void CMonsterSquad::Attack_AssignTargetDir(ENTITY_VEC &members, const CEntity *enemy)
{
_elem first;
_elem last;
lines.clear();
// сортировать по убыванию расстояния от npc до врага
std::sort(members.begin(), members.end(), sort_predicate(enemy));
if (members.empty()) return;
float delta_yaw = PI_MUL_2 / members.size();
// обработать ближний элемент
first.pE = members.back();
first.p_from = first.pE->Position();
first.yaw = 0;
members.pop_back();
lines.push_back(first);
// обработать дальний элемент
if (!members.empty()) {
last.pE = members[0];
last.p_from = last.pE->Position();
last.yaw = PI;
members.erase (members.begin());
lines.push_back(last);
}
Fvector target_pos = enemy->Position();
float next_right_yaw = delta_yaw;
float next_left_yaw = delta_yaw;
// проходим с конца members в начало (начиная с наименьшего расстояния)
while (!members.empty()) {
CEntity *pCur;
pCur = members.back();
members.pop_back();
_elem cur_line;
cur_line.p_from = pCur->Position();
cur_line.pE = pCur;
// определить cur_line.yaw
float h1,p1,h2,p2;
Fvector dir;
dir.sub(target_pos, first.p_from);
dir.getHP(h1,p1);
dir.sub(target_pos, cur_line.p_from);
dir.getHP(h2,p2);
bool b_add_left = false;
if (angle_normalize_signed(h2 - h1) > 0) { // right
if ((next_right_yaw < PI) && !fsimilar(next_right_yaw, PI, PI/60.f)) b_add_left = false;
else b_add_left = true;
} else { // left
if ((next_left_yaw < PI) && !fsimilar(next_left_yaw, PI, PI/60.f)) b_add_left = true;
else b_add_left = false;
}
if (b_add_left) {
cur_line.yaw = -next_left_yaw;
next_left_yaw += delta_yaw;
} else {
cur_line.yaw = next_right_yaw;
next_right_yaw += delta_yaw;
}
lines.push_back(cur_line);
}
// Пройти по всем линиям и заполнить таргеты у npc
float first_h, first_p;
Fvector d; d.sub(target_pos,first.p_from);
d.getHP(first_h, first_p);
for (u32 i = 0; i < lines.size(); i++){
SSquadCommand command;
command.type = SC_ATTACK;
command.entity = enemy;
command.direction.setHP (first_h + lines[i].yaw, first_p);
UpdateCommand(lines[i].pE, command);
}
}
void CEnvironment::OnFrame()
{
#ifdef _EDITOR
SetGameTime (fGameTime+Device.fTimeDelta*fTimeFactor,fTimeFactor);
if (fsimilar(ed_to_time,DAY_LENGTH)&&fsimilar(ed_from_time,0.f)){
if (fGameTime>DAY_LENGTH) fGameTime-=DAY_LENGTH;
}else{
if (fGameTime>ed_to_time){
fGameTime=fGameTime-ed_to_time+ed_from_time;
Current[0]=Current[1]=0;
}
if (fGameTime<ed_from_time){
fGameTime=ed_from_time;
Current[0]=Current[1]=0;
}
}
if (!psDeviceFlags.is(rsEnvironment)) return;
#else
if (!g_pGameLevel) return;
#endif
// if (pInput->iGetAsyncKeyState(DIK_O)) SetWeatherFX("surge_day");
if (bWFX&&(wfx_time<=0.f)) StopWFX();
SelectEnvs (fGameTime);
VERIFY (Current[0]&&Current[1]);
float current_weight = TimeWeight(fGameTime,Current[0]->exec_time,Current[1]->exec_time);
// modifiers
CEnvModifier EM;
EM.far_plane = 0;
EM.fog_color.set ( 0,0,0 );
EM.fog_density = 0;
EM.ambient.set ( 0,0,0 );
EM.sky_color.set ( 0,0,0 );
EM.hemi_color.set ( 0,0,0 );
Fvector view = Device.vCameraPosition;
float mpower = 0;
for (xr_vector<CEnvModifier>::iterator mit=Modifiers.begin(); mit!=Modifiers.end(); mit++)
mpower += EM.sum(*mit,view);
// final lerp
CurrentEnv.lerp (this,*Current[0],*Current[1],current_weight,EM,mpower);
#ifndef SUN_DIR_NOT_DEBUG
if(CurrentEnv.sun_dir.y>0)
{
Log("CurrentEnv.sun_dir", CurrentEnv.sun_dir);
Log("current_weight", current_weight);
Log("mpower", mpower);
Log("Current[0]->sun_dir", Current[0]->sun_dir);
Log("Current[1]->sun_dir", Current[1]->sun_dir);
}
#endif
VERIFY2 (CurrentEnv.sun_dir.y<0,"Invalid sun direction settings in lerp");
if (::Render->get_generation()==IRender_interface::GENERATION_R2){
//. very very ugly hack
if (HW.Caps.raster_major >= 3 && HW.Caps.geometry.bVTF){
// tonemapping in VS
CurrentEnv.sky_r_textures.push_back (mk_pair(u32(D3DVERTEXTEXTURESAMPLER0),tonemap)); //. hack
CurrentEnv.sky_r_textures_env.push_back (mk_pair(u32(D3DVERTEXTEXTURESAMPLER0),tonemap)); //. hack
CurrentEnv.clouds_r_textures.push_back (mk_pair(u32(D3DVERTEXTEXTURESAMPLER0),tonemap)); //. hack
} else {
// tonemapping in PS
CurrentEnv.sky_r_textures.push_back (mk_pair(2,tonemap)); //. hack
CurrentEnv.sky_r_textures_env.push_back (mk_pair(2,tonemap)); //. hack
CurrentEnv.clouds_r_textures.push_back (mk_pair(2,tonemap)); //. hack
}
}
//. Setup skybox textures, somewhat ugly
IDirect3DBaseTexture9* e0 = CurrentEnv.sky_r_textures[0].second->surface_get();
IDirect3DBaseTexture9* e1 = CurrentEnv.sky_r_textures[1].second->surface_get();
tsky0->surface_set (e0); _RELEASE(e0);
tsky1->surface_set (e1); _RELEASE(e1);
PerlinNoise1D->SetFrequency (wind_gust_factor*MAX_NOISE_FREQ);
wind_strength_factor = clampr(PerlinNoise1D->GetContinious(Device.fTimeGlobal)+0.5f,0.f,1.f);
int l_id = (current_weight<0.5f)?Current[0]->lens_flare_id:Current[1]->lens_flare_id;
eff_LensFlare->OnFrame (l_id);
int t_id = (current_weight<0.5f)?Current[0]->tb_id:Current[1]->tb_id;
eff_Thunderbolt->OnFrame (t_id,CurrentEnv.bolt_period,CurrentEnv.bolt_duration);
eff_Rain->OnFrame ();
// ******************** Environment params (setting)
CHK_DX(HW.pDevice->SetRenderState( D3DRS_FOGCOLOR, color_rgba_f(CurrentEnv.fog_color.x,CurrentEnv.fog_color.y,CurrentEnv.fog_color.z,0) ));
CHK_DX(HW.pDevice->SetRenderState( D3DRS_FOGSTART, *(u32 *)(&CurrentEnv.fog_near) ));
CHK_DX(HW.pDevice->SetRenderState( D3DRS_FOGEND, *(u32 *)(&CurrentEnv.fog_far) ));
}
bool bonesBone::NeedTurn()
{
if (!fsimilar(params.cur_yaw, params.target_yaw, EPS_L)) return true;
return false;
}
void msimulator_Simulate( Fvector& result, Fvector& start, Fvector& end, float _radius, float _height)
{
SCollisionData cl_data;
float half_height = _height/2;
// Calc BB
Fbox b1,b2,bb;
create_bb (b1,start, _radius,_height);
create_bb (b2,end, _radius,_height);
bb.merge (b1,b2);
bb.grow (0.05f);
// Collision query
Fvector bbC,bbD;
bb.get_CD (bbC,bbD);
XRC.box_options (0);
XRC.box_query (&Level,bbC,bbD);
// XForm everything to ellipsoid space
Fvector xf;
xf.set (1/_radius,1/half_height,1/_radius);
Fvector Lposition;
Lposition.set (start);
Lposition.y += half_height;
Lposition.mul (xf);
Fvector target;
target.set (end);
target.y += half_height;
target.mul (xf);
Fvector Lvelocity;
Lvelocity.sub (end,start);
Lvelocity.mul (xf);
cl_data.vLastSafePosition.set (Lposition);
// Get the data for the triangles in question and scale to ellipsoid space
int tri_count = XRC.r_count();
clContactedT.resize (tri_count);
if (tri_count) {
Fvector vel_dir;
vel_dir.normalize_safe (Lvelocity);
for (int i_t=0; i_t<tri_count; i_t++) {
cl_tri& T = clContactedT[i_t];
CDB::RESULT& rp = XRC.r_begin()[i_t];
// CDB::TRI& O =
*(Level.get_tris()+rp.id);
T.p[0].mul (rp.verts[0],xf);
T.p[1].mul (rp.verts[1],xf);
T.p[2].mul (rp.verts[2],xf);
T.N.mknormal (T.p[0],T.p[1],T.p[2]);
T.d = -T.N.dotproduct(T.p[0]);
T.e10.sub(T.p[1],T.p[0]);
T.e10s = T.e10.magnitude();
T.e10.div(T.e10s);
T.e21.sub(T.p[2],T.p[1]);
T.e21s = T.e21.magnitude();
T.e21.div(T.e21s);
T.e02.sub(T.p[0],T.p[2]);
T.e02s = T.e02.magnitude();
T.e02.div(T.e02s);
}
}
// call the recursive collision response function
Fvector POS;
for (int i=0; i<3; i++) {
POS.set(msimulator_CollideWithWorld(cl_data, Lposition, Lvelocity, 0));
if (fsimilar(POS.x,target.x)&&fsimilar(POS.z,target.z)) break;
Lposition.set (POS);
Lvelocity.sub (target,POS);
Lvelocity.y = 0;
}
result.div(POS,xf);
result.y-=half_height;
}
void CActor::g_Orientate (u32 mstate_rl, float dt)
{
static float fwd_l_strafe_yaw = deg2rad(pSettings->r_float(ACTOR_ANIM_SECT, "fwd_l_strafe_yaw"));
static float back_l_strafe_yaw = deg2rad(pSettings->r_float(ACTOR_ANIM_SECT, "back_l_strafe_yaw"));
static float fwd_r_strafe_yaw = deg2rad(pSettings->r_float(ACTOR_ANIM_SECT, "fwd_r_strafe_yaw"));
static float back_r_strafe_yaw = deg2rad(pSettings->r_float(ACTOR_ANIM_SECT, "back_r_strafe_yaw"));
static float l_strafe_yaw = deg2rad(pSettings->r_float(ACTOR_ANIM_SECT, "l_strafe_yaw"));
static float r_strafe_yaw = deg2rad(pSettings->r_float(ACTOR_ANIM_SECT, "r_strafe_yaw"));
if(!g_Alive())return;
// visual effect of "fwd+strafe" like motion
float calc_yaw = 0;
if(mstate_real&mcClimb)
{
if(g_LadderOrient()) return;
}
switch(mstate_rl&mcAnyMove)
{
case mcFwd+mcLStrafe:
calc_yaw = +fwd_l_strafe_yaw;//+PI_DIV_4;
break;
case mcBack+mcRStrafe:
calc_yaw = +back_r_strafe_yaw;//+PI_DIV_4;
break;
case mcFwd+mcRStrafe:
calc_yaw = -fwd_r_strafe_yaw;//-PI_DIV_4;
break;
case mcBack+mcLStrafe:
calc_yaw = -back_l_strafe_yaw;//-PI_DIV_4;
break;
case mcLStrafe:
calc_yaw = +l_strafe_yaw;//+PI_DIV_3-EPS_L;
break;
case mcRStrafe:
calc_yaw = -r_strafe_yaw;//-PI_DIV_4+EPS_L;
break;
}
// lerp angle for "effect" and capture torso data from camera
angle_lerp (r_model_yaw_delta,calc_yaw,PI_MUL_4,dt);
// build matrix
Fmatrix mXFORM;
mXFORM.rotateY (-(r_model_yaw + r_model_yaw_delta));
mXFORM.c.set (Position());
XFORM().set (mXFORM);
//-------------------------------------------------
float tgt_roll = 0.f;
if (mstate_rl&mcLookout)
{
tgt_roll = (mstate_rl&mcLLookout)?-ACTOR_LOOKOUT_ANGLE:ACTOR_LOOKOUT_ANGLE;
if( (mstate_rl&mcLLookout) && (mstate_rl&mcRLookout) )
tgt_roll = 0.0f;
}
if (!fsimilar(tgt_roll,r_torso_tgt_roll,EPS)){
angle_lerp (r_torso_tgt_roll,tgt_roll,PI_MUL_2,dt);
r_torso_tgt_roll= angle_normalize_signed(r_torso_tgt_roll);
}
}
void CControlDirection::update_frame()
{
pitch_correction ();
SRotationEventData event_data;
event_data.angle = 0;
bool heading_similar = false;
bool pitch_similar = false;
// difference
float diff = angle_difference(m_pitch.current_angle, m_data.pitch.target_angle) * 4.0f;
clamp(diff, PI_DIV_6, 5 * PI_DIV_6);
m_data.pitch.target_speed = m_pitch.current_speed = diff;
// поправка угловой скорости в соответствии с текущей и таргетовой линейной скоростями
// heading speed correction
if (!fis_zero(m_man->movement().velocity_current()) && !fis_zero(m_man->movement().velocity_target()) && m_data.linear_dependency)
m_heading.current_speed = m_data.heading.target_speed * m_man->movement().velocity_current() / (m_man->movement().velocity_target() + EPS_L);
else
velocity_lerp (m_heading.current_speed, m_data.heading.target_speed, m_heading.current_acc, m_object->client_update_fdelta());
m_heading.current_angle = angle_normalize(m_heading.current_angle);
m_data.heading.target_angle = angle_normalize(m_data.heading.target_angle);
if (fsimilar(m_heading.current_angle, m_data.heading.target_angle)) heading_similar = true;
angle_lerp(m_heading.current_angle, m_data.heading.target_angle, m_heading.current_speed, m_object->client_update_fdelta());
if (!heading_similar && fsimilar(m_heading.current_angle, m_data.heading.target_angle)) {
event_data.angle |= SRotationEventData::eHeading;
}
// update pitch
velocity_lerp (m_pitch.current_speed, m_data.pitch.target_speed, m_pitch.current_acc, m_object->client_update_fdelta());
m_pitch.current_angle = angle_normalize_signed (m_pitch.current_angle);
m_data.pitch.target_angle = angle_normalize_signed (m_data.pitch.target_angle);
if (fsimilar(m_pitch.current_angle, m_data.pitch.target_angle)) pitch_similar = true;
angle_lerp (m_pitch.current_angle, m_data.pitch.target_angle, m_pitch.current_speed, m_object->client_update_fdelta());
if (!pitch_similar && fsimilar(m_pitch.current_angle, m_data.pitch.target_angle)) {
event_data.angle |= SRotationEventData::ePitch;
}
// set
m_man->path_builder().m_body.speed = m_heading.current_speed;
m_man->path_builder().m_body.current.yaw = m_heading.current_angle;
m_man->path_builder().m_body.target.yaw = m_heading.current_angle;
m_man->path_builder().m_body.current.pitch = m_pitch.current_angle;
m_man->path_builder().m_body.target.pitch = m_pitch.current_angle;
// save object position
Fvector P = m_object->Position();
// set angles
if(!m_object->animation_movement_controlled())
m_object->XFORM().setHPB (-m_man->path_builder().m_body.current.yaw,-m_man->path_builder().m_body.current.pitch,0);
// restore object position
m_object->Position() = P;
// if there is an event
if (event_data.angle) m_man->notify(ControlCom::eventRotationEnd, &event_data);
}
void CGlow::set_radius (float R) {
if (fsimilar(radius,R)) return;
radius = R;
spatial_move ();
};
void light::set_rotation (const Fvector& D, const Fvector& R) {
Fvector old_D = direction;
direction.normalize (D);
right.normalize(R);
if (!fsimilar(1.f, old_D.dotproduct(D))) spatial_move ();
}
void CWeapon::FireTrace (const Fvector& P, const Fvector& D)
{
VERIFY (m_magazine.size());
CCartridge &l_cartridge = m_magazine.back();
// Msg("ammo - %s", l_cartridge.m_ammoSect.c_str());
VERIFY (u16(-1) != l_cartridge.bullet_material_idx);
//-------------------------------------------------------------
l_cartridge.m_flags.set (CCartridge::cfTracer,(m_bHasTracers & !!l_cartridge.m_flags.test(CCartridge::cfTracer)));
if (m_u8TracerColorID != u8(-1))
l_cartridge.param_s.u8ColorID = m_u8TracerColorID;
//-------------------------------------------------------------
//повысить изношенность оружия с учетом влияния конкретного патрона
// float Deterioration = GetWeaponDeterioration();
// Msg("Deterioration = %f", Deterioration);
ChangeCondition(-GetWeaponDeterioration()*l_cartridge.param_s.impair);
float fire_disp = 0.f;
CActor* tmp_actor = NULL;
if (!IsGameTypeSingle())
{
tmp_actor = smart_cast<CActor*>(Level().CurrentControlEntity());
if (tmp_actor)
{
CEntity::SEntityState state;
tmp_actor->g_State(state);
if (m_first_bullet_controller.is_bullet_first(state.fVelocity))
{
fire_disp = m_first_bullet_controller.get_fire_dispertion();
m_first_bullet_controller.make_shot();
}
}
}
if (fsimilar(fire_disp, 0.f))
{
//CActor* tmp_actor = smart_cast<CActor*>(Level().CurrentControlEntity());
if (H_Parent() && (H_Parent() == tmp_actor))
{
fire_disp = tmp_actor->GetFireDispertion();
} else
{
fire_disp = GetFireDispersion(true);
}
}
bool SendHit = SendHitAllowed(H_Parent());
//выстерлить пулю (с учетом возможной стрельбы дробью)
for(int i = 0; i < l_cartridge.param_s.buckShot; ++i)
{
FireBullet(P, D, fire_disp, l_cartridge, H_Parent()->ID(), ID(), SendHit);
}
StartShotParticles ();
if(m_bLightShotEnabled)
Light_Start ();
// Ammo
m_magazine.pop_back ();
--iAmmoElapsed;
VERIFY((u32)iAmmoElapsed == m_magazine.size());
}
bool CIKFoot::GetFootStepMatrix( ik_goal_matrix &m, const Fmatrix &g_anim, const SIKCollideData &cld, bool collide, bool rotation, bool b_make_shift/*=true*/ )const
{
const Fmatrix global_anim = g_anim;
Fvector local_point; ToePosition( local_point ); //toe position in bone[2] space
Fvector global_point; global_anim.transform_tiny( global_point, local_point ); //non collided toe in global space
Fvector foot_normal; FootNormal( foot_normal );
global_anim.transform_dir( foot_normal );
#ifdef DEBUG
//if( ph_dbg_draw_mask.test( phDbgDrawIKGoal ) )
//{
// DBG_DrawLine( global_point, Fvector().add( global_point, foot_normal ), D3DCOLOR_XRGB( 0, 255, 255) );
//}
#endif
if( cld.m_collide_point == ik_foot_geom::heel || cld.m_collide_point == ik_foot_geom::side )
{
Fmatrix foot;ref_bone_to_foot( foot, g_anim );
Fvector heel;
HeelPosition( heel );
foot.transform_tiny(global_point, heel );
#ifdef DEBUG
if( ph_dbg_draw_mask.test( phDbgDrawIKGoal ) )
DBG_DrawPoint( global_point, 0.01, D3DCOLOR_XRGB( 0, 255, 255));
#endif
Fmatrix foot_to_ref;
ref_bone_to_foot_transform(foot_to_ref).transform_tiny(local_point, heel );
}
float dtoe_tri =-cld.m_plane.d - cld.m_plane.n.dotproduct( global_point );
if( !cld.collided || _abs( dtoe_tri ) > collide_dist )
{
m.set( global_anim, ik_goal_matrix::cl_free );
return false;
}
Fplane p = cld.m_plane;
Fmatrix xm; xm.set( global_anim );
ik_goal_matrix::e_collide_state cl_state = ik_goal_matrix::cl_undefined;
if( rotation )//!collide || ik_allign_free_foot
cl_state = rotate( xm, p, foot_normal, global_point, collide );
if( b_make_shift && make_shift( xm, local_point, collide, p, cld.m_pick_dir ) )
switch( cl_state )
{
case ik_goal_matrix::cl_aligned : break;
case ik_goal_matrix::cl_undefined :
case ik_goal_matrix::cl_free :
cl_state = ik_goal_matrix::cl_translational; break;
case ik_goal_matrix::cl_rotational:
cl_state = ik_goal_matrix::cl_mixed; break;
default: NODEFAULT;
}
else if( cl_state == ik_goal_matrix::cl_undefined )
cl_state = ik_goal_matrix::cl_free;
VERIFY( _valid( xm ) );
m.set( xm, cl_state );
#ifdef DEBUG
if(ph_dbg_draw_mask.test( phDbgDrawIKGoal ))
{
DBG_DrawPoint( global_point, 0.03f, D3DCOLOR_RGBA( 255, 0, 0, 255 ) );
}
if(!fsimilar( _abs( DET( g_anim ) - 1.f ), _abs( DET( m.get() ) - 1.f ), 0.001f ) )
Msg("scale g_anim: %f scale m: %f ", DET( g_anim ) , DET( m.get() ) );
#endif
return true;
}
void CCar::Init()
{
CPHCollisionDamageReceiver::Init();
//get reference wheel radius
IKinematics* pKinematics=smart_cast<IKinematics*>(Visual());
CInifile* ini = pKinematics->LL_UserData();
R_ASSERT2(ini,"Car has no description !!! See ActorEditor Object - UserData");
///SWheel& ref_wheel=m_wheels_map.find(pKinematics->LL_BoneID(ini->r_string("car_definition","reference_wheel")))->second;
if(ini->section_exist("air_resistance"))
{
PPhysicsShell()->SetAirResistance(default_k_l*ini->r_float("air_resistance","linear_factor"),default_k_w*ini->r_float("air_resistance","angular_factor"));
}
if(ini->line_exist("car_definition","steer"))
{
m_bone_steer=pKinematics->LL_BoneID(ini->r_string("car_definition","steer"));
VERIFY2(fsimilar(DET(pKinematics->LL_GetTransform(m_bone_steer)),1.f,EPS_L),"BBADD MTX");
pKinematics->LL_GetBoneInstance(m_bone_steer).set_callback(bctPhysics,cb_Steer,this);
}
m_steer_angle=0.f;
//ref_wheel.Init();
m_ref_radius=ini->r_float("car_definition","reference_radius");//ref_wheel.radius;
b_exploded =false;
b_engine_on =false;
b_clutch =false;
b_starting =false;
b_stalling =false;
b_transmission_switching =false;
m_root_transform.set(bone_map.find(pKinematics->LL_GetBoneRoot())->second.element->mXFORM);
m_current_transmission_num=0;
m_pPhysicsShell->set_DynamicScales(1.f,1.f);
CDamagableItem::Init(GetfHealth(),3);
float l_time_to_explosion=READ_IF_EXISTS(ini,r_float,"car_definition","time_to_explosion",120.f);
CDelayedActionFuse::Initialize(l_time_to_explosion,CDamagableItem::DamageLevelToHealth(2));
{
xr_map<u16,SWheel>::iterator i,e;
i=m_wheels_map.begin();
e=m_wheels_map.end();
for(;i!=e;++i)
{
i->second.Init();
i->second.CDamagableHealthItem::Init(100.f,2);
}
}
{
xr_vector<SWheelDrive>::iterator i,e;
i=m_driving_wheels.begin();
e=m_driving_wheels.end();
for(;i!=e;++i)
i->Init();
}
{
xr_vector<SWheelBreak>::iterator i,e;
i=m_breaking_wheels.begin();
e=m_breaking_wheels.end();
for(;i!=e;++i)
i->Init();
}
{
xr_vector<SWheelSteer>::iterator i,e;
i=m_steering_wheels.begin();
e=m_steering_wheels.end();
for(;i!=e;++i)
i->Init();
}
{
xr_vector<SExhaust>::iterator i,e;
i=m_exhausts.begin();
e=m_exhausts.end();
for(;i!=e;++i)
i->Init();
}
{
xr_map<u16,SDoor>::iterator i,e;
i=m_doors.begin();
e=m_doors.end();
for(;i!=e;++i)
{
i->second.Init();
i->second.CDamagableHealthItem::Init(100,1);
}
}
if(ini->section_exist("damage_items"))
{
CInifile::Sect& data = ini->r_section("damage_items");
for (CInifile::SectCIt I=data.Data.begin(); I!=data.Data.end(); I++){
const CInifile::Item& item = *I;
u16 index = pKinematics->LL_BoneID(*item.first);
R_ASSERT3(index != BI_NONE, "Wrong bone name", *item.first);
xr_map <u16,SWheel>::iterator i=m_wheels_map.find(index);
if(i!=m_wheels_map.end())
i->second.CDamagableHealthItem::Init(float(atof(*item.second)),2);
else
{
xr_map <u16,SDoor>::iterator i=m_doors.find(index);
R_ASSERT3(i!=m_doors.end(),"only wheel and doors bones allowed for damage defs",*item.first);
i->second.CDamagableHealthItem::Init(float(atof(*item.second)),1);
}
}
}
if(ini->section_exist("immunities"))
{
LoadImmunities("immunities",ini);
}
CDamageManager::reload("car_definition","damage",ini);
HandBreak();
Transmission(1);
}
void CEnvironment::OnFrame()
{
#ifdef _EDITOR
SetGameTime(fGameTime + Device.fTimeDelta*fTimeFactor, fTimeFactor);
if (fsimilar(ed_to_time, DAY_LENGTH) && fsimilar(ed_from_time, 0.f))
{
if (fGameTime > DAY_LENGTH) fGameTime -= DAY_LENGTH;
}
else
{
if (fGameTime > ed_to_time)
{
fGameTime = fGameTime - ed_to_time + ed_from_time;
Current[0] = Current[1] = 0;
}
if (fGameTime < ed_from_time)
{
fGameTime = ed_from_time;
Current[0] = Current[1] = 0;
}
}
if (!psDeviceFlags.is(rsEnvironment)) return;
#else
if (!g_pGameLevel) return;
#endif
// if (pInput->iGetAsyncKeyState(DIK_O)) SetWeatherFX("surge_day");
float current_weight;
lerp(current_weight);
// Igor. Dynamic sun position.
//AVO: allow sun to move as defined in configs
#ifdef DYNAMIC_SUN_MOVEMENT
if (!::Render->is_sun_static())
calculate_dynamic_sun_dir();
#endif
//-AVO
#ifndef MASTER_GOLD
if (CurrentEnv->sun_dir.y > 0)
{
Log("CurrentEnv->sun_dir", CurrentEnv->sun_dir);
// Log("current_weight", current_weight);
// Log("mpower", mpower);
Log("Current[0]->sun_dir", Current[0]->sun_dir);
Log("Current[1]->sun_dir", Current[1]->sun_dir);
}
VERIFY2(CurrentEnv->sun_dir.y < 0, "Invalid sun direction settings in lerp");
#endif // #ifndef MASTER_GOLD
PerlinNoise1D->SetFrequency(wind_gust_factor*MAX_NOISE_FREQ);
wind_strength_factor = clampr(PerlinNoise1D->GetContinious(Device.fTimeGlobal) + 0.5f, 0.f, 1.f);
shared_str l_id = (current_weight < 0.5f) ? Current[0]->lens_flare_id : Current[1]->lens_flare_id;
eff_LensFlare->OnFrame(l_id);
shared_str t_id = (current_weight < 0.5f) ? Current[0]->tb_id : Current[1]->tb_id;
eff_Thunderbolt->OnFrame(t_id, CurrentEnv->bolt_period, CurrentEnv->bolt_duration);
eff_Rain->OnFrame();
// ******************** Environment params (setting)
m_pRender->OnFrame(*this);
}
void CActorCondition::UpdateCondition()
{
if(psActorFlags.test(AF_GODMODE_RT))
{
UpdateSatiety();
UpdateBoosters();
m_fAlcohol += m_fV_Alcohol*m_fDeltaTime;
clamp (m_fAlcohol, 0.0f, 1.0f);
if(IsGameTypeSingle())
{
CEffectorCam* ce = Actor()->Cameras().GetCamEffector((ECamEffectorType)effAlcohol);
if(ce)
RemoveEffector(m_object,effAlcohol);
}
}
if (GodMode()) return;
if (!object().g_Alive()) return;
if (!object().Local() && m_object != Level().CurrentViewEntity()) return;
float base_weight = object().MaxCarryWeight();
float cur_weight = object().inventory().TotalWeight();
if ((object().mstate_real&mcAnyMove))
{
ConditionWalk( cur_weight / base_weight,
isActorAccelerated( object().mstate_real,object().IsZoomAimingMode() ),
(object().mstate_real&mcSprint) != 0 );
}
else
{
ConditionStand( cur_weight / base_weight );
}
if ( IsGameTypeSingle() )
{
float k_max_power = 1.0f;
if( true )
{
k_max_power = 1.0f + _min(cur_weight, base_weight) / base_weight
+ _max(0.0f, (cur_weight - base_weight) / 10.0f);
}
else
{
k_max_power = 1.0f;
}
SetMaxPower (GetMaxPower() - m_fPowerLeakSpeed * m_fDeltaTime * k_max_power);
}
m_fAlcohol += m_fV_Alcohol*m_fDeltaTime;
clamp (m_fAlcohol, 0.0f, 1.0f);
if ( IsGameTypeSingle() )
{
CEffectorCam* ce = Actor()->Cameras().GetCamEffector((ECamEffectorType)effAlcohol);
if ((m_fAlcohol>0.0001f) ){
if(!ce){
AddEffector(m_object,effAlcohol, "effector_alcohol", GET_KOEFF_FUNC(this, &CActorCondition::GetAlcohol));
}
}else{
if(ce)
RemoveEffector(m_object,effAlcohol);
}
string512 pp_sect_name;
shared_str ln = Level().name();
if(ln.size())
{
CEffectorPP* ppe = object().Cameras().GetPPEffector((EEffectorPPType)effPsyHealth);
strconcat (sizeof(pp_sect_name),pp_sect_name, "effector_psy_health", "_", *ln);
if(!pSettings->section_exist(pp_sect_name))
xr_strcpy (pp_sect_name, "effector_psy_health");
if ( !fsimilar(GetPsyHealth(), 1.0f, 0.05f) )
{
if(!ppe)
{
AddEffector(m_object,effPsyHealth, pp_sect_name, GET_KOEFF_FUNC(this, &CActorCondition::GetPsy));
}
}else
{
if(ppe)
RemoveEffector(m_object,effPsyHealth);
}
}
//- if(fis_zero(GetPsyHealth()))
//- SetHealth( 0.0f );
};
UpdateSatiety();
UpdateBoosters();
inherited::UpdateCondition();
if( IsGameTypeSingle() )
UpdateTutorialThresholds();
if(GetHealth()<0.05f && m_death_effector==NULL && IsGameTypeSingle())
{
if(pSettings->section_exist("actor_death_effector"))
m_death_effector = xr_new<CActorDeathEffector>(this, "actor_death_effector");
}
if(m_death_effector && m_death_effector->IsActual())
{
m_death_effector->UpdateCL ();
if(!m_death_effector->IsActual())
m_death_effector->Stop();
}
AffectDamage_InjuriousMaterialAndMonstersInfluence();
}
void light::set_range (float R) {
float eps = _max (range*0.1f,EPS_L);
if (fsimilar(range,R,eps)) return ;
range = R ;
spatial_move ();
};
void CUIArtefactParams::SetInfo(CGameObject *obj)
{
CArtefact *art = smart_cast<CArtefact*> (obj);
R_ASSERT2(art, "object is not CArtefact");
const shared_str& af_section = art->cNameSect();
CActor *pActor = Actor();
if (!pActor) return;
string128 _buff;
float _h = 0.0f;
DetachAll ();
for(u32 i=_item_start; i<_max_item_index; ++i)
{
CUIStatic* _s = m_info_items[i];
float _val;
if(i<_max_item_index1)
{
#ifdef AF_SHOW_DYNAMIC_PARAMS
float _actor_val = pActor->conditions().GetParamByName(af_actor_param_names[i]);
float CArtefact::* pRestoreSpeed = af_prop_offsets[i];
_val = (art->*pRestoreSpeed); // alpet: используется указатель на данные класса
#else
_val = pSettings->r_float (af_section, af_item_sect_names[i]);
float _actor_val = pSettings->r_float ("actor_condition", af_actor_param_names[i]);
#endif
if (fis_zero(_val)) continue;
_val = (_val/_actor_val)*100.0f;
}else
{
#ifdef AF_SHOW_DYNAMIC_PARAMS
u32 idx = i - _max_item_index1; // absorbation index
_val = art->m_ArtefactHitImmunities.immunities()[idx]; // real absorbation values
#else
shared_str _sect = pSettings->r_string(af_section, "hit_absorbation_sect");
_val = pSettings->r_float(_sect, af_item_sect_names[i]);
#endif
if (fsimilar(_val, 1.0f)) continue;
_val = (1.0f - _val);
_val *= 100.0f;
}
LPCSTR _sn = "%";
if(i==_item_radiation_restore_speed || i==_item_power_restore_speed)
{
_val /= 100.0f;
_sn = "";
}
LPCSTR _color = (_val>0)?"%c[green]":"%c[red]";
if(i==_item_bleeding_restore_speed)
_val *= -1.0f;
if(i==_item_bleeding_restore_speed || i==_item_radiation_restore_speed)
_color = (_val>0)?"%c[red]":"%c[green]";
sprintf_s ( _buff, "%s %s %+.0f %s",
CStringTable().translate(af_item_param_names[i]).c_str(),
_color,
_val,
_sn);
_s->SetText (_buff);
_s->SetWndPos (_s->GetWndPos().x, _h);
_h += _s->GetWndSize().y;
AttachChild (_s);
}
SetHeight (_h);
}
void light::set_cone (float angle) {
if (fsimilar(cone,angle)) return ;
VERIFY (cone < deg2rad(121.f)); // 120 is hard limit for lights
cone = angle;
spatial_move ();
}
void SPHNetState::net_Load(IReader &P,const Fvector& min,const Fvector& max)
{
VERIFY( !(fsimilar(min.x,max.x)&&fsimilar(min.y,max.y)&&fsimilar(min.z,max.z)) );
read(P,min,max);
}
void CUITrackBar::UpdatePosRelativeToMouse()
{
float _bkf = 0.0f;
int _bki = 0;
if(m_b_is_float)
{
_bkf = m_f_val;
}else
{
_bki = m_i_val;
}
float btn_width = m_pSlider->GetWidth();
float window_width = GetWidth();
//float fpos = cursor_pos.x;
// Start.Real Wolf.06.11.14.
Fvector2 pos;
GetAbsolutePos(pos);
float fpos = GetUICursor()->GetCursorPosition().x - pos.x;
// Finish.Real Wolf.06.11.14.
if( GetInvert() )
fpos = window_width - fpos;
if (fpos < btn_width/2)
fpos = btn_width/2;
else
if (fpos > window_width - btn_width/2)
fpos = window_width - btn_width/2;
float __fval;
float __fmax = (m_b_is_float)?m_f_max:(float)m_i_max;
float __fmin = (m_b_is_float)?m_f_min:(float)m_i_min;
float __fstep = (m_b_is_float)?m_f_step:(float)m_i_step;
__fval = (__fmax - __fmin)*(fpos - btn_width/2)/(window_width - btn_width)+ __fmin;
float _d = (__fval-__fmin);
float _v = _d/__fstep;
int _vi = iFloor(_v);
float _vf = __fstep*_vi;
if(_d-_vf>__fstep/2.0f)
_vf += __fstep;
__fval = __fmin+_vf;
clamp (__fval, __fmin, __fmax);
if(m_b_is_float)
m_f_val = __fval;
else
m_i_val = iFloor(__fval);
bool b_ch = false;
if(m_b_is_float)
{
b_ch = !fsimilar(_bkf, m_f_val);
}else
{
b_ch = (_bki != m_i_val);
}
if(b_ch)
GetMessageTarget()->SendMessage(this, BUTTON_CLICKED, NULL);
UpdatePos ();
}
BOOL CEffectorBobbing::Process (Fvector &p, Fvector &d, Fvector &n, float& /**fFov/**/, float& /**fFar/**/, float& /**fAspect/**/)
{
fTime += Device.fTimeDelta;
if (dwMState&ACTOR_DEFS::mcAnyMove){
if (fReminderFactor<1.f) fReminderFactor += SPEED_REMINDER*Device.fTimeDelta;
else fReminderFactor = 1.f;
}else{
if (fReminderFactor>0.f) fReminderFactor -= SPEED_REMINDER*Device.fTimeDelta;
else fReminderFactor = 0.f;
}
if (!fsimilar(fReminderFactor,0)){
Fmatrix M;
M.identity ();
M.j.set (n);
M.k.set (d);
M.i.crossproduct(n,d);
M.c.set (p);
// apply footstep bobbing effect
Fvector dangle;
float k = ((dwMState& ACTOR_DEFS::mcCrouch)?CROUCH_FACTOR:1.f);
float A, ST;
if(isActorAccelerated(dwMState, m_bZoomMode))
{
A = m_fAmplitudeRun*k;
ST = m_fSpeedRun*fTime*k;
}
else if(is_limping)
{
A = m_fAmplitudeLimp*k;
ST = m_fSpeedLimp*fTime*k;
}
else
{
A = m_fAmplitudeWalk*k;
ST = m_fSpeedWalk*fTime*k;
}
float _sinA = _abs(_sin(ST)*A)*fReminderFactor;
float _cosA = _cos(ST)*A*fReminderFactor;
p.y += _sinA;
dangle.x = _cosA;
dangle.z = _cosA;
dangle.y = _sinA;
Fmatrix R;
R.setHPB (dangle.x,dangle.y,dangle.z);
Fmatrix mR;
mR.mul (M,R);
d.set (mR.k);
n.set (mR.j);
}
// else{
// fTime = 0;
// }
return TRUE;
}
void CUILines::ParseText() {
if ( !fsimilar(m_oldWidth, m_wndSize.x) )
{
uFlags.set(flNeedReparse, TRUE);
m_oldWidth = m_wndSize.x;
}
if (!uFlags.test(flComplexMode) || !uFlags.test(flNeedReparse))
return;
if(NULL == m_pFont)
return;
Reset();
if (!m_text.empty() && NULL == m_pFont)
R_ASSERT2(false, "can't parse text without font");
CUILine* line = NULL;
if (uFlags.test(flColoringMode))
line = ParseTextToColoredLine(m_text.c_str());
else
{
line = xr_new<CUILine>();
CUISubLine subline;
subline.m_text = m_text;
subline.m_color = GetTextColor();
line->AddSubLine(&subline);
}
BOOL bNewLines = FALSE;
if (uFlags.test(flRecognizeNewLine))
if ( m_pFont->IsMultibyte() ) {
CUILine *ptmp_line = xr_new<CUILine>();
int vsz = line->m_subLines.size();
VERIFY( vsz );
for ( int i = 0 ; i < vsz ; i++ ) {
char *pszTemp = NULL;
const u32 tcolor = line->m_subLines[i].m_color;
char szTempLine[ MAX_MB_CHARS ] , *pszSearch = NULL;
size_t llen = xr_strlen( line->m_subLines[i].m_text.c_str() );
VERIFY( llen < MAX_MB_CHARS );
strcpy( szTempLine , line->m_subLines[i].m_text.c_str() );
pszSearch = szTempLine;
while ( ( pszTemp = strstr( pszSearch , "\\n" ) ) != NULL ) {
bNewLines = TRUE;
*pszTemp = '\0';
ptmp_line->AddSubLine( pszSearch , tcolor );
pszSearch = pszTemp + 2;
}
ptmp_line->AddSubLine( pszSearch , tcolor );
}
line->Clear();
xr_free( line );
line=ptmp_line;
} else
line->ProcessNewLines(); // process "\n"
if ( m_pFont->IsMultibyte() ) {
#define UBUFFER_SIZE 100
u16 aMarkers[ UBUFFER_SIZE ];
CUILine tmp_line;
char szTempLine[ MAX_MB_CHARS ];
float fTargetWidth = 1.0f;
UI()->ClientToScreenScaledWidth( fTargetWidth );
VERIFY( ( m_wndSize.x > 0 ) && ( fTargetWidth > 0 ) );
fTargetWidth = m_wndSize.x / fTargetWidth;
int vsz = line->m_subLines.size();
VERIFY( vsz );
if ( ( vsz > 1 ) && ( ! bNewLines ) ) { // only colored line, pizdets
for ( int i = 0 ; i < vsz ; i++ ) {
const char *pszText = line->m_subLines[i].m_text.c_str();
const u32 tcolor = line->m_subLines[i].m_color;
VERIFY( pszText );
tmp_line.AddSubLine( pszText , tcolor );
}
m_lines.push_back( tmp_line );
tmp_line.Clear();
} else {
for ( int i = 0 ; i < vsz ; i++ ) {
const char *pszText = line->m_subLines[i].m_text.c_str();
const u32 tcolor = line->m_subLines[i].m_color;
u16 uFrom = 0 , uPartLen = 0;
VERIFY( pszText );
u16 nMarkers = m_pFont->SplitByWidth( aMarkers , UBUFFER_SIZE , fTargetWidth , pszText );
for ( u16 j = 0 ; j < nMarkers ; j ++ ) {
uPartLen = aMarkers[ j ] - uFrom;
VERIFY( ( uPartLen > 0 ) && ( uPartLen < MAX_MB_CHARS ) );
strncpy( szTempLine , pszText + uFrom , uPartLen );
szTempLine[ uPartLen ] = '\0';
tmp_line.AddSubLine( szTempLine , tcolor );
m_lines.push_back( tmp_line );
tmp_line.Clear();
// Compiler bug :)
#pragma warning( disable : 4244 )
uFrom += uPartLen;
#pragma warning( default : 4244 )
}
strncpy( szTempLine , pszText + uFrom , MAX_MB_CHARS );
tmp_line.AddSubLine( szTempLine , tcolor );
m_lines.push_back( tmp_line );
tmp_line.Clear();
}
}
} else
{
float max_width = m_wndSize.x;
u32 sbl_cnt = line->m_subLines.size();
CUILine tmp_line;
string4096 buff;
float curr_width = 0.0f;
bool bnew_line = false;
float __eps = get_str_width(m_pFont,'o');//hack -(
for(u32 sbl_idx=0; sbl_idx<sbl_cnt; ++sbl_idx)
{
bool b_last_subl = (sbl_idx==sbl_cnt-1);
CUISubLine& sbl = line->m_subLines[sbl_idx];
//. Msg("%s",sbl.m_text.c_str());
u32 sub_len = (u32)sbl.m_text.length();
u32 curr_w_pos = 0;
u32 last_space_idx = 0;
for(u32 idx=0; idx<sub_len; ++idx)
{
bool b_last_ch = (idx==sub_len-1);
if(isspace(sbl.m_text[idx]))
last_space_idx = idx;
float w1 = get_str_width(m_pFont, sbl.m_text[idx]);
bool bOver = (curr_width+w1+__eps > max_width);
if(bOver || b_last_ch)
{
if(last_space_idx && !b_last_ch)
{
idx = last_space_idx;
last_space_idx = 0;
}
strncpy_s (buff, sizeof(buff), sbl.m_text.c_str()+curr_w_pos, idx-curr_w_pos+1);
//. Msg ("-%s",buff);
tmp_line.AddSubLine (buff , sbl.m_color);
curr_w_pos = idx+1;
} else
curr_width += w1;
if(bOver || (b_last_ch&&sbl.m_last_in_line) )
{
m_lines.push_back (tmp_line);
tmp_line.Clear ();
curr_width = 0.0f;
bnew_line = false;
}
}
if(b_last_subl && !tmp_line.IsEmpty())
{
m_lines.push_back (tmp_line);
tmp_line.Clear ();
curr_width = 0.0f;
bnew_line = false;
}
}
}
//. while (line->GetSize() > 0 )
//. m_lines.push_back(*line->CutByLength(m_pFont, m_wndSize.x, uFlags.test(flCutWordsMode)));
xr_delete(line);
uFlags.set(flNeedReparse, FALSE);
}
bool CControlDirection::is_turning(float eps_angle)
{
return (!fsimilar(m_heading.current_angle,m_data.heading.target_angle, eps_angle));
}
