bool COMotion::Load(IReader& F)
{
CCustomMotion::Load(F);
u16 vers = F.r_u16();
if (vers==0x0003){
Clear ();
for (int ch=0; ch<ctMaxChannel; ch++){
envs[ch] = xr_new<CEnvelope> ();
envs[ch]->Load_1(F);
}
}else if (vers==0x0004){
Clear ();
envs[ctPositionX] = xr_new<CEnvelope>(); envs[ctPositionX]->Load_2(F);
envs[ctPositionY] = xr_new<CEnvelope>(); envs[ctPositionY]->Load_2(F);
envs[ctPositionZ] = xr_new<CEnvelope>(); envs[ctPositionZ]->Load_2(F);
envs[ctRotationP] = xr_new<CEnvelope>(); envs[ctRotationP]->Load_2(F);
envs[ctRotationH] = xr_new<CEnvelope>(); envs[ctRotationH]->Load_2(F);
envs[ctRotationB] = xr_new<CEnvelope>(); envs[ctRotationB]->Load_2(F);
}else{
if (vers!=EOBJ_OMOTION_VERSION) return false;
Clear ();
for (int ch=0; ch<ctMaxChannel; ch++){
envs[ch] = xr_new<CEnvelope> ();
envs[ch]->Load_2(F);
}
}
return true;
}
bool CGlow::Load(IReader& F)
{
u32 version = 0;
R_ASSERT(F.r_chunk(GLOW_CHUNK_VERSION,&version));
if((version!=0x0011)&&(version!=GLOW_VERSION)){
ELog.DlgMsg( mtError, "CGlow: Unsupported version.");
return false;
}
CCustomObject::Load(F);
if (F.find_chunk(GLOW_CHUNK_SHADER)){
F.r_stringZ (m_ShaderName);
}
R_ASSERT(F.find_chunk(GLOW_CHUNK_TEXTURE));
F.r_stringZ (m_TexName);
R_ASSERT(F.find_chunk(GLOW_CHUNK_PARAMS));
m_fRadius = F.r_float();
if (version==0x0011){
F.r_fvector3 (FPosition);
UpdateTransform();
}
if (F.find_chunk(GLOW_CHUNK_FLAGS))
m_Flags.assign (F.r_u16());
return true;
}
bool CClip::Load(IReader& F)
{
R_ASSERT (F.find_chunk(EOBJ_CLIP_VERSION_CHUNK));
u16 ver = F.r_u16();
if (ver!=EOBJ_CLIP_VERSION) return false;
R_ASSERT(F.find_chunk(EOBJ_CLIP_DATA_CHUNK));
F.r_stringZ (name);
for (int k=0; k<4; k++){
F.r_stringZ (cycles[k].name);
cycles[k].slot = F.r_u16();
}
F.r_stringZ (fx.name);
fx.slot = F.r_u16();
fx_power = F.r_float();
length = F.r_float();
return true;
}
void CMapLocation::load(IReader &stream)
{
u16 c = stream.r_u16();
xr_string hint;
stream.r_stringZ(hint);
SetHint (hint.c_str());
SetRefCount (c);
m_flags.flags = stream.r_u32 ();
}
//------------------------------------------------------------------------------
// I/O part
//------------------------------------------------------------------------------
BOOL CPGDef::Load(IReader& F)
{
R_ASSERT (F.find_chunk(PGD_CHUNK_VERSION));
u16 version = F.r_u16();
if (version!=PGD_VERSION){
Log ("!Unsupported PG version. Load failed.");
return FALSE;
}
R_ASSERT (F.find_chunk(PGD_CHUNK_NAME));
F.r_stringZ (m_Name);
F.r_chunk (PGD_CHUNK_FLAGS,&m_Flags);
if (F.find_chunk(PGD_CHUNK_EFFECTS)){
m_Effects.resize(F.r_u32());
for (EffectIt it=m_Effects.begin(); it!=m_Effects.end(); it++){
*it = xr_new<SEffect>();
F.r_stringZ ((*it)->m_EffectName);
F.r_stringZ ((*it)->m_OnPlayChildName);
F.r_stringZ ((*it)->m_OnBirthChildName);
F.r_stringZ ((*it)->m_OnDeadChildName);
(*it)->m_Time0 = F.r_float();
(*it)->m_Time1 = F.r_float();
(*it)->m_Flags.assign (F.r_u32());
}
}else{ //.??? убрать через некоторое время
R_ASSERT (F.find_chunk(PGD_CHUNK_EFFECTS2));
m_Effects.resize(F.r_u32());
for (EffectIt it=m_Effects.begin(); it!=m_Effects.end(); it++){
*it = xr_new<SEffect>();
F.r_stringZ ((*it)->m_EffectName);
F.r_stringZ ((*it)->m_OnPlayChildName);
(*it)->m_Time0 = F.r_float();
(*it)->m_Time1 = F.r_float();
(*it)->m_Flags.assign (F.r_u32());
}
}
if (F.find_chunk(PGD_CHUNK_TIME_LIMIT)){
m_fTimeLimit= F.r_float();
}
#ifdef _EDITOR
if (F.find_chunk(PGD_CHUNK_OWNER)){
F.r_stringZ (m_OwnerName);
F.r_stringZ (m_ModifName);
F.r (&m_CreateTime,sizeof(m_CreateTime));
F.r (&m_ModifTime,sizeof(m_ModifTime));
}
#endif
return TRUE;
}
void st_LevelOptions::Read(IReader& F)
{
R_ASSERT(F.find_chunk(CHUNK_LO_VERSION));
DWORD vers = F.r_u32( );
if( vers < 0x00000008 )
{
ELog.DlgMsg( mtError, "Skipping bad version of level options." );
return;
}
R_ASSERT(F.find_chunk(CHUNK_LO_NAMES));
F.r_stringZ (m_FNLevelPath);
if (F.find_chunk(CHUNK_LO_PREFIX)) F.r_stringZ (m_LevelPrefix);
R_ASSERT(F.find_chunk(CHUNK_LO_BOP));
F.r_stringZ (m_BOPText);
if (F.find_chunk(CHUNK_LO_MAP_VER))
F.r_stringZ (m_map_version);
vers = 0;
if (F.find_chunk(CHUNK_LO_BP_VERSION))
vers = F.r_u32( );
if (CURRENT_LEVELOP_BP_VERSION==vers){
if (F.find_chunk(CHUNK_BUILD_PARAMS))
F.r(&m_BuildParams, sizeof(m_BuildParams));
}else{
ELog.DlgMsg (mtError, "Skipping bad version of build params.");
m_BuildParams.Init();
}
if (F.find_chunk(CHUNK_LIGHT_QUALITY))
{
m_LightHemiQuality = F.r_u8();
m_LightSunQuality = F.r_u8();
}
if (F.find_chunk(CHUNK_MAP_USAGE))
{
if(vers > 0x00000008)
{
m_mapUsage.m_GameType.assign (F.r_u16());
}else
{
m_mapUsage.m_GameType.zero ();
m_mapUsage.m_GameType.set (eGameIDDeathmatch , F.r_s32());
m_mapUsage.m_GameType.set (eGameIDTeamDeathmatch, F.r_s32());
m_mapUsage.m_GameType.set (eGameIDArtefactHunt, F.r_s32());
}
}
}
void SAINode::LoadStream(IReader& F, ESceneAIMapTool* tools)
{
u32 id;
u16 pl;
NodePosition np;
F.r (&id,3); n1 = (SAINode*)tools->UnpackLink(id);
F.r (&id,3); n2 = (SAINode*)tools->UnpackLink(id);
F.r (&id,3); n3 = (SAINode*)tools->UnpackLink(id);
F.r (&id,3); n4 = (SAINode*)tools->UnpackLink(id);
pl = F.r_u16(); pvDecompress(Plane.n,pl);
F.r (&np,sizeof(np)); tools->UnpackPosition(Pos,np,tools->m_AIBBox,tools->m_Params);
Plane.build (Pos,Plane.n);
flags.assign (F.r_u8());
}
bool CEditShape::LoadStream(IReader& F)
{
R_ASSERT(F.find_chunk(SHAPE_CHUNK_VERSION));
u16 vers = F.r_u16();
inherited::LoadStream (F);
R_ASSERT(F.find_chunk(SHAPE_CHUNK_SHAPES));
shapes.resize (F.r_u32());
F.r (shapes.begin(),shapes.size()*sizeof(shape_def));
if(F.find_chunk(SHAPE_CHUNK_DATA))
m_shape_type = F.r_u8();
ComputeBounds();
return true;
}
bool CEditShape::Load(IReader& F)
{
R_ASSERT(F.find_chunk(SHAPE_CHUNK_VERSION));
u16 vers = F.r_u16();
if (SHAPE_CURRENT_VERSION!=vers){
ELog.DlgMsg( mtError, "CEditShape: unsupported version. Object can't load.");
return false;
}
inherited::Load (F);
R_ASSERT(F.find_chunk(SHAPE_CHUNK_SHAPES));
shapes.resize (F.r_u32());
F.r (shapes.begin(),shapes.size()*sizeof(shape_def));
ComputeBounds();
return true;
}
bool CPSLibrary::Load(const char* nm)
{
IReader* F = FS.r_open(nm);
bool bRes = true;
R_ASSERT(F->find_chunk(PS_CHUNK_VERSION));
u16 ver = F->r_u16();
if (ver!=PS_VERSION) return false;
// second generation
IReader* OBJ;
OBJ = F->open_chunk(PS_CHUNK_SECONDGEN);
if (OBJ){
IReader* O = OBJ->open_chunk(0);
for (int count=1; O; count++) {
PS::CPEDef* def = xr_new<PS::CPEDef>();
if (def->Load(*O)) m_PEDs.push_back(def);
else{ bRes = false; xr_delete(def); }
O->close();
if (!bRes) break;
O = OBJ->open_chunk(count);
}
OBJ->close();
}
// second generation
OBJ = F->open_chunk(PS_CHUNK_THIRDGEN);
if (OBJ){
IReader* O = OBJ->open_chunk(0);
for (int count=1; O; count++) {
PS::CPGDef* def = xr_new<PS::CPGDef>();
if (def->Load(*O)) m_PGDs.push_back(def);
else{ bRes = false; xr_delete(def); }
O->close();
if (!bRes) break;
O = OBJ->open_chunk(count);
}
OBJ->close();
}
// final
FS.r_close (F);
std::sort (m_PEDs.begin(),m_PEDs.end(),ped_sort_pred);
std::sort (m_PGDs.begin(),m_PGDs.end(),pgd_sort_pred);
return bRes;
}
void CInventoryItem::load(IReader &packet)
{
m_eItemPlace = (EItemPlace)packet.r_u8 () ;
u16 tmp = packet.r_u16 ();
if(CSE_ALifeInventoryItem::FLAG_NO_POSITION==tmp)
{
return;
}
if(!object().PPhysicsShell())
{
//. object().processing_activate();
object().setup_physic_shell ();
object().PPhysicsShell()->Disable();
}
object().PHLoadState(packet);
object().PPhysicsShell()->Disable();
}
void CInventoryItem::load(IReader &packet)
{
m_ItemCurrPlace.value = packet.r_u16();
m_fCondition = packet.r_float();
//-- load_data( m_upgrades, packet );
//-- install_loaded_upgrades();
u8 tmp = packet.r_u8();
if (!tmp)
return;
if (!object().PPhysicsShell()) {
object().setup_physic_shell ();
object().PPhysicsShell()->Disable();
}
object().PHLoadState(packet);
object().PPhysicsShell()->Disable();
}
void CSector::load (IReader& fs)
{
// Assign portal polygons
u32 size = fs.find_chunk(fsP_Portals); R_ASSERT(0==(size&1));
u32 count = size/2;
m_portals.reserve (count);
while (count) {
u16 ID = fs.r_u16();
CPortal* P = (CPortal*)RImplementation.getPortal (ID);
m_portals.push_back(P);
count--;
}
if (g_dedicated_server) m_root = 0;
else {
// Assign visual
size = fs.find_chunk(fsP_Root); R_ASSERT(size==4);
m_root = (dxRender_Visual*)RImplementation.getVisual (fs.r_u32());
}
}
void CBone::Load_1(IReader& F)
{
R_ASSERT(F.find_chunk(BONE_CHUNK_VERSION));
u16 ver = F.r_u16();
if ((ver!=0x0001)&&(ver!=BONE_VERSION))
return;
R_ASSERT(F.find_chunk(BONE_CHUNK_DEF));
F.r_stringZ (name); xr_strlwr(name);
F.r_stringZ (parent_name); xr_strlwr(parent_name);
F.r_stringZ (wmap);
R_ASSERT(F.find_chunk(BONE_CHUNK_BIND_POSE));
F.r_fvector3 (rest_offset);
F.r_fvector3 (rest_rotate);
rest_length = F.r_float();
if (ver==0x0001)
std::swap (rest_rotate.x,rest_rotate.y);
LoadData (F);
}
void CRender::Load3DFluid()
{
//if (strstr(Core.Params,"-no_volumetric_fog"))
if (!RImplementation.o.volumetricfog)
return;
string_path fn_game;
if ( FS.exist( fn_game, "$level$", "level.fog_vol" ) )
{
IReader *F = FS.r_open( fn_game );
u16 version = F->r_u16();
if(version == 3)
{
u32 cnt = F->r_u32();
for(u32 i=0; i<cnt; ++i)
{
dx103DFluidVolume *pVolume = xr_new<dx103DFluidVolume>();
pVolume->Load("", F, 0);
// Attach to sector's static geometry
CSector *pSector = (CSector*)detectSector(pVolume->getVisData().sphere.P);
// 3DFluid volume must be in render sector
VERIFY(pSector);
dxRender_Visual* pRoot = pSector->root();
// Sector must have root
VERIFY(pRoot);
VERIFY(pRoot->getType() == MT_HIERRARHY);
((FHierrarhyVisual*)pRoot)->children.push_back(pVolume);
}
}
FS.r_close(F);
}
}
void CHitMemoryManager::load (IReader &packet)
{
if (!m_object->g_Alive())
return;
typedef CClientSpawnManager::CALLBACK_TYPE CALLBACK_TYPE;
CALLBACK_TYPE callback;
callback.bind (&m_object->memory(),&CMemoryManager::on_requested_spawn);
int count = packet.r_u8();
for (int i=0; i<count; ++i) {
CDelayedHitObject delayed_object;
delayed_object.m_object_id = packet.r_u16();
CHitObject &object = delayed_object.m_hit_object;
object.m_object = smart_cast<CEntityAlive*>(Level().Objects.net_Find(delayed_object.m_object_id));
// object params
object.m_object_params.m_level_vertex_id = packet.r_u32();
packet.r_fvector3 (object.m_object_params.m_position);
#ifdef USE_ORIENTATION
packet.r_float (object.m_object_params.m_orientation.yaw);
packet.r_float (object.m_object_params.m_orientation.pitch);
packet.r_float (object.m_object_params.m_orientation.roll);
#endif
// self params
object.m_self_params.m_level_vertex_id = packet.r_u32();
packet.r_fvector3 (object.m_self_params.m_position);
#ifdef USE_ORIENTATION
packet.r_float (object.m_self_params.m_orientation.yaw);
packet.r_float (object.m_self_params.m_orientation.pitch);
packet.r_float (object.m_self_params.m_orientation.roll);
#endif
#ifdef USE_LEVEL_TIME
VERIFY (Device.dwTimeGlobal >= object.m_level_time);
object.m_level_time = packet.r_u32();
object.m_level_time += Device.dwTimeGlobal;
#endif // USE_LEVEL_TIME
#ifdef USE_LAST_LEVEL_TIME
VERIFY (Device.dwTimeGlobal >= object.m_last_level_time);
object.m_last_level_time = packet.r_u32();
object.m_last_level_time += Device.dwTimeGlobal;
#endif // USE_LAST_LEVEL_TIME
#ifdef USE_FIRST_LEVEL_TIME
VERIFY (Device.dwTimeGlobal >= (*I).m_first_level_time);
object.m_first_level_time = packet.r_u32();
object.m_first_level_time += Device.dwTimeGlobal;
#endif // USE_FIRST_LEVEL_TIME
packet.r_fvector3 (object.m_direction);
object.m_bone_index = packet.r_u16();
object.m_amount = packet.r_float();
if (object.m_object) {
add (object);
continue;
}
m_delayed_objects.push_back (delayed_object);
const CClientSpawnManager::CSpawnCallback *spawn_callback = Level().client_spawn_manager().callback(delayed_object.m_object_id,m_object->ID());
if (!spawn_callback || !spawn_callback->m_object_callback)
if(!g_dedicated_server)
Level().client_spawn_manager().add (delayed_object.m_object_id,m_object->ID(),callback);
#ifdef DEBUG
else {
if (spawn_callback && spawn_callback->m_object_callback) {
VERIFY (spawn_callback->m_object_callback == callback);
}
}
#endif // DEBUG
}
}
bool CSMotion::Load(IReader& F)
{
CCustomMotion::Load(F);
u16 vers = F.r_u16();
if (vers==0x0004){
m_BoneOrPart= u16(F.r_u32()&0xffff);
m_Flags.set (esmFX,F.r_u8());
m_Flags.set (esmStopAtEnd,F.r_u8());
fSpeed = F.r_float();
fAccrue = F.r_float();
fFalloff = F.r_float();
fPower = F.r_float();
bone_mots.resize(F.r_u32());
string64 temp_buf;
for(BoneMotionIt bm_it=bone_mots.begin(); bm_it!=bone_mots.end(); bm_it++){
bm_it->SetName (itoa(int(bm_it-bone_mots.begin()),temp_buf,10));
bm_it->m_Flags.assign((u8)F.r_u32());
for (int ch=0; ch<ctMaxChannel; ch++){
bm_it->envs[ch] = xr_new<CEnvelope> ();
bm_it->envs[ch]->Load_1(F);
}
}
}else{
if (vers==0x0005){
m_Flags.assign ((u8)F.r_u32());
m_BoneOrPart= u16(F.r_u32()&0xffff);
fSpeed = F.r_float();
fAccrue = F.r_float();
fFalloff = F.r_float();
fPower = F.r_float();
bone_mots.resize(F.r_u32());
string64 buf;
for(BoneMotionIt bm_it=bone_mots.begin(); bm_it!=bone_mots.end(); bm_it++){
F.r_stringZ (buf,sizeof(buf));
bm_it->SetName (buf);
bm_it->m_Flags.assign((u8)F.r_u32());
for (int ch=0; ch<ctMaxChannel; ch++){
bm_it->envs[ch] = xr_new<CEnvelope> ();
bm_it->envs[ch]->Load_1(F);
}
}
}else{
if (vers!=EOBJ_SMOTION_VERSION) return false;
m_Flags.assign (F.r_u8());
m_BoneOrPart= F.r_u16();
fSpeed = F.r_float();
fAccrue = F.r_float();
fFalloff = F.r_float();
fPower = F.r_float();
bone_mots.resize(F.r_u16());
string64 buf;
for(BoneMotionIt bm_it=bone_mots.begin(); bm_it!=bone_mots.end(); bm_it++){
F.r_stringZ (buf,sizeof(buf));
bm_it->SetName (buf);
bm_it->m_Flags.assign(F.r_u8());
for (int ch=0; ch<ctMaxChannel; ch++){
bm_it->envs[ch] = xr_new<CEnvelope> ();
bm_it->envs[ch]->Load_2(F);
}
}
}
}
for(BoneMotionIt bm_it=bone_mots.begin(); bm_it!=bone_mots.end(); bm_it++)
xr_strlwr (bm_it->name);
return true;
}
bool CEditableMesh::LoadMesh(IReader& F){
u32 version=0;
R_ASSERT(F.r_chunk(EMESH_CHUNK_VERSION,&version));
if (version!=EMESH_CURRENT_VERSION){
ELog.DlgMsg( mtError, "CEditableMesh: unsuported file version. Mesh can't load.");
return false;
}
R_ASSERT(F.find_chunk(EMESH_CHUNK_MESHNAME));
F.r_stringZ (m_Name);
R_ASSERT(F.r_chunk(EMESH_CHUNK_BBOX,&m_Box));
R_ASSERT(F.r_chunk(EMESH_CHUNK_FLAGS,&m_Flags));
F.r_chunk(EMESH_CHUNK_BOP,&m_Ops);
R_ASSERT(F.find_chunk(EMESH_CHUNK_VERTS));
m_VertCount = F.r_u32();
if (m_VertCount<3){
Log ("!CEditableMesh: Vertices<3.");
return false;
}
m_Verts = xr_alloc<Fvector>(m_VertCount);
F.r (m_Verts, m_VertCount*sizeof(Fvector));
R_ASSERT(F.find_chunk(EMESH_CHUNK_FACES));
m_FaceCount = F.r_u32();
m_Faces = xr_alloc<st_Face>(m_FaceCount);
if (m_FaceCount==0){
Log ("!CEditableMesh: Faces==0.");
return false;
}
F.r (m_Faces, m_FaceCount*sizeof(st_Face));
m_SGs = xr_alloc<u32>(m_FaceCount);
Memory.mem_fill32 (m_SGs,m_Flags.is(flSGMask)?0:u32(-1),m_FaceCount);
u32 sg_chunk_size = F.find_chunk(EMESH_CHUNK_SG);
if (sg_chunk_size){
VERIFY (m_FaceCount*sizeof(u32)==sg_chunk_size);
F.r (m_SGs, m_FaceCount*sizeof(u32));
}
R_ASSERT(F.find_chunk(EMESH_CHUNK_VMREFS));
m_VMRefs.resize (F.r_u32());
int sz_vmpt = sizeof(st_VMapPt);
for (VMRefsIt r_it=m_VMRefs.begin(); r_it!=m_VMRefs.end(); r_it++){
r_it->count = F.r_u8();
r_it->pts = xr_alloc<st_VMapPt>(r_it->count);
F.r (r_it->pts, sz_vmpt*r_it->count);
}
R_ASSERT(F.find_chunk(EMESH_CHUNK_SFACE));
string128 surf_name;
u32 sface_cnt = F.r_u16(); // surface-face count
for (u32 sp_i=0; sp_i<sface_cnt; sp_i++){
F.r_stringZ (surf_name,sizeof(surf_name));
int surf_id;
CSurface* surf = m_Parent->FindSurfaceByName(surf_name, &surf_id); VERIFY(surf);
IntVec& face_lst = m_SurfFaces[surf];
face_lst.resize (F.r_u32());
if (face_lst.empty()){
Log ("!Empty surface found: %s",surf->_Name());
return false;
}
F.r (&*face_lst.begin(), face_lst.size()*sizeof(int));
std::sort (face_lst.begin(),face_lst.end());
}
if(F.find_chunk(EMESH_CHUNK_VMAPS_2)){
m_VMaps.resize (F.r_u32());
for (VMapIt vm_it=m_VMaps.begin(); vm_it!=m_VMaps.end(); vm_it++){
*vm_it = xr_new<st_VMap>();
F.r_stringZ ((*vm_it)->name);
(*vm_it)->dim = F.r_u8();
(*vm_it)->polymap=F.r_u8();
(*vm_it)->type = F.r_u8();
(*vm_it)->resize(F.r_u32());
F.r ((*vm_it)->getVMdata(), (*vm_it)->VMdatasize());
F.r ((*vm_it)->getVIdata(), (*vm_it)->VIdatasize());
if ((*vm_it)->polymap)
F.r ((*vm_it)->getPIdata(), (*vm_it)->PIdatasize());
}
}else{
if(F.find_chunk(EMESH_CHUNK_VMAPS_1)){
m_VMaps.resize (F.r_u32());
for (VMapIt vm_it=m_VMaps.begin(); vm_it!=m_VMaps.end(); vm_it++){
*vm_it = xr_new<st_VMap>();
F.r_stringZ ((*vm_it)->name);
(*vm_it)->dim = F.r_u8();
(*vm_it)->type = F.r_u8();
(*vm_it)->resize(F.r_u32());
F.r ((*vm_it)->getVMdata(), (*vm_it)->VMdatasize() );
}
}else{
R_ASSERT(F.find_chunk(EMESH_CHUNK_VMAPS_0));
m_VMaps.resize (F.r_u32());
for (VMapIt vm_it=m_VMaps.begin(); vm_it!=m_VMaps.end(); vm_it++){
*vm_it = xr_new<st_VMap>();
F.r_stringZ ((*vm_it)->name);
(*vm_it)->dim = 2;
(*vm_it)->type = vmtUV;
(*vm_it)->resize(F.r_u32());
F.r ((*vm_it)->getVMdata(), (*vm_it)->VMdatasize() );
}
}
// update vmaps
RebuildVMaps();
}
#ifdef _EDITOR
if (!EPrefs->object_flags.is(epoDeffLoadRB)){
GenerateFNormals ();
GenerateAdjacency ();
GenerateVNormals ();
GenerateRenderBuffers();
UnloadFNormals ();
UnloadAdjacency ();
UnloadVNormals ();
}
if (!EPrefs->object_flags.is(epoDeffLoadCF)) GenerateCFModel();
#endif
Optimize(false);
RebuildVMaps();
return true;
}
void xrLoad(LPCSTR name, bool draft_mode)
{
FS.get_path ("$level$")->_set ((LPSTR)name);
string256 N;
if (!draft_mode) {
// shaders
string_path N;
FS.update_path (N,"$game_data$","shaders_xrlc.xr");
g_shaders_xrlc = xr_new<Shader_xrLC_LIB> ();
g_shaders_xrlc->Load (N);
// Load CFORM
{
strconcat (sizeof(N),N,name,"build.cform");
IReader* fs = FS.r_open(N);
R_ASSERT (fs->find_chunk(0));
hdrCFORM H;
fs->r (&H,sizeof(hdrCFORM));
R_ASSERT (CFORM_CURRENT_VERSION==H.version);
Fvector* verts = (Fvector*)fs->pointer();
CDB::TRI* tris = (CDB::TRI*)(verts+H.vertcount);
Level.build ( verts, H.vertcount, tris, H.facecount );
Level.syncronize ();
Msg("* Level CFORM: %dK",Level.memory()/1024);
g_rc_faces.resize (H.facecount);
R_ASSERT(fs->find_chunk(1));
fs->r (&*g_rc_faces.begin(),g_rc_faces.size()*sizeof(b_rc_face));
LevelBB.set (H.aabb);
FS.r_close (fs);
}
// Load level data
{
strconcat (sizeof(N),N,name,"build.prj");
IReader* fs = FS.r_open (N);
IReader* F;
// Version
u32 version;
fs->r_chunk (EB_Version,&version);
R_ASSERT (XRCL_CURRENT_VERSION >= 17);
R_ASSERT (XRCL_CURRENT_VERSION <= 18);
// Header
b_params Params;
fs->r_chunk (EB_Parameters,&Params);
// Load level data
transfer("materials", g_materials, *fs, EB_Materials);
transfer("shaders_xrlc",g_shader_compile, *fs, EB_Shaders_Compile);
// process textures
Status ("Processing textures...");
{
Surface_Init ();
F = fs->open_chunk (EB_Textures);
u32 tex_count = F->length()/sizeof(b_texture);
for (u32 t=0; t<tex_count; t++)
{
Progress (float(t)/float(tex_count));
b_texture TEX;
F->r (&TEX,sizeof(TEX));
b_BuildTexture BT;
CopyMemory (&BT,&TEX,sizeof(TEX));
// load thumbnail
string128 &N = BT.name;
LPSTR extension = strext(N);
if (extension)
*extension = 0;
xr_strlwr (N);
if (0==xr_strcmp(N,"level_lods")) {
// HACK for merged lod textures
BT.dwWidth = 1024;
BT.dwHeight = 1024;
BT.bHasAlpha= TRUE;
BT.pSurface = 0;
} else {
xr_strcat (N,".thm");
IReader* THM = FS.r_open("$game_textures$",N);
// if (!THM) continue;
R_ASSERT2 (THM, N);
// version
u32 version = 0;
R_ASSERT (THM->r_chunk(THM_CHUNK_VERSION,&version));
// if( version!=THM_CURRENT_VERSION ) FATAL ("Unsupported version of THM file.");
// analyze thumbnail information
R_ASSERT(THM->find_chunk(THM_CHUNK_TEXTUREPARAM));
THM->r (&BT.THM.fmt,sizeof(STextureParams::ETFormat));
BT.THM.flags.assign (THM->r_u32());
BT.THM.border_color = THM->r_u32();
BT.THM.fade_color = THM->r_u32();
BT.THM.fade_amount = THM->r_u32();
BT.THM.mip_filter = THM->r_u32();
BT.THM.width = THM->r_u32();
BT.THM.height = THM->r_u32();
BOOL bLOD=FALSE;
if (N[0]=='l' && N[1]=='o' && N[2]=='d' && N[3]=='\\') bLOD = TRUE;
// load surface if it has an alpha channel or has "implicit lighting" flag
BT.dwWidth = BT.THM.width;
BT.dwHeight = BT.THM.height;
BT.bHasAlpha = BT.THM.HasAlphaChannel();
BT.pSurface = 0;
if (!bLOD)
{
if (BT.bHasAlpha || BT.THM.flags.test(STextureParams::flImplicitLighted))
{
clMsg ("- loading: %s",N);
u32 w=0, h=0;
BT.pSurface = Surface_Load(N,w,h);
R_ASSERT2 (BT.pSurface,"Can't load surface");
if ((w != BT.dwWidth) || (h != BT.dwHeight))
Msg ("! THM doesn't correspond to the texture: %dx%d -> %dx%d", BT.dwWidth, BT.dwHeight, w, h);
BT.Vflip ();
} else {
// Free surface memory
}
}
}
// save all the stuff we've created
g_textures.push_back (BT);
}
}
}
}
// // Load emitters
// {
// strconcat (N,name,"level.game");
// IReader *F = FS.r_open(N);
// IReader *O = 0;
// if (0!=(O = F->open_chunk (AIPOINT_CHUNK))) {
// for (int id=0; O->find_chunk(id); id++) {
// Emitters.push_back(Fvector());
// O->r_fvector3 (Emitters.back());
// }
// O->close();
// }
// }
//
// Load lights
{
strconcat (sizeof(N),N,name,"build.prj");
IReader* F = FS.r_open(N);
R_ASSERT2 (F,"There is no file 'build.prj'!");
IReader &fs= *F;
// Version
u32 version;
fs.r_chunk (EB_Version,&version);
R_ASSERT (XRCL_CURRENT_VERSION >= 17);
R_ASSERT (XRCL_CURRENT_VERSION <= 18);
// Header
b_params Params;
fs.r_chunk (EB_Parameters,&Params);
// Lights (Static)
{
F = fs.open_chunk(EB_Light_static);
b_light_static temp;
u32 cnt = F->length()/sizeof(temp);
for (u32 i=0; i<cnt; i++)
{
R_Light RL;
F->r (&temp,sizeof(temp));
Flight& L = temp.data;
if (_abs(L.range) > 10000.f) {
Msg ("! BAD light range : %f",L.range);
L.range = L.range > 0.f ? 10000.f : -10000.f;
}
// type
if (L.type == D3DLIGHT_DIRECTIONAL) RL.type = LT_DIRECT;
else RL.type = LT_POINT;
// generic properties
RL.position.set (L.position);
RL.direction.normalize_safe (L.direction);
RL.range = L.range*1.1f;
RL.range2 = RL.range*RL.range;
RL.attenuation0 = L.attenuation0;
RL.attenuation1 = L.attenuation1;
RL.attenuation2 = L.attenuation2;
RL.amount = L.diffuse.magnitude_rgb ();
RL.tri[0].set (0,0,0);
RL.tri[1].set (0,0,0);
RL.tri[2].set (0,0,0);
// place into layer
if (0==temp.controller_ID) g_lights.push_back (RL);
}
F->close ();
}
}
// Init params
// g_params.Init ();
// Load initial map from the Level Editor
{
string_path file_name;
strconcat (sizeof(file_name),file_name,name,"build.aimap");
IReader *F = FS.r_open(file_name);
R_ASSERT2 (F, file_name);
R_ASSERT (F->open_chunk(E_AIMAP_CHUNK_VERSION));
R_ASSERT (F->r_u16() == E_AIMAP_VERSION);
R_ASSERT (F->open_chunk(E_AIMAP_CHUNK_BOX));
F->r (&LevelBB,sizeof(LevelBB));
R_ASSERT (F->open_chunk(E_AIMAP_CHUNK_PARAMS));
F->r (&g_params,sizeof(g_params));
R_ASSERT (F->open_chunk(E_AIMAP_CHUNK_NODES));
u32 N = F->r_u32();
R_ASSERT2 (N < ((u32(1) << u32(MAX_NODE_BIT_COUNT)) - 2),"Too many nodes!");
g_nodes.resize (N);
hdrNODES H;
H.version = XRAI_CURRENT_VERSION;
H.count = N+1;
H.size = g_params.fPatchSize;
H.size_y = 1.f;
H.aabb = LevelBB;
typedef BYTE NodeLink[3];
for (u32 i=0; i<N; i++) {
NodeLink id;
u16 pl;
SNodePositionOld _np;
NodePosition np;
for (int j=0; j<4; ++j) {
F->r (&id,3);
g_nodes[i].n[j] = (*LPDWORD(&id)) & 0x00ffffff;
}
pl = F->r_u16();
pvDecompress (g_nodes[i].Plane.n,pl);
F->r (&_np,sizeof(_np));
CNodePositionConverter(_np,H,np);
g_nodes[i].Pos = vertex_position(np,LevelBB,g_params);
g_nodes[i].Plane.build(g_nodes[i].Pos,g_nodes[i].Plane.n);
}
F->close ();
if (!strstr(Core.Params,"-keep_temp_files"))
DeleteFile (file_name);
}
}
void game_sv_GameState::Create (shared_str &options)
{
string_path fn_game;
m_item_respawner.clear_respawns();
if (FS.exist(fn_game, "$level$", "level.game"))
{
IReader *F = FS.r_open (fn_game);
IReader *O = 0;
// Load RPoints
if (0!=(O = F->open_chunk (RPOINT_CHUNK)))
{
for (int id=0; O->find_chunk(id); ++id)
{
RPoint R;
u8 team;
u8 type;
u16 GameType;
shared_str rp_profile;
O->r_fvector3 (R.P);
O->r_fvector3 (R.A);
team = O->r_u8 ();
type = O->r_u8 ();
GameType = O->r_u16 ();
if(type==rptItemSpawn)
O->r_stringZ (rp_profile);
if (GameType != EGameIDs(u16(-1)))
{
if ((Type() == eGameIDCaptureTheArtefact) && (GameType & eGameIDCaptureTheArtefact))
{
team = team - 1;
R_ASSERT2( ((team >= 0) && (team < 4)) ||
(type != rptActorSpawn),
"Problem with CTA Team indexes. Propably you have added rpoint of team 0 for cta game type.");
}
if ((!(GameType & eGameIDDeathmatch) && (Type() == eGameIDDeathmatch)) ||
(!(GameType & eGameIDTeamDeathmatch) && (Type() == eGameIDTeamDeathmatch)) ||
(!(GameType & eGameIDArtefactHunt) && (Type() == eGameIDArtefactHunt)) ||
(!(GameType & eGameIDCaptureTheArtefact) && (Type() == eGameIDCaptureTheArtefact))
)
{
continue;
};
};
switch (type)
{
case rptActorSpawn:
{
rpoints[team].push_back (R);
for (int i=0; i<int(rpoints[team].size())-1; i++)
{
RPoint rp = rpoints[team][i];
float dist = R.P.distance_to_xz(rp.P)/2;
if (dist<rpoints_MinDist[team])
rpoints_MinDist[team] = dist;
dist = R.P.distance_to(rp.P)/2;
if (dist<rpoints_Dist[team])
rpoints_Dist[team] = dist;
};
}break;
case rptItemSpawn:
{
m_item_respawner.add_new_rpoint(rp_profile, R);
}
};
};
O->close();
}
FS.r_close (F);
}
if (!g_dedicated_server)
{
// loading scripts
ai().script_engine().remove_script_process(ScriptEngine::eScriptProcessorGame);
string_path S;
FS.update_path (S,"$game_config$","script.ltx");
CInifile *l_tpIniFile = xr_new<CInifile>(S);
R_ASSERT (l_tpIniFile);
if( l_tpIniFile->section_exist( type_name() ) )
if (l_tpIniFile->r_string(type_name(),"script"))
ai().script_engine().add_script_process(ScriptEngine::eScriptProcessorGame,xr_new<CScriptProcess>("game",l_tpIniFile->r_string(type_name(),"script")));
else
ai().script_engine().add_script_process(ScriptEngine::eScriptProcessorGame,xr_new<CScriptProcess>("game",""));
xr_delete (l_tpIniFile);
}
//---------------------------------------------------------------------
ConsoleCommands_Create();
//---------------------------------------------------------------------
// CCC_LoadCFG_custom* pTmp = xr_new<CCC_LoadCFG_custom>("sv_");
// pTmp->Execute (Console->ConfigFile);
// xr_delete (pTmp);
//---------------------------------------------------------------------
LPCSTR svcfg_ltx_name = "-svcfg ";
if (strstr(Core.Params, svcfg_ltx_name))
{
string_path svcfg_name = "";
int sz = xr_strlen(svcfg_ltx_name);
sscanf (strstr(Core.Params,svcfg_ltx_name)+sz,"%[^ ] ",svcfg_name);
// if (FS.exist(svcfg_name))
{
Console->ExecuteScript(svcfg_name);
}
};
//---------------------------------------------------------------------
ReadOptions(options);
}
//-----------------------------------------------------------------------
BOOL motions_value::load (LPCSTR N, IReader *data, vecBones* bones)
{
m_id = N;
bool bRes = true;
// Load definitions
U16Vec rm_bones (bones->size(),BI_NONE);
IReader* MP = data->open_chunk(OGF_S_SMPARAMS);
if (MP)
{
u16 vers = MP->r_u16();
u16 part_bone_cnt = 0;
string128 buf;
R_ASSERT3 (vers<=xrOGF_SMParamsVersion,"Invalid OGF/OMF version:",N);
// partitions
u16 part_count;
part_count = MP->r_u16();
for (u16 part_i=0; part_i<part_count; part_i++)
{
CPartDef& PART = m_partition[part_i];
MP->r_stringZ (buf,sizeof(buf));
PART.Name = _strlwr(buf);
PART.bones.resize (MP->r_u16());
for (xr_vector<u32>::iterator b_it=PART.bones.begin(); b_it<PART.bones.end(); b_it++)
{
MP->r_stringZ (buf,sizeof(buf));
u16 m_idx = u16 (MP->r_u32());
*b_it = find_bone_id (bones,buf);
#ifdef _EDITOR
if (*b_it==BI_NONE )
{
bRes = false;
Msg ("! Can't find bone: '%s'", buf);
}
if (rm_bones.size() <= m_idx)
{
bRes = false;
Msg ("! Can't load: '%s' invalid bones count", N);
}
#else
VERIFY3 (*b_it!=BI_NONE,"Can't find bone:", buf);
#endif
if (bRes) rm_bones[m_idx] = u16(*b_it);
}
part_bone_cnt = u16(part_bone_cnt + (u16)PART.bones.size());
}
#ifdef _EDITOR
if (part_bone_cnt!=(u16)bones->size()){
bRes = false;
Msg("! Different bone count[%s] [Object: '%d' <-> Motions: '%d']", N, bones->size(),part_bone_cnt);
}
#else
VERIFY3(part_bone_cnt==(u16)bones->size(),"Different bone count '%s'",N);
#endif
if (bRes)
{
// motion defs (cycle&fx)
u16 mot_count = MP->r_u16();
m_mdefs.resize (mot_count);
for (u16 mot_i=0; mot_i<mot_count; mot_i++)
{
MP->r_stringZ (buf,sizeof(buf));
shared_str nm = _strlwr (buf);
u32 dwFlags = MP->r_u32 ();
CMotionDef& D = m_mdefs[mot_i];
D.Load (MP,dwFlags,vers);
//. m_mdefs.push_back (D);
if (dwFlags&esmFX)
m_fx.insert (mk_pair(nm,mot_i));
else
m_cycle.insert (mk_pair(nm,mot_i));
m_motion_map.insert (mk_pair(nm,mot_i));
}
}
MP->close();
}else
{
xrDebug::Fatal (DEBUG_INFO,"Old skinned model version unsupported! (%s)",N);
}
if (!bRes) return false;
// Load animation
IReader* MS = data->open_chunk(OGF_S_MOTIONS);
if (!MS) return false;
u32 dwCNT = 0;
MS->r_chunk_safe (0,&dwCNT,sizeof(dwCNT));
VERIFY (dwCNT<0x3FFF); // MotionID 2 bit - slot, 14 bit - motion index
// set per bone motion size
for (u32 i=0; i<bones->size(); i++)
m_motions[bones->at(i)->name].resize(dwCNT);
// load motions
for (u16 m_idx=0; m_idx<(u16)dwCNT; m_idx++){
string128 mname;
R_ASSERT (MS->find_chunk(m_idx+1));
MS->r_stringZ (mname,sizeof(mname));
#ifdef _DEBUG
// sanity check
xr_strlwr (mname);
accel_map::iterator I= m_motion_map.find(mname);
VERIFY3 (I!=m_motion_map.end(),"Can't find motion:",mname);
VERIFY3 (I->second==m_idx,"Invalid motion index:",mname);
#endif
u32 dwLen = MS->r_u32();
for (u32 i=0; i<bones->size(); i++){
u16 bone_id = rm_bones[i];
VERIFY2 (bone_id!=BI_NONE,"Invalid remap index.");
CMotion& M = m_motions[bones->at(bone_id)->name][m_idx];
M.set_count (dwLen);
M.set_flags (MS->r_u8());
if (M.test_flag(flRKeyAbsent)) {
CKeyQR* r = (CKeyQR*)MS->pointer();
u32 crc_q = crc32(r,sizeof(CKeyQR));
M._keysR.create (crc_q,1,r);
MS->advance (1 * sizeof(CKeyQR));
}else{
u32 crc_q = MS->r_u32 ();
M._keysR.create (crc_q,dwLen,(CKeyQR*)MS->pointer());
MS->advance (dwLen * sizeof(CKeyQR));
}
if (M.test_flag(flTKeyPresent))
{
u32 crc_t = MS->r_u32 ();
if(M.test_flag(flTKey16IsBit))
{
M._keysT16.create (crc_t,dwLen,(CKeyQT16*)MS->pointer());
MS->advance (dwLen * sizeof(CKeyQT16));
}else
{
M._keysT8.create (crc_t,dwLen,(CKeyQT8*)MS->pointer());
MS->advance (dwLen * sizeof(CKeyQT8));
};
MS->r_fvector3 (M._sizeT);
MS->r_fvector3 (M._initT);
}else
{
MS->r_fvector3 (M._initT);
}
}
}
// Msg("Motions %d/%d %4d/%4d/%d, %s",p_cnt,m_cnt, m_load,m_total,m_r,N);
MS->close();
return bRes;
}
