset + i] = GB(value, (i % 4) * 8, 8);
}
}
}
}
/**
* Disable a static NewGRF when it is influencing another (non-static)
* NewGRF as this could cause desyncs.
*
* We could just tell the NewGRF querying that the file doesn't exist,
* but that might give unwanted results. Disabling the NewGRF gives the
* best result as no NewGRF author can complain about that.
* @param c The NewGRF to disable.
*/
static void DisableStaticNewGRFInfluencingNonStaticNewGRFs(GRFConfig *c)
{
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_STATIC_GRF_CAUSES_DESYNC, c);
error->data = _cur.grfconfig->GetName();
}
/* Action 0x07
* Action 0x09 */
static void SkipIf(ByteReader *buf)
{
/* <07/09>
*
* B param-num
* B param-size
* B condition-type
* V value
* B num-sprites */
uint32 cond_val = 0;
uint32 mask = 0;
bool result;
uint8 param = buf->ReadByte();
uint8 paramsize = buf->ReadByte();
uint8 condtype = buf->ReadByte();
if (condtype < 2) {
/* Always 1 for bit tests, the given value should be ignored. */
paramsize = 1;
}
switch (paramsize) {
case 8: cond_val = buf->ReadDWord(); mask = buf->ReadDWord(); break;
case 4: cond_val = buf->ReadDWord(); mask = 0xFFFFFFFF; break;
case 2: cond_val = buf->ReadWord(); mask = 0x0000FFFF; break;
case 1: cond_val = buf->ReadByte(); mask = 0x000000FF; break;
default: break;
}
if (param < 0x80 && _cur.grffile->param_end <= param) {
grfmsg(7, "SkipIf: Param %d undefined, skipping test", param);
return;
}
grfmsg(7, "SkipIf: Test condtype %d, param 0x%02X, condval 0x%08X", condtype, param, cond_val);
/* condtypes that do not use 'param' are always valid.
* condtypes that use 'param' are either not valid for param 0x88, or they are only valid for param 0x88.
*/
if (condtype >= 0x0B) {
/* Tests that ignore 'param' */
switch (condtype) {
case 0x0B: result = GetCargoIDByLabel(BSWAP32(cond_val)) == CT_INVALID;
break;
case 0x0C: result = GetCargoIDByLabel(BSWAP32(cond_val)) != CT_INVALID;
break;
case 0x0D: result = GetRailTypeByLabel(BSWAP32(cond_val)) == INVALID_RAILTYPE;
break;
case 0x0E: result = GetRailTypeByLabel(BSWAP32(cond_val)) != INVALID_RAILTYPE;
break;
case 0x0F: {
RoadType rt = GetRoadTypeByLabel(BSWAP32(cond_val));
result = rt == INVALID_ROADTYPE || !RoadTypeIsRoad(rt);
break;
}
case 0x10: {
RoadType rt = GetRoadTypeByLabel(BSWAP32(cond_val));
result = rt != INVALID_ROADTYPE && RoadTypeIsRoad(rt);
break;
}
case 0x11: {
RoadType rt = GetRoadTypeByLabel(BSWAP32(cond_val));
result = rt == INVALID_ROADTYPE || !RoadTypeIsTram(rt);
break;
}
case 0x12: {
RoadType rt = GetRoadTypeByLabel(BSWAP32(cond_val));
result = rt != INVALID_ROADTYPE && RoadTypeIsTram(rt);
break;
}
default: grfmsg(1, "SkipIf: Unsupported condition type %02X. Ignoring", condtype); return;
}
} else if (param == 0x88) {
/* GRF ID checks */
GRFConfig *c = GetGRFConfig(cond_val, mask);
if (c != nullptr && HasBit(c->flags, GCF_STATIC) && !HasBit(_cur.grfconfig->flags, GCF_STATIC) && _networking) {
DisableStaticNewGRFInfluencingNonStaticNewGRFs(c);
c = nullptr;
}
if (condtype != 10 && c == nullptr) {
grfmsg(7, "SkipIf: GRFID 0x%08X unknown, skipping test", BSWAP32(cond_val));
return;
}
switch (condtype) {
/* Tests 0x06 to 0x0A are only for param 0x88, GRFID checks */
case 0x06: // Is GRFID active?
result = c->status == GCS_ACTIVATED;
break;
case 0x07: // Is GRFID non-active?
result = c->status != GCS_ACTIVATED;
break;
case 0x08: // GRFID is not but will be active?
result = c->status == GCS_INITIALISED;
break;
case 0x09: // GRFID is or will be active?
result = c->status == GCS_ACTIVATED || c->status == GCS_INITIALISED;
break;
case 0x0A: // GRFID is not nor will be active
/* This is the only condtype that doesn't get ignored if the GRFID is not found */
result = c == nullptr || c->status == GCS_DISABLED || c->status == GCS_NOT_FOUND;
break;
default: grfmsg(1, "SkipIf: Unsupported GRF condition type %02X. Ignoring", condtype); return;
}
} else {
/* Tests that use 'param' and are not GRF ID checks. */
uint32 param_val = GetParamVal(param, &cond_val); // cond_val is modified for param == 0x85
switch (condtype) {
case 0x00: result = !!(param_val & (1 << cond_val));
break;
case 0x01: result = !(param_val & (1 << cond_val));
break;
case 0x02: result = (param_val & mask) == cond_val;
break;
case 0x03: result = (param_val & mask) != cond_val;
break;
case 0x04: result = (param_val & mask) < cond_val;
break;
case 0x05: result = (param_val & mask) > cond_val;
break;
default: grfmsg(1, "SkipIf: Unsupported condition type %02X. Ignoring", condtype); return;
}
}
if (!result) {
grfmsg(2, "SkipIf: Not skipping sprites, test was false");
return;
}
uint8 numsprites = buf->ReadByte();
/* numsprites can be a GOTO label if it has been defined in the GRF
* file. The jump will always be the first matching label that follows
* the current nfo_line. If no matching label is found, the first matching
* label in the file is used. */
GRFLabel *choice = nullptr;
for (GRFLabel *label = _cur.grffile->label; label != nullptr; label = label->next) {
if (label->label != numsprites) continue;
/* Remember a goto before the current line */
if (choice == nullptr) choice = label;
/* If we find a label here, this is definitely good */
if (label->nfo_line > _cur.nfo_line) {
choice = label;
break;
}
}
if (choice != nullptr) {
grfmsg(2, "SkipIf: Jumping to label 0x%0X at line %d, test was true", choice->label, choice->nfo_line);
_cur.file->SeekTo(choice->pos, SEEK_SET);
_cur.nfo_line = choice->nfo_line;
return;
}
grfmsg(2, "SkipIf: Skipping %d sprites, test was true", numsprites);
_cur.skip_sprites = numsprites;
if (_cur.skip_sprites == 0) {
/* Zero means there are no sprites to skip, so
* we use -1 to indicate that all further
* sprites should be skipped. */
_cur.skip_sprites = -1;
/* If an action 8 hasn't been encountered yet, disable the grf. */
if (_cur.grfconfig->status != (_cur.stage < GLS_RESERVE ? GCS_INITIALISED : GCS_ACTIVATED)) {
DisableGrf();
}
}
}
/* Action 0x08 (GLS_FILESCAN) */
static void ScanInfo(ByteReader *buf)
{
uint8 grf_version = buf->ReadByte();
uint32 grfid = buf->ReadDWord();
const char *name = buf->ReadString();
_cur.grfconfig->ident.grfid = grfid;
if (grf_version < 2 || grf_version > 8) {
SetBit(_cur.grfconfig->flags, GCF_INVALID);
Debug(grf, 0, "{}: NewGRF \"{}\" (GRFID {:08X}) uses GRF version {}, which is incompatible with this version of OpenTTD.", _cur.grfconfig->filename, name, BSWAP32(grfid), grf_version);
}
/* GRF IDs starting with 0xFF are reserved for internal TTDPatch use */
if (GB(grfid, 0, 8) == 0xFF) SetBit(_cur.grfconfig->flags, GCF_SYSTEM);
AddGRFTextToList(_cur.grfconfig->name, 0x7F, grfid, false, name);
if (buf->HasData()) {
const char *info = buf->ReadString();
AddGRFTextToList(_cur.grfconfig->info, 0x7F, grfid, true, info);
}
/* GLS_INFOSCAN only looks for the action 8, so we can skip the rest of the file */
_cur.skip_sprites = -1;
}
/* Action 0x08 */
static void GRFInfo(ByteReader *buf)
{
/* <08>
*
* B version newgrf version, currently 06
* 4*B grf-id globally unique ID of this .grf file
* S name name of this .grf set
* S info string describing the set, and e.g. author and copyright */
uint8 version = buf->ReadByte();
uint32 grfid = buf->ReadDWord();
const char *name = buf->ReadString();
if (_cur.stage < GLS_RESERVE && _cur.grfconfig->status != GCS_UNKNOWN) {
DisableGrf(STR_NEWGRF_ERROR_MULTIPLE_ACTION_8);
return;
}
if (_cur.grffile->grfid != grfid) {
Debug(grf, 0, "GRFInfo: GRFID {:08X} in FILESCAN stage does not match GRFID {:08X} in INIT/RESERVE/ACTIVATION stage", BSWAP32(_cur.grffile->grfid), BSWAP32(grfid));
_cur.grffile->grfid = grfid;
}
_cur.grffile->grf_version = version;
_cur.grfconfig->status = _cur.stage < GLS_RESERVE ? GCS_INITIALISED : GCS_ACTIVATED;
/* Do swap the GRFID for displaying purposes since people expect that */
Debug(grf, 1, "GRFInfo: Loaded GRFv{} set {:08X} - {} (palette: {}, version: {})", version, BSWAP32(grfid), name, (_cur.grfconfig->palette & GRFP_USE_MASK) ? "Windows" : "DOS", _cur.grfconfig->version);
}
/* Action 0x0A */
static void SpriteReplace(ByteReader *buf)
{
/* <0A> [ ...]
* :
*
* B num-sets How many sets of sprites to replace.
* Each set:
* B num-sprites How many sprites are in this set
* W first-sprite First sprite number to replace */
uint8 num_sets = buf->ReadByte();
for (uint i = 0; i < num_sets; i++) {
uint8 num_sprites = buf->ReadByte();
uint16 first_sprite = buf->ReadWord();
grfmsg(2, "SpriteReplace: [Set %d] Changing %d sprites, beginning with %d",
i, num_sprites, first_sprite
);
for (uint j = 0; j < num_sprites; j++) {
int load_index = first_sprite + j;
_cur.nfo_line++;
LoadNextSprite(load_index, *_cur.file, _cur.nfo_line); // XXX
/* Shore sprites now located at different addresses.
* So detect when the old ones get replaced. */
if (IsInsideMM(load_index, SPR_ORIGINALSHORE_START, SPR_ORIGINALSHORE_END + 1)) {
if (_loaded_newgrf_features.shore != SHORE_REPLACE_ACTION_5) _loaded_newgrf_features.shore = SHORE_REPLACE_ACTION_A;
}
}
}
}
/* Action 0x0A (SKIP) */
static void SkipActA(ByteReader *buf)
{
uint8 num_sets = buf->ReadByte();
for (uint i = 0; i < num_sets; i++) {
/* Skip the sprites this replaces */
_cur.skip_sprites += buf->ReadByte();
/* But ignore where they go */
buf->ReadWord();
}
grfmsg(3, "SkipActA: Skipping %d sprites", _cur.skip_sprites);
}
/* Action 0x0B */
static void GRFLoadError(ByteReader *buf)
{
/* <0B> [ 00] [] 00 []
*
* B severity 00: notice, continue loading grf file
* 01: warning, continue loading grf file
* 02: error, but continue loading grf file, and attempt
* loading grf again when loading or starting next game
* 03: error, abort loading and prevent loading again in
* the future (only when restarting the patch)
* B language-id see action 4, use 1F for built-in error messages
* B message-id message to show, see below
* S message for custom messages (message-id FF), text of the message
* not present for built-in messages.
* V data additional data for built-in (or custom) messages
* B parnum parameter numbers to be shown in the message (maximum of 2) */
static const StringID msgstr[] = {
STR_NEWGRF_ERROR_VERSION_NUMBER,
STR_NEWGRF_ERROR_DOS_OR_WINDOWS,
STR_NEWGRF_ERROR_UNSET_SWITCH,
STR_NEWGRF_ERROR_INVALID_PARAMETER,
STR_NEWGRF_ERROR_LOAD_BEFORE,
STR_NEWGRF_ERROR_LOAD_AFTER,
STR_NEWGRF_ERROR_OTTD_VERSION_NUMBER,
};
static const StringID sevstr[] = {
STR_NEWGRF_ERROR_MSG_INFO,
STR_NEWGRF_ERROR_MSG_WARNING,
STR_NEWGRF_ERROR_MSG_ERROR,
STR_NEWGRF_ERROR_MSG_FATAL
};
byte severity = buf->ReadByte();
byte lang = buf->ReadByte();
byte message_id = buf->ReadByte();
/* Skip the error if it isn't valid for the current language. */
if (!CheckGrfLangID(lang, _cur.grffile->grf_version)) return;
/* Skip the error until the activation stage unless bit 7 of the severity
* is set. */
if (!HasBit(severity, 7) && _cur.stage == GLS_INIT) {
grfmsg(7, "GRFLoadError: Skipping non-fatal GRFLoadError in stage %d", _cur.stage);
return;
}
ClrBit(severity, 7);
if (severity >= lengthof(sevstr)) {
grfmsg(7, "GRFLoadError: Invalid severity id %d. Setting to 2 (non-fatal error).", severity);
severity = 2;
} else if (severity == 3) {
/* This is a fatal error, so make sure the GRF is deactivated and no
* more of it gets loaded. */
DisableGrf();
/* Make sure we show fatal errors, instead of silly infos from before */
delete _cur.grfconfig->error;
_cur.grfconfig->error = nullptr;
}
if (message_id >= lengthof(msgstr) && message_id != 0xFF) {
grfmsg(7, "GRFLoadError: Invalid message id.");
return;
}
if (buf->Remaining() <= 1) {
grfmsg(7, "GRFLoadError: No message data supplied.");
return;
}
/* For now we can only show one message per newgrf file. */
if (_cur.grfconfig->error != nullptr) return;
GRFError *error = new GRFError(sevstr[severity]);
if (message_id == 0xFF) {
/* This is a custom error message. */
if (buf->HasData()) {
const char *message = buf->ReadString();
error->custom_message = TranslateTTDPatchCodes(_cur.grffile->grfid, lang, true, message, SCC_RAW_STRING_POINTER);
} else {
grfmsg(7, "GRFLoadError: No custom message supplied.");
error->custom_message.clear();
}
} else {
error->message = msgstr[message_id];
}
if (buf->HasData()) {
const char *data = buf->ReadString();
error->data = TranslateTTDPatchCodes(_cur.grffile->grfid, lang, true, data);
} else {
grfmsg(7, "GRFLoadError: No message data supplied.");
error->data.clear();
}
/* Only two parameter numbers can be used in the string. */
for (uint i = 0; i < lengthof(error->param_value) && buf->HasData(); i++) {
uint param_number = buf->ReadByte();
error->param_value[i] = _cur.grffile->GetParam(param_number);
}
_cur.grfconfig->error = error;
}
/* Action 0x0C */
static void GRFComment(ByteReader *buf)
{
/* <0C> []
*
* V ignored Anything following the 0C is ignored */
if (!buf->HasData()) return;
const char *text = buf->ReadString();
grfmsg(2, "GRFComment: %s", text);
}
/* Action 0x0D (GLS_SAFETYSCAN) */
static void SafeParamSet(ByteReader *buf)
{
uint8 target = buf->ReadByte();
/* Writing GRF parameters and some bits of 'misc GRF features' are safe. */
if (target < 0x80 || target == 0x9E) return;
/* GRM could be unsafe, but as here it can only happen after other GRFs
* are loaded, it should be okay. If the GRF tried to use the slots it
* reserved, it would be marked unsafe anyway. GRM for (e.g. bridge)
* sprites is considered safe. */
SetBit(_cur.grfconfig->flags, GCF_UNSAFE);
/* Skip remainder of GRF */
_cur.skip_sprites = -1;
}
static uint32 GetPatchVariable(uint8 param)
{
switch (param) {
/* start year - 1920 */
case 0x0B: return std::max(_settings_game.game_creation.starting_year, ORIGINAL_BASE_YEAR) - ORIGINAL_BASE_YEAR;
/* freight trains weight factor */
case 0x0E: return _settings_game.vehicle.freight_trains;
/* empty wagon speed increase */
case 0x0F: return 0;
/* plane speed factor; our patch option is reversed from TTDPatch's,
* the following is good for 1x, 2x and 4x (most common?) and...
* well not really for 3x. */
case 0x10:
switch (_settings_game.vehicle.plane_speed) {
default:
case 4: return 1;
case 3: return 2;
case 2: return 2;
case 1: return 4;
}
/* 2CC colourmap base sprite */
case 0x11: return SPR_2CCMAP_BASE;
/* map size: format = -MABXYSS
* M : the type of map
* bit 0 : set : squared map. Bit 1 is now not relevant
* clear : rectangle map. Bit 1 will indicate the bigger edge of the map
* bit 1 : set : Y is the bigger edge. Bit 0 is clear
* clear : X is the bigger edge.
* A : minimum edge(log2) of the map
* B : maximum edge(log2) of the map
* XY : edges(log2) of each side of the map.
* SS : combination of both X and Y, thus giving the size(log2) of the map
*/
case 0x13: {
byte map_bits = 0;
byte log_X = MapLogX() - 6; // subtraction is required to make the minimal size (64) zero based
byte log_Y = MapLogY() - 6;
byte max_edge = std::max(log_X, log_Y);
if (log_X == log_Y) { // we have a squared map, since both edges are identical
SetBit(map_bits, 0);
} else {
if (max_edge == log_Y) SetBit(map_bits, 1); // edge Y been the biggest, mark it
}
return (map_bits << 24) | (std::min(log_X, log_Y) << 20) | (max_edge << 16) |
(log_X << 12) | (log_Y << 8) | (log_X + log_Y);
}
/* The maximum height of the map. */
case 0x14:
return _settings_game.construction.map_height_limit;
/* Extra foundations base sprite */
case 0x15:
return SPR_SLOPES_BASE;
/* Shore base sprite */
case 0x16:
return SPR_SHORE_BASE;
default:
grfmsg(2, "ParamSet: Unknown Patch variable 0x%02X.", param);
return 0;
}
}
static uint32 PerformGRM(uint32 *grm, uint16 num_ids, uint16 count, uint8 op, uint8 target, const char *type)
{
uint start = 0;
uint size = 0;
if (op == 6) {
/* Return GRFID of set that reserved ID */
return grm[_cur.grffile->GetParam(target)];
}
/* With an operation of 2 or 3, we want to reserve a specific block of IDs */
if (op == 2 || op == 3) start = _cur.grffile->GetParam(target);
for (uint i = start; i < num_ids; i++) {
if (grm[i] == 0) {
size++;
} else {
if (op == 2 || op == 3) break;
start = i + 1;
size = 0;
}
if (size == count) break;
}
if (size == count) {
/* Got the slot... */
if (op == 0 || op == 3) {
grfmsg(2, "ParamSet: GRM: Reserving %d %s at %d", count, type, start);
for (uint i = 0; i < count; i++) grm[start + i] = _cur.grffile->grfid;
}
return start;
}
/* Unable to allocate */
if (op != 4 && op != 5) {
/* Deactivate GRF */
grfmsg(0, "ParamSet: GRM: Unable to allocate %d %s, deactivating", count, type);
DisableGrf(STR_NEWGRF_ERROR_GRM_FAILED);
return UINT_MAX;
}
grfmsg(1, "ParamSet: GRM: Unable to allocate %d %s", count, type);
return UINT_MAX;
}
/** Action 0x0D: Set parameter */
static void ParamSet(ByteReader *buf)
{
/* <0D> []
*
* B target parameter number where result is stored
* B operation operation to perform, see below
* B source1 first source operand
* B source2 second source operand
* D data data to use in the calculation, not necessary
* if both source1 and source2 refer to actual parameters
*
* Operations
* 00 Set parameter equal to source1
* 01 Addition, source1 + source2
* 02 Subtraction, source1 - source2
* 03 Unsigned multiplication, source1 * source2 (both unsigned)
* 04 Signed multiplication, source1 * source2 (both signed)
* 05 Unsigned bit shift, source1 by source2 (source2 taken to be a
* signed quantity; left shift if positive and right shift if
* negative, source1 is unsigned)
* 06 Signed bit shift, source1 by source2
* (source2 like in 05, and source1 as well)
*/
uint8 target = buf->ReadByte();
uint8 oper = buf->ReadByte();
uint32 src1 = buf->ReadByte();
uint32 src2 = buf->ReadByte();
uint32 data = 0;
if (buf->Remaining() >= 4) data = buf->ReadDWord();
/* You can add 80 to the operation to make it apply only if the target
* is not defined yet. In this respect, a parameter is taken to be
* defined if any of the following applies:
* - it has been set to any value in the newgrf(w).cfg parameter list
* - it OR A PARAMETER WITH HIGHER NUMBER has been set to any value by
* an earlier action D */
if (HasBit(oper, 7)) {
if (target < 0x80 && target < _cur.grffile->param_end) {
grfmsg(7, "ParamSet: Param %u already defined, skipping", target);
return;
}
oper = GB(oper, 0, 7);
}
if (src2 == 0xFE) {
if (GB(data, 0, 8) == 0xFF) {
if (data == 0x0000FFFF) {
/* Patch variables */
src1 = GetPatchVariable(src1);
} else {
/* GRF Resource Management */
uint8 op = src1;
uint8 feature = GB(data, 8, 8);
uint16 count = GB(data, 16, 16);
if (_cur.stage == GLS_RESERVE) {
if (feature == 0x08) {
/* General sprites */
if (op == 0) {
/* Check if the allocated sprites will fit below the original sprite limit */
if (_cur.spriteid + count >= 16384) {
grfmsg(0, "ParamSet: GRM: Unable to allocate %d sprites; try changing NewGRF order", count);
DisableGrf(STR_NEWGRF_ERROR_GRM_FAILED);
return;
}
/* Reserve space at the current sprite ID */
grfmsg(4, "ParamSet: GRM: Allocated %d sprites at %d", count, _cur.spriteid);
_grm_sprites[GRFLocation(_cur.grffile->grfid, _cur.nfo_line)] = _cur.spriteid;
_cur.spriteid += count;
}
}
/* Ignore GRM result during reservation */
src1 = 0;
} else if (_cur.stage == GLS_ACTIVATION) {
switch (feature) {
case 0x00: // Trains
case 0x01: // Road Vehicles
case 0x02: // Ships
case 0x03: // Aircraft
if (!_settings_game.vehicle.dynamic_engines) {
src1 = PerformGRM(&_grm_engines[_engine_offsets[feature]], _engine_counts[feature], count, op, target, "vehicles");
if (_cur.skip_sprites == -1) return;
} else {
/* GRM does not apply for dynamic engine allocation. */
switch (op) {
case 2:
case 3:
src1 = _cur.grffile->GetParam(target);
break;
default:
src1 = 0;
break;
}
}
break;
case 0x08: // General sprites
switch (op) {
case 0:
/* Return space reserved during reservation stage */
src1 = _grm_sprites[GRFLocation(_cur.grffile->grfid, _cur.nfo_line)];
grfmsg(4, "ParamSet: GRM: Using pre-allocated sprites at %d", src1);
break;
case 1:
src1 = _cur.spriteid;
break;
default:
grfmsg(1, "ParamSet: GRM: Unsupported operation %d for general sprites", op);
return;
}
break;
case 0x0B: // Cargo
/* There are two ranges: one for cargo IDs and one for cargo bitmasks */
src1 = PerformGRM(_grm_cargoes, NUM_CARGO * 2, count, op, target, "cargoes");
if (_cur.skip_sprites == -1) return;
break;
default: grfmsg(1, "ParamSet: GRM: Unsupported feature 0x%X", feature); return;
}
} else {
/* Ignore GRM during initialization */
src1 = 0;
}
}
} else {
/* Read another GRF File's parameter */
const GRFFile *file = GetFileByGRFID(data);
GRFConfig *c = GetGRFConfig(data);
if (c != nullptr && HasBit(c->flags, GCF_STATIC) && !HasBit(_cur.grfconfig->flags, GCF_STATIC) && _networking) {
/* Disable the read GRF if it is a static NewGRF. */
DisableStaticNewGRFInfluencingNonStaticNewGRFs(c);
src1 = 0;
} else if (file == nullptr || c == nullptr || c->status == GCS_DISABLED) {
src1 = 0;
} else if (src1 == 0xFE) {
src1 = c->version;
} else {
src1 = file->GetParam(src1);
}
}
} else {
/* The source1 and source2 operands refer to the grf parameter number
* like in action 6 and 7. In addition, they can refer to the special
* variables available in action 7, or they can be FF to use the value
* of . If referring to parameters that are undefined, a value
* of 0 is used instead. */
src1 = (src1 == 0xFF) ? data : GetParamVal(src1, nullptr);
src2 = (src2 == 0xFF) ? data : GetParamVal(src2, nullptr);
}
uint32 res;
switch (oper) {
case 0x00:
res = src1;
break;
case 0x01:
res = src1 + src2;
break;
case 0x02:
res = src1 - src2;
break;
case 0x03:
res = src1 * src2;
break;
case 0x04:
res = (int32)src1 * (int32)src2;
break;
case 0x05:
if ((int32)src2 < 0) {
res = src1 >> -(int32)src2;
} else {
res = src1 << (src2 & 0x1F); // Same behaviour as in EvalAdjustT, mask 'value' to 5 bits, which should behave the same on all architectures.
}
break;
case 0x06:
if ((int32)src2 < 0) {
res = (int32)src1 >> -(int32)src2;
} else {
res = (int32)src1 << (src2 & 0x1F); // Same behaviour as in EvalAdjustT, mask 'value' to 5 bits, which should behave the same on all architectures.
}
break;
case 0x07: // Bitwise AND
res = src1 & src2;
break;
case 0x08: // Bitwise OR
res = src1 | src2;
break;
case 0x09: // Unsigned division
if (src2 == 0) {
res = src1;
} else {
res = src1 / src2;
}
break;
case 0x0A: // Signed division
if (src2 == 0) {
res = src1;
} else {
res = (int32)src1 / (int32)src2;
}
break;
case 0x0B: // Unsigned modulo
if (src2 == 0) {
res = src1;
} else {
res = src1 % src2;
}
break;
case 0x0C: // Signed modulo
if (src2 == 0) {
res = src1;
} else {
res = (int32)src1 % (int32)src2;
}
break;
default: grfmsg(0, "ParamSet: Unknown operation %d, skipping", oper); return;
}
switch (target) {
case 0x8E: // Y-Offset for train sprites
_cur.grffile->traininfo_vehicle_pitch = res;
break;
case 0x8F: { // Rail track type cost factors
extern RailtypeInfo _railtypes[RAILTYPE_END];
_railtypes[RAILTYPE_RAIL].cost_multiplier = GB(res, 0, 8);
if (_settings_game.vehicle.disable_elrails) {
_railtypes[RAILTYPE_ELECTRIC].cost_multiplier = GB(res, 0, 8);
_railtypes[RAILTYPE_MONO].cost_multiplier = GB(res, 8, 8);
} else {
_railtypes[RAILTYPE_ELECTRIC].cost_multiplier = GB(res, 8, 8);
_railtypes[RAILTYPE_MONO].cost_multiplier = GB(res, 16, 8);
}
_railtypes[RAILTYPE_MAGLEV].cost_multiplier = GB(res, 16, 8);
break;
}
/* not implemented */
case 0x93: // Tile refresh offset to left -- Intended to allow support for larger sprites, not necessary for OTTD
case 0x94: // Tile refresh offset to right
case 0x95: // Tile refresh offset upwards
case 0x96: // Tile refresh offset downwards
case 0x97: // Snow line height -- Better supported by feature 8 property 10h (snow line table) TODO: implement by filling the entire snow line table with the given value
case 0x99: // Global ID offset -- Not necessary since IDs are remapped automatically
grfmsg(7, "ParamSet: Skipping unimplemented target 0x%02X", target);
break;
case 0x9E: // Miscellaneous GRF features
/* Set train list engine width */
_cur.grffile->traininfo_vehicle_width = HasBit(res, GMB_TRAIN_WIDTH_32_PIXELS) ? VEHICLEINFO_FULL_VEHICLE_WIDTH : TRAININFO_DEFAULT_VEHICLE_WIDTH;
/* Remove the local flags from the global flags */
ClrBit(res, GMB_TRAIN_WIDTH_32_PIXELS);
/* Only copy safe bits for static grfs */
if (HasBit(_cur.grfconfig->flags, GCF_STATIC)) {
uint32 safe_bits = 0;
SetBit(safe_bits, GMB_SECOND_ROCKY_TILE_SET);
_misc_grf_features = (_misc_grf_features & ~safe_bits) | (res & safe_bits);
} else {
_misc_grf_features = res;
}
break;
case 0x9F: // locale-dependent settings
grfmsg(7, "ParamSet: Skipping unimplemented target 0x%02X", target);
break;
default:
if (target < 0x80) {
_cur.grffile->param[target] = res;
/* param is zeroed by default */
if (target + 1U > _cur.grffile->param_end) _cur.grffile->param_end = target + 1;
} else {
grfmsg(7, "ParamSet: Skipping unknown target 0x%02X", target);
}
break;
}
}
/* Action 0x0E (GLS_SAFETYSCAN) */
static void SafeGRFInhibit(ByteReader *buf)
{
/* <0E>
*
* B num Number of GRFIDs that follow
* D grfids GRFIDs of the files to deactivate */
uint8 num = buf->ReadByte();
for (uint i = 0; i < num; i++) {
uint32 grfid = buf->ReadDWord();
/* GRF is unsafe it if tries to deactivate other GRFs */
if (grfid != _cur.grfconfig->ident.grfid) {
SetBit(_cur.grfconfig->flags, GCF_UNSAFE);
/* Skip remainder of GRF */
_cur.skip_sprites = -1;
return;
}
}
}
/* Action 0x0E */
static void GRFInhibit(ByteReader *buf)
{
/* <0E>
*
* B num Number of GRFIDs that follow
* D grfids GRFIDs of the files to deactivate */
uint8 num = buf->ReadByte();
for (uint i = 0; i < num; i++) {
uint32 grfid = buf->ReadDWord();
GRFConfig *file = GetGRFConfig(grfid);
/* Unset activation flag */
if (file != nullptr && file != _cur.grfconfig) {
grfmsg(2, "GRFInhibit: Deactivating file '%s'", file->filename);
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_FORCEFULLY_DISABLED, file);
error->data = _cur.grfconfig->GetName();
}
}
}
/** Action 0x0F - Define Town names */
static void FeatureTownName(ByteReader *buf)
{
/* <0F>
*
* B id ID of this definition in bottom 7 bits (final definition if bit 7 set)
* V style-name Name of the style (only for final definition)
* B num-parts Number of parts in this definition
* V parts The parts */
uint32 grfid = _cur.grffile->grfid;
GRFTownName *townname = AddGRFTownName(grfid);
byte id = buf->ReadByte();
grfmsg(6, "FeatureTownName: definition 0x%02X", id & 0x7F);
if (HasBit(id, 7)) {
/* Final definition */
ClrBit(id, 7);
bool new_scheme = _cur.grffile->grf_version >= 7;
byte lang = buf->ReadByte();
byte nb_gen = townname->nb_gen;
do {
ClrBit(lang, 7);
const char *name = buf->ReadString();
std::string lang_name = TranslateTTDPatchCodes(grfid, lang, false, name);
grfmsg(6, "FeatureTownName: lang 0x%X -> '%s'", lang, lang_name.c_str());
townname->name[nb_gen] = AddGRFString(grfid, id, lang, new_scheme, false, name, STR_UNDEFINED);
lang = buf->ReadByte();
} while (lang != 0);
townname->id[nb_gen] = id;
townname->nb_gen++;
}
byte nb = buf->ReadByte();
grfmsg(6, "FeatureTownName: %u parts", nb);
townname->nbparts[id] = nb;
townname->partlist[id] = CallocT(nb);
for (int i = 0; i < nb; i++) {
byte nbtext = buf->ReadByte();
townname->partlist[id][i].bitstart = buf->ReadByte();
townname->partlist[id][i].bitcount = buf->ReadByte();
townname->partlist[id][i].maxprob = 0;
townname->partlist[id][i].partcount = nbtext;
townname->partlist[id][i].parts = CallocT(nbtext);
grfmsg(6, "FeatureTownName: part %d contains %d texts and will use GB(seed, %d, %d)", i, nbtext, townname->partlist[id][i].bitstart, townname->partlist[id][i].bitcount);
for (int j = 0; j < nbtext; j++) {
byte prob = buf->ReadByte();
if (HasBit(prob, 7)) {
byte ref_id = buf->ReadByte();
if (townname->nbparts[ref_id] == 0) {
grfmsg(0, "FeatureTownName: definition 0x%02X doesn't exist, deactivating", ref_id);
DelGRFTownName(grfid);
DisableGrf(STR_NEWGRF_ERROR_INVALID_ID);
return;
}
grfmsg(6, "FeatureTownName: part %d, text %d, uses intermediate definition 0x%02X (with probability %d)", i, j, ref_id, prob & 0x7F);
townname->partlist[id][i].parts[j].data.id = ref_id;
} else {
const char *text = buf->ReadString();
townname->partlist[id][i].parts[j].data.text = stredup(TranslateTTDPatchCodes(grfid, 0, false, text).c_str());
grfmsg(6, "FeatureTownName: part %d, text %d, '%s' (with probability %d)", i, j, townname->partlist[id][i].parts[j].data.text, prob);
}
townname->partlist[id][i].parts[j].prob = prob;
townname->partlist[id][i].maxprob += GB(prob, 0, 7);
}
grfmsg(6, "FeatureTownName: part %d, total probability %d", i, townname->partlist[id][i].maxprob);
}
}
/** Action 0x10 - Define goto label */
static void DefineGotoLabel(ByteReader *buf)
{
/* <10> []
*
* B label The label to define
* V comment Optional comment - ignored */
byte nfo_label = buf->ReadByte();
GRFLabel *label = MallocT(1);
label->label = nfo_label;
label->nfo_line = _cur.nfo_line;
label->pos = _cur.file->GetPos();
label->next = nullptr;
/* Set up a linked list of goto targets which we will search in an Action 0x7/0x9 */
if (_cur.grffile->label == nullptr) {
_cur.grffile->label = label;
} else {
/* Attach the label to the end of the list */
GRFLabel *l;
for (l = _cur.grffile->label; l->next != nullptr; l = l->next) {}
l->next = label;
}
grfmsg(2, "DefineGotoLabel: GOTO target with label 0x%02X", label->label);
}
/**
* Process a sound import from another GRF file.
* @param sound Destination for sound.
*/
static void ImportGRFSound(SoundEntry *sound)
{
const GRFFile *file;
uint32 grfid = _cur.file->ReadDword();
SoundID sound_id = _cur.file->ReadWord();
file = GetFileByGRFID(grfid);
if (file == nullptr || file->sound_offset == 0) {
grfmsg(1, "ImportGRFSound: Source file not available");
return;
}
if (sound_id >= file->num_sounds) {
grfmsg(1, "ImportGRFSound: Sound effect %d is invalid", sound_id);
return;
}
grfmsg(2, "ImportGRFSound: Copying sound %d (%d) from file %X", sound_id, file->sound_offset + sound_id, grfid);
*sound = *GetSound(file->sound_offset + sound_id);
/* Reset volume and priority, which TTDPatch doesn't copy */
sound->volume = 128;
sound->priority = 0;
}
/**
* Load a sound from a file.
* @param offs File offset to read sound from.
* @param sound Destination for sound.
*/
static void LoadGRFSound(size_t offs, SoundEntry *sound)
{
/* Set default volume and priority */
sound->volume = 0x80;
sound->priority = 0;
if (offs != SIZE_MAX) {
/* Sound is present in the NewGRF. */
sound->file = _cur.file;
sound->file_offset = offs;
sound->grf_container_ver = _cur.file->GetContainerVersion();
}
}
/* Action 0x11 */
static void GRFSound(ByteReader *buf)
{
/* <11>
*
* W num Number of sound files that follow */
uint16 num = buf->ReadWord();
if (num == 0) return;
SoundEntry *sound;
if (_cur.grffile->sound_offset == 0) {
_cur.grffile->sound_offset = GetNumSounds();
_cur.grffile->num_sounds = num;
sound = AllocateSound(num);
} else {
sound = GetSound(_cur.grffile->sound_offset);
}
SpriteFile &file = *_cur.file;
byte grf_container_version = file.GetContainerVersion();
for (int i = 0; i < num; i++) {
_cur.nfo_line++;
/* Check whether the index is in range. This might happen if multiple action 11 are present.
* While this is invalid, we do not check for this. But we should prevent it from causing bigger trouble */
bool invalid = i >= _cur.grffile->num_sounds;
size_t offs = file.GetPos();
uint32 len = grf_container_version >= 2 ? file.ReadDword() : file.ReadWord();
byte type = file.ReadByte();
if (grf_container_version >= 2 && type == 0xFD) {
/* Reference to sprite section. */
if (invalid) {
grfmsg(1, "GRFSound: Sound index out of range (multiple Action 11?)");
file.SkipBytes(len);
} else if (len != 4) {
grfmsg(1, "GRFSound: Invalid sprite section import");
file.SkipBytes(len);
} else {
uint32 id = file.ReadDword();
if (_cur.stage == GLS_INIT) LoadGRFSound(GetGRFSpriteOffset(id), sound + i);
}
continue;
}
if (type != 0xFF) {
grfmsg(1, "GRFSound: Unexpected RealSprite found, skipping");
file.SkipBytes(7);
SkipSpriteData(*_cur.file, type, len - 8);
continue;
}
if (invalid) {
grfmsg(1, "GRFSound: Sound index out of range (multiple Action 11?)");
file.SkipBytes(len);
}
byte action = file.ReadByte();
switch (action) {
case 0xFF:
/* Allocate sound only in init stage. */
if (_cur.stage == GLS_INIT) {
if (grf_container_version >= 2) {
grfmsg(1, "GRFSound: Inline sounds are not supported for container version >= 2");
} else {
LoadGRFSound(offs, sound + i);
}
}
file.SkipBytes(len - 1); // already read
break;
case 0xFE:
if (_cur.stage == GLS_ACTIVATION) {
/* XXX 'Action 0xFE' isn't really specified. It is only mentioned for
* importing sounds, so this is probably all wrong... */
if (file.ReadByte() != 0) grfmsg(1, "GRFSound: Import type mismatch");
ImportGRFSound(sound + i);
} else {
file.SkipBytes(len - 1); // already read
}
break;
default:
grfmsg(1, "GRFSound: Unexpected Action %x found, skipping", action);
file.SkipBytes(len - 1); // already read
break;
}
}
}
/* Action 0x11 (SKIP) */
static void SkipAct11(ByteReader *buf)
{
/* <11>
*
* W num Number of sound files that follow */
_cur.skip_sprites = buf->ReadWord();
grfmsg(3, "SkipAct11: Skipping %d sprites", _cur.skip_sprites);
}
/** Action 0x12 */
static void LoadFontGlyph(ByteReader *buf)
{
/* <12>
*
* B num_def Number of definitions
* B font_size Size of font (0 = normal, 1 = small, 2 = large, 3 = mono)
* B num_char Number of consecutive glyphs
* W base_char First character index */
uint8 num_def = buf->ReadByte();
for (uint i = 0; i < num_def; i++) {
FontSize size = (FontSize)buf->ReadByte();
uint8 num_char = buf->ReadByte();
uint16 base_char = buf->ReadWord();
if (size >= FS_END) {
grfmsg(1, "LoadFontGlyph: Size %u is not supported, ignoring", size);
}
grfmsg(7, "LoadFontGlyph: Loading %u glyph(s) at 0x%04X for size %u", num_char, base_char, size);
for (uint c = 0; c < num_char; c++) {
if (size < FS_END) SetUnicodeGlyph(size, base_char + c, _cur.spriteid);
_cur.nfo_line++;
LoadNextSprite(_cur.spriteid++, *_cur.file, _cur.nfo_line);
}
}
}
/** Action 0x12 (SKIP) */
static void SkipAct12(ByteReader *buf)
{
/* <12>
*
* B num_def Number of definitions
* B font_size Size of font (0 = normal, 1 = small, 2 = large)
* B num_char Number of consecutive glyphs
* W base_char First character index */
uint8 num_def = buf->ReadByte();
for (uint i = 0; i < num_def; i++) {
/* Ignore 'size' byte */
buf->ReadByte();
/* Sum up number of characters */
_cur.skip_sprites += buf->ReadByte();
/* Ignore 'base_char' word */
buf->ReadWord();
}
grfmsg(3, "SkipAct12: Skipping %d sprites", _cur.skip_sprites);
}
/** Action 0x13 */
static void TranslateGRFStrings(ByteReader *buf)
{
/* <13>
*
* 4*B grfid The GRFID of the file whose texts are to be translated
* B num-ent Number of strings
* W offset First text ID
* S text... Zero-terminated strings */
uint32 grfid = buf->ReadDWord();
const GRFConfig *c = GetGRFConfig(grfid);
if (c == nullptr || (c->status != GCS_INITIALISED && c->status != GCS_ACTIVATED)) {
grfmsg(7, "TranslateGRFStrings: GRFID 0x%08x unknown, skipping action 13", BSWAP32(grfid));
return;
}
if (c->status == GCS_INITIALISED) {
/* If the file is not active but will be activated later, give an error
* and disable this file. */
GRFError *error = DisableGrf(STR_NEWGRF_ERROR_LOAD_AFTER);
error->data = GetString(STR_NEWGRF_ERROR_AFTER_TRANSLATED_FILE);
return;
}
/* Since no language id is supplied for with version 7 and lower NewGRFs, this string has
* to be added as a generic string, thus the language id of 0x7F. For this to work
* new_scheme has to be true as well, which will also be implicitly the case for version 8
* and higher. A language id of 0x7F will be overridden by a non-generic id, so this will
* not change anything if a string has been provided specifically for this language. */
byte language = _cur.grffile->grf_version >= 8 ? buf->ReadByte() : 0x7F;
byte num_strings = buf->ReadByte();
uint16 first_id = buf->ReadWord();
if (!((first_id >= 0xD000 && first_id + num_strings <= 0xD400) || (first_id >= 0xD800 && first_id + num_strings <= 0xE000))) {
grfmsg(7, "TranslateGRFStrings: Attempting to set out-of-range string IDs in action 13 (first: 0x%4X, number: 0x%2X)", first_id, num_strings);
return;
}
for (uint i = 0; i < num_strings && buf->HasData(); i++) {
const char *string = buf->ReadString();
if (StrEmpty(string)) {
grfmsg(7, "TranslateGRFString: Ignoring empty string.");
continue;
}
AddGRFString(grfid, first_id + i, language, true, true, string, STR_UNDEFINED);
}
}
/** Callback function for 'INFO'->'NAME' to add a translation to the newgrf name. */
static bool ChangeGRFName(byte langid, const char *str)
{
AddGRFTextToList(_cur.grfconfig->name, langid, _cur.grfconfig->ident.grfid, false, str);
return true;
}
/** Callback function for 'INFO'->'DESC' to add a translation to the newgrf description. */
static bool ChangeGRFDescription(byte langid, const char *str)
{
AddGRFTextToList(_cur.grfconfig->info, langid, _cur.grfconfig->ident.grfid, true, str);
return true;
}
/** Callback function for 'INFO'->'URL_' to set the newgrf url. */
static bool ChangeGRFURL(byte langid, const char *str)
{
AddGRFTextToList(_cur.grfconfig->url, langid, _cur.grfconfig->ident.grfid, false, str);
return true;
}
/** Callback function for 'INFO'->'NPAR' to set the number of valid parameters. */
static bool ChangeGRFNumUsedParams(size_t len, ByteReader *buf)
{
if (len != 1) {
grfmsg(2, "StaticGRFInfo: expected only 1 byte for 'INFO'->'NPAR' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
_cur.grfconfig->num_valid_params = std::min(buf->ReadByte(), lengthof(_cur.grfconfig->param));
}
return true;
}
/** Callback function for 'INFO'->'PALS' to set the number of valid parameters. */
static bool ChangeGRFPalette(size_t len, ByteReader *buf)
{
if (len != 1) {
grfmsg(2, "StaticGRFInfo: expected only 1 byte for 'INFO'->'PALS' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
char data = buf->ReadByte();
GRFPalette pal = GRFP_GRF_UNSET;
switch (data) {
case '*':
case 'A': pal = GRFP_GRF_ANY; break;
case 'W': pal = GRFP_GRF_WINDOWS; break;
case 'D': pal = GRFP_GRF_DOS; break;
default:
grfmsg(2, "StaticGRFInfo: unexpected value '%02x' for 'INFO'->'PALS', ignoring this field", data);
break;
}
if (pal != GRFP_GRF_UNSET) {
_cur.grfconfig->palette &= ~GRFP_GRF_MASK;
_cur.grfconfig->palette |= pal;
}
}
return true;
}
/** Callback function for 'INFO'->'BLTR' to set the blitter info. */
static bool ChangeGRFBlitter(size_t len, ByteReader *buf)
{
if (len != 1) {
grfmsg(2, "StaticGRFInfo: expected only 1 byte for 'INFO'->'BLTR' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
char data = buf->ReadByte();
GRFPalette pal = GRFP_BLT_UNSET;
switch (data) {
case '8': pal = GRFP_BLT_UNSET; break;
case '3': pal = GRFP_BLT_32BPP; break;
default:
grfmsg(2, "StaticGRFInfo: unexpected value '%02x' for 'INFO'->'BLTR', ignoring this field", data);
return true;
}
_cur.grfconfig->palette &= ~GRFP_BLT_MASK;
_cur.grfconfig->palette |= pal;
}
return true;
}
/** Callback function for 'INFO'->'VRSN' to the version of the NewGRF. */
static bool ChangeGRFVersion(size_t len, ByteReader *buf)
{
if (len != 4) {
grfmsg(2, "StaticGRFInfo: expected 4 bytes for 'INFO'->'VRSN' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
/* Set min_loadable_version as well (default to minimal compatibility) */
_cur.grfconfig->version = _cur.grfconfig->min_loadable_version = buf->ReadDWord();
}
return true;
}
/** Callback function for 'INFO'->'MINV' to the minimum compatible version of the NewGRF. */
static bool ChangeGRFMinVersion(size_t len, ByteReader *buf)
{
if (len != 4) {
grfmsg(2, "StaticGRFInfo: expected 4 bytes for 'INFO'->'MINV' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
_cur.grfconfig->min_loadable_version = buf->ReadDWord();
if (_cur.grfconfig->version == 0) {
grfmsg(2, "StaticGRFInfo: 'MINV' defined before 'VRSN' or 'VRSN' set to 0, ignoring this field");
_cur.grfconfig->min_loadable_version = 0;
}
if (_cur.grfconfig->version < _cur.grfconfig->min_loadable_version) {
grfmsg(2, "StaticGRFInfo: 'MINV' defined as %d, limiting it to 'VRSN'", _cur.grfconfig->min_loadable_version);
_cur.grfconfig->min_loadable_version = _cur.grfconfig->version;
}
}
return true;
}
static GRFParameterInfo *_cur_parameter; ///< The parameter which info is currently changed by the newgrf.
/** Callback function for 'INFO'->'PARAM'->param_num->'NAME' to set the name of a parameter. */
static bool ChangeGRFParamName(byte langid, const char *str)
{
AddGRFTextToList(_cur_parameter->name, langid, _cur.grfconfig->ident.grfid, false, str);
return true;
}
/** Callback function for 'INFO'->'PARAM'->param_num->'DESC' to set the description of a parameter. */
static bool ChangeGRFParamDescription(byte langid, const char *str)
{
AddGRFTextToList(_cur_parameter->desc, langid, _cur.grfconfig->ident.grfid, true, str);
return true;
}
/** Callback function for 'INFO'->'PARAM'->param_num->'TYPE' to set the typeof a parameter. */
static bool ChangeGRFParamType(size_t len, ByteReader *buf)
{
if (len != 1) {
grfmsg(2, "StaticGRFInfo: expected 1 byte for 'INFO'->'PARA'->'TYPE' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
GRFParameterType type = (GRFParameterType)buf->ReadByte();
if (type < PTYPE_END) {
_cur_parameter->type = type;
} else {
grfmsg(3, "StaticGRFInfo: unknown parameter type %d, ignoring this field", type);
}
}
return true;
}
/** Callback function for 'INFO'->'PARAM'->param_num->'LIMI' to set the min/max value of a parameter. */
static bool ChangeGRFParamLimits(size_t len, ByteReader *buf)
{
if (_cur_parameter->type != PTYPE_UINT_ENUM) {
grfmsg(2, "StaticGRFInfo: 'INFO'->'PARA'->'LIMI' is only valid for parameters with type uint/enum, ignoring this field");
buf->Skip(len);
} else if (len != 8) {
grfmsg(2, "StaticGRFInfo: expected 8 bytes for 'INFO'->'PARA'->'LIMI' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
uint32 min_value = buf->ReadDWord();
uint32 max_value = buf->ReadDWord();
if (min_value <= max_value) {
_cur_parameter->min_value = min_value;
_cur_parameter->max_value = max_value;
} else {
grfmsg(2, "StaticGRFInfo: 'INFO'->'PARA'->'LIMI' values are incoherent, ignoring this field");
}
}
return true;
}
/** Callback function for 'INFO'->'PARAM'->param_num->'MASK' to set the parameter and bits to use. */
static bool ChangeGRFParamMask(size_t len, ByteReader *buf)
{
if (len < 1 || len > 3) {
grfmsg(2, "StaticGRFInfo: expected 1 to 3 bytes for 'INFO'->'PARA'->'MASK' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
byte param_nr = buf->ReadByte();
if (param_nr >= lengthof(_cur.grfconfig->param)) {
grfmsg(2, "StaticGRFInfo: invalid parameter number in 'INFO'->'PARA'->'MASK', param %d, ignoring this field", param_nr);
buf->Skip(len - 1);
} else {
_cur_parameter->param_nr = param_nr;
if (len >= 2) _cur_parameter->first_bit = std::min(buf->ReadByte(), 31);
if (len >= 3) _cur_parameter->num_bit = std::min(buf->ReadByte(), 32 - _cur_parameter->first_bit);
}
}
return true;
}
/** Callback function for 'INFO'->'PARAM'->param_num->'DFLT' to set the default value. */
static bool ChangeGRFParamDefault(size_t len, ByteReader *buf)
{
if (len != 4) {
grfmsg(2, "StaticGRFInfo: expected 4 bytes for 'INFO'->'PARA'->'DEFA' but got " PRINTF_SIZE ", ignoring this field", len);
buf->Skip(len);
} else {
_cur_parameter->def_value = buf->ReadDWord();
}
_cur.grfconfig->has_param_defaults = true;
return true;
}
typedef bool (*DataHandler)(size_t, ByteReader *); ///< Type of callback function for binary nodes
typedef bool (*TextHandler)(byte, const char *str); ///< Type of callback function for text nodes
typedef bool (*BranchHandler)(ByteReader *); ///< Type of callback function for branch nodes
/**
* Data structure to store the allowed id/type combinations for action 14. The
* data can be represented as a tree with 3 types of nodes:
* 1. Branch nodes (identified by 'C' for choice).
* 2. Binary leaf nodes (identified by 'B').
* 3. Text leaf nodes (identified by 'T').
*/
struct AllowedSubtags {
/** Create empty subtags object used to identify the end of a list. */
AllowedSubtags() :
id(0),
type(0)
{}
/**
* Create a binary leaf node.
* @param id The id for this node.
* @param handler The callback function to call.
*/
AllowedSubtags(uint32 id, DataHandler handler) :
id(id),
type('B')
{
this->handler.data = handler;
}
/**
* Create a text leaf node.
* @param id The id for this node.
* @param handler The callback function to call.
*/
AllowedSubtags(uint32 id, TextHandler handler) :
id(id),
type('T')
{
this->handler.text = handler;
}
/**
* Create a branch node with a callback handler
* @param id The id for this node.
* @param handler The callback function to call.
*/
AllowedSubtags(uint32 id, BranchHandler handler) :
id(id),
type('C')
{
this->handler.call_handler = true;
this->handler.u.branch = handler;
}
/**
* Create a branch node with a list of sub-nodes.
* @param id The id for this node.
* @param subtags Array with all valid subtags.
*/
AllowedSubtags(uint32 id, AllowedSubtags *subtags) :
id(id),
type('C')
{
this->handler.call_handler = false;
this->handler.u.subtags = subtags;
}
uint32 id; ///< The identifier for this node
byte type; ///< The type of the node, must be one of 'C', 'B' or 'T'.
union {
DataHandler data; ///< Callback function for a binary node, only valid if type == 'B'.
TextHandler text; ///< Callback function for a text node, only valid if type == 'T'.
struct {
union {
BranchHandler branch; ///< Callback function for a branch node, only valid if type == 'C' && call_handler.
AllowedSubtags *subtags; ///< Pointer to a list of subtags, only valid if type == 'C' && !call_handler.
} u;
bool call_handler; ///< True if there is a callback function for this node, false if there is a list of subnodes.
};
} handler;
};
static bool SkipUnknownInfo(ByteReader *buf, byte type);
static bool HandleNodes(ByteReader *buf, AllowedSubtags *tags);
/**
* Callback function for 'INFO'->'PARA'->param_num->'VALU' to set the names
* of some parameter values (type uint/enum) or the names of some bits
* (type bitmask). In both cases the format is the same:
* Each subnode should be a text node with the value/bit number as id.
*/
static bool ChangeGRFParamValueNames(ByteReader *buf)
{
byte type = buf->ReadByte();
while (type != 0) {
uint32 id = buf->ReadDWord();
if (type != 'T' || id > _cur_parameter->max_value) {
grfmsg(2, "StaticGRFInfo: all child nodes of 'INFO'->'PARA'->param_num->'VALU' should have type 't' and the value/bit number as id");
if (!SkipUnknownInfo(buf, type)) return false;
type = buf->ReadByte();
continue;
}
byte langid = buf->ReadByte();
const char *name_string = buf->ReadString();
std::pair *val_name = _cur_parameter->value_names.Find(id);
if (val_name != _cur_parameter->value_names.End()) {
AddGRFTextToList(val_name->second, langid, _cur.grfconfig->ident.grfid, false, name_string);
} else {
GRFTextList list;
AddGRFTextToList(list, langid, _cur.grfconfig->ident.grfid, false, name_string);
_cur_parameter->value_names.Insert(id, list);
}
type = buf->ReadByte();
}
return true;
}
/** Action14 parameter tags */
AllowedSubtags _tags_parameters[] = {
AllowedSubtags('NAME', ChangeGRFParamName),
AllowedSubtags('DESC', ChangeGRFParamDescription),
AllowedSubtags('TYPE', ChangeGRFParamType),
AllowedSubtags('LIMI', ChangeGRFParamLimits),
AllowedSubtags('MASK', ChangeGRFParamMask),
AllowedSubtags('VALU', ChangeGRFParamValueNames),
AllowedSubtags('DFLT', ChangeGRFParamDefault),
AllowedSubtags()
};
/**
* Callback function for 'INFO'->'PARA' to set extra information about the
* parameters. Each subnode of 'INFO'->'PARA' should be a branch node with
* the parameter number as id. The first parameter has id 0. The maximum
* parameter that can be changed is set by 'INFO'->'NPAR' which defaults to 80.
*/
static bool HandleParameterInfo(ByteReader *buf)
{
byte type = buf->ReadByte();
while (type != 0) {
uint32 id = buf->ReadDWord();
if (type != 'C' || id >= _cur.grfconfig->num_valid_params) {
grfmsg(2, "StaticGRFInfo: all child nodes of 'INFO'->'PARA' should have type 'C' and their parameter number as id");
if (!SkipUnknownInfo(buf, type)) return false;
type = buf->ReadByte();
continue;
}
if (id >= _cur.grfconfig->param_info.size()) {
_cur.grfconfig->param_info.resize(id + 1);
}
if (_cur.grfconfig->param_info[id] == nullptr) {
_cur.grfconfig->param_info[id] = new GRFParameterInfo(id);
}
_cur_parameter = _cur.grfconfig->param_info[id];
/* Read all parameter-data and process each node. */
if (!HandleNodes(buf, _tags_parameters)) return false;
type = buf->ReadByte();
}
return true;
}
/** Action14 tags for the INFO node */
AllowedSubtags _tags_info[] = {
AllowedSubtags('NAME', ChangeGRFName),
AllowedSubtags('DESC', ChangeGRFDescription),
AllowedSubtags('URL_', ChangeGRFURL),
AllowedSubtags('NPAR', ChangeGRFNumUsedParams),
AllowedSubtags('PALS', ChangeGRFPalette),
AllowedSubtags('BLTR', ChangeGRFBlitter),
AllowedSubtags('VRSN', ChangeGRFVersion),
AllowedSubtags('MINV', ChangeGRFMinVersion),
AllowedSubtags('PARA', HandleParameterInfo),
AllowedSubtags()
};
/** Action14 root tags */
AllowedSubtags _tags_root[] = {
AllowedSubtags('INFO', _tags_info),
AllowedSubtags()
};
/**
* Try to skip the current node and all subnodes (if it's a branch node).
* @param buf Buffer.
* @param type The node type to skip.
* @return True if we could skip the node, false if an error occurred.
*/
static bool SkipUnknownInfo(ByteReader *buf, byte type)
{
/* type and id are already read */
switch (type) {
case 'C': {
byte new_type = buf->ReadByte();
while (new_type != 0) {
buf->ReadDWord(); // skip the id
if (!SkipUnknownInfo(buf, new_type)) return false;
new_type = buf->ReadByte();
}
break;
}
case 'T':
buf->ReadByte(); // lang
buf->ReadString(); // actual text
break;
case 'B': {
uint16 size = buf->ReadWord();
buf->Skip(size);
break;
}
default:
return false;
}
return true;
}
/**
* Handle the nodes of an Action14
* @param type Type of node.
* @param id ID.
* @param buf Buffer.
* @param subtags Allowed subtags.
* @return Whether all tags could be handled.
*/
static bool HandleNode(byte type, uint32 id, ByteReader *buf, AllowedSubtags subtags[])
{
uint i = 0;
AllowedSubtags *tag;
while ((tag = &subtags[i++])->type != 0) {
if (tag->id != BSWAP32(id) || tag->type != type) continue;
switch (type) {
default: NOT_REACHED();
case 'T': {
byte langid = buf->ReadByte();
return tag->handler.text(langid, buf->ReadString());
}
case 'B': {
size_t len = buf->ReadWord();
if (buf->Remaining() < len) return false;
return tag->handler.data(len, buf);
}
case 'C': {
if (tag->handler.call_handler) {
return tag->handler.u.branch(buf);
}
return HandleNodes(buf, tag->handler.u.subtags);
}
}
}
grfmsg(2, "StaticGRFInfo: unknown type/id combination found, type=%c, id=%x", type, id);
return SkipUnknownInfo(buf, type);
}
/**
* Handle the contents of a 'C' choice of an Action14
* @param buf Buffer.
* @param subtags List of subtags.
* @return Whether the nodes could all be handled.
*/
static bool HandleNodes(ByteReader *buf, AllowedSubtags subtags[])
{
byte type = buf->ReadByte();
while (type != 0) {
uint32 id = buf->ReadDWord();
if (!HandleNode(type, id, buf, subtags)) return false;
type = buf->ReadByte();
}
return true;
}
/**
* Handle Action 0x14
* @param buf Buffer.
*/
static void StaticGRFInfo(ByteReader *buf)
{
/* <14> */
HandleNodes(buf, _tags_root);
}
/**
* Set the current NewGRF as unsafe for static use
* @param buf Unused.
* @note Used during safety scan on unsafe actions.
*/
static void GRFUnsafe(ByteReader *buf)
{
SetBit(_cur.grfconfig->flags, GCF_UNSAFE);
/* Skip remainder of GRF */
_cur.skip_sprites = -1;
}
/** Initialize the TTDPatch flags */
static void InitializeGRFSpecial()
{
_ttdpatch_flags[0] = ((_settings_game.station.never_expire_airports ? 1 : 0) << 0x0C) // keepsmallairport
| (1 << 0x0D) // newairports
| (1 << 0x0E) // largestations
| ((_settings_game.construction.max_bridge_length > 16 ? 1 : 0) << 0x0F) // longbridges
| (0 << 0x10) // loadtime
| (1 << 0x12) // presignals
| (1 << 0x13) // extpresignals
| ((_settings_game.vehicle.never_expire_vehicles ? 1 : 0) << 0x16) // enginespersist
| (1 << 0x1B) // multihead
| (1 << 0x1D) // lowmemory
| (1 << 0x1E); // generalfixes
_ttdpatch_flags[1] = ((_settings_game.economy.station_noise_level ? 1 : 0) << 0x07) // moreairports - based on units of noise
| (1 << 0x08) // mammothtrains
| (1 << 0x09) // trainrefit
| (0 << 0x0B) // subsidiaries
| ((_settings_game.order.gradual_loading ? 1 : 0) << 0x0C) // gradualloading
| (1 << 0x12) // unifiedmaglevmode - set bit 0 mode. Not revelant to OTTD
| (1 << 0x13) // unifiedmaglevmode - set bit 1 mode
| (1 << 0x14) // bridgespeedlimits
| (1 << 0x16) // eternalgame
| (1 << 0x17) // newtrains
| (1 << 0x18) // newrvs
| (1 << 0x19) // newships
| (1 << 0x1A) // newplanes
| ((_settings_game.construction.train_signal_side == 1 ? 1 : 0) << 0x1B) // signalsontrafficside
| ((_settings_game.vehicle.disable_elrails ? 0 : 1) << 0x1C); // electrifiedrailway
_ttdpatch_flags[2] = (1 << 0x01) // loadallgraphics - obsolote
| (1 << 0x03) // semaphores
| (1 << 0x0A) // newobjects
| (0 << 0x0B) // enhancedgui
| (0 << 0x0C) // newagerating
| ((_settings_game.construction.build_on_slopes ? 1 : 0) << 0x0D) // buildonslopes
| (1 << 0x0E) // fullloadany
| (1 << 0x0F) // planespeed
| (0 << 0x10) // moreindustriesperclimate - obsolete
| (0 << 0x11) // moretoylandfeatures
| (1 << 0x12) // newstations
| (1 << 0x13) // tracktypecostdiff
| (1 << 0x14) // manualconvert
| ((_settings_game.construction.build_on_slopes ? 1 : 0) << 0x15) // buildoncoasts
| (1 << 0x16) // canals
| (1 << 0x17) // newstartyear
| ((_settings_game.vehicle.freight_trains > 1 ? 1 : 0) << 0x18) // freighttrains
| (1 << 0x19) // newhouses
| (1 << 0x1A) // newbridges
| (1 << 0x1B) // newtownnames
| (1 << 0x1C) // moreanimation
| ((_settings_game.vehicle.wagon_speed_limits ? 1 : 0) << 0x1D) // wagonspeedlimits
| (1 << 0x1E) // newshistory
| (0 << 0x1F); // custombridgeheads
_ttdpatch_flags[3] = (0 << 0x00) // newcargodistribution
| (1 << 0x01) // windowsnap
| ((_settings_game.economy.allow_town_roads || _generating_world ? 0 : 1) << 0x02) // townbuildnoroad
| (1 << 0x03) // pathbasedsignalling
| (0 << 0x04) // aichoosechance
| (1 << 0x05) // resolutionwidth
| (1 << 0x06) // resolutionheight
| (1 << 0x07) // newindustries
| ((_settings_game.order.improved_load ? 1 : 0) << 0x08) // fifoloading
| (0 << 0x09) // townroadbranchprob
| (0 << 0x0A) // tempsnowline
| (1 << 0x0B) // newcargo
| (1 << 0x0C) // enhancemultiplayer
| (1 << 0x0D) // onewayroads
| (1 << 0x0E) // irregularstations
| (1 << 0x0F) // statistics
| (1 << 0x10) // newsounds
| (1 << 0x11) // autoreplace
| (1 << 0x12) // autoslope
| (0 << 0x13) // followvehicle
| (1 << 0x14) // trams
| (0 << 0x15) // enhancetunnels
| (1 << 0x16) // shortrvs
| (1 << 0x17) // articulatedrvs
| ((_settings_game.vehicle.dynamic_engines ? 1 : 0) << 0x18) // dynamic engines
| (1 << 0x1E) // variablerunningcosts
| (1 << 0x1F); // any switch is on
_ttdpatch_flags[4] = (1 << 0x00) // larger persistent storage
| ((_settings_game.economy.inflation ? 1 : 0) << 0x01); // inflation is on
}
/** Reset and clear all NewGRF stations */
static void ResetCustomStations()
{
for (GRFFile * const file : _grf_files) {
StationSpec **&stations = file->stations;
if (stations == nullptr) continue;
for (uint i = 0; i < NUM_STATIONS_PER_GRF; i++) {
if (stations[i] == nullptr) continue;
StationSpec *statspec = stations[i];
/* Release this station */
delete statspec;
}
/* Free and reset the station data */
free(stations);
stations = nullptr;
}
}
/** Reset and clear all NewGRF houses */
static void ResetCustomHouses()
{
for (GRFFile * const file : _grf_files) {
HouseSpec **&housespec = file->housespec;
if (housespec == nullptr) continue;
for (uint i = 0; i < NUM_HOUSES_PER_GRF; i++) {
free(housespec[i]);
}
free(housespec);
housespec = nullptr;
}
}
/** Reset and clear all NewGRF airports */
static void ResetCustomAirports()
{
for (GRFFile * const file : _grf_files) {
AirportSpec **aslist = file->airportspec;
if (aslist != nullptr) {
for (uint i = 0; i < NUM_AIRPORTS_PER_GRF; i++) {
AirportSpec *as = aslist[i];
if (as != nullptr) {
/* We need to remove the tiles layouts */
for (int j = 0; j < as->num_table; j++) {
/* remove the individual layouts */
free(as->table[j]);
}
free(as->table);
free(as->depot_table);
free(as->rotation);
free(as);
}
}
free(aslist);
file->airportspec = nullptr;
}
AirportTileSpec **&airporttilespec = file->airtspec;
if (airporttilespec != nullptr) {
for (uint i = 0; i < NUM_AIRPORTTILES_PER_GRF; i++) {
free(airporttilespec[i]);
}
free(airporttilespec);
airporttilespec = nullptr;
}
}
}
/** Reset and clear all NewGRF industries */
static void ResetCustomIndustries()
{
for (GRFFile * const file : _grf_files) {
IndustrySpec **&industryspec = file->industryspec;
IndustryTileSpec **&indtspec = file->indtspec;
/* We are verifiying both tiles and industries specs loaded from the grf file
* First, let's deal with industryspec */
if (industryspec != nullptr) {
for (uint i = 0; i < NUM_INDUSTRYTYPES_PER_GRF; i++) {
IndustrySpec *ind = industryspec[i];
delete ind;
}
free(industryspec);
industryspec = nullptr;
}
if (indtspec == nullptr) continue;
for (uint i = 0; i < NUM_INDUSTRYTILES_PER_GRF; i++) {
free(indtspec[i]);
}
free(indtspec);
indtspec = nullptr;
}
}
/** Reset and clear all NewObjects */
static void ResetCustomObjects()
{
for (GRFFile * const file : _grf_files) {
ObjectSpec **&objectspec = file->objectspec;
if (objectspec == nullptr) continue;
for (uint i = 0; i < NUM_OBJECTS_PER_GRF; i++) {
free(objectspec[i]);
}
free(objectspec);
objectspec = nullptr;
}
}
/** Reset and clear all NewGRFs */
static void ResetNewGRF()
{
for (GRFFile * const file : _grf_files) {
delete file;
}
_grf_files.clear();
_cur.grffile = nullptr;
}
/** Clear all NewGRF errors */
static void ResetNewGRFErrors()
{
for (GRFConfig *c = _grfconfig; c != nullptr; c = c->next) {
if (!HasBit(c->flags, GCF_COPY) && c->error != nullptr) {
delete c->error;
c->error = nullptr;
}
}
}
/**
* Reset all NewGRF loaded data
*/
void ResetNewGRFData()
{
CleanUpStrings();
CleanUpGRFTownNames();
/* Copy/reset original engine info data */
SetupEngines();
/* Copy/reset original bridge info data */
ResetBridges();
/* Reset rail type information */
ResetRailTypes();
/* Copy/reset original road type info data */
ResetRoadTypes();
/* Allocate temporary refit/cargo class data */
_gted = CallocT(Engine::GetPoolSize());
/* Fill rail type label temporary data for default trains */
for (const Engine *e : Engine::IterateType(VEH_TRAIN)) {
_gted[e->index].railtypelabel = GetRailTypeInfo(e->u.rail.railtype)->label;
}
/* Reset GRM reservations */
memset(&_grm_engines, 0, sizeof(_grm_engines));
memset(&_grm_cargoes, 0, sizeof(_grm_cargoes));
/* Reset generic feature callback lists */
ResetGenericCallbacks();
/* Reset price base data */
ResetPriceBaseMultipliers();
/* Reset the curencies array */
ResetCurrencies();
/* Reset the house array */
ResetCustomHouses();
ResetHouses();
/* Reset the industries structures*/
ResetCustomIndustries();
ResetIndustries();
/* Reset the objects. */
ObjectClass::Reset();
ResetCustomObjects();
ResetObjects();
/* Reset station classes */
StationClass::Reset();
ResetCustomStations();
/* Reset airport-related structures */
AirportClass::Reset();
ResetCustomAirports();
AirportSpec::ResetAirports();
AirportTileSpec::ResetAirportTiles();
/* Reset canal sprite groups and flags */
memset(_water_feature, 0, sizeof(_water_feature));
/* Reset the snowline table. */
ClearSnowLine();
/* Reset NewGRF files */
ResetNewGRF();
/* Reset NewGRF errors. */
ResetNewGRFErrors();
/* Set up the default cargo types */
SetupCargoForClimate(_settings_game.game_creation.landscape);
/* Reset misc GRF features and train list display variables */
_misc_grf_features = 0;
_loaded_newgrf_features.has_2CC = false;
_loaded_newgrf_features.used_liveries = 1 << LS_DEFAULT;
_loaded_newgrf_features.shore = SHORE_REPLACE_NONE;
_loaded_newgrf_features.tram = TRAMWAY_REPLACE_DEPOT_NONE;
/* Clear all GRF overrides */
_grf_id_overrides.clear();
InitializeSoundPool();
_spritegroup_pool.CleanPool();
}
/**
* Reset NewGRF data which is stored persistently in savegames.
*/
void ResetPersistentNewGRFData()
{
/* Reset override managers */
_engine_mngr.ResetToDefaultMapping();
_house_mngr.ResetMapping();
_industry_mngr.ResetMapping();
_industile_mngr.ResetMapping();
_airport_mngr.ResetMapping();
_airporttile_mngr.ResetMapping();
}
/**
* Construct the Cargo Mapping
* @note This is the reverse of a cargo translation table
*/
static void BuildCargoTranslationMap()
{
memset(_cur.grffile->cargo_map, 0xFF, sizeof(_cur.grffile->cargo_map));
for (CargoID c = 0; c < NUM_CARGO; c++) {
const CargoSpec *cs = CargoSpec::Get(c);
if (!cs->IsValid()) continue;
if (_cur.grffile->cargo_list.size() == 0) {
/* Default translation table, so just a straight mapping to bitnum */
_cur.grffile->cargo_map[c] = cs->bitnum;
} else {
/* Check the translation table for this cargo's label */
int idx = find_index(_cur.grffile->cargo_list, {cs->label});
if (idx >= 0) _cur.grffile->cargo_map[c] = idx;
}
}
}
/**
* Prepare loading a NewGRF file with its config
* @param config The NewGRF configuration struct with name, id, parameters and alike.
*/
static void InitNewGRFFile(const GRFConfig *config)
{
GRFFile *newfile = GetFileByFilename(config->filename);
if (newfile != nullptr) {
/* We already loaded it once. */
_cur.grffile = newfile;
return;
}
newfile = new GRFFile(config);
_grf_files.push_back(_cur.grffile = newfile);
}
/**
* Constructor for GRFFile
* @param config GRFConfig to copy name, grfid and parameters from.
*/
GRFFile::GRFFile(const GRFConfig *config)
{
this->filename = stredup(config->filename);
this->grfid = config->ident.grfid;
/* Initialise local settings to defaults */
this->traininfo_vehicle_pitch = 0;
this->traininfo_vehicle_width = TRAININFO_DEFAULT_VEHICLE_WIDTH;
/* Mark price_base_multipliers as 'not set' */
for (Price i = PR_BEGIN; i < PR_END; i++) {
this->price_base_multipliers[i] = INVALID_PRICE_MODIFIER;
}
/* Initialise rail type map with default rail types */
std::fill(std::begin(this->railtype_map), std::end(this->railtype_map), INVALID_RAILTYPE);
this->railtype_map[0] = RAILTYPE_RAIL;
this->railtype_map[1] = RAILTYPE_ELECTRIC;
this->railtype_map[2] = RAILTYPE_MONO;
this->railtype_map[3] = RAILTYPE_MAGLEV;
/* Initialise road type map with default road types */
std::fill(std::begin(this->roadtype_map), std::end(this->roadtype_map), INVALID_ROADTYPE);
this->roadtype_map[0] = ROADTYPE_ROAD;
/* Initialise tram type map with default tram types */
std::fill(std::begin(this->tramtype_map), std::end(this->tramtype_map), INVALID_ROADTYPE);
this->tramtype_map[0] = ROADTYPE_TRAM;
/* Copy the initial parameter list
* 'Uninitialised' parameters are zeroed as that is their default value when dynamically creating them. */
static_assert(lengthof(this->param) == lengthof(config->param) && lengthof(this->param) == 0x80);
assert(config->num_params <= lengthof(config->param));
this->param_end = config->num_params;
if (this->param_end > 0) {
MemCpyT(this->param, config->param, this->param_end);
}
}
GRFFile::~GRFFile()
{
free(this->filename);
delete[] this->language_map;
}
/**
* Precalculate refit masks from cargo classes for all vehicles.
*/
static void CalculateRefitMasks()
{
CargoTypes original_known_cargoes = 0;
for (int ct = 0; ct != NUM_ORIGINAL_CARGO; ++ct) {
CargoID cid = GetDefaultCargoID(_settings_game.game_creation.landscape, static_cast(ct));
if (cid != CT_INVALID) SetBit(original_known_cargoes, cid);
}
for (Engine *e : Engine::Iterate()) {
EngineID engine = e->index;
EngineInfo *ei = &e->info;
bool only_defaultcargo; ///< Set if the vehicle shall carry only the default cargo
/* If the NewGRF did not set any cargo properties, we apply default values. */
if (_gted[engine].defaultcargo_grf == nullptr) {
/* If the vehicle has any capacity, apply the default refit masks */
if (e->type != VEH_TRAIN || e->u.rail.capacity != 0) {
static constexpr byte T = 1 << LT_TEMPERATE;
static constexpr byte A = 1 << LT_ARCTIC;
static constexpr byte S = 1 << LT_TROPIC;
static constexpr byte Y = 1 << LT_TOYLAND;
static const struct DefaultRefitMasks {
byte climate;
CargoType cargo_type;
CargoTypes cargo_allowed;
CargoTypes cargo_disallowed;
} _default_refit_masks[] = {
{T | A | S | Y, CT_PASSENGERS, CC_PASSENGERS, 0},
{T | A | S , CT_MAIL, CC_MAIL, 0},
{T | A | S , CT_VALUABLES, CC_ARMOURED, CC_LIQUID},
{ Y, CT_MAIL, CC_MAIL | CC_ARMOURED, CC_LIQUID},
{T | A , CT_COAL, CC_BULK, 0},
{ S , CT_COPPER_ORE, CC_BULK, 0},
{ Y, CT_SUGAR, CC_BULK, 0},
{T | A | S , CT_OIL, CC_LIQUID, 0},
{ Y, CT_COLA, CC_LIQUID, 0},
{T , CT_GOODS, CC_PIECE_GOODS | CC_EXPRESS, CC_LIQUID | CC_PASSENGERS},
{ A | S , CT_GOODS, CC_PIECE_GOODS | CC_EXPRESS, CC_LIQUID | CC_PASSENGERS | CC_REFRIGERATED},
{ A | S , CT_FOOD, CC_REFRIGERATED, 0},
{ Y, CT_CANDY, CC_PIECE_GOODS | CC_EXPRESS, CC_LIQUID | CC_PASSENGERS},
};
if (e->type == VEH_AIRCRAFT) {
/* Aircraft default to "light" cargoes */
_gted[engine].cargo_allowed = CC_PASSENGERS | CC_MAIL | CC_ARMOURED | CC_EXPRESS;
_gted[engine].cargo_disallowed = CC_LIQUID;
} else if (e->type == VEH_SHIP) {
switch (ei->cargo_type) {
case CT_PASSENGERS:
/* Ferries */
_gted[engine].cargo_allowed = CC_PASSENGERS;
_gted[engine].cargo_disallowed = 0;
break;
case CT_OIL:
/* Tankers */
_gted[engine].cargo_allowed = CC_LIQUID;
_gted[engine].cargo_disallowed = 0;
break;
default:
/* Cargo ships */
if (_settings_game.game_creation.landscape == LT_TOYLAND) {
/* No tanker in toyland :( */
_gted[engine].cargo_allowed = CC_MAIL | CC_ARMOURED | CC_EXPRESS | CC_BULK | CC_PIECE_GOODS | CC_LIQUID;
_gted[engine].cargo_disallowed = CC_PASSENGERS;
} else {
_gted[engine].cargo_allowed = CC_MAIL | CC_ARMOURED | CC_EXPRESS | CC_BULK | CC_PIECE_GOODS;
_gted[engine].cargo_disallowed = CC_LIQUID | CC_PASSENGERS;
}
break;
}
e->u.ship.old_refittable = true;
} else if (e->type == VEH_TRAIN && e->u.rail.railveh_type != RAILVEH_WAGON) {
/* Train engines default to all cargoes, so you can build single-cargo consists with fast engines.
* Trains loading multiple cargoes may start stations accepting unwanted cargoes. */
_gted[engine].cargo_allowed = CC_PASSENGERS | CC_MAIL | CC_ARMOURED | CC_EXPRESS | CC_BULK | CC_PIECE_GOODS | CC_LIQUID;
_gted[engine].cargo_disallowed = 0;
} else {
/* Train wagons and road vehicles are classified by their default cargo type */
for (const auto &drm : _default_refit_masks) {
if (!HasBit(drm.climate, _settings_game.game_creation.landscape)) continue;
if (drm.cargo_type != ei->cargo_type) continue;
_gted[engine].cargo_allowed = drm.cargo_allowed;
_gted[engine].cargo_disallowed = drm.cargo_disallowed;
break;
}
/* All original cargoes have specialised vehicles, so exclude them */
_gted[engine].ctt_exclude_mask = original_known_cargoes;
}
}
_gted[engine].UpdateRefittability(_gted[engine].cargo_allowed != 0);
/* Translate cargo_type using the original climate-specific cargo table. */
ei->cargo_type = GetDefaultCargoID(_settings_game.game_creation.landscape, static_cast(ei->cargo_type));
if (ei->cargo_type != CT_INVALID) ClrBit(_gted[engine].ctt_exclude_mask, ei->cargo_type);
}
/* Compute refittability */
{
CargoTypes mask = 0;
CargoTypes not_mask = 0;
CargoTypes xor_mask = ei->refit_mask;
/* If the original masks set by the grf are zero, the vehicle shall only carry the default cargo.
* Note: After applying the translations, the vehicle may end up carrying no defined cargo. It becomes unavailable in that case. */
only_defaultcargo = _gted[engine].refittability != GRFTempEngineData::NONEMPTY;
if (_gted[engine].cargo_allowed != 0) {
/* Build up the list of cargo types from the set cargo classes. */
for (const CargoSpec *cs : CargoSpec::Iterate()) {
if (_gted[engine].cargo_allowed & cs->classes) SetBit(mask, cs->Index());
if (_gted[engine].cargo_disallowed & cs->classes) SetBit(not_mask, cs->Index());
}
}
ei->refit_mask = ((mask & ~not_mask) ^ xor_mask) & _cargo_mask;
/* Apply explicit refit includes/excludes. */
ei->refit_mask |= _gted[engine].ctt_include_mask;
ei->refit_mask &= ~_gted[engine].ctt_exclude_mask;
}
/* Clear invalid cargoslots (from default vehicles or pre-NewCargo GRFs) */
if (ei->cargo_type != CT_INVALID && !HasBit(_cargo_mask, ei->cargo_type)) ei->cargo_type = CT_INVALID;
/* Ensure that the vehicle is either not refittable, or that the default cargo is one of the refittable cargoes.
* Note: Vehicles refittable to no cargo are handle differently to vehicle refittable to a single cargo. The latter might have subtypes. */
if (!only_defaultcargo && (e->type != VEH_SHIP || e->u.ship.old_refittable) && ei->cargo_type != CT_INVALID && !HasBit(ei->refit_mask, ei->cargo_type)) {
ei->cargo_type = CT_INVALID;
}
/* Check if this engine's cargo type is valid. If not, set to the first refittable
* cargo type. Finally disable the vehicle, if there is still no cargo. */
if (ei->cargo_type == CT_INVALID && ei->refit_mask != 0) {
/* Figure out which CTT to use for the default cargo, if it is 'first refittable'. */
const uint8 *cargo_map_for_first_refittable = nullptr;
{
const GRFFile *file = _gted[engine].defaultcargo_grf;
if (file == nullptr) file = e->GetGRF();
if (file != nullptr && file->grf_version >= 8 && file->cargo_list.size() != 0) {
cargo_map_for_first_refittable = file->cargo_map;
}
}
if (cargo_map_for_first_refittable != nullptr) {
/* Use first refittable cargo from cargo translation table */
byte best_local_slot = 0xFF;
for (CargoID cargo_type : SetCargoBitIterator(ei->refit_mask)) {
byte local_slot = cargo_map_for_first_refittable[cargo_type];
if (local_slot < best_local_slot) {
best_local_slot = local_slot;
ei->cargo_type = cargo_type;
}
}
}
if (ei->cargo_type == CT_INVALID) {
/* Use first refittable cargo slot */
ei->cargo_type = (CargoID)FindFirstBit(ei->refit_mask);
}
}
if (ei->cargo_type == CT_INVALID) ei->climates = 0;
/* Clear refit_mask for not refittable ships */
if (e->type == VEH_SHIP && !e->u.ship.old_refittable) {
ei->refit_mask = 0;
}
}
}
/** Set to use the correct action0 properties for each canal feature */
static void FinaliseCanals()
{
for (uint i = 0; i < CF_END; i++) {
if (_water_feature[i].grffile != nullptr) {
_water_feature[i].callback_mask = _water_feature[i].grffile->canal_local_properties[i].callback_mask;
_water_feature[i].flags = _water_feature[i].grffile->canal_local_properties[i].flags;
}
}
}
/** Check for invalid engines */
static void FinaliseEngineArray()
{
for (Engine *e : Engine::Iterate()) {
if (e->GetGRF() == nullptr) {
const EngineIDMapping &eid = _engine_mngr[e->index];
if (eid.grfid != INVALID_GRFID || eid.internal_id != eid.substitute_id) {
e->info.string_id = STR_NEWGRF_INVALID_ENGINE;
}
}
if (!HasBit(e->info.climates, _settings_game.game_creation.landscape)) continue;
/* When the train does not set property 27 (misc flags), but it
* is overridden by a NewGRF graphically we want to disable the
* flipping possibility. */
if (e->type == VEH_TRAIN && !_gted[e->index].prop27_set && e->GetGRF() != nullptr && is_custom_sprite(e->u.rail.image_index)) {
ClrBit(e->info.misc_flags, EF_RAIL_FLIPS);
}
/* Skip wagons, there livery is defined via the engine */
if (e->type != VEH_TRAIN || e->u.rail.railveh_type != RAILVEH_WAGON) {
LiveryScheme ls = GetEngineLiveryScheme(e->index, INVALID_ENGINE, nullptr);
SetBit(_loaded_newgrf_features.used_liveries, ls);
/* Note: For ships and roadvehicles we assume that they cannot be refitted between passenger and freight */
if (e->type == VEH_TRAIN) {
SetBit(_loaded_newgrf_features.used_liveries, LS_FREIGHT_WAGON);
switch (ls) {
case LS_STEAM:
case LS_DIESEL:
case LS_ELECTRIC:
case LS_MONORAIL:
case LS_MAGLEV:
SetBit(_loaded_newgrf_features.used_liveries, LS_PASSENGER_WAGON_STEAM + ls - LS_STEAM);
break;
case LS_DMU:
case LS_EMU:
SetBit(_loaded_newgrf_features.used_liveries, LS_PASSENGER_WAGON_DIESEL + ls - LS_DMU);
break;
default: NOT_REACHED();
}
}
}
}
}
/** Check for invalid cargoes */
static void FinaliseCargoArray()
{
for (CargoID c = 0; c < NUM_CARGO; c++) {
CargoSpec *cs = CargoSpec::Get(c);
if (!cs->IsValid()) {
cs->name = cs->name_single = cs->units_volume = STR_NEWGRF_INVALID_CARGO;
cs->quantifier = STR_NEWGRF_INVALID_CARGO_QUANTITY;
cs->abbrev = STR_NEWGRF_INVALID_CARGO_ABBREV;
}
}
}
/**
* Check if a given housespec is valid and disable it if it's not.
* The housespecs that follow it are used to check the validity of
* multitile houses.
* @param hs The housespec to check.
* @param next1 The housespec that follows \c hs.
* @param next2 The housespec that follows \c next1.
* @param next3 The housespec that follows \c next2.
* @param filename The filename of the newgrf this house was defined in.
* @return Whether the given housespec is valid.
*/
static bool IsHouseSpecValid(HouseSpec *hs, const HouseSpec *next1, const HouseSpec *next2, const HouseSpec *next3, const char *filename)
{
if (((hs->building_flags & BUILDING_HAS_2_TILES) != 0 &&
(next1 == nullptr || !next1->enabled || (next1->building_flags & BUILDING_HAS_1_TILE) != 0)) ||
((hs->building_flags & BUILDING_HAS_4_TILES) != 0 &&
(next2 == nullptr || !next2->enabled || (next2->building_flags & BUILDING_HAS_1_TILE) != 0 ||
next3 == nullptr || !next3->enabled || (next3->building_flags & BUILDING_HAS_1_TILE) != 0))) {
hs->enabled = false;
if (filename != nullptr) Debug(grf, 1, "FinaliseHouseArray: {} defines house {} as multitile, but no suitable tiles follow. Disabling house.", filename, hs->grf_prop.local_id);
return false;
}
/* Some places sum population by only counting north tiles. Other places use all tiles causing desyncs.
* As the newgrf specs define population to be zero for non-north tiles, we just disable the offending house.
* If you want to allow non-zero populations somewhen, make sure to sum the population of all tiles in all places. */
if (((hs->building_flags & BUILDING_HAS_2_TILES) != 0 && next1->population != 0) ||
((hs->building_flags & BUILDING_HAS_4_TILES) != 0 && (next2->population != 0 || next3->population != 0))) {
hs->enabled = false;
if (filename != nullptr) Debug(grf, 1, "FinaliseHouseArray: {} defines multitile house {} with non-zero population on additional tiles. Disabling house.", filename, hs->grf_prop.local_id);
return false;
}
/* Substitute type is also used for override, and having an override with a different size causes crashes.
* This check should only be done for NewGRF houses because grf_prop.subst_id is not set for original houses.*/
if (filename != nullptr && (hs->building_flags & BUILDING_HAS_1_TILE) != (HouseSpec::Get(hs->grf_prop.subst_id)->building_flags & BUILDING_HAS_1_TILE)) {
hs->enabled = false;
Debug(grf, 1, "FinaliseHouseArray: {} defines house {} with different house size then it's substitute type. Disabling house.", filename, hs->grf_prop.local_id);
return false;
}
/* Make sure that additional parts of multitile houses are not available. */
if ((hs->building_flags & BUILDING_HAS_1_TILE) == 0 && (hs->building_availability & HZ_ZONALL) != 0 && (hs->building_availability & HZ_CLIMALL) != 0) {
hs->enabled = false;
if (filename != nullptr) Debug(grf, 1, "FinaliseHouseArray: {} defines house {} without a size but marked it as available. Disabling house.", filename, hs->grf_prop.local_id);
return false;
}
return true;
}
/**
* Make sure there is at least one house available in the year 0 for the given
* climate / housezone combination.
* @param bitmask The climate and housezone to check for. Exactly one climate
* bit and one housezone bit should be set.
*/
static void EnsureEarlyHouse(HouseZones bitmask)
{
Year min_year = MAX_YEAR;
for (int i = 0; i < NUM_HOUSES; i++) {
HouseSpec *hs = HouseSpec::Get(i);
if (hs == nullptr || !hs->enabled) continue;
if ((hs->building_availability & bitmask) != bitmask) continue;
if (hs->min_year < min_year) min_year = hs->min_year;
}
if (min_year == 0) return;
for (int i = 0; i < NUM_HOUSES; i++) {
HouseSpec *hs = HouseSpec::Get(i);
if (hs == nullptr || !hs->enabled) continue;
if ((hs->building_availability & bitmask) != bitmask) continue;
if (hs->min_year == min_year) hs->min_year = 0;
}
}
/**
* Add all new houses to the house array. House properties can be set at any
* time in the GRF file, so we can only add a house spec to the house array
* after the file has finished loading. We also need to check the dates, due to
* the TTDPatch behaviour described below that we need to emulate.
*/
static void FinaliseHouseArray()
{
/* If there are no houses with start dates before 1930, then all houses
* with start dates of 1930 have them reset to 0. This is in order to be
* compatible with TTDPatch, where if no houses have start dates before
* 1930 and the date is before 1930, the game pretends that this is 1930.
* If there have been any houses defined with start dates before 1930 then
* the dates are left alone.
* On the other hand, why 1930? Just 'fix' the houses with the lowest
* minimum introduction date to 0.
*/
for (GRFFile * const file : _grf_files) {
HouseSpec **&housespec = file->housespec;
if (housespec == nullptr) continue;
for (int i = 0; i < NUM_HOUSES_PER_GRF; i++) {
HouseSpec *hs = housespec[i];
if (hs == nullptr) continue;
const HouseSpec *next1 = (i + 1 < NUM_HOUSES_PER_GRF ? housespec[i + 1] : nullptr);
const HouseSpec *next2 = (i + 2 < NUM_HOUSES_PER_GRF ? housespec[i + 2] : nullptr);
const HouseSpec *next3 = (i + 3 < NUM_HOUSES_PER_GRF ? housespec[i + 3] : nullptr);
if (!IsHouseSpecValid(hs, next1, next2, next3, file->filename)) continue;
_house_mngr.SetEntitySpec(hs);
}
}
for (int i = 0; i < NUM_HOUSES; i++) {
HouseSpec *hs = HouseSpec::Get(i);
const HouseSpec *next1 = (i + 1 < NUM_HOUSES ? HouseSpec::Get(i + 1) : nullptr);
const HouseSpec *next2 = (i + 2 < NUM_HOUSES ? HouseSpec::Get(i + 2) : nullptr);
const HouseSpec *next3 = (i + 3 < NUM_HOUSES ? HouseSpec::Get(i + 3) : nullptr);
/* We need to check all houses again to we are sure that multitile houses
* did get consecutive IDs and none of the parts are missing. */
if (!IsHouseSpecValid(hs, next1, next2, next3, nullptr)) {
/* GetHouseNorthPart checks 3 houses that are directly before
* it in the house pool. If any of those houses have multi-tile
* flags set it assumes it's part of a multitile house. Since
* we can have invalid houses in the pool marked as disabled, we
* don't want to have them influencing valid tiles. As such set
* building_flags to zero here to make sure any house following
* this one in the pool is properly handled as 1x1 house. */
hs->building_flags = TILE_NO_FLAG;
}
}
HouseZones climate_mask = (HouseZones)(1 << (_settings_game.game_creation.landscape + 12));
EnsureEarlyHouse(HZ_ZON1 | climate_mask);
EnsureEarlyHouse(HZ_ZON2 | climate_mask);
EnsureEarlyHouse(HZ_ZON3 | climate_mask);
EnsureEarlyHouse(HZ_ZON4 | climate_mask);
EnsureEarlyHouse(HZ_ZON5 | climate_mask);
if (_settings_game.game_creation.landscape == LT_ARCTIC) {
EnsureEarlyHouse(HZ_ZON1 | HZ_SUBARTC_ABOVE);
EnsureEarlyHouse(HZ_ZON2 | HZ_SUBARTC_ABOVE);
EnsureEarlyHouse(HZ_ZON3 | HZ_SUBARTC_ABOVE);
EnsureEarlyHouse(HZ_ZON4 | HZ_SUBARTC_ABOVE);
EnsureEarlyHouse(HZ_ZON5 | HZ_SUBARTC_ABOVE);
}
}
/**
* Add all new industries to the industry array. Industry properties can be set at any
* time in the GRF file, so we can only add a industry spec to the industry array
* after the file has finished loading.
*/
static void FinaliseIndustriesArray()
{
for (GRFFile * const file : _grf_files) {
IndustrySpec **&industryspec = file->industryspec;
IndustryTileSpec **&indtspec = file->indtspec;
if (industryspec != nullptr) {
for (int i = 0; i < NUM_INDUSTRYTYPES_PER_GRF; i++) {
IndustrySpec *indsp = industryspec[i];
if (indsp != nullptr && indsp->enabled) {
StringID strid;
/* process the conversion of text at the end, so to be sure everything will be fine
* and available. Check if it does not return undefind marker, which is a very good sign of a
* substitute industry who has not changed the string been examined, thus using it as such */
strid = GetGRFStringID(indsp->grf_prop.grffile->grfid, indsp->name);
if (strid != STR_UNDEFINED) indsp->name = strid;
strid = GetGRFStringID(indsp->grf_prop.grffile->grfid, indsp->closure_text);
if (strid != STR_UNDEFINED) indsp->closure_text = strid;
strid = GetGRFStringID(indsp->grf_prop.grffile->grfid, indsp->production_up_text);
if (strid != STR_UNDEFINED) indsp->production_up_text = strid;
strid = GetGRFStringID(indsp->grf_prop.grffile->grfid, indsp->production_down_text);
if (strid != STR_UNDEFINED) indsp->production_down_text = strid;
strid = GetGRFStringID(indsp->grf_prop.grffile->grfid, indsp->new_industry_text);
if (strid != STR_UNDEFINED) indsp->new_industry_text = strid;
if (indsp->station_name != STR_NULL) {
/* STR_NULL (0) can be set by grf. It has a meaning regarding assignation of the
* station's name. Don't want to lose the value, therefore, do not process. */
strid = GetGRFStringID(indsp->grf_prop.grffile->grfid, indsp->station_name);
if (strid != STR_UNDEFINED) indsp->station_name = strid;
}
_industry_mngr.SetEntitySpec(indsp);
}
}
}
if (indtspec != nullptr) {
for (int i = 0; i < NUM_INDUSTRYTILES_PER_GRF; i++) {
IndustryTileSpec *indtsp = indtspec[i];
if (indtsp != nullptr) {
_industile_mngr.SetEntitySpec(indtsp);
}
}
}
}
for (uint j = 0; j < NUM_INDUSTRYTYPES; j++) {
IndustrySpec *indsp = &_industry_specs[j];
if (indsp->enabled && indsp->grf_prop.grffile != nullptr) {
for (uint i = 0; i < 3; i++) {
indsp->conflicting[i] = MapNewGRFIndustryType(indsp->conflicting[i], indsp->grf_prop.grffile->grfid);
}
}
if (!indsp->enabled) {
indsp->name = STR_NEWGRF_INVALID_INDUSTRYTYPE;
}
}
}
/**
* Add all new objects to the object array. Object properties can be set at any
* time in the GRF file, so we can only add an object spec to the object array
* after the file has finished loading.
*/
static void FinaliseObjectsArray()
{
for (GRFFile * const file : _grf_files) {
ObjectSpec **&objectspec = file->objectspec;
if (objectspec != nullptr) {
for (int i = 0; i < NUM_OBJECTS_PER_GRF; i++) {
if (objectspec[i] != nullptr && objectspec[i]->grf_prop.grffile != nullptr && objectspec[i]->enabled) {
_object_mngr.SetEntitySpec(objectspec[i]);
}
}
}
}
}
/**
* Add all new airports to the airport array. Airport properties can be set at any
* time in the GRF file, so we can only add a airport spec to the airport array
* after the file has finished loading.
*/
static void FinaliseAirportsArray()
{
for (GRFFile * const file : _grf_files) {
AirportSpec **&airportspec = file->airportspec;
if (airportspec != nullptr) {
for (int i = 0; i < NUM_AIRPORTS_PER_GRF; i++) {
if (airportspec[i] != nullptr && airportspec[i]->enabled) {
_airport_mngr.SetEntitySpec(airportspec[i]);
}
}
}
AirportTileSpec **&airporttilespec = file->airtspec;
if (airporttilespec != nullptr) {
for (uint i = 0; i < NUM_AIRPORTTILES_PER_GRF; i++) {
if (airporttilespec[i] != nullptr && airporttilespec[i]->enabled) {
_airporttile_mngr.SetEntitySpec(airporttilespec[i]);
}
}
}
}
}
/* Here we perform initial decoding of some special sprites (as are they
* described at http://www.ttdpatch.net/src/newgrf.txt, but this is only a very
* partial implementation yet).
* XXX: We consider GRF files trusted. It would be trivial to exploit OTTD by
* a crafted invalid GRF file. We should tell that to the user somehow, or
* better make this more robust in the future. */
static void DecodeSpecialSprite(byte *buf, uint num, GrfLoadingStage stage)
{
/* XXX: There is a difference between staged loading in TTDPatch and
* here. In TTDPatch, for some reason actions 1 and 2 are carried out
* during stage 1, whilst action 3 is carried out during stage 2 (to
* "resolve" cargo IDs... wtf). This is a little problem, because cargo
* IDs are valid only within a given set (action 1) block, and may be
* overwritten after action 3 associates them. But overwriting happens
* in an earlier stage than associating, so... We just process actions
* 1 and 2 in stage 2 now, let's hope that won't get us into problems.
* --pasky
* We need a pre-stage to set up GOTO labels of Action 0x10 because the grf
* is not in memory and scanning the file every time would be too expensive.
* In other stages we skip action 0x10 since it's already dealt with. */
static const SpecialSpriteHandler handlers[][GLS_END] = {
/* 0x00 */ { nullptr, SafeChangeInfo, nullptr, nullptr, ReserveChangeInfo, FeatureChangeInfo, },
/* 0x01 */ { SkipAct1, SkipAct1, SkipAct1, SkipAct1, SkipAct1, NewSpriteSet, },
/* 0x02 */ { nullptr, nullptr, nullptr, nullptr, nullptr, NewSpriteGroup, },
/* 0x03 */ { nullptr, GRFUnsafe, nullptr, nullptr, nullptr, FeatureMapSpriteGroup, },
/* 0x04 */ { nullptr, nullptr, nullptr, nullptr, nullptr, FeatureNewName, },
/* 0x05 */ { SkipAct5, SkipAct5, SkipAct5, SkipAct5, SkipAct5, GraphicsNew, },
/* 0x06 */ { nullptr, nullptr, nullptr, CfgApply, CfgApply, CfgApply, },
/* 0x07 */ { nullptr, nullptr, nullptr, nullptr, SkipIf, SkipIf, },
/* 0x08 */ { ScanInfo, nullptr, nullptr, GRFInfo, GRFInfo, GRFInfo, },
/* 0x09 */ { nullptr, nullptr, nullptr, SkipIf, SkipIf, SkipIf, },
/* 0x0A */ { SkipActA, SkipActA, SkipActA, SkipActA, SkipActA, SpriteReplace, },
/* 0x0B */ { nullptr, nullptr, nullptr, GRFLoadError, GRFLoadError, GRFLoadError, },
/* 0x0C */ { nullptr, nullptr, nullptr, GRFComment, nullptr, GRFComment, },
/* 0x0D */ { nullptr, SafeParamSet, nullptr, ParamSet, ParamSet, ParamSet, },
/* 0x0E */ { nullptr, SafeGRFInhibit, nullptr, GRFInhibit, GRFInhibit, GRFInhibit, },
/* 0x0F */ { nullptr, GRFUnsafe, nullptr, FeatureTownName, nullptr, nullptr, },
/* 0x10 */ { nullptr, nullptr, DefineGotoLabel, nullptr, nullptr, nullptr, },
/* 0x11 */ { SkipAct11, GRFUnsafe, SkipAct11, GRFSound, SkipAct11, GRFSound, },
/* 0x12 */ { SkipAct12, SkipAct12, SkipAct12, SkipAct12, SkipAct12, LoadFontGlyph, },
/* 0x13 */ { nullptr, nullptr, nullptr, nullptr, nullptr, TranslateGRFStrings, },
/* 0x14 */ { StaticGRFInfo, nullptr, nullptr, nullptr, nullptr, nullptr, },
};
GRFLocation location(_cur.grfconfig->ident.grfid, _cur.nfo_line);
GRFLineToSpriteOverride::iterator it = _grf_line_to_action6_sprite_override.find(location);
if (it == _grf_line_to_action6_sprite_override.end()) {
/* No preloaded sprite to work with; read the
* pseudo sprite content. */
_cur.file->ReadBlock(buf, num);
} else {
/* Use the preloaded sprite data. */
buf = _grf_line_to_action6_sprite_override[location];
grfmsg(7, "DecodeSpecialSprite: Using preloaded pseudo sprite data");
/* Skip the real (original) content of this action. */
_cur.file->SeekTo(num, SEEK_CUR);
}
ByteReader br(buf, buf + num);
ByteReader *bufp = &br;
try {
byte action = bufp->ReadByte();
if (action == 0xFF) {
grfmsg(2, "DecodeSpecialSprite: Unexpected data block, skipping");
} else if (action == 0xFE) {
grfmsg(2, "DecodeSpecialSprite: Unexpected import block, skipping");
} else if (action >= lengthof(handlers)) {
grfmsg(7, "DecodeSpecialSprite: Skipping unknown action 0x%02X", action);
} else if (handlers[action][stage] == nullptr) {
grfmsg(7, "DecodeSpecialSprite: Skipping action 0x%02X in stage %d", action, stage);
} else {
grfmsg(7, "DecodeSpecialSprite: Handling action 0x%02X in stage %d", action, stage);
handlers[action][stage](bufp);
}
} catch (...) {
grfmsg(1, "DecodeSpecialSprite: Tried to read past end of pseudo-sprite data");
DisableGrf(STR_NEWGRF_ERROR_READ_BOUNDS);
}
}
/**
* Load a particular NewGRF from a SpriteFile.
* @param config The configuration of the to be loaded NewGRF.
* @param stage The loading stage of the NewGRF.
* @param file The file to load the GRF data from.
*/
static void LoadNewGRFFileFromFile(GRFConfig *config, GrfLoadingStage stage, SpriteFile &file)
{
_cur.file = &file;
_cur.grfconfig = config;
Debug(grf, 2, "LoadNewGRFFile: Reading NewGRF-file '{}'", config->filename);
byte grf_container_version = file.GetContainerVersion();
if (grf_container_version == 0) {
Debug(grf, 7, "LoadNewGRFFile: Custom .grf has invalid format");
return;
}
if (stage == GLS_INIT || stage == GLS_ACTIVATION) {
/* We need the sprite offsets in the init stage for NewGRF sounds
* and in the activation stage for real sprites. */
ReadGRFSpriteOffsets(file);
} else {
/* Skip sprite section offset if present. */
if (grf_container_version >= 2) file.ReadDword();
}
if (grf_container_version >= 2) {
/* Read compression value. */
byte compression = file.ReadByte();
if (compression != 0) {
Debug(grf, 7, "LoadNewGRFFile: Unsupported compression format");
return;
}
}
/* Skip the first sprite; we don't care about how many sprites this
* does contain; newest TTDPatches and George's longvehicles don't
* neither, apparently. */
uint32 num = grf_container_version >= 2 ? file.ReadDword() : file.ReadWord();
if (num == 4 && file.ReadByte() == 0xFF) {
file.ReadDword();
} else {
Debug(grf, 7, "LoadNewGRFFile: Custom .grf has invalid format");
return;
}
_cur.ClearDataForNextFile();
ReusableBuffer buf;
while ((num = (grf_container_version >= 2 ? file.ReadDword() : file.ReadWord())) != 0) {
byte type = file.ReadByte();
_cur.nfo_line++;
if (type == 0xFF) {
if (_cur.skip_sprites == 0) {
DecodeSpecialSprite(buf.Allocate(num), num, stage);
/* Stop all processing if we are to skip the remaining sprites */
if (_cur.skip_sprites == -1) break;
continue;
} else {
file.SkipBytes(num);
}
} else {
if (_cur.skip_sprites == 0) {
grfmsg(0, "LoadNewGRFFile: Unexpected sprite, disabling");
DisableGrf(STR_NEWGRF_ERROR_UNEXPECTED_SPRITE);
break;
}
if (grf_container_version >= 2 && type == 0xFD) {
/* Reference to data section. Container version >= 2 only. */
file.SkipBytes(num);
} else {
file.SkipBytes(7);
SkipSpriteData(file, type, num - 8);
}
}
if (_cur.skip_sprites > 0) _cur.skip_sprites--;
}
}
/**
* Load a particular NewGRF.
* @param config The configuration of the to be loaded NewGRF.
* @param stage The loading stage of the NewGRF.
* @param subdir The sub directory to find the NewGRF in.
* @param temporary The NewGRF/sprite file is to be loaded temporarily and should be closed immediately,
* contrary to loading the SpriteFile and having it cached by the SpriteCache.
*/
void LoadNewGRFFile(GRFConfig *config, GrfLoadingStage stage, Subdirectory subdir, bool temporary)
{
const char *filename = config->filename;
/* A .grf file is activated only if it was active when the game was
* started. If a game is loaded, only its active .grfs will be
* reactivated, unless "loadallgraphics on" is used. A .grf file is
* considered active if its action 8 has been processed, i.e. its
* action 8 hasn't been skipped using an action 7.
*
* During activation, only actions 0, 1, 2, 3, 4, 5, 7, 8, 9, 0A and 0B are
* carried out. All others are ignored, because they only need to be
* processed once at initialization. */
if (stage != GLS_FILESCAN && stage != GLS_SAFETYSCAN && stage != GLS_LABELSCAN) {
_cur.grffile = GetFileByFilename(filename);
if (_cur.grffile == nullptr) usererror("File '%s' lost in cache.\n", filename);
if (stage == GLS_RESERVE && config->status != GCS_INITIALISED) return;
if (stage == GLS_ACTIVATION && !HasBit(config->flags, GCF_RESERVED)) return;
}
bool needs_palette_remap = config->palette & GRFP_USE_MASK;
if (temporary) {
SpriteFile temporarySpriteFile(filename, subdir, needs_palette_remap);
LoadNewGRFFileFromFile(config, stage, temporarySpriteFile);
} else {
LoadNewGRFFileFromFile(config, stage, OpenCachedSpriteFile(filename, subdir, needs_palette_remap));
}
}
/**
* Relocates the old shore sprites at new positions.
*
* 1. If shore sprites are neither loaded by Action5 nor ActionA, the extra sprites from openttd(w/d).grf are used. (SHORE_REPLACE_ONLY_NEW)
* 2. If a newgrf replaces some shore sprites by ActionA. The (maybe also replaced) grass tiles are used for corner shores. (SHORE_REPLACE_ACTION_A)
* 3. If a newgrf replaces shore sprites by Action5 any shore replacement by ActionA has no effect. (SHORE_REPLACE_ACTION_5)
*/
static void ActivateOldShore()
{
/* Use default graphics, if no shore sprites were loaded.
* Should not happen, as the base set's extra grf should include some. */
if (_loaded_newgrf_features.shore == SHORE_REPLACE_NONE) _loaded_newgrf_features.shore = SHORE_REPLACE_ACTION_A;
if (_loaded_newgrf_features.shore != SHORE_REPLACE_ACTION_5) {
DupSprite(SPR_ORIGINALSHORE_START + 1, SPR_SHORE_BASE + 1); // SLOPE_W
DupSprite(SPR_ORIGINALSHORE_START + 2, SPR_SHORE_BASE + 2); // SLOPE_S
DupSprite(SPR_ORIGINALSHORE_START + 6, SPR_SHORE_BASE + 3); // SLOPE_SW
DupSprite(SPR_ORIGINALSHORE_START + 0, SPR_SHORE_BASE + 4); // SLOPE_E
DupSprite(SPR_ORIGINALSHORE_START + 4, SPR_SHORE_BASE + 6); // SLOPE_SE
DupSprite(SPR_ORIGINALSHORE_START + 3, SPR_SHORE_BASE + 8); // SLOPE_N
DupSprite(SPR_ORIGINALSHORE_START + 7, SPR_SHORE_BASE + 9); // SLOPE_NW
DupSprite(SPR_ORIGINALSHORE_START + 5, SPR_SHORE_BASE + 12); // SLOPE_NE
}
if (_loaded_newgrf_features.shore == SHORE_REPLACE_ACTION_A) {
DupSprite(SPR_FLAT_GRASS_TILE + 16, SPR_SHORE_BASE + 0); // SLOPE_STEEP_S
DupSprite(SPR_FLAT_GRASS_TILE + 17, SPR_SHORE_BASE + 5); // SLOPE_STEEP_W
DupSprite(SPR_FLAT_GRASS_TILE + 7, SPR_SHORE_BASE + 7); // SLOPE_WSE
DupSprite(SPR_FLAT_GRASS_TILE + 15, SPR_SHORE_BASE + 10); // SLOPE_STEEP_N
DupSprite(SPR_FLAT_GRASS_TILE + 11, SPR_SHORE_BASE + 11); // SLOPE_NWS
DupSprite(SPR_FLAT_GRASS_TILE + 13, SPR_SHORE_BASE + 13); // SLOPE_ENW
DupSprite(SPR_FLAT_GRASS_TILE + 14, SPR_SHORE_BASE + 14); // SLOPE_SEN
DupSprite(SPR_FLAT_GRASS_TILE + 18, SPR_SHORE_BASE + 15); // SLOPE_STEEP_E
/* XXX - SLOPE_EW, SLOPE_NS are currently not used.
* If they would be used somewhen, then these grass tiles will most like not look as needed */
DupSprite(SPR_FLAT_GRASS_TILE + 5, SPR_SHORE_BASE + 16); // SLOPE_EW
DupSprite(SPR_FLAT_GRASS_TILE + 10, SPR_SHORE_BASE + 17); // SLOPE_NS
}
}
/**
* Replocate the old tram depot sprites to the new position, if no new ones were loaded.
*/
static void ActivateOldTramDepot()
{
if (_loaded_newgrf_features.tram == TRAMWAY_REPLACE_DEPOT_WITH_TRACK) {
DupSprite(SPR_ROAD_DEPOT + 0, SPR_TRAMWAY_DEPOT_NO_TRACK + 0); // use road depot graphics for "no tracks"
DupSprite(SPR_TRAMWAY_DEPOT_WITH_TRACK + 1, SPR_TRAMWAY_DEPOT_NO_TRACK + 1);
DupSprite(SPR_ROAD_DEPOT + 2, SPR_TRAMWAY_DEPOT_NO_TRACK + 2); // use road depot graphics for "no tracks"
DupSprite(SPR_TRAMWAY_DEPOT_WITH_TRACK + 3, SPR_TRAMWAY_DEPOT_NO_TRACK + 3);
DupSprite(SPR_TRAMWAY_DEPOT_WITH_TRACK + 4, SPR_TRAMWAY_DEPOT_NO_TRACK + 4);
DupSprite(SPR_TRAMWAY_DEPOT_WITH_TRACK + 5, SPR_TRAMWAY_DEPOT_NO_TRACK + 5);
}
}
/**
* Decide whether price base multipliers of grfs shall apply globally or only to the grf specifying them
*/
static void FinalisePriceBaseMultipliers()
{
extern const PriceBaseSpec _price_base_specs[];
/** Features, to which '_grf_id_overrides' applies. Currently vehicle features only. */
static const uint32 override_features = (1 << GSF_TRAINS) | (1 << GSF_ROADVEHICLES) | (1 << GSF_SHIPS) | (1 << GSF_AIRCRAFT);
/* Evaluate grf overrides */
int num_grfs = (uint)_grf_files.size();
int *grf_overrides = AllocaM(int, num_grfs);
for (int i = 0; i < num_grfs; i++) {
grf_overrides[i] = -1;
GRFFile *source = _grf_files[i];
uint32 override = _grf_id_overrides[source->grfid];
if (override == 0) continue;
GRFFile *dest = GetFileByGRFID(override);
if (dest == nullptr) continue;
grf_overrides[i] = find_index(_grf_files, dest);
assert(grf_overrides[i] >= 0);
}
/* Override features and price base multipliers of earlier loaded grfs */
for (int i = 0; i < num_grfs; i++) {
if (grf_overrides[i] < 0 || grf_overrides[i] >= i) continue;
GRFFile *source = _grf_files[i];
GRFFile *dest = _grf_files[grf_overrides[i]];
uint32 features = (source->grf_features | dest->grf_features) & override_features;
source->grf_features |= features;
dest->grf_features |= features;
for (Price p = PR_BEGIN; p < PR_END; p++) {
/* No price defined -> nothing to do */
if (!HasBit(features, _price_base_specs[p].grf_feature) || source->price_base_multipliers[p] == INVALID_PRICE_MODIFIER) continue;
Debug(grf, 3, "'{}' overrides price base multiplier {} of '{}'", source->filename, p, dest->filename);
dest->price_base_multipliers[p] = source->price_base_multipliers[p];
}
}
/* Propagate features and price base multipliers of afterwards loaded grfs, if none is present yet */
for (int i = num_grfs - 1; i >= 0; i--) {
if (grf_overrides[i] < 0 || grf_overrides[i] <= i) continue;
GRFFile *source = _grf_files[i];
GRFFile *dest = _grf_files[grf_overrides[i]];
uint32 features = (source->grf_features | dest->grf_features) & override_features;
source->grf_features |= features;
dest->grf_features |= features;
for (Price p = PR_BEGIN; p < PR_END; p++) {
/* Already a price defined -> nothing to do */
if (!HasBit(features, _price_base_specs[p].grf_feature) || dest->price_base_multipliers[p] != INVALID_PRICE_MODIFIER) continue;
Debug(grf, 3, "Price base multiplier {} from '{}' propagated to '{}'", p, source->filename, dest->filename);
dest->price_base_multipliers[p] = source->price_base_multipliers[p];
}
}
/* The 'master grf' now have the correct multipliers. Assign them to the 'addon grfs' to make everything consistent. */
for (int i = 0; i < num_grfs; i++) {
if (grf_overrides[i] < 0) continue;
GRFFile *source = _grf_files[i];
GRFFile *dest = _grf_files[grf_overrides[i]];
uint32 features = (source->grf_features | dest->grf_features) & override_features;
source->grf_features |= features;
dest->grf_features |= features;
for (Price p = PR_BEGIN; p < PR_END; p++) {
if (!HasBit(features, _price_base_specs[p].grf_feature)) continue;
if (source->price_base_multipliers[p] != dest->price_base_multipliers[p]) {
Debug(grf, 3, "Price base multiplier {} from '{}' propagated to '{}'", p, dest->filename, source->filename);
}
source->price_base_multipliers[p] = dest->price_base_multipliers[p];
}
}
/* Apply fallback prices for grf version < 8 */
for (GRFFile * const file : _grf_files) {
if (file->grf_version >= 8) continue;
PriceMultipliers &price_base_multipliers = file->price_base_multipliers;
for (Price p = PR_BEGIN; p < PR_END; p++) {
Price fallback_price = _price_base_specs[p].fallback_price;
if (fallback_price != INVALID_PRICE && price_base_multipliers[p] == INVALID_PRICE_MODIFIER) {
/* No price multiplier has been set.
* So copy the multiplier from the fallback price, maybe a multiplier was set there. */
price_base_multipliers[p] = price_base_multipliers[fallback_price];
}
}
}
/* Decide local/global scope of price base multipliers */
for (GRFFile * const file : _grf_files) {
PriceMultipliers &price_base_multipliers = file->price_base_multipliers;
for (Price p = PR_BEGIN; p < PR_END; p++) {
if (price_base_multipliers[p] == INVALID_PRICE_MODIFIER) {
/* No multiplier was set; set it to a neutral value */
price_base_multipliers[p] = 0;
} else {
if (!HasBit(file->grf_features, _price_base_specs[p].grf_feature)) {
/* The grf does not define any objects of the feature,
* so it must be a difficulty setting. Apply it globally */
Debug(grf, 3, "'{}' sets global price base multiplier {}", file->filename, p);
SetPriceBaseMultiplier(p, price_base_multipliers[p]);
price_base_multipliers[p] = 0;
} else {
Debug(grf, 3, "'{}' sets local price base multiplier {}", file->filename, p);
}
}
}
}
}
extern void InitGRFTownGeneratorNames();
/** Finish loading NewGRFs and execute needed post-processing */
static void AfterLoadGRFs()
{
for (StringIDMapping &it : _string_to_grf_mapping) {
*it.target = MapGRFStringID(it.grfid, it.source);
}
_string_to_grf_mapping.clear();
/* Free the action 6 override sprites. */
for (GRFLineToSpriteOverride::iterator it = _grf_line_to_action6_sprite_override.begin(); it != _grf_line_to_action6_sprite_override.end(); it++) {
free((*it).second);
}
_grf_line_to_action6_sprite_override.clear();
/* Polish cargoes */
FinaliseCargoArray();
/* Pre-calculate all refit masks after loading GRF files. */
CalculateRefitMasks();
/* Polish engines */
FinaliseEngineArray();
/* Set the actually used Canal properties */
FinaliseCanals();
/* Add all new houses to the house array. */
FinaliseHouseArray();
/* Add all new industries to the industry array. */
FinaliseIndustriesArray();
/* Add all new objects to the object array. */
FinaliseObjectsArray();
InitializeSortedCargoSpecs();
/* Sort the list of industry types. */
SortIndustryTypes();
/* Create dynamic list of industry legends for smallmap_gui.cpp */
BuildIndustriesLegend();
/* Build the routemap legend, based on the available cargos */
BuildLinkStatsLegend();
/* Add all new airports to the airports array. */
FinaliseAirportsArray();
BindAirportSpecs();
/* Update the townname generators list */
InitGRFTownGeneratorNames();
/* Run all queued vehicle list order changes */
CommitVehicleListOrderChanges();
/* Load old shore sprites in new position, if they were replaced by ActionA */
ActivateOldShore();
/* Load old tram depot sprites in new position, if no new ones are present */
ActivateOldTramDepot();
/* Set up custom rail types */
InitRailTypes();
InitRoadTypes();
for (Engine *e : Engine::IterateType(VEH_ROAD)) {
if (_gted[e->index].rv_max_speed != 0) {
/* Set RV maximum speed from the mph/0.8 unit value */
e->u.road.max_speed = _gted[e->index].rv_max_speed * 4;
}
RoadTramType rtt = HasBit(e->info.misc_flags, EF_ROAD_TRAM) ? RTT_TRAM : RTT_ROAD;
const GRFFile *file = e->GetGRF();
if (file == nullptr || _gted[e->index].roadtramtype == 0) {
e->u.road.roadtype = (rtt == RTT_TRAM) ? ROADTYPE_TRAM : ROADTYPE_ROAD;
continue;
}
/* Remove +1 offset. */
_gted[e->index].roadtramtype--;
const std::vector *list = (rtt == RTT_TRAM) ? &file->tramtype_list : &file->roadtype_list;
if (_gted[e->index].roadtramtype < list->size())
{
RoadTypeLabel rtl = (*list)[_gted[e->index].roadtramtype];
RoadType rt = GetRoadTypeByLabel(rtl);
if (rt != INVALID_ROADTYPE && GetRoadTramType(rt) == rtt) {
e->u.road.roadtype = rt;
continue;
}
}
/* Road type is not available, so disable this engine */
e->info.climates = 0;
}
for (Engine *e : Engine::IterateType(VEH_TRAIN)) {
RailType railtype = GetRailTypeByLabel(_gted[e->index].railtypelabel);
if (railtype == INVALID_RAILTYPE) {
/* Rail type is not available, so disable this engine */
e->info.climates = 0;
} else {
e->u.rail.railtype = railtype;
}
}
SetYearEngineAgingStops();
FinalisePriceBaseMultipliers();
/* Deallocate temporary loading data */
free(_gted);
_grm_sprites.clear();
}
/**
* Load all the NewGRFs.
* @param load_index The offset for the first sprite to add.
* @param num_baseset Number of NewGRFs at the front of the list to look up in the baseset dir instead of the newgrf dir.
*/
void LoadNewGRF(uint load_index, uint num_baseset)
{
/* In case of networking we need to "sync" the start values
* so all NewGRFs are loaded equally. For this we use the
* start date of the game and we set the counters, etc. to
* 0 so they're the same too. */
Date date = _date;
Year year = _cur_year;
DateFract date_fract = _date_fract;
uint16 tick_counter = _tick_counter;
byte display_opt = _display_opt;
if (_networking) {
_cur_year = _settings_game.game_creation.starting_year;
_date = ConvertYMDToDate(_cur_year, 0, 1);
_date_fract = 0;
_tick_counter = 0;
_display_opt = 0;
}
InitializeGRFSpecial();
ResetNewGRFData();
/*
* Reset the status of all files, so we can 'retry' to load them.
* This is needed when one for example rearranges the NewGRFs in-game
* and a previously disabled NewGRF becomes usable. If it would not
* be reset, the NewGRF would remain disabled even though it should
* have been enabled.
*/
for (GRFConfig *c = _grfconfig; c != nullptr; c = c->next) {
if (c->status != GCS_NOT_FOUND) c->status = GCS_UNKNOWN;
}
_cur.spriteid = load_index;
/* Load newgrf sprites
* in each loading stage, (try to) open each file specified in the config
* and load information from it. */
for (GrfLoadingStage stage = GLS_LABELSCAN; stage <= GLS_ACTIVATION; stage++) {
/* Set activated grfs back to will-be-activated between reservation- and activation-stage.
* This ensures that action7/9 conditions 0x06 - 0x0A work correctly. */
for (GRFConfig *c = _grfconfig; c != nullptr; c = c->next) {
if (c->status == GCS_ACTIVATED) c->status = GCS_INITIALISED;
}
if (stage == GLS_RESERVE) {
static const uint32 overrides[][2] = {
{ 0x44442202, 0x44440111 }, // UKRS addons modifies UKRS
{ 0x6D620402, 0x6D620401 }, // DBSetXL ECS extension modifies DBSetXL
{ 0x4D656f20, 0x4D656F17 }, // LV4cut modifies LV4
};
for (size_t i = 0; i < lengthof(overrides); i++) {
SetNewGRFOverride(BSWAP32(overrides[i][0]), BSWAP32(overrides[i][1]));
}
}
uint num_grfs = 0;
uint num_non_static = 0;
_cur.stage = stage;
for (GRFConfig *c = _grfconfig; c != nullptr; c = c->next) {
if (c->status == GCS_DISABLED || c->status == GCS_NOT_FOUND) continue;
if (stage > GLS_INIT && HasBit(c->flags, GCF_INIT_ONLY)) continue;
Subdirectory subdir = num_grfs < num_baseset ? BASESET_DIR : NEWGRF_DIR;
if (!FioCheckFileExists(c->filename, subdir)) {
Debug(grf, 0, "NewGRF file is missing '{}'; disabling", c->filename);
c->status = GCS_NOT_FOUND;
continue;
}
if (stage == GLS_LABELSCAN) InitNewGRFFile(c);
if (!HasBit(c->flags, GCF_STATIC) && !HasBit(c->flags, GCF_SYSTEM)) {
if (num_non_static == NETWORK_MAX_GRF_COUNT) {
Debug(grf, 0, "'{}' is not loaded as the maximum number of non-static GRFs has been reached", c->filename);
c->status = GCS_DISABLED;
c->error = new GRFError(STR_NEWGRF_ERROR_MSG_FATAL, STR_NEWGRF_ERROR_TOO_MANY_NEWGRFS_LOADED);
continue;
}
num_non_static++;
}
num_grfs++;
LoadNewGRFFile(c, stage, subdir, false);
if (stage == GLS_RESERVE) {
SetBit(c->flags, GCF_RESERVED);
} else if (stage == GLS_ACTIVATION) {
ClrBit(c->flags, GCF_RESERVED);
assert(GetFileByGRFID(c->ident.grfid) == _cur.grffile);
ClearTemporaryNewGRFData(_cur.grffile);
BuildCargoTranslationMap();
Debug(sprite, 2, "LoadNewGRF: Currently {} sprites are loaded", _cur.spriteid);
} else if (stage == GLS_INIT && HasBit(c->flags, GCF_INIT_ONLY)) {
/* We're not going to activate this, so free whatever data we allocated */
ClearTemporaryNewGRFData(_cur.grffile);
}
}
}
/* Pseudo sprite processing is finished; free temporary stuff */
_cur.ClearDataForNextFile();
/* Call any functions that should be run after GRFs have been loaded. */
AfterLoadGRFs();
/* Now revert back to the original situation */
_cur_year = year;
_date = date;
_date_fract = date_fract;
_tick_counter = tick_counter;
_display_opt = display_opt;
}