vmap/radiant/eclass_fgd.cpp

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2020-11-17 11:16:16 +00:00
/*
Copyright (C) 2001-2006, William Joseph.
All Rights Reserved.
This file is part of GtkRadiant.
GtkRadiant 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; either version 2 of the License, or
(at your option) any later version.
GtkRadiant 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 GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "eclass_fgd.h"
#include "debugging/debugging.h"
#include <map>
#include "ifilesystem.h"
#include "iscriplib.h"
#include "qerplugin.h"
#include "mainframe.h"
#include "string/string.h"
#include "eclasslib.h"
#include "os/path.h"
#include "os/dir.h"
#include "stream/stringstream.h"
#include "moduleobservers.h"
#include "stringio.h"
#include "stream/textfilestream.h"
namespace {
typedef std::map<const char *, EntityClass *, RawStringLessNoCase> EntityClasses;
EntityClasses g_EntityClassFGD_classes;
typedef std::map<const char *, EntityClass *, RawStringLess> BaseClasses;
BaseClasses g_EntityClassFGD_bases;
EntityClass *g_EntityClassFGD_bad = 0;
typedef std::map<CopiedString, ListAttributeType> ListAttributeTypes;
ListAttributeTypes g_listTypesFGD;
}
void EntityClassFGD_clear()
{
for (BaseClasses::iterator i = g_EntityClassFGD_bases.begin(); i != g_EntityClassFGD_bases.end(); ++i) {
(*i).second->free((*i).second);
}
g_EntityClassFGD_bases.clear();
g_listTypesFGD.clear();
}
EntityClass *EntityClassFGD_insertUniqueBase(EntityClass *entityClass)
{
std::pair<BaseClasses::iterator, bool> result = g_EntityClassFGD_bases.insert(
BaseClasses::value_type(entityClass->name(), entityClass));
if (!result.second) {
globalErrorStream() << "duplicate base class: " << makeQuoted(entityClass->name()) << "\n";
//eclass_capture_state(entityClass);
//entityClass->free(entityClass);
}
return (*result.first).second;
}
EntityClass *EntityClassFGD_insertUnique(EntityClass *entityClass)
{
EntityClassFGD_insertUniqueBase(entityClass);
std::pair<EntityClasses::iterator, bool> result = g_EntityClassFGD_classes.insert(
EntityClasses::value_type(entityClass->name(), entityClass));
if (!result.second) {
globalErrorStream() << "duplicate entity class: " << makeQuoted(entityClass->name()) << "\n";
eclass_capture_state(entityClass);
entityClass->free(entityClass);
}
return (*result.first).second;
}
void EntityClassFGD_forEach(EntityClassVisitor &visitor)
{
for (EntityClasses::iterator i = g_EntityClassFGD_classes.begin(); i != g_EntityClassFGD_classes.end(); ++i) {
visitor.visit((*i).second);
}
}
inline bool EntityClassFGD_parseToken(Tokeniser &tokeniser, const char *token)
{
return string_equal(tokeniser.getToken(), token);
}
const char *PARSE_ERROR = "error parsing entity class definition";
void EntityClassFGD_parseSplitString(Tokeniser &tokeniser, CopiedString &string)
{
StringOutputStream buffer(256);
for (;;) {
buffer << tokeniser.getToken();
if (!string_equal(tokeniser.getToken(), "+")) {
tokeniser.ungetToken();
string = buffer.c_str();
return;
}
}
}
void EntityClassFGD_parseClass(Tokeniser &tokeniser, bool fixedsize, bool isBase)
{
EntityClass *entityClass = Eclass_Alloc();
entityClass->free = &Eclass_Free;
entityClass->fixedsize = fixedsize;
entityClass->inheritanceResolved = false;
entityClass->mins = Vector3(-8, -8, -8);
entityClass->maxs = Vector3(8, 8, 8);
for (;;) {
const char *property = tokeniser.getToken();
if (string_equal(property, "=")) {
break;
} else if (string_equal(property, "base")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
for (;;) {
const char *base = tokeniser.getToken();
if (string_equal(base, ")")) {
break;
} else if (!string_equal(base, ",")) {
entityClass->m_parent.push_back(base);
}
}
} else if (string_equal(property, "size")) {
entityClass->sizeSpecified = true;
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
Tokeniser_getFloat(tokeniser, entityClass->mins.x());
Tokeniser_getFloat(tokeniser, entityClass->mins.y());
Tokeniser_getFloat(tokeniser, entityClass->mins.z());
const char *token = tokeniser.getToken();
if (string_equal(token, ",")) {
Tokeniser_getFloat(tokeniser, entityClass->maxs.x());
Tokeniser_getFloat(tokeniser, entityClass->maxs.y());
Tokeniser_getFloat(tokeniser, entityClass->maxs.z());
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else {
entityClass->maxs = entityClass->mins;
vector3_negate(entityClass->mins);
ASSERT_MESSAGE(string_equal(token, ")"), "");
}
} else if (string_equal(property, "color")) {
entityClass->colorSpecified = true;
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
Tokeniser_getFloat(tokeniser, entityClass->color.x());
entityClass->color.x() /= 256.0;
Tokeniser_getFloat(tokeniser, entityClass->color.y());
entityClass->color.y() /= 256.0;
Tokeniser_getFloat(tokeniser, entityClass->color.z());
entityClass->color.z() /= 256.0;
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else if (string_equal(property, "iconsprite")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
StringOutputStream buffer(256);
buffer << PathCleaned(tokeniser.getToken());
entityClass->m_modelpath = buffer.c_str();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else if (string_equal(property, "sprite")
|| string_equal(property, "decal")
// hl2 below
|| string_equal(property, "overlay")
|| string_equal(property, "light")
|| string_equal(property, "keyframe")
|| string_equal(property, "animator")
|| string_equal(property, "quadbounds")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
}
// hl2 below
else if (string_equal(property, "sphere")
|| string_equal(property, "sweptplayerhull")
|| string_equal(property, "studio")
|| string_equal(property, "studioprop")
|| string_equal(property, "lightprop")
|| string_equal(property, "lightcone")
|| string_equal(property, "sidelist")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
if (string_equal(tokeniser.getToken(), ")")) {
tokeniser.ungetToken();
}
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else if (string_equal(property, "line")
|| string_equal(property, "cylinder")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
//const char* r =
tokeniser.getToken();
//const char* g =
tokeniser.getToken();
//const char* b =
tokeniser.getToken();
for (;;) {
if (string_equal(tokeniser.getToken(), ")")) {
tokeniser.ungetToken();
break;
}
//const char* name =
tokeniser.getToken();
}
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else if (string_equal(property, "wirebox")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
//const char* mins =
tokeniser.getToken();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ","), PARSE_ERROR);
//const char* maxs =
tokeniser.getToken();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else if (string_equal(property, "halfgridsnap")) {
} else {
ERROR_MESSAGE(PARSE_ERROR);
}
}
entityClass->m_name = tokeniser.getToken();
if (!isBase) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ":"), PARSE_ERROR);
EntityClassFGD_parseSplitString(tokeniser, entityClass->m_comments);
}
tokeniser.nextLine();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "["), PARSE_ERROR);
tokeniser.nextLine();
for (;;) {
CopiedString key = tokeniser.getToken();
if (string_equal(key.c_str(), "]")) {
tokeniser.nextLine();
break;
}
if (string_equal_nocase(key.c_str(), "input")
|| string_equal_nocase(key.c_str(), "output")) {
const char *name = tokeniser.getToken();
if (!string_equal(name, "(")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
//const char* type =
tokeniser.getToken();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
const char *descriptionSeparator = tokeniser.getToken();
if (string_equal(descriptionSeparator, ":")) {
CopiedString description;
EntityClassFGD_parseSplitString(tokeniser, description);
} else {
tokeniser.ungetToken();
}
tokeniser.nextLine();
continue;
}
}
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
CopiedString type = tokeniser.getToken();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
if (string_equal_nocase(type.c_str(), "flags")) {
EntityClassAttribute attribute;
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "="), PARSE_ERROR);
tokeniser.nextLine();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "["), PARSE_ERROR);
tokeniser.nextLine();
for (;;) {
const char *flag = tokeniser.getToken();
if (string_equal(flag, "]")) {
tokeniser.nextLine();
break;
} else {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ":"), PARSE_ERROR);
//const char* name =
tokeniser.getToken();
{
const char *defaultSeparator = tokeniser.getToken();
if (string_equal(defaultSeparator, ":")) {
tokeniser.getToken();
{
const char *descriptionSeparator = tokeniser.getToken();
if (string_equal(descriptionSeparator, ":")) {
EntityClassFGD_parseSplitString(tokeniser, attribute.m_description);
} else {
tokeniser.ungetToken();
}
}
} else {
tokeniser.ungetToken();
}
}
}
tokeniser.nextLine();
}
EntityClass_insertAttribute(*entityClass, key.c_str(), attribute);
} else if (string_equal_nocase(type.c_str(), "choices")) {
EntityClassAttribute attribute;
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ":"), PARSE_ERROR);
attribute.m_name = tokeniser.getToken();
const char *valueSeparator = tokeniser.getToken();
if (string_equal(valueSeparator, ":")) {
const char *value = tokeniser.getToken();
if (!string_equal(value, ":")) {
attribute.m_value = value;
} else {
tokeniser.ungetToken();
}
{
const char *descriptionSeparator = tokeniser.getToken();
if (string_equal(descriptionSeparator, ":")) {
EntityClassFGD_parseSplitString(tokeniser, attribute.m_description);
} else {
tokeniser.ungetToken();
}
}
} else {
tokeniser.ungetToken();
}
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "="), PARSE_ERROR);
tokeniser.nextLine();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "["), PARSE_ERROR);
tokeniser.nextLine();
StringOutputStream listTypeName(64);
listTypeName << entityClass->m_name.c_str() << "_" << attribute.m_name.c_str();
attribute.m_type = listTypeName.c_str();
ListAttributeType &listType = g_listTypesFGD[listTypeName.c_str()];
for (;;) {
const char *value = tokeniser.getToken();
if (string_equal(value, "]")) {
tokeniser.nextLine();
break;
} else {
CopiedString tmp(value);
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ":"), PARSE_ERROR);
const char *name = tokeniser.getToken();
listType.push_back(name, tmp.c_str());
}
tokeniser.nextLine();
}
for (ListAttributeType::const_iterator i = listType.begin(); i != listType.end(); ++i) {
if (string_equal(attribute.m_value.c_str(), (*i).first.c_str())) {
attribute.m_value = (*i).second.c_str();
}
}
EntityClass_insertAttribute(*entityClass, key.c_str(), attribute);
} else if (string_equal_nocase(type.c_str(), "decal")) {
} else if (string_equal_nocase(type.c_str(), "string")
|| string_equal_nocase(type.c_str(), "integer")
|| string_equal_nocase(type.c_str(), "studio")
|| string_equal_nocase(type.c_str(), "sprite")
|| string_equal_nocase(type.c_str(), "color255")
|| string_equal_nocase(type.c_str(), "target_source")
|| string_equal_nocase(type.c_str(), "target_destination")
|| string_equal_nocase(type.c_str(), "sound")
// hl2 below
|| string_equal_nocase(type.c_str(), "angle")
|| string_equal_nocase(type.c_str(), "origin")
|| string_equal_nocase(type.c_str(), "float")
|| string_equal_nocase(type.c_str(), "node_dest")
|| string_equal_nocase(type.c_str(), "filterclass")
|| string_equal_nocase(type.c_str(), "vector")
|| string_equal_nocase(type.c_str(), "sidelist")
|| string_equal_nocase(type.c_str(), "material")
|| string_equal_nocase(type.c_str(), "vecline")
|| string_equal_nocase(type.c_str(), "axis")
|| string_equal_nocase(type.c_str(), "npcclass")
|| string_equal_nocase(type.c_str(), "target_name_or_class")
|| string_equal_nocase(type.c_str(), "pointentityclass")
|| string_equal_nocase(type.c_str(), "scene")) {
if (!string_equal(tokeniser.getToken(), "readonly")) {
tokeniser.ungetToken();
}
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ":"), PARSE_ERROR);
const char *attributeType = "string";
if (string_equal_nocase(type.c_str(), "studio")) {
attributeType = "model";
}
EntityClassAttribute attribute;
attribute.m_type = attributeType;
attribute.m_name = tokeniser.getToken();
const char *defaultSeparator = tokeniser.getToken();
if (string_equal(defaultSeparator, ":")) {
const char *value = tokeniser.getToken();
if (!string_equal(value, ":")) {
attribute.m_value = value;
} else {
tokeniser.ungetToken();
}
{
const char *descriptionSeparator = tokeniser.getToken();
if (string_equal(descriptionSeparator, ":")) {
EntityClassFGD_parseSplitString(tokeniser, attribute.m_description);
} else {
tokeniser.ungetToken();
}
}
} else {
tokeniser.ungetToken();
}
EntityClass_insertAttribute(*entityClass, key.c_str(), attribute);
} else {
ERROR_MESSAGE("unknown key type: " << makeQuoted(type.c_str()));
}
tokeniser.nextLine();
}
if (isBase) {
EntityClassFGD_insertUniqueBase(entityClass);
} else {
EntityClassFGD_insertUnique(entityClass);
}
}
void EntityClassFGD_loadFile(const char *filename);
void EntityClassFGD_parse(TextInputStream &inputStream, const char *path)
{
Tokeniser &tokeniser = GlobalScriptLibrary().m_pfnNewScriptTokeniser(inputStream);
tokeniser.nextLine();
for (;;) {
const char *blockType = tokeniser.getToken();
if (blockType == 0) {
break;
}
if (string_equal(blockType, "@SolidClass")) {
EntityClassFGD_parseClass(tokeniser, false, false);
} else if (string_equal(blockType, "@BaseClass")) {
EntityClassFGD_parseClass(tokeniser, false, true);
} else if (string_equal(blockType, "@PointClass")
// hl2 below
|| string_equal(blockType, "@KeyFrameClass")
|| string_equal(blockType, "@MoveClass")
|| string_equal(blockType, "@FilterClass")
|| string_equal(blockType, "@NPCClass")) {
EntityClassFGD_parseClass(tokeniser, true, false);
}
// hl2 below
else if (string_equal(blockType, "@include")) {
StringOutputStream includePath(256);
includePath << StringRange(path, path_get_filename_start(path));
includePath << tokeniser.getToken();
EntityClassFGD_loadFile(includePath.c_str());
} else if (string_equal(blockType, "@mapsize")) {
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, "("), PARSE_ERROR);
//const char* min =
tokeniser.getToken();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ","), PARSE_ERROR);
//const char* max =
tokeniser.getToken();
ASSERT_MESSAGE(EntityClassFGD_parseToken(tokeniser, ")"), PARSE_ERROR);
} else {
ERROR_MESSAGE("unknown block type: " << makeQuoted(blockType));
}
}
tokeniser.release();
}
void EntityClassFGD_loadFile(const char *filename)
{
TextFileInputStream file(filename);
if (!file.failed()) {
globalOutputStream() << "parsing entity classes from " << makeQuoted(filename) << "\n";
EntityClassFGD_parse(file, filename);
}
}
EntityClass *EntityClassFGD_findOrInsert(const char *name, bool has_brushes)
{
ASSERT_NOTNULL(name);
if (string_empty(name)) {
return g_EntityClassFGD_bad;
}
EntityClasses::iterator i = g_EntityClassFGD_classes.find(name);
if (i != g_EntityClassFGD_classes.end()
//&& string_equal((*i).first, name)
) {
return (*i).second;
}
EntityClass *e = EntityClass_Create_Default(name, has_brushes);
return EntityClassFGD_insertUnique(e);
}
const ListAttributeType *EntityClassFGD_findListType(const char *name)
{
ListAttributeTypes::iterator i = g_listTypesFGD.find(name);
if (i != g_listTypesFGD.end()) {
return &(*i).second;
}
return 0;
}
void EntityClassFGD_resolveInheritance(EntityClass *derivedClass)
{
if (derivedClass->inheritanceResolved == false) {
derivedClass->inheritanceResolved = true;
for (StringList::iterator j = derivedClass->m_parent.begin(); j != derivedClass->m_parent.end(); ++j) {
BaseClasses::iterator i = g_EntityClassFGD_bases.find((*j).c_str());
if (i == g_EntityClassFGD_bases.end()) {
globalErrorStream() << "failed to find entityDef " << makeQuoted((*j).c_str()) << " inherited by "
<< makeQuoted(derivedClass->m_name.c_str()) << "\n";
} else {
EntityClass *parentClass = (*i).second;
EntityClassFGD_resolveInheritance(parentClass);
if (!derivedClass->colorSpecified) {
derivedClass->colorSpecified = parentClass->colorSpecified;
derivedClass->color = parentClass->color;
}
if (!derivedClass->sizeSpecified) {
derivedClass->sizeSpecified = parentClass->sizeSpecified;
derivedClass->mins = parentClass->mins;
derivedClass->maxs = parentClass->maxs;
}
for (EntityClassAttributes::iterator k = parentClass->m_attributes.begin();
k != parentClass->m_attributes.end(); ++k) {
EntityClass_insertAttribute(*derivedClass, (*k).first.c_str(), (*k).second);
}
}
}
}
}
class EntityClassFGD : public ModuleObserver {
std::size_t m_unrealised;
ModuleObservers m_observers;
public:
EntityClassFGD() : m_unrealised(3)
{
}
void realise()
{
if (--m_unrealised == 0) {
StringOutputStream filename(256);
filename << GlobalRadiant().getGameToolsPath() << GlobalRadiant().getGameName() << "/entities.fgd";
EntityClassFGD_loadFile(filename.c_str());
{
for (EntityClasses::iterator i = g_EntityClassFGD_classes.begin();
i != g_EntityClassFGD_classes.end(); ++i) {
EntityClassFGD_resolveInheritance((*i).second);
if ((*i).second->fixedsize && string_empty((*i).second->m_modelpath.c_str())) {
if (!(*i).second->sizeSpecified) {
globalErrorStream() << "size not specified for entity class: "
<< makeQuoted((*i).second->m_name.c_str()) << '\n';
}
if (!(*i).second->colorSpecified) {
globalErrorStream() << "color not specified for entity class: "
<< makeQuoted((*i).second->m_name.c_str()) << '\n';
}
}
}
}
{
for (BaseClasses::iterator i = g_EntityClassFGD_bases.begin(); i != g_EntityClassFGD_bases.end(); ++i) {
eclass_capture_state((*i).second);
}
}
m_observers.realise();
}
}
void unrealise()
{
if (++m_unrealised == 1) {
m_observers.unrealise();
EntityClassFGD_clear();
}
}
void attach(ModuleObserver &observer)
{
m_observers.attach(observer);
}
void detach(ModuleObserver &observer)
{
m_observers.detach(observer);
}
};
EntityClassFGD g_EntityClassFGD;
void EntityClassFGD_attach(ModuleObserver &observer)
{
g_EntityClassFGD.attach(observer);
}
void EntityClassFGD_detach(ModuleObserver &observer)
{
g_EntityClassFGD.detach(observer);
}
void EntityClassFGD_realise()
{
g_EntityClassFGD.realise();
}
void EntityClassFGD_unrealise()
{
g_EntityClassFGD.unrealise();
}
void EntityClassFGD_construct()
{
// start by creating the default unknown eclass
g_EntityClassFGD_bad = EClass_Create("UNKNOWN_CLASS", Vector3(0.0f, 0.5f, 0.0f), "");
EntityClassFGD_realise();
}
void EntityClassFGD_destroy()
{
EntityClassFGD_unrealise();
g_EntityClassFGD_bad->free(g_EntityClassFGD_bad);
}
class EntityClassFGDDependencies
: public GlobalFileSystemModuleRef, public GlobalShaderCacheModuleRef, public GlobalRadiantModuleRef {
};
class EntityClassFGDAPI {
EntityClassManager m_eclassmanager;
public:
typedef EntityClassManager Type;
STRING_CONSTANT(Name, "halflife");
EntityClassFGDAPI()
{
EntityClassFGD_construct();
m_eclassmanager.findOrInsert = &EntityClassFGD_findOrInsert;
m_eclassmanager.findListType = &EntityClassFGD_findListType;
m_eclassmanager.forEach = &EntityClassFGD_forEach;
m_eclassmanager.attach = &EntityClassFGD_attach;
m_eclassmanager.detach = &EntityClassFGD_detach;
m_eclassmanager.realise = &EntityClassFGD_realise;
m_eclassmanager.unrealise = &EntityClassFGD_unrealise;
Radiant_attachGameToolsPathObserver(g_EntityClassFGD);
Radiant_attachGameNameObserver(g_EntityClassFGD);
}
~EntityClassFGDAPI()
{
Radiant_detachGameNameObserver(g_EntityClassFGD);
Radiant_detachGameToolsPathObserver(g_EntityClassFGD);
EntityClassFGD_destroy();
}
EntityClassManager *getTable()
{
return &m_eclassmanager;
}
};
#include "modulesystem/singletonmodule.h"
#include "modulesystem/moduleregistry.h"
typedef SingletonModule<EntityClassFGDAPI, EntityClassFGDDependencies> EntityClassFGDModule;
typedef Static<EntityClassFGDModule> StaticEntityClassFGDModule;
StaticRegisterModule staticRegisterEntityClassFGD(StaticEntityClassFGDModule::instance());