void ProcessLTX(LPCSTR tgt_name, LPCSTR params, BOOL bFast)
{
xr_string ltx_name;
LPCSTR ltx_nm = strstr(params,".ltx"); VERIFY(ltx_nm!=0);
string_path ltx_fn;
string_path tmp;
strncpy (tmp,params,ltx_nm-params); tmp[ltx_nm-params]=0;
_Trim (tmp);
strcat (tmp,".ltx");
strcpy (ltx_fn,tmp);
// append ltx path (if exist)
string_path fn,dr,di;
_splitpath (ltx_fn,dr,di,0,0);
strconcat (sizeof(fn),fn,dr,di);
if (0!=fn[0])
FS.append_path ("ltx_path",fn,0,false);
if (!FS.exist(ltx_fn)&&!FS.exist(ltx_fn,"$app_root$",tmp))
Debug.fatal (DEBUG_INFO,"ERROR: Can't find ltx file: '%s'",ltx_fn);
CInifile ltx (ltx_fn);
printf ("Processing LTX...\n");
BOOL make_pack = ltx.line_exist("options","make_pack") ? ltx.r_bool("options","make_pack") : true;
LPCSTR copy_path= ltx.line_exist("options","copy_path") ? ltx.r_string("options","copy_path") : 0;
if (ltx.line_exist("options","exclude_exts"))
_SequenceToList(exclude_exts,ltx.r_string("options","exclude_exts"));
xr_vector<char*> list;
xr_vector<char*> fl_list;
if(ltx.section_exist("include_folders"))
{
CInifile::Sect& if_sect = ltx.r_section("include_folders");
for (CInifile::SectCIt if_it=if_sect.Data.begin(); if_it!=if_sect.Data.end(); if_it++)
{
BOOL ifRecurse = CInifile::IsBOOL(if_it->second.c_str());
u32 folder_mask = FS_ListFolders | (ifRecurse?0:FS_RootOnly);
string_path path;
LPCSTR _path = 0==xr_strcmp(if_it->first.c_str(),".\\")?"":if_it->first.c_str();
strcpy (path,_path);
u32 path_len = xr_strlen(path);
if ((0!=path_len)&&(path[path_len-1]!='\\')) strcat(path,"\\");
Log ("");
OUT_LOG ("Processing folder: '%s'",path);
BOOL efRecurse;
BOOL val = IsFolderAccepted(ltx,path,efRecurse);
if (val || (!val&&!efRecurse))
{
if (val) ProcessFolder (list,path);
xr_vector<char*>* i_fl_list = FS.file_list_open ("$target_folder$",path,folder_mask);
if (!i_fl_list)
{
Log ("ERROR: Unable to open folder list:", path);
continue;
}
xr_vector<char*>::iterator it = i_fl_list->begin();
xr_vector<char*>::iterator itE = i_fl_list->end();
for (;it!=itE;++it){
xr_string tmp_path = xr_string(path)+xr_string(*it);
bool val = IsFolderAccepted(ltx,tmp_path.c_str(),efRecurse);
if (val)
{
fl_list.push_back(xr_strdup(tmp_path.c_str()));
Msg ("+F: %s",tmp_path.c_str());
// collect files
if (ifRecurse)
ProcessFolder (list,tmp_path.c_str());
}else
{
Msg ("-F: %s",tmp_path.c_str());
}
}
FS.file_list_close (i_fl_list);
}else
{
Msg ("-F: %s",path);
}
}
}//if(ltx.section_exist("include_folders"))
// compress
{
if(ltx.section_exist("include_files"))
{
CInifile::Sect& if_sect = ltx.r_section("include_files");
for (CInifile::SectCIt if_it=if_sect.Data.begin(); if_it!=if_sect.Data.end(); if_it++)
{
list.push_back (xr_strdup(if_it->first.c_str()));
}
}
}
CompressList (tgt_name,&list,&fl_list,bFast,make_pack,copy_path);
// free
xr_vector<char*>::iterator it = list.begin();
xr_vector<char*>::iterator itE = list.end();
for (;it!=itE;++it) xr_free(*it);
it = fl_list.begin();
itE = fl_list.end();
for (;it!=itE;++it) xr_free(*it);
exclude_exts.clear_and_free();
}
void CPhysicObject::create_collision_model ( )
{
xr_delete( collidable.model );
VERIFY( Visual() );
IKinematics *K = Visual()->dcast_PKinematics ();
VERIFY( K );
CInifile* ini = K->LL_UserData();
if( ini && ini->section_exist( "collide" ) && ini->line_exist("collide", "mesh" ) && ini->r_bool("collide", "mesh" ) )
{
collidable.model = xr_new<CCF_DynamicMesh>( this );
return;
}
collidable.model = xr_new<CCF_Skeleton>(this);
/*
switch(m_type) {
case epotBox:
case epotFixedChain:
case epotFreeChain :
case epotSkeleton : collidable.model = xr_new<CCF_Skeleton>(this); break;
default: NODEFAULT;
}
*/
}
void CCar::ParseDefinitions()
{
bone_map.clear();
IKinematics* pKinematics=smart_cast<IKinematics*>(Visual());
bone_map.insert(mk_pair(pKinematics->LL_GetBoneRoot(),physicsBone()));
CInifile* ini = pKinematics->LL_UserData();
R_ASSERT2(ini,"Car has no description !!! See ActorEditor Object - UserData");
CExplosive::Load(ini,"explosion");
//CExplosive::SetInitiator(ID());
m_camera_position = ini->r_fvector3("car_definition","camera_pos");
///////////////////////////car definition///////////////////////////////////////////////////
fill_wheel_vector (ini->r_string ("car_definition","driving_wheels"),m_driving_wheels);
fill_wheel_vector (ini->r_string ("car_definition","steering_wheels"),m_steering_wheels);
fill_wheel_vector (ini->r_string ("car_definition","breaking_wheels"),m_breaking_wheels);
fill_exhaust_vector (ini->r_string ("car_definition","exhausts"),m_exhausts);
fill_doors_map (ini->r_string ("car_definition","doors"),m_doors);
///////////////////////////car properties///////////////////////////////
m_max_power = ini->r_float("car_definition","engine_power");
m_max_power *= (0.8f*1000.f);
m_max_rpm = ini->r_float("car_definition","max_engine_rpm");
m_max_rpm *= (1.f/60.f*2.f*M_PI);
m_min_rpm = ini->r_float("car_definition","idling_engine_rpm");
m_min_rpm *= (1.f/60.f*2.f*M_PI);
m_power_rpm = ini->r_float("car_definition","max_power_rpm");
m_power_rpm *= (1.f/60.f*2.f*M_PI);//
m_torque_rpm = ini->r_float("car_definition","max_torque_rpm");
m_torque_rpm *= (1.f/60.f*2.f*M_PI);//
m_power_increment_factor = READ_IF_EXISTS(ini,r_float,"car_definition","power_increment_factor",m_power_increment_factor);
m_rpm_increment_factor = READ_IF_EXISTS(ini,r_float,"car_definition","rpm_increment_factor",m_rpm_increment_factor);
m_power_decrement_factor = READ_IF_EXISTS(ini,r_float,"car_definition","power_decrement_factor",m_power_increment_factor);
m_rpm_decrement_factor = READ_IF_EXISTS(ini,r_float,"car_definition","rpm_decrement_factor",m_rpm_increment_factor);
m_power_neutral_factor = READ_IF_EXISTS(ini,r_float,"car_definition","power_neutral_factor",m_power_neutral_factor);
R_ASSERT2(m_power_neutral_factor>0.1f&&m_power_neutral_factor<1.f,"power_neutral_factor must be 0 - 1 !!");
if(ini->line_exist("car_definition","exhaust_particles"))
{
m_exhaust_particles =ini->r_string("car_definition","exhaust_particles");
}
b_auto_switch_transmission= !!ini->r_bool("car_definition","auto_transmission");
InitParabola ();
m_axle_friction = ini->r_float("car_definition","axle_friction");
m_steering_speed = ini->r_float("car_definition","steering_speed");
if(ini->line_exist("car_definition","break_time"))
{
m_break_time=ini->r_float("car_definition","break_time");
}
/////////////////////////transmission////////////////////////////////////////////////////////////////////////
float main_gear_ratio=ini->r_float("car_definition","main_gear_ratio");
R_ASSERT2(ini->section_exist("transmission_gear_ratio"),"no section transmission_gear_ratio");
m_gear_ratious.push_back(ini->r_fvector3("transmission_gear_ratio","R"));
m_gear_ratious[0][0]=-m_gear_ratious[0][0]*main_gear_ratio;
string32 rat_num;
for(int i=1;true;++i)
{
xr_sprintf(rat_num,"N%d",i);
if(!ini->line_exist("transmission_gear_ratio",rat_num)) break;
Fvector gear_rat=ini->r_fvector3("transmission_gear_ratio",rat_num);
gear_rat[0]*=main_gear_ratio;
gear_rat[1]*=(1.f/60.f*2.f*M_PI);
gear_rat[2]*=(1.f/60.f*2.f*M_PI);
m_gear_ratious.push_back(gear_rat);
}
///////////////////////////////sound///////////////////////////////////////////////////////
m_car_sound->Init();
///////////////////////////////fuel///////////////////////////////////////////////////
m_fuel_tank=ini->r_float("car_definition","fuel_tank");
m_fuel=m_fuel_tank;
m_fuel_consumption=ini->r_float("car_definition","fuel_consumption");
m_fuel_consumption/=100000.f;
if(ini->line_exist("car_definition","exhaust_particles"))
m_exhaust_particles = ini->r_string("car_definition","exhaust_particles");
///////////////////////////////lights///////////////////////////////////////////////////
m_lights.Init(this);
m_lights.ParseDefinitions();
if(ini->section_exist("animations"))
{
m_driver_anim_type=ini->r_u16("animations","driver_animation_type");
}
if(ini->section_exist("doors"))
{
m_doors_torque_factor=ini->r_u16("doors","open_torque_factor");
}
m_damage_particles.Init(this);
}