void CMapInfo::ReadTerrainTypes()
{
const LuaTable terrTypeTable =
mapRoot->SubTable("terrainTypes");
for (int tt = 0; tt < 256; tt++) {
TerrainType& terrType = terrainTypes[tt];
const LuaTable terrain = terrTypeTable.SubTable(tt);
terrType.name = terrain.GetString("name", "Default");
terrType.hardness = terrain.GetFloat("hardness", 1.0f);
terrType.receiveTracks = terrain.GetBool("receiveTracks", true);
const LuaTable moveTable = terrain.SubTable("moveSpeeds");
terrType.tankSpeed = moveTable.GetFloat("tank", 1.0f);
terrType.kbotSpeed = moveTable.GetFloat("kbot", 1.0f);
terrType.hoverSpeed = moveTable.GetFloat("hover", 1.0f);
terrType.shipSpeed = moveTable.GetFloat("ship", 1.0f);
// clamps
terrType.hardness = max(0.0f, terrType.hardness);
terrType.tankSpeed = max(0.0f, terrType.tankSpeed);
terrType.kbotSpeed = max(0.0f, terrType.kbotSpeed);
terrType.hoverSpeed = max(0.0f, terrType.hoverSpeed);
terrType.shipSpeed = max(0.0f, terrType.shipSpeed);
}
}
void CArchiveScanner::ReadCacheData(const std::string& filename)
{
if (!FileSystem::FileExists(filename)) {
LOG_L(L_INFO, "Archive cache doesn't exist: %s", filename.c_str());
return;
}
LuaParser p(filename, SPRING_VFS_RAW, SPRING_VFS_BASE);
if (!p.Execute()) {
LOG_L(L_ERROR, "Failed to parse archive cache: %s", p.GetErrorLog().c_str());
return;
}
const LuaTable archiveCache = p.GetRoot();
// Do not load old version caches
const int ver = archiveCache.GetInt("internalVer", (INTERNAL_VER + 1));
if (ver != INTERNAL_VER) {
return;
}
const LuaTable archives = archiveCache.SubTable("archives");
for (int i = 1; archives.KeyExists(i); ++i) {
const LuaTable curArchive = archives.SubTable(i);
const LuaTable archived = curArchive.SubTable("archivedata");
std::string name = curArchive.GetString("name", "");
ArchiveInfo& ai = archiveInfos[StringToLower(name)];
ai.origName = name;
ai.path = curArchive.GetString("path", "");
// do not use LuaTable.GetInt() for 32-bit integers, the Spring lua
// library uses 32-bit floats to represent numbers, which can only
// represent 2^24 consecutive integers
ai.modified = strtoul(curArchive.GetString("modified", "0").c_str(), 0, 10);
ai.checksum = strtoul(curArchive.GetString("checksum", "0").c_str(), 0, 10);
ai.updated = false;
ai.archiveData = CArchiveScanner::ArchiveData(archived, true);
if (ai.archiveData.GetModType() == modtype::map) {
AddDependency(ai.archiveData.GetDependencies(), "Map Helper v1");
} else if (ai.archiveData.GetModType() == modtype::primary) {
AddDependency(ai.archiveData.GetDependencies(), "Spring content v1");
}
}
const LuaTable brokenArchives = archiveCache.SubTable("brokenArchives");
for (int i = 1; brokenArchives.KeyExists(i); ++i) {
const LuaTable curArchive = brokenArchives.SubTable(i);
std::string name = curArchive.GetString("name", "");
StringToLowerInPlace(name);
BrokenArchive& ba = this->brokenArchives[name];
ba.path = curArchive.GetString("path", "");
ba.modified = strtoul(curArchive.GetString("modified", "0").c_str(), 0, 10);
ba.updated = false;
ba.problem = curArchive.GetString("problem", "unknown");
}
isDirty = false;
}
void CUnitDefHandler::LoadSounds(const LuaTable& soundsTable, GuiSoundSet& gsound, const string& soundName)
{
string fileName = soundsTable.GetString(soundName, "");
if (!fileName.empty()) {
LoadSound(gsound, fileName, 1.0f);
return;
}
LuaTable sndTable = soundsTable.SubTable(soundName);
for (int i = 1; true; i++) {
LuaTable sndFileTable = sndTable.SubTable(i);
if (sndFileTable.IsValid()) {
fileName = sndFileTable.GetString("file", "");
if (!fileName.empty()) {
const float volume = sndFileTable.GetFloat("volume", 1.0f);
if (volume > 0.0f) {
LoadSound(gsound, fileName, volume);
}
}
} else {
fileName = sndTable.GetString(i, "");
if (fileName.empty()) {
break;
}
LoadSound(gsound, fileName, 1.0f);
}
}
}
bool CSound::LoadSoundDefs(const std::string& filename)
{
//! can be called from LuaUnsyncedCtrl too
boost::mutex::scoped_lock lck(soundMutex);
LuaParser parser(filename, SPRING_VFS_MOD, SPRING_VFS_ZIP);
parser.SetLowerKeys(false);
parser.SetLowerCppKeys(false);
parser.Execute();
if (!parser.IsValid())
{
LogObject(LOG_SOUND) << "Could not load " << filename << ": " << parser.GetErrorLog();
return false;
}
else
{
const LuaTable soundRoot = parser.GetRoot();
const LuaTable soundItemTable = soundRoot.SubTable("SoundItems");
if (!soundItemTable.IsValid())
{
LogObject(LOG_SOUND) << "CSound(): could not parse SoundItems table in " << filename;
return false;
}
else
{
std::vector<std::string> keys;
soundItemTable.GetKeys(keys);
for (std::vector<std::string>::const_iterator it = keys.begin(); it != keys.end(); ++it)
{
const std::string name(*it);
soundItemDef bufmap;
const LuaTable buf(soundItemTable.SubTable(*it));
buf.GetMap(bufmap);
bufmap["name"] = name;
soundItemDefMap::const_iterator sit = soundItemDefs.find(name);
if (sit != soundItemDefs.end())
LogObject(LOG_SOUND) << "CSound(): two SoundItems have the same name: " << name;
soundItemDef::const_iterator inspec = bufmap.find("file");
if (inspec == bufmap.end()) // no file, drop
LogObject(LOG_SOUND) << "CSound(): SoundItem has no file tag: " << name;
else
soundItemDefs[name] = bufmap;
if (buf.KeyExists("preload"))
{
LogObject(LOG_SOUND) << "CSound(): preloading " << name;
const size_t newid = sounds.size();
sounds.push_back(new SoundItem(GetWaveBuffer(bufmap["file"], true), bufmap));
soundMap[name] = newid;
}
}
LogObject(LOG_SOUND) << "CSound(): Sucessfully parsed " << keys.size() << " SoundItems from " << filename;
}
}
return true;
}
bool CSound::LoadSoundDefs(const std::string& fileName)
{
//! can be called from LuaUnsyncedCtrl too
boost::recursive_mutex::scoped_lock lck(soundMutex);
LuaParser parser(fileName, SPRING_VFS_MOD, SPRING_VFS_ZIP);
parser.SetLowerKeys(false);
parser.SetLowerCppKeys(false);
parser.Execute();
if (!parser.IsValid())
{
LOG_L(L_WARNING, "Could not load %s: %s",
fileName.c_str(), parser.GetErrorLog().c_str());
return false;
}
else
{
const LuaTable soundRoot = parser.GetRoot();
const LuaTable soundItemTable = soundRoot.SubTable("SoundItems");
if (!soundItemTable.IsValid())
{
LOG_L(L_WARNING, "CSound(): could not parse SoundItems table in %s", fileName.c_str());
return false;
}
else
{
std::vector<std::string> keys;
soundItemTable.GetKeys(keys);
for (std::vector<std::string>::const_iterator it = keys.begin(); it != keys.end(); ++it)
{
const std::string name(*it);
soundItemDef bufmap;
const LuaTable buf(soundItemTable.SubTable(*it));
buf.GetMap(bufmap);
bufmap["name"] = name;
soundItemDefMap::const_iterator sit = soundItemDefs.find(name);
if (sit != soundItemDefs.end())
LOG_L(L_WARNING, "Sound %s gets overwritten by %s", name.c_str(), fileName.c_str());
soundItemDef::const_iterator inspec = bufmap.find("file");
if (inspec == bufmap.end()) { // no file, drop
LOG_L(L_WARNING, "Sound %s is missing file tag (ignoring)", name.c_str());
} else {
soundItemDefs[name] = bufmap;
}
if (buf.KeyExists("preload")) {
MakeItemFromDef(bufmap);
}
}
LOG(" parsed %i sounds from %s", (int)keys.size(), fileName.c_str());
}
}
return true;
}
void CMapInfo::ReadStartPos()
{
const float defX = 1000.0f;
const float defZ = 1000.0f;
const float defXStep = 100.0f;
const float defZStep = 100.0f;
const LuaTable teamsTable = mapRoot->SubTable("teams");
for (int t = 0; t < MAX_TEAMS; ++t) {
float3 pos;
pos.x = defX + (defXStep * t);
pos.z = defZ + (defZStep * t);
pos.y = 0.0f;
const LuaTable posTable = teamsTable.SubTable(t).SubTable("startPos");
if (posTable.KeyExists("x") &&
posTable.KeyExists("z")) {
pos.x = posTable.GetFloat("x", pos.x);
pos.z = posTable.GetFloat("z", pos.z);
havePos.push_back(true);
} else {
havePos.push_back(false);
}
startPos.push_back(pos);
}
}
CDamageArrayHandler::CDamageArrayHandler(LuaParser* defsParser)
{
#define DEFAULT_ARMORDEF_NAME "default"
try {
const LuaTable rootTable = defsParser->GetRoot().SubTable("ArmorDefs");
if (!rootTable.IsValid())
throw content_error("Error loading ArmorDefs");
// GetKeys() sorts the keys, so can not simply push_back before call
rootTable.GetKeys(armorDefKeys);
armorDefKeys.insert(armorDefKeys.begin(), DEFAULT_ARMORDEF_NAME);
armorDefNameIdxMap[DEFAULT_ARMORDEF_NAME] = 0;
LOG("[%s] number of ArmorDefs: " _STPF_, __FUNCTION__, armorDefKeys.size());
// expects the following structure, subtables must be in array-format:
//
// {"tanks" = {[1] = "supertank", [2] = "megatank"}, "infantry" = {[1] = "dude"}, ...}
//
// the old (pre-95.0) <key, value> subtable definitions are no longer supported!
//
for (unsigned int armorDefIdx = 1; armorDefIdx < armorDefKeys.size(); armorDefIdx++) {
const std::string armorDefName = StringToLower(armorDefKeys[armorDefIdx]);
if (armorDefName == DEFAULT_ARMORDEF_NAME) {
// ignore, no need to clear entire table
LOG_L(L_WARNING, "[%s] ArmorDefs: tried to define the \"%s\" armor type!", __FUNCTION__, DEFAULT_ARMORDEF_NAME);
continue;
}
armorDefNameIdxMap[armorDefName] = armorDefIdx;
const LuaTable armorDefTable = rootTable.SubTable(armorDefKeys[armorDefIdx]);
const unsigned int numArmorDefEntries = armorDefTable.GetLength();
for (unsigned int armorDefEntryIdx = 0; armorDefEntryIdx < numArmorDefEntries; armorDefEntryIdx++) {
const std::string& unitDefName = StringToLower(armorDefTable.GetString(armorDefEntryIdx + 1, ""));
const auto armorDefTableIt = armorDefNameIdxMap.find(unitDefName);
if (armorDefTableIt == armorDefNameIdxMap.end()) {
armorDefNameIdxMap[unitDefName] = armorDefIdx;
continue;
}
LOG_L(L_WARNING,
"[%s] UnitDef \"%s\" in ArmorDef \"%s\" already belongs to ArmorDef category %d!",
__FUNCTION__, unitDefName.c_str(), armorDefName.c_str(), armorDefTableIt->second);
}
}
} catch (const content_error&) {
armorDefNameIdxMap.clear();
armorDefNameIdxMap[DEFAULT_ARMORDEF_NAME] = 0;
armorDefKeys.clear();
armorDefKeys.push_back(DEFAULT_ARMORDEF_NAME);
}
}
CFeatureHandler::CFeatureHandler() : nextFreeID(0)
{
PrintLoadMsg("Loading feature definitions");
drawQuadsX = gs->mapx/DRAW_QUAD_SIZE;
drawQuadsY = gs->mapy/DRAW_QUAD_SIZE;
drawQuads.resize(drawQuadsX * drawQuadsY);
treeDrawer = CBaseTreeDrawer::GetTreeDrawer();
const LuaTable rootTable = game->defsParser->GetRoot().SubTable("FeatureDefs");
if (!rootTable.IsValid()) {
throw content_error("Error loading FeatureDefs");
}
//! featureDefIDs start with 1
featureDefsVector.push_back(NULL);
//! get most of the feature defs (missing trees and geovent from the map)
vector<string> keys;
rootTable.GetKeys(keys);
for (int i = 0; i < (int)keys.size(); i++) {
const string& name = keys[i];
const LuaTable fdTable = rootTable.SubTable(name);
CreateFeatureDef(fdTable, name);
}
}
CWeaponDefHandler::CWeaponDefHandler()
{
PrintLoadMsg("Loading weapon definitions");
const LuaTable rootTable = game->defsParser->GetRoot().SubTable("WeaponDefs");
if (!rootTable.IsValid()) {
throw content_error("Error loading WeaponDefs");
}
vector<string> weaponNames;
rootTable.GetKeys(weaponNames);
numWeaponDefs = weaponNames.size(); // FIXME: starting at 0, don't need the +1 ?
weaponDefs = SAFE_NEW WeaponDef[numWeaponDefs + 1];
for (int wid = 0; wid < (int)weaponNames.size(); wid++) {
WeaponDef& wd = weaponDefs[wid];
wd.id = wid;
wd.name = weaponNames[wid];
weaponID[wd.name] = wid;
const LuaTable wdTable = rootTable.SubTable(wd.name);
ParseTAWeapon(wdTable, wd);
}
}
CWeaponDefHandler::CWeaponDefHandler()
{
PrintLoadMsg("Loading weapon definitions");
const LuaTable rootTable = game->defsParser->GetRoot().SubTable("WeaponDefs");
if (!rootTable.IsValid()) {
throw content_error("Error loading WeaponDefs");
}
vector<string> weaponNames;
rootTable.GetKeys(weaponNames);
numWeaponDefs = weaponNames.size();
weaponDefs = new WeaponDef[numWeaponDefs];
for (int wid = 0; wid < numWeaponDefs; wid++) {
WeaponDef& wd = weaponDefs[wid];
wd.id = wid;
wd.name = weaponNames[wid];
weaponID[wd.name] = wid;
const LuaTable wdTable = rootTable.SubTable(wd.name);
ParseWeapon(wdTable, wd);
}
}
CUnitDefHandler::CUnitDefHandler(void) : noCost(false)
{
const LuaTable rootTable = game->defsParser->GetRoot().SubTable("UnitDefs");
if (!rootTable.IsValid()) {
throw content_error("Error loading UnitDefs");
}
vector<string> unitDefNames;
rootTable.GetKeys(unitDefNames);
unitDefs.reserve(unitDefNames.size() + 1);
UnitDef* nullDef = new UnitDef();
unitDefs.push_back(nullDef);
for (unsigned int a = 0; a < unitDefNames.size(); ++a) {
const string unitName = unitDefNames[a];
LuaTable udTable = rootTable.SubTable(unitName);
// parse the unitdef data (but don't load buildpics, etc...)
PushNewUnitDef(unitName, udTable);
}
CleanBuildOptions();
FindStartUnits();
ProcessDecoys();
AssignTechLevels();
}
void CArchiveScanner::ReadCacheData(const string& filename)
{
LuaParser p(filename, SPRING_VFS_RAW, SPRING_VFS_BASE);
if (!p.Execute()) {
logOutput.Print("ERROR in " + filename + ": " + p.GetErrorLog());
}
const LuaTable archiveCache = p.GetRoot();
const LuaTable archives = archiveCache.SubTable("archives");
// Do not load old version caches
const int ver = archiveCache.GetInt("internalVer", (INTERNAL_VER + 1));
if (ver != INTERNAL_VER) {
return;
}
for (int i = 1; archives.KeyExists(i); ++i) {
const LuaTable curArchive = archives.SubTable(i);
const LuaTable archived = curArchive.SubTable("archivedata");
ArchiveInfo ai;
ai.origName = curArchive.GetString("name", "");
ai.path = curArchive.GetString("path", "");
// do not use LuaTable.GetInt() for 32-bit integers, the Spring lua
// library uses 32-bit floats to represent numbers, which can only
// represent 2^24 consecutive integers
ai.modified = strtoul(curArchive.GetString("modified", "0").c_str(), 0, 10);
ai.checksum = strtoul(curArchive.GetString("checksum", "0").c_str(), 0, 10);
ai.updated = false;
ai.archiveData = GetArchiveData(archived);
if (ai.archiveData.modType == modtype::map)
AddDependency(ai.archiveData.dependencies, "maphelper.sdz");
else if (ai.archiveData.modType == modtype::primary)
AddDependency(ai.archiveData.dependencies, "Spring content v1");
string lcname = StringToLower(ai.origName);
archiveInfo[lcname] = ai;
}
isDirty = false;
}
CArchiveScanner::ArchiveData CArchiveScanner::GetArchiveData(const LuaTable& archiveTable)
{
ArchiveData md;
if (!archiveTable.IsValid()) {
return md;
}
md.name = archiveTable.GetString("name", "");
md.shortName = archiveTable.GetString("shortName", "");
md.version = archiveTable.GetString("version", "");
md.mutator = archiveTable.GetString("mutator", "");
md.game = archiveTable.GetString("game", "");
md.shortGame = archiveTable.GetString("shortGame", "");
md.description = archiveTable.GetString("description", "");
md.modType = archiveTable.GetInt("modType", 0);
md.mapfile = archiveTable.GetString("mapfile", "");
const LuaTable dependencies = archiveTable.SubTable("depend");
for (int dep = 1; dependencies.KeyExists(dep); ++dep) {
const std::string depend = dependencies.GetString(dep, "");
md.dependencies.push_back(depend);
}
const LuaTable replaces = archiveTable.SubTable("replace");
for (int rep = 1; replaces.KeyExists(rep); ++rep) {
md.replaces.push_back(replaces.GetString(rep, ""));
}
// HACK needed until lobbies, lobbyserver and unitsync are sorted out
// so they can uniquely identify different versions of the same mod.
// (at time of this writing they use name only)
// NOTE when changing this, this function is used both by the code that
// reads ArchiveCache.lua and the code that reads modinfo.lua from the mod.
// so make sure it doesn't keep adding stuff to the name everytime
// Spring/unitsync is loaded.
if (md.name.find(md.version) == std::string::npos && !md.version.empty()) {
md.name += " " + md.version;
}
return md;
}
void CSyncer::LoadUnits(bool checksum)
{
unitsLeft = 0;
LuaParser luaParser("gamedata/defs.lua",
SPRING_VFS_MOD_BASE, SPRING_VFS_ZIP);
if (!luaParser.Execute()) {
logOutput.Print("luaParser.Execute() failed");
return;
}
LuaTable rootTable = luaParser.GetRoot().SubTable("UnitDefs");
if (!rootTable.IsValid()) {
logOutput.Print("root unitdef table invalid");
return;
}
vector<string> unitDefNames;
rootTable.GetKeys(unitDefNames);
const int count = (int)unitDefNames.size();
for (int i = 0; i < count; ++i) {
const string& udName = unitDefNames[i];
LuaTable udTable = rootTable.SubTable(udName);
Unit u;
u.fullName = udTable.GetString("name", udName);
if (checksum) {
const string fileName = udTable.GetString("filename", "");
const string deadName = udTable.GetString("corpse", udName + "_dead");
const string modelName = udTable.GetString("objectname", udName);
u.fbi = CalculateCRC(fileName);
u.cob = CalculateCRC("scripts/" + udName + ".cob");
u.model = CalculateCRC("objects3d/" + modelName); // s3o ?
u.model += CalculateCRC("objects3d/" + modelName + ".3do");
u.model += CalculateCRC("objects3d/" + deadName + ".3do");
}
units[udName] = u;
}
// map the unitIds
map<string, Unit>::iterator mit;
for (mit = units.begin(); mit != units.end(); ++mit) {
unitIds.push_back(mit->first);
}
unitsLeft = count;
return;
}
bool SideParser::Load()
{
dataVec.clear();
errorLog.clear();
LuaParser parser("gamedata/sidedata.lua",
SPRING_VFS_MOD_BASE, SPRING_VFS_MOD_BASE);
#if !defined UNITSYNC && !defined DEDICATED
// this should not be included with unitsync:
// 1. avoids linkage with LuaSyncedRead
// 2. ModOptions are not valid during unitsync mod parsing
parser.GetTable("Spring");
parser.AddFunc("GetModOptions", LuaSyncedRead::GetModOptions);
parser.EndTable();
#endif
if (!parser.Execute()) {
errorLog = parser.GetErrorLog();
return false;
}
set<string> sideSet;
const LuaTable root = parser.GetRoot();
for (int i = 1; /* no-op */; i++) {
const LuaTable sideTable = root.SubTable(i);
if (!sideTable.IsValid()) {
break;
}
Data data;
data.caseName = sideTable.GetString("name", "");
data.sideName = StringToLower(data.caseName);
data.startUnit = sideTable.GetString("startUnit", "");
data.startUnit = StringToLower(data.startUnit);
if (data.sideName.empty()) {
logOutput.Print("Missing side name: %i", i);
}
else if (data.startUnit.empty()) {
logOutput.Print("Missing side start unit: " + data.sideName);
}
else {
if (sideSet.find(data.sideName) != sideSet.end()) {
logOutput.Print("Duplicate side name: " + data.sideName);
}
else {
sideSet.insert(data.sideName);
dataVec.push_back(data);
}
}
}
return true;
}
CExplosionGeneratorHandler::CExplosionGeneratorHandler()
: luaParser("gamedata/explosions.lua",
SPRING_VFS_MOD_BASE, SPRING_VFS_ZIP)
{
LuaParser aliasParser("gamedata/explosion_alias.lua",
SPRING_VFS_MOD_BASE, SPRING_VFS_ZIP);
if (!aliasParser.Execute()) {
logOutput.Print(aliasParser.GetErrorLog());
} else {
const LuaTable root = aliasParser.GetRoot();
projectileClasses.Load(root.SubTable("projectiles"));
generatorClasses.Load(root.SubTable("generators"));
}
if (!luaParser.Execute()) {
logOutput.Print(luaParser.GetErrorLog());
} else {
luaTable = luaParser.GetRoot();
}
}
void CUnitDefHandler::UnitDefLoadSounds(UnitDef* ud, const LuaTable& udTable)
{
LuaTable soundsTable = udTable.SubTable("sounds");
LoadSounds(soundsTable, ud->sounds.ok, "ok"); // eg. "ok1", "ok2", ...
LoadSounds(soundsTable, ud->sounds.select, "select"); // eg. "select1", "select2", ...
LoadSounds(soundsTable, ud->sounds.arrived, "arrived"); // eg. "arrived1", "arrived2", ...
LoadSounds(soundsTable, ud->sounds.build, "build");
LoadSounds(soundsTable, ud->sounds.activate, "activate");
LoadSounds(soundsTable, ud->sounds.deactivate, "deactivate");
LoadSounds(soundsTable, ud->sounds.cant, "cant");
LoadSounds(soundsTable, ud->sounds.underattack, "underattack");
}
void CProjectileDrawer::ParseAtlasTextures(
const bool blockTextures,
const LuaTable& textureTable,
std::set<std::string>& blockedTextures,
CTextureAtlas* textureAtlas)
{
std::vector<std::string> subTables;
std::map<std::string, std::string> texturesMap;
std::map<std::string, std::string>::iterator texturesMapIt;
textureTable.GetMap(texturesMap);
textureTable.GetKeys(subTables);
for (texturesMapIt = texturesMap.begin(); texturesMapIt != texturesMap.end(); ++texturesMapIt) {
const std::string textureName = StringToLower(texturesMapIt->first);
if (blockTextures) {
// no textures added to this atlas are allowed
// to be overwritten later by other textures of
// the same name
blockedTextures.insert(textureName);
}
if (blockTextures || (blockedTextures.find(textureName) == blockedTextures.end())) {
textureAtlas->AddTexFromFile(texturesMapIt->first, "bitmaps/" + texturesMapIt->second);
}
}
texturesMap.clear();
for (size_t i = 0; i < subTables.size(); i++) {
const LuaTable& textureSubTable = textureTable.SubTable(subTables[i]);
if (textureSubTable.IsValid()) {
textureSubTable.GetMap(texturesMap);
for (texturesMapIt = texturesMap.begin(); texturesMapIt != texturesMap.end(); ++texturesMapIt) {
const std::string textureName = StringToLower(texturesMapIt->first);
if (blockTextures) {
blockedTextures.insert(textureName);
}
if (blockTextures || (blockedTextures.find(textureName) == blockedTextures.end())) {
textureAtlas->AddTexFromFile(texturesMapIt->first, "bitmaps/" + texturesMapIt->second);
}
}
texturesMap.clear();
}
}
}
bool MapParser::GetStartPos(int team, float3& pos) const
{
if (!parser->IsValid()) {
return false;
}
const LuaTable teamsTable = parser->GetRoot().SubTable("teams");
const LuaTable posTable = teamsTable.SubTable(team).SubTable("startPos");
if (!posTable.IsValid()) {
return false;
}
pos.x = posTable.GetFloat("x", pos.x);
pos.z = posTable.GetFloat("z", pos.z);
return true;
}
void DefType::ReportUnknownTags(const std::string& instanceName, const LuaTable& luaTable, const std::string pre)
{
std::vector<std::string> keys;
luaTable.GetKeys(keys);
for (const std::string& tag: keys) {
const DefTagMetaData* meta = GetMetaDataByExternalKey(pre + tag);
if (meta != nullptr)
continue;
if (luaTable.GetType(tag) == LuaTable::TABLE) {
ReportUnknownTags(instanceName, luaTable.SubTable(tag), pre + tag + ".");
continue;
}
LOG_L(L_WARNING, "%s: Unknown tag \"%s%s\" in \"%s\"", name.c_str(), pre.c_str(), tag.c_str(), instanceName.c_str());
}
}
bool MapParser::GetStartPos(int team, float3& pos) const
{
errorLog.clear();
if (!parser->IsValid()) {
errorLog = "Map-Parser: Failed to get start position for team " + IntToString(team) + ", reason: " + parser->GetErrorLog();
return false;
}
const LuaTable teamsTable = parser->GetRoot().SubTable("teams");
const LuaTable posTable = teamsTable.SubTable(team).SubTable("startPos");
if (!posTable.IsValid()) {
errorLog = "Map-Parser: Failed to get start position for team " + IntToString(team) + ", reason: Not defined in the map's config!";
return false;
}
pos.x = posTable.GetFloat("x", pos.x);
pos.z = posTable.GetFloat("z", pos.z);
return true;
}
CFeatureHandler::CFeatureHandler()
{
const LuaTable rootTable = game->defsParser->GetRoot().SubTable("FeatureDefs");
if (!rootTable.IsValid()) {
throw content_error("Error loading FeatureDefs");
}
// featureDefIDs start with 1
featureDefsVector.push_back(NULL);
// get most of the feature defs (missing trees and geovent from the map)
vector<string> keys;
rootTable.GetKeys(keys);
for (int i = 0; i < (int)keys.size(); i++) {
const string& nameMixedCase = keys[i];
const string& nameLowerCase = StringToLower(nameMixedCase);
const LuaTable& fdTable = rootTable.SubTable(nameMixedCase);
AddFeatureDef(nameLowerCase, CreateFeatureDef(fdTable, nameLowerCase));
}
}
MoveDefHandler::MoveDefHandler(LuaParser* defsParser)
{
const LuaTable rootTable = defsParser->GetRoot().SubTable("MoveDefs");
if (!rootTable.IsValid())
throw content_error("Error loading movement definitions");
CRC crc;
for (int tt = 0; tt < CMapInfo::NUM_TERRAIN_TYPES; ++tt) {
const CMapInfo::TerrainType& terrType = mapInfo->terrainTypes[tt];
crc << terrType.tankSpeed << terrType.kbotSpeed;
crc << terrType.hoverSpeed << terrType.shipSpeed;
}
moveDefs.reserve(rootTable.GetLength());
for (size_t num = 1; /* no test */; num++) {
const LuaTable moveDefTable = rootTable.SubTable(num);
if (!moveDefTable.IsValid()) {
break;
}
moveDefs.emplace_back(moveDefTable, num);
const MoveDef& md = moveDefs.back();
moveDefNames[md.name] = md.pathType;
crc << md.GetCheckSum();
}
CMoveMath::noHoverWaterMove = (mapInfo->water.damage >= MAX_ALLOWED_WATER_DAMAGE_HMM);
CMoveMath::waterDamageCost = (mapInfo->water.damage >= MAX_ALLOWED_WATER_DAMAGE_GMM)?
0.0f: (1.0f / (1.0f + mapInfo->water.damage * 0.1f));
crc << CMoveMath::waterDamageCost;
crc << CMoveMath::noHoverWaterMove;
checksum = crc.GetDigest();
}
static bool info_parseInfoItem(const LuaTable& root, int index, InfoItem& inf,
std::set<string>& infoSet)
{
const LuaTable& infsTbl = root.SubTable(index);
if (!infsTbl.IsValid()) {
LOG_L(L_WARNING, "parseInfoItem: subtable %d invalid", index);
return false;
}
// common info properties
inf.key = infsTbl.GetString("key", "");
if (inf.key.empty()
|| (inf.key.find_first_of(InfoItem_badKeyChars) != string::npos)) {
LOG_L(L_WARNING,
"parseInfoItem: empty key or key contains bad characters");
return false;
}
std::string lowerKey = StringToLower(inf.key);
if (infoSet.find(inf.key) != infoSet.end()) {
LOG_L(L_WARNING, "parseInfoItem: key toLowerCase(%s) exists already",
inf.key.c_str());
return false;
}
// TODO add support for info value types other then string
inf.valueType = INFO_VALUE_TYPE_STRING;
inf.valueTypeString = infsTbl.GetString("value", "");
if (inf.valueTypeString.empty()) {
LOG_L(L_WARNING, "parseInfoItem: %s: empty value", inf.key.c_str());
return false;
}
inf.desc = infsTbl.GetString("desc", "");
infoSet.insert(lowerKey);
return true;
}
/** Load the messages from gamedata/messages.lua into memory. */
void CMessages::Load()
{
LuaParser luaParser("gamedata/messages.lua",
SPRING_VFS_MOD_BASE, SPRING_VFS_MOD_BASE);
if (!luaParser.Execute()) {
// Show parse errors in the infolog.
logOutput.Print(string("ERROR: messages.lua: ") + luaParser.GetErrorLog());
return;
}
const LuaTable root = luaParser.GetRoot();
vector<string> labels;
root.GetKeys(labels);
for (size_t l = 0; l < labels.size(); l++) {
const string label = StringToLower(labels[l]);
const LuaTable msgTable = root.SubTable(label);
if (!msgTable.IsValid()) {
continue;
}
vector<string> msgs;
for (int s = 1; true; s++) {
const string msg = msgTable.GetString(s, "");
if (msg.empty()) {
break;
}
msgs.push_back(msg);
}
if (!msgs.empty()) {
tr[label] = msgs;
}
}
loaded = true;
}
static void option_parseOption(const LuaTable& root, int index, Option& opt,
std::set<string>& optionsSet) {
const LuaTable& optTbl = root.SubTable(index);
if (!optTbl.IsValid()) {
throw content_error("parseOption: subtable " + IntToString(index) + " is invalid");
}
// common options properties
opt.key = optTbl.GetString("key", "");
if (opt.key.empty()
|| (opt.key.find_first_of(Option_badKeyChars) != string::npos)) {
throw content_error("parseOption: (key=\"" + opt.key + "\") empty key or key contains bad characters (\"" + Option_badKeyChars + "\")");
}
opt.key = StringToLower(opt.key);
opt.scope = optTbl.GetString("scope", "scope");
if (opt.scope.find_first_of(Option_badKeyChars) != string::npos) {
throw content_error("parseOption: (key=" + opt.key + ") scope contains bad characters (\"" + Option_badKeyChars + "\"): \"" + opt.scope + "\"");
}
opt.scope = StringToLower(opt.scope);
if (optionsSet.find(opt.key) != optionsSet.end()) {
throw content_error("parseOption: key \"" + opt.key + "\" exists already");
}
opt.name = optTbl.GetString("name", opt.key);
if (opt.name.empty()) {
throw content_error("parseOption: (key=" + opt.key + ") empty name");
}
opt.desc = optTbl.GetString("desc", opt.name);
opt.section = optTbl.GetString("section", "");
opt.style = optTbl.GetString("style", "");
opt.type = optTbl.GetString("type", "");
opt.type = StringToLower(opt.type);
// option type specific properties
if (opt.type == "bool") {
opt.typeCode = opt_bool;
opt.boolDef = optTbl.GetBool("def", false);
}
else if (opt.type == "number") {
opt.typeCode = opt_number;
opt.numberDef = optTbl.GetFloat("def", 0.0f);
opt.numberMin = optTbl.GetFloat("min", -1.0e30f);
opt.numberMax = optTbl.GetFloat("max", +1.0e30f);
opt.numberStep = optTbl.GetFloat("step", 0.0f);
}
else if (opt.type == "string") {
opt.typeCode = opt_string;
opt.stringDef = optTbl.GetString("def", "");
opt.stringMaxLen = optTbl.GetInt("maxlen", 0);
}
else if (opt.type == "list") {
opt.typeCode = opt_list;
const LuaTable& listTbl = optTbl.SubTable("items");
if (!listTbl.IsValid()) {
throw content_error("parseOption: (key=" + opt.key + ") subtables: items invalid");
}
for (int i = 1; listTbl.KeyExists(i); i++) {
OptionListItem item;
// string format
item.key = listTbl.GetString(i, "");
if (!item.key.empty() &&
(item.key.find_first_of(Option_badKeyChars) == string::npos)) {
item.name = item.key;
item.desc = item.name;
opt.list.push_back(item);
continue;
}
// table format (name & desc)
const LuaTable& itemTbl = listTbl.SubTable(i);
if (!itemTbl.IsValid()) {
throw content_error("parseOption: (key=" + opt.key + ") subtables: subtable " + IntToString(i) + " contains invalid items");
}
item.key = itemTbl.GetString("key", "");
if (item.key.empty() || (item.key.find_first_of(Option_badKeyChars) != string::npos)) {
throw content_error("parseOption: (key=" + opt.key + ") subtables: (key=\"" + item.key + "\") empty key or key contains bad characters (\"" + Option_badKeyChars + "\")");
}
item.key = StringToLower(item.key);
item.name = itemTbl.GetString("name", item.key);
if (item.name.empty()) {
throw content_error("parseOption: (key=" + opt.key + ") subtables: (key=" + item.key + ") empty name");
}
item.desc = itemTbl.GetString("desc", item.name);
opt.list.push_back(item);
}
if (opt.list.size() <= 0) {
throw content_error("parseOption: (key=" + opt.key + ") subtables: empty list");
}
opt.listDef = optTbl.GetString("def", opt.list[0].name);
}
else if (opt.type == "section") {
opt.typeCode = opt_section;
}
else {
throw content_error("parseOption: (key=" + opt.key + ") unknown type \"" + opt.type + "\"");
}
optionsSet.insert(opt.key);
}
void CCustomExplosionGenerator::Load(CExplosionGeneratorHandler* h, const string& tag)
{
static std::map<string, CEGData> cachedCEGs;
std::map<string, CEGData>::iterator it = cachedCEGs.find(tag);
if (it == cachedCEGs.end()) {
CEGData cegData;
const LuaTable& root = h->GetTable();
const LuaTable expTable = root.SubTable(tag);
if (!expTable.IsValid()) {
throw content_error("Explosion info for " + tag + " not found.");
}
vector<string> spawns;
expTable.GetKeys(spawns);
for (vector<string>::iterator si = spawns.begin(); si != spawns.end(); ++si) {
ProjectileSpawnInfo psi;
const string& spawnName = *si;
const LuaTable spawnTable = expTable.SubTable(spawnName);
if (!spawnTable.IsValid() || spawnName == "groundflash") {
continue;
}
const string className = spawnTable.GetString("class", spawnName);
unsigned int flags = 0;
if (spawnTable.GetBool("ground", false)) {
flags |= SPW_GROUND;
}
if (spawnTable.GetBool("water", false)) {
flags |= SPW_WATER;
}
if (spawnTable.GetBool("air", false)) {
flags |= SPW_AIR;
}
if (spawnTable.GetBool("underwater", false)) {
flags |= SPW_UNDERWATER;
}
if (spawnTable.GetBool("unit", false)) {
flags |= SPW_UNIT;
}
if (spawnTable.GetBool("nounit", false)) {
flags |= SPW_NO_UNIT;
}
psi.projectileClass = h->projectileClasses.GetClass(className);
psi.flags = flags;
psi.count = spawnTable.GetInt("count", 1);
string code;
map<string, string> props;
map<string, string>::const_iterator propIt;
spawnTable.SubTable("properties").GetMap(props);
for (propIt = props.begin(); propIt != props.end(); ++propIt) {
creg::Class::Member* m = psi.projectileClass->FindMember(propIt->first.c_str());
if (m && (m->flags & creg::CM_Config)) {
ParseExplosionCode(&psi, m->offset, m->type, propIt->second, code);
}
}
code += (char)OP_END;
psi.code.resize(code.size());
copy(code.begin(), code.end(), psi.code.begin());
cegData.projectileSpawn.push_back(psi);
}
const LuaTable gndTable = expTable.SubTable("groundflash");
const int ttl = gndTable.GetInt("ttl", 0);
if (ttl > 0) {
cegData.groundFlash.circleAlpha = gndTable.GetFloat("circleAlpha", 0.0f);
cegData.groundFlash.flashSize = gndTable.GetFloat("flashSize", 0.0f);
cegData.groundFlash.flashAlpha = gndTable.GetFloat("flashAlpha", 0.0f);
cegData.groundFlash.circleGrowth = gndTable.GetFloat("circleGrowth", 0.0f);
cegData.groundFlash.color = gndTable.GetFloat3("color", float3(1.0f, 1.0f, 0.8f));
unsigned int flags = SPW_GROUND;
if (gndTable.GetBool("ground", false)) {
flags |= SPW_GROUND;
}
if (gndTable.GetBool("water", false)) {
flags |= SPW_WATER;
}
if (gndTable.GetBool("air", false)) {
flags |= SPW_AIR;
}
if (gndTable.GetBool("underwater", false)) {
flags |= SPW_UNDERWATER;
}
if (gndTable.GetBool("unit", false)) {
flags |= SPW_UNIT;
}
if (gndTable.GetBool("nounit", false)) {
flags |= SPW_NO_UNIT;
}
cegData.groundFlash.flags = flags;
cegData.groundFlash.ttl = ttl;
}
cegData.useDefaultExplosions = expTable.GetBool("useDefaultExplosions", false);
cachedCEGs[tag] = cegData;
currentCEG = &cachedCEGs[tag];
} else {
currentCEG = &(it->second);
}
}
unsigned int CCustomExplosionGenerator::Load(CExplosionGeneratorHandler* h, const string& tag)
{
unsigned int explosionID = -1U;
if (tag.empty()) {
return explosionID;
}
const std::map<std::string, unsigned int>::const_iterator it = explosionIDs.find(tag);
if (it == explosionIDs.end()) {
CEGData cegData;
const LuaTable* root = h->GetExplosionTableRoot();
const LuaTable& expTable = (root != NULL)? root->SubTable(tag): LuaTable();
if (!expTable.IsValid()) {
// not a fatal error: any calls to ::Explosion will just return early
logOutput.Print("[CCEG::Load] WARNING: table for CEG \"" + tag + "\" invalid (parse errors?)");
return explosionID;
}
vector<string> spawns;
expTable.GetKeys(spawns);
for (vector<string>::iterator si = spawns.begin(); si != spawns.end(); ++si) {
ProjectileSpawnInfo psi;
const string& spawnName = *si;
const LuaTable spawnTable = expTable.SubTable(spawnName);
if (!spawnTable.IsValid() || spawnName == "groundflash") {
continue;
}
const string className = spawnTable.GetString("class", spawnName);
psi.projectileClass = h->projectileClasses.GetClass(className);
psi.flags = GetFlagsFromTable(spawnTable);
psi.count = spawnTable.GetInt("count", 1);
if (psi.projectileClass->binder->flags & creg::CF_Synced) {
psi.flags |= SPW_SYNCED;
}
string code;
map<string, string> props;
map<string, string>::const_iterator propIt;
spawnTable.SubTable("properties").GetMap(props);
for (propIt = props.begin(); propIt != props.end(); ++propIt) {
creg::Class::Member* m = psi.projectileClass->FindMember(propIt->first.c_str());
if (m && (m->flags & creg::CM_Config)) {
ParseExplosionCode(&psi, m->offset, m->type, propIt->second, code);
}
}
code += (char)OP_END;
psi.code.resize(code.size());
copy(code.begin(), code.end(), psi.code.begin());
cegData.projectileSpawn.push_back(psi);
}
const LuaTable gndTable = expTable.SubTable("groundflash");
const int ttl = gndTable.GetInt("ttl", 0);
if (ttl > 0) {
cegData.groundFlash.circleAlpha = gndTable.GetFloat("circleAlpha", 0.0f);
cegData.groundFlash.flashSize = gndTable.GetFloat("flashSize", 0.0f);
cegData.groundFlash.flashAlpha = gndTable.GetFloat("flashAlpha", 0.0f);
cegData.groundFlash.circleGrowth = gndTable.GetFloat("circleGrowth", 0.0f);
cegData.groundFlash.color = gndTable.GetFloat3("color", float3(1.0f, 1.0f, 0.8f));
cegData.groundFlash.flags = SPW_GROUND | GetFlagsFromTable(gndTable);
cegData.groundFlash.ttl = ttl;
}
cegData.useDefaultExplosions = expTable.GetBool("useDefaultExplosions", false);
explosionID = explosionData.size();
explosionData.push_back(cegData);
explosionIDs[tag] = explosionID;
} else {
explosionID = it->second;
}
return explosionID;
}
void CCustomExplosionGenerator::Load(CExplosionGeneratorHandler* h, const string& tag)
{
typedef std::map<string, CEGData> CEGMap;
typedef std::map<string, CEGData>::iterator CEGMapIt;
CEGMapIt it = cachedCEGs.find(tag);
if (it == cachedCEGs.end()) {
CEGData cegData;
const LuaTable& root = h->GetTable();
const LuaTable expTable = root.SubTable(tag);
if (!expTable.IsValid()) {
throw content_error("Explosion info for " + tag + " not found.");
}
vector<string> spawns;
expTable.GetKeys(spawns);
for (vector<string>::iterator si = spawns.begin(); si != spawns.end(); ++si) {
ProjectileSpawnInfo psi;
const string& spawnName = *si;
const LuaTable spawnTable = expTable.SubTable(spawnName);
if (!spawnTable.IsValid() || spawnName == "groundflash") {
continue;
}
const string className = spawnTable.GetString("class", spawnName);
psi.projectileClass = h->projectileClasses.GetClass(className);
psi.flags = GetFlagsFromTable(spawnTable);
psi.count = spawnTable.GetInt("count", 1);
if (psi.projectileClass->binder->flags & creg::CF_Synced) {
psi.flags |= SPW_SYNCED;
}
string code;
map<string, string> props;
map<string, string>::const_iterator propIt;
spawnTable.SubTable("properties").GetMap(props);
for (propIt = props.begin(); propIt != props.end(); ++propIt) {
creg::Class::Member* m = psi.projectileClass->FindMember(propIt->first.c_str());
if (m && (m->flags & creg::CM_Config)) {
ParseExplosionCode(&psi, m->offset, m->type, propIt->second, code);
}
}
code += (char)OP_END;
psi.code.resize(code.size());
copy(code.begin(), code.end(), psi.code.begin());
cegData.projectileSpawn.push_back(psi);
}
const LuaTable gndTable = expTable.SubTable("groundflash");
const int ttl = gndTable.GetInt("ttl", 0);
if (ttl > 0) {
cegData.groundFlash.circleAlpha = gndTable.GetFloat("circleAlpha", 0.0f);
cegData.groundFlash.flashSize = gndTable.GetFloat("flashSize", 0.0f);
cegData.groundFlash.flashAlpha = gndTable.GetFloat("flashAlpha", 0.0f);
cegData.groundFlash.circleGrowth = gndTable.GetFloat("circleGrowth", 0.0f);
cegData.groundFlash.color = gndTable.GetFloat3("color", float3(1.0f, 1.0f, 0.8f));
cegData.groundFlash.flags = SPW_GROUND | GetFlagsFromTable(gndTable);
cegData.groundFlash.ttl = ttl;
}
cegData.useDefaultExplosions = expTable.GetBool("useDefaultExplosions", false);
it = cachedCEGs.insert(std::make_pair(tag, cegData)).first;
}
currentCEG = it;
}
bool CSound::LoadSoundDefsImpl(const std::string& fileName)
{
//! can be called from LuaUnsyncedCtrl too
boost::recursive_mutex::scoped_lock lck(soundMutex);
LuaParser parser(fileName, SPRING_VFS_MOD, SPRING_VFS_ZIP);
parser.Execute();
if (!parser.IsValid())
{
LOG_L(L_WARNING, "Could not load %s: %s",
fileName.c_str(), parser.GetErrorLog().c_str());
return false;
}
else
{
const LuaTable soundRoot = parser.GetRoot();
const LuaTable soundItemTable = soundRoot.SubTable("SoundItems");
if (!soundItemTable.IsValid())
{
LOG_L(L_WARNING, "CSound(): could not parse SoundItems table in %s", fileName.c_str());
return false;
}
else
{
std::vector<std::string> keys;
soundItemTable.GetKeys(keys);
for (std::vector<std::string>::const_iterator it = keys.begin(); it != keys.end(); ++it)
{
std::string name(*it);
soundItemDef bufmap;
const LuaTable buf(soundItemTable.SubTable(name));
buf.GetMap(bufmap);
bufmap["name"] = name;
soundItemDefMap::const_iterator sit = soundItemDefs.find(name);
if (name == "default") {
defaultItem = bufmap;
defaultItem.erase("name"); //must be empty for default item
defaultItem.erase("file");
continue;
}
if (sit != soundItemDefs.end())
LOG_L(L_WARNING, "Sound %s gets overwritten by %s", name.c_str(), fileName.c_str());
if (!buf.KeyExists("file")) {
// no file, drop
LOG_L(L_WARNING, "Sound %s is missing file tag (ignoring)", name.c_str());
continue;
} else {
soundItemDefs[name] = bufmap;
}
if (buf.KeyExists("preload")) {
MakeItemFromDef(bufmap);
}
}
LOG(" parsed %i sounds from %s", (int)keys.size(), fileName.c_str());
}
}
//FIXME why do sounds w/o an own soundItemDef create (!=pointer) a new one from the defaultItem?
for (soundItemDefMap::iterator it = soundItemDefs.begin(); it != soundItemDefs.end(); ++it) {
soundItemDef& snddef = it->second;
if (snddef.find("name") == snddef.end()) {
// uses defaultItem! update it!
const std::string file = snddef["file"];
snddef = defaultItem;
snddef["file"] = file;
}
}
return true;
}