예제 #1
0
void CAutoFactory::DeleteObject(bool all)
{
    if ( !all )
    {
        CObject* cargo = SearchCargo();  // transform metal?
        if ( cargo != nullptr )
        {
            CObjectManager::GetInstancePointer()->DeleteObject(cargo);
        }

        CObject* vehicle = SearchVehicle();
        if ( vehicle != nullptr )
        {
            CObjectManager::GetInstancePointer()->DeleteObject(vehicle);
        }
    }

    if ( m_channelSound != -1 )
    {
        m_sound->FlushEnvelope(m_channelSound);
        m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f, 1.0f, SOPER_STOP);
        m_channelSound = -1;
    }

    CAuto::DeleteObject(all);
}
예제 #2
0
void CAutoFactory::DeleteObject(bool bAll)
{
    CObject*    fret;
    CObject*    vehicle;

    if ( !bAll )
    {
        fret = SearchFret();  // transform metal?
        if ( fret != 0 )
        {
            fret->DeleteObject();  // destroys the metal
            delete fret;
        }

        vehicle = SearchVehicle();
        if ( vehicle != 0 )
        {
            vehicle->DeleteObject();  // destroys the vehicle
            delete vehicle;
        }
    }

    if ( m_channelSound != -1 )
    {
        m_sound->FlushEnvelope(m_channelSound);
        m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f, 1.0f, SOPER_STOP);
        m_channelSound = -1;
    }

    CAuto::DeleteObject(bAll);
}
예제 #3
0
파일: taskreset.cpp 프로젝트: OdyX/colobot
Error CTaskReset::Start(Math::Vector goal, Math::Vector angle)
{
    CObject*    fret;
    int     i;

    fret = m_object->GetFret();
    if ( fret != 0 && fret->GetResetCap() == RESET_MOVE )
    {
        fret->SetTruck(0);
        m_object->SetFret(0);  // does nothing
    }

    if ( !m_main->GetNiceReset() )  // quick return?
    {
        m_object->SetPosition(0, goal);
        m_object->SetAngle(0, angle);
        m_brain->RunProgram(m_object->GetResetRun());

        m_bError = false;
        return ERR_OK;
    }

    m_begin = m_object->GetPosition(0);
    m_goal = goal;
    m_angle = angle;

    if ( SearchVehicle() )  // starting location occupied?
    {
        m_bError = true;
        return ERR_RESET_NEAR;
    }

    m_iAngle = m_object->GetAngleY(0);
    m_time = 0.0f;
    m_phase = TRSP_ZOUT;
    m_speed = 1.0f/RESET_DELAY_ZOOM;
    m_progress = 0.0f;
    m_lastParticle = 0.0f;

    m_object->SetResetBusy(true);

    i = m_sound->Play(SOUND_GGG, m_begin, 1.0f, 2.0f, true);
    m_sound->AddEnvelope(i, 0.0f, 0.5f, RESET_DELAY_ZOOM, SOPER_STOP);

    m_bError = false;
    return ERR_OK;
}
예제 #4
0
bool CAutoFactory::EventProcess(const Event &event)
{
    ObjectType  type;
    CObject*    fret;
    CObject*    vehicle;
    Math::Matrix*   mat;
    CPhysics*   physics;
    Math::Vector    pos, speed;
    Math::Point     dim;
    float       zoom, angle, prog;
    int         i;

    CAuto::EventProcess(event);

    if ( m_engine->GetPause() )  return true;

    if ( m_object->GetSelect() )  // factory selected?
    {
        if ( event.type == EVENT_UPDINTERFACE )
        {
            CreateInterface(true);
        }

        type = OBJECT_NULL;
        if ( event.type == EVENT_OBJECT_FACTORYwa )  type = OBJECT_MOBILEwa;
        if ( event.type == EVENT_OBJECT_FACTORYta )  type = OBJECT_MOBILEta;
        if ( event.type == EVENT_OBJECT_FACTORYfa )  type = OBJECT_MOBILEfa;
        if ( event.type == EVENT_OBJECT_FACTORYia )  type = OBJECT_MOBILEia;
        if ( event.type == EVENT_OBJECT_FACTORYws )  type = OBJECT_MOBILEws;
        if ( event.type == EVENT_OBJECT_FACTORYts )  type = OBJECT_MOBILEts;
        if ( event.type == EVENT_OBJECT_FACTORYfs )  type = OBJECT_MOBILEfs;
        if ( event.type == EVENT_OBJECT_FACTORYis )  type = OBJECT_MOBILEis;
        if ( event.type == EVENT_OBJECT_FACTORYwc )  type = OBJECT_MOBILEwc;
        if ( event.type == EVENT_OBJECT_FACTORYtc )  type = OBJECT_MOBILEtc;
        if ( event.type == EVENT_OBJECT_FACTORYfc )  type = OBJECT_MOBILEfc;
        if ( event.type == EVENT_OBJECT_FACTORYic )  type = OBJECT_MOBILEic;
        if ( event.type == EVENT_OBJECT_FACTORYwi )  type = OBJECT_MOBILEwi;
        if ( event.type == EVENT_OBJECT_FACTORYti )  type = OBJECT_MOBILEti;
        if ( event.type == EVENT_OBJECT_FACTORYfi )  type = OBJECT_MOBILEfi;
        if ( event.type == EVENT_OBJECT_FACTORYii )  type = OBJECT_MOBILEii;
        if ( event.type == EVENT_OBJECT_FACTORYrt )  type = OBJECT_MOBILErt;
        if ( event.type == EVENT_OBJECT_FACTORYrc )  type = OBJECT_MOBILErc;
        if ( event.type == EVENT_OBJECT_FACTORYrr )  type = OBJECT_MOBILErr;
        if ( event.type == EVENT_OBJECT_FACTORYrs )  type = OBJECT_MOBILErs;
        if ( event.type == EVENT_OBJECT_FACTORYsa )  type = OBJECT_MOBILEsa;

        Error err = StartAction(type);
        if( err != ERR_OK && err != ERR_GENERIC )
            m_displayText->DisplayError(err, m_object);

        if( err != ERR_GENERIC )
            return false;
    }

    if ( event.type != EVENT_FRAME )  return true;

    m_progress += event.rTime*m_speed;
    EventProgress(event.rTime);

    if ( m_phase == AFP_WAIT )
    {
        if ( m_progress >= 1.0f )
        {
            m_phase    = AFP_WAIT;  // still waiting ...
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    if ( m_phase == AFP_CLOSE_S )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                zoom = 0.30f+(m_progress-0.5f+i/16.0f)*2.0f*0.70f;
                if ( zoom < 0.30f )  zoom = 0.30f;
                if ( zoom > 1.00f )  zoom = 1.00f;
                m_object->SetZoomZ( 1+i, zoom);
                m_object->SetZoomZ(10+i, zoom);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetZoomZ( 1+i, 1.0f);
                m_object->SetZoomZ(10+i, 1.0f);
            }

            SoundManip(2.0f, 1.0f, 1.2f);

            m_phase    = AFP_CLOSE_T;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    if ( m_phase == AFP_CLOSE_T )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                angle = -m_progress*(Math::PI/2.0f)+Math::PI/2.0f;
                m_object->SetAngleZ( 1+i,  angle);
                m_object->SetAngleZ(10+i, -angle);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetAngleZ( 1+i, 0.0f);
                m_object->SetAngleZ(10+i, 0.0f);
            }

            m_channelSound = m_sound->Play(SOUND_FACTORY, m_object->GetPosition(0), 0.0f, 1.0f, true);
            m_sound->AddEnvelope(m_channelSound, 1.0f, 1.0f,  2.0f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_channelSound, 1.0f, 1.0f, 11.0f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f,  2.0f, SOPER_STOP);

            m_phase    = AFP_BUILD;
            m_progress = 0.0f;
            m_speed    = 1.0f/15.0f;
        }
    }

    if ( m_phase == AFP_BUILD )
    {
        if ( m_progress == 0.0f )
        {
            if ( !CreateVehicle() )
            {
                fret = SearchFret();  // transform metal?
                if ( fret != 0 )
                {
                    fret->SetLock(false);  // metal usable again
                }

                if ( m_channelSound != -1 )
                {
                    m_sound->FlushEnvelope(m_channelSound);
                    m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f, 1.0f, SOPER_STOP);
                    m_channelSound = -1;
                }

                m_phase    = AFP_OPEN_T;
                m_progress = 0.0f;
                m_speed    = 1.0f/2.0f;
                return true;
            }
        }

        if ( m_progress < 1.0f )
        {
            if ( m_type == OBJECT_MOBILErt ||
                 m_type == OBJECT_MOBILErc ||
                 m_type == OBJECT_MOBILErr ||
                 m_type == OBJECT_MOBILErs )
            {
                prog = 1.0f-m_progress*1.5f;
                if ( prog < 0.0f )  prog = 0.0f;
            }
            else
            {
                prog = 1.0f-m_progress;
            }
            angle = powf(prog*10.0f, 2.0f)+m_object->GetAngleY(0);

            vehicle = SearchVehicle();
            if ( vehicle != 0 )
            {
                vehicle->SetAngleY(0, angle+Math::PI);
                vehicle->SetZoom(0, m_progress);
            }

            fret = SearchFret();  // transform metal?
            if ( fret != 0 )
            {
                fret->SetZoom(0, 1.0f-m_progress);
            }

            if ( m_lastParticle+m_engine->ParticleAdapt(0.05f) <= m_time )
            {
                m_lastParticle = m_time;

#if 0
                pos = m_fretPos;
                pos.x += (Math::Rand()-0.5f)*20.0f;
                pos.z += (Math::Rand()-0.5f)*20.0f;
                pos.y += 1.0f;
                speed.x = (Math::Rand()-0.5f)*12.0f;
                speed.z = (Math::Rand()-0.5f)*12.0f;
                speed.y = Math::Rand()*12.0f;
                dim.x = Math::Rand()*12.0f+10.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, PARTIBLUE, 1.0f, 0.0f, 0.0f);
#else
                mat = m_object->GetWorldMatrix(0);
                pos = Math::Vector(-12.0f, 20.0f, -4.0f);  // position of chimney
                pos = Math::Transform(*mat, pos);
                pos.y += 2.0f;
                pos.x += (Math::Rand()-0.5f)*2.0f;
                pos.z += (Math::Rand()-0.5f)*2.0f;
                speed.x = 0.0f;
                speed.z = 0.0f;
                speed.y = 6.0f+Math::Rand()*6.0f;
                dim.x = Math::Rand()*1.5f+1.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTISMOKE3, 4.0f);
#endif
            }
        }
        else
        {
            m_displayText->DisplayError(INFO_FACTORY, m_object);
            SoundManip(2.0f, 1.0f, 1.2f);

            fret = SearchFret();  // transform metal?
            if ( fret != 0 )
            {
                fret->DeleteObject();  // removes the metal
                delete fret;
            }

            m_vehicle = vehicle = SearchVehicle();
            if ( vehicle != 0 )
            {
                physics = vehicle->GetPhysics();
                if ( physics != 0 )
                {
                    physics->SetFreeze(false);  // can move
                }

                vehicle->SetLock(false);  // vehicle useable
//?             vehicle->GetPhysics()->GetBrain()->StartTaskAdvance(16.0f);
                vehicle->SetAngleY(0, m_object->GetAngleY(0)+Math::PI);
                vehicle->SetZoom(0, 1.0f);
            }

            m_main->CreateShortcuts();

            m_phase    = AFP_OPEN_T;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    if ( m_phase == AFP_OPEN_T )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                angle = -(1.0f-m_progress)*(Math::PI/2.0f)+Math::PI/2.0f;
                m_object->SetAngleZ( 1+i,  angle);
                m_object->SetAngleZ(10+i, -angle);
            }

            if ( m_lastParticle+m_engine->ParticleAdapt(0.1f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_fretPos;
                pos.x += (Math::Rand()-0.5f)*10.0f;
                pos.z += (Math::Rand()-0.5f)*10.0f;
                pos.y += Math::Rand()*10.0f;
                speed = Math::Vector(0.0f, 0.0f, 0.0f);
                dim.x = 2.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIGLINT, 2.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetAngleZ( 1+i,  Math::PI/2.0f);
                m_object->SetAngleZ(10+i, -Math::PI/2.0f);
            }

            SoundManip(3.0f, 1.0f, 0.5f);

            m_phase    = AFP_OPEN_S;
            m_progress = 0.0f;
            m_speed    = 1.0f/3.0f;
        }
    }

    if ( m_phase == AFP_OPEN_S )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                zoom = 0.30f+((1.0f-m_progress)-0.5f+i/16.0f)*2.0f*0.70f;
                if ( zoom < 0.30f )  zoom = 0.30f;
                if ( zoom > 1.00f )  zoom = 1.00f;
                m_object->SetZoomZ( 1+i, zoom);
                m_object->SetZoomZ(10+i, zoom);
            }

            if ( m_lastParticle+m_engine->ParticleAdapt(0.1f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_fretPos;
                pos.x += (Math::Rand()-0.5f)*10.0f;
                pos.z += (Math::Rand()-0.5f)*10.0f;
                pos.y += Math::Rand()*10.0f;
                speed = Math::Vector(0.0f, 0.0f, 0.0f);
                dim.x = 2.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIGLINT, 2.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetZoomZ( 1+i, 0.30f);
                m_object->SetZoomZ(10+i, 0.30f);
            }

            if ( m_program != nullptr )
            {
                CBrain* brain = m_vehicle->GetBrain();
                if ( brain != nullptr )
                {
                    brain->SendProgram(0, const_cast<const char*>(m_program));
                    brain->SetScriptRun(0);
                    brain->RunProgram(0);
                }
            }

            SetBusy(false);
            UpdateInterface();

            m_phase    = AFP_WAIT;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    return true;
}
예제 #5
0
bool CAutoConvert::EventProcess(const Event &event)
{
    CObject*    cargo;
    Math::Vector    pos, speed;
    Math::Point     dim, c, p;
    float       angle;

    CAuto::EventProcess(event);

    if ( m_engine->GetPause() )  return true;
    if ( event.type != EVENT_FRAME )  return true;

    m_progress += event.rTime*m_speed;
    m_timeVirus -= event.rTime;

    if ( m_object->GetVirusMode() )  // contaminated by a virus?
    {
        if ( m_timeVirus <= 0.0f )
        {
            m_timeVirus = 0.1f+Math::Rand()*0.3f;

            angle = (Math::Rand()-0.5f)*0.3f;
            m_object->SetPartRotationY(1, angle);
            m_object->SetPartRotationY(2, angle);
            m_object->SetPartRotationY(3, angle+Math::PI);

            m_object->SetPartRotationX(2, -Math::PI*0.35f*(0.8f+Math::Rand()*0.2f));
            m_object->SetPartRotationX(3, -Math::PI*0.35f*(0.8f+Math::Rand()*0.2f));
        }
        return true;
    }

    EventProgress(event.rTime);

    if ( m_phase == ACP_STOP )  return true;

    if ( m_phase == ACP_WAIT )
    {
        if ( m_progress >= 1.0f )
        {
            cargo = SearchStone(OBJECT_STONE);  // Has stone transformed?
            if ( cargo == nullptr || SearchVehicle() )
            {
                m_phase    = ACP_WAIT;  // still waiting ...
                m_progress = 0.0f;
                m_speed    = 1.0f/2.0f;
            }
            else
            {
                cargo->SetLock(true);  // stone usable

                SetBusy(true);
                InitProgressTotal(3.0f+10.0f+1.5f);
                UpdateInterface();

                m_sound->Play(SOUND_OPEN, m_object->GetPosition(), 1.0f, 1.0f);
                m_bSoundClose = false;

                m_phase    = ACP_CLOSE;
                m_progress = 0.0f;
                m_speed    = 1.0f/3.0f;
            }
        }
    }

    if ( m_phase == ACP_CLOSE )
    {
        if ( m_progress < 1.0f )
        {
            if ( m_progress >= 0.8f && !m_bSoundClose )
            {
                m_bSoundClose = true;
                m_sound->Play(SOUND_CLOSE, m_object->GetPosition(), 1.0f, 0.8f);
            }
            angle = -Math::PI*0.35f*(1.0f-Math::Bounce(m_progress, 0.85f, 0.05f));
            m_object->SetPartRotationX(2, angle);
            m_object->SetPartRotationX(3, angle);
        }
        else
        {
            m_object->SetPartRotationX(2, 0.0f);
            m_object->SetPartRotationX(3, 0.0f);

            m_soundChannel = m_sound->Play(SOUND_CONVERT, m_object->GetPosition(), 0.0f, 0.25f, true);
            m_sound->AddEnvelope(m_soundChannel, 1.0f, 0.25f, 0.5f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_soundChannel, 1.0f, 1.00f, 4.5f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_soundChannel, 1.0f, 0.25f, 4.5f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_soundChannel, 0.0f, 0.25f, 0.5f, SOPER_STOP);

            m_phase    = ACP_ROTATE;
            m_progress = 0.0f;
            m_speed    = 1.0f/10.0f;
        }
    }

    if ( m_phase == ACP_ROTATE )
    {
        if ( m_progress < 1.0f )
        {
            if ( m_progress < 0.5f )
            {
                angle = powf((m_progress*2.0f)*5.0f, 2.0f);  // accelerates
            }
            else
            {
                angle = -powf((2.0f-m_progress*2.0f)*5.0f, 2.0f);  // slows
            }
            m_object->SetPartRotationY(1, angle);
            m_object->SetPartRotationY(2, angle);
            m_object->SetPartRotationY(3, angle+Math::PI);

            if ( m_lastParticle+m_engine->ParticleAdapt(0.05f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_object->GetPosition();
                c.x = pos.x;
                c.y = pos.z;
                p.x = c.x;
                p.y = c.y+6.0f;
                p = Math::RotatePoint(c, Math::Rand()*Math::PI*2.0f, p);
                pos.x = p.x;
                pos.z = p.y;
                pos.y += 1.0f;
                speed = Math::Vector(0.0f, 0.0f, 0.0f);
                dim.x = Math::Rand()*2.0f+1.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIGAS, 1.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            m_object->SetPartRotationY(1, 0.0f);
            m_object->SetPartRotationY(2, 0.0f);
            m_object->SetPartRotationY(3, Math::PI);

            cargo = SearchStone(OBJECT_STONE);
            if ( cargo != nullptr )
            {
                CObjectManager::GetInstancePointer()->DeleteObject(cargo);
            }

            CreateMetal();  // Create the metal
            m_sound->Play(SOUND_OPEN, m_object->GetPosition(), 1.0f, 1.5f);

            m_phase    = ACP_OPEN;
            m_progress = 0.0f;
            m_speed    = 1.0f/1.5f;
        }
    }

    if ( m_phase == ACP_OPEN )
    {
        if ( m_progress < 1.0f )
        {
            angle = -Math::PI*0.35f*Math::Bounce(m_progress, 0.7f, 0.2f);
            m_object->SetPartRotationX(2, angle);
            m_object->SetPartRotationX(3, angle);

            if ( m_progress < 0.9f &&
                 m_lastParticle+m_engine->ParticleAdapt(0.05f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_object->GetPosition();
                pos.x += (Math::Rand()-0.5f)*6.0f;
                pos.z += (Math::Rand()-0.5f)*6.0f;
                pos.y += Math::Rand()*4.0f;
                speed = Math::Vector(0.0f, 0.0f, 0.0f);
                dim.x = Math::Rand()*4.0f+3.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIBLUE, 1.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            m_soundChannel = -1;
            m_object->SetPartRotationX(2, -Math::PI*0.35f);
            m_object->SetPartRotationX(3, -Math::PI*0.35f);

            SetBusy(false);
            UpdateInterface();

            m_phase    = ACP_WAIT;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    return true;
}
예제 #6
0
bool CAutoStation::EventProcess(const Event &event)
{
    Math::Matrix*   mat;
    Math::Vector    pos, ppos, speed;
    Math::Point     dim;
    CObject*    vehicle;
    CObject*    power;
    Gfx::TerrainRes  res;
    float       big, energy, used, add, freq;

    CAuto::EventProcess(event);

    if ( m_engine->GetPause() )  return true;
    if ( event.type != EVENT_FRAME )  return true;

    m_timeVirus -= event.rTime;

    if ( m_object->GetVirusMode() )  // contaminated by a virus?
    {
        if ( !m_bLastVirus )
        {
            m_bLastVirus = true;
            m_energyVirus = m_object->GetEnergy();
        }

        if ( m_timeVirus <= 0.0f )
        {
            m_timeVirus = 0.1f+Math::Rand()*0.3f;

            m_object->SetEnergy(Math::Rand());
        }
        return true;
    }
    else
    {
        if ( m_bLastVirus )
        {
            m_bLastVirus = false;
            m_object->SetEnergy(m_energyVirus);
        }
    }

    UpdateInterface(event.rTime);

    big = m_object->GetEnergy();

    res = m_terrain->GetResource(m_object->GetPosition(0));
    if ( res == Gfx::TR_POWER )
    {
        big += event.rTime*0.01f;  // recharges the large battery
    }

    used = big;
    freq = 1.0f;
    if ( big > 0.0f )
    {
        vehicle = SearchVehicle();
        if ( vehicle != 0 )
        {
            power = vehicle->GetPower();
            if ( power != 0 && power->GetCapacity() == 1.0f )
            {
                energy = power->GetEnergy();
                add = event.rTime*0.2f;
                if ( add > big*4.0f )  add = big*4.0f;
                if ( add > 1.0f-energy )  add = 1.0f-energy;
                energy += add;  // Charging the battery
                power->SetEnergy(energy);
                if ( energy < freq )  freq = energy;
                big -= add/4.0f;  // discharge the large battery
            }

            power = vehicle->GetFret();
            if ( power != 0 && power->GetType() == OBJECT_POWER )
            {
                energy = power->GetEnergy();
                add = event.rTime*0.2f;
                if ( add > big*4.0f )  add = big*4.0f;
                if ( add > 1.0f-energy )  add = 1.0f-energy;
                energy += add;  // Charging the battery
                power->SetEnergy(energy);
                if ( energy < freq )  freq = energy;
                big -= add/4.0f;  // discharge the large battery
            }
        }
    }
    used -= big;  // energy used

    if ( freq < 1.0f )  // charging in progress?
    {
        freq = 1.0f+3.0f*freq;
        if ( m_soundChannel == -1 )
        {
            m_soundChannel = m_sound->Play(SOUND_STATION, m_object->GetPosition(0),
                                           0.3f, freq, true);
        }
        m_sound->Frequency(m_soundChannel, freq);
    }
    else
    {
        if ( m_soundChannel != -1 )
        {
            m_sound->Stop(m_soundChannel);
            m_soundChannel = -1;
        }
    }

    if ( used != 0.0f &&
         m_lastParticle+m_engine->ParticleAdapt(0.05f) <= m_time )
    {
        m_lastParticle = m_time;

        mat = m_object->GetWorldMatrix(0);
        pos = Math::Vector(-15.0f, 7.0f, 0.0f);  // battery position
        pos = Math::Transform(*mat, pos);
        speed.x = (Math::Rand()-0.5f)*20.0f;
        speed.y = (Math::Rand()-0.5f)*20.0f;
        speed.z = (Math::Rand()-0.5f)*20.0f;
        ppos.x = pos.x;
        ppos.y = pos.y+(Math::Rand()-0.5f)*4.0f;
        ppos.z = pos.z;
        dim.x = 1.5f;
        dim.y = 1.5f;
        m_particle->CreateParticle(ppos, speed, dim, Gfx::PARTIBLITZ, 1.0f, 0.0f, 0.0f);

#if 0
        ppos = pos;
        ppos.y += 1.0f;
        ppos.x += (Math::Rand()-0.5f)*3.0f;
        ppos.z += (Math::Rand()-0.5f)*3.0f;
        speed.x = 0.0f;
        speed.z = 0.0f;
        speed.y = 2.5f+Math::Rand()*6.0f;
        dim.x = Math::Rand()*1.5f+1.0f;
        dim.y = dim.x;
        m_particle->CreateParticle(ppos, speed, dim, Gfx::PARTISMOKE3, 4.0f);
#else
        ppos = pos;
        ppos.y += 1.0f;
        ppos.x += (Math::Rand()-0.5f)*3.0f;
        ppos.z += (Math::Rand()-0.5f)*3.0f;
        speed.x = 0.0f;
        speed.z = 0.0f;
        speed.y = 2.5f+Math::Rand()*5.0f;
        dim.x = Math::Rand()*1.0f+0.6f;
        dim.y = dim.x;
        m_particle->CreateParticle(ppos, speed, dim, Gfx::PARTIVAPOR, 3.0f);
#endif
    }

    if ( big < 0.0f )  big = 0.0f;
    if ( big > 1.0f )  big = 1.0f;
    m_object->SetEnergy(big);  // Shift the large battery

    return true;
}
예제 #7
0
bool CAutoNuclear::EventProcess(const Event &event)
{
    CObject*    fret;
    Math::Matrix*   mat;
    Math::Vector    pos, goal, speed;
    Math::Point     dim, rot;
    float       angle;
    int         i, max;

    CAuto::EventProcess(event);

    if ( m_engine->GetPause() )  return true;
    if ( event.type != EVENT_FRAME )  return true;

    m_progress += event.rTime*m_speed;
    m_timeVirus -= event.rTime;

    if ( m_object->GetVirusMode() )  // contaminated by a virus?
    {
        if ( m_timeVirus <= 0.0f )
        {
            m_timeVirus = 0.1f+Math::Rand()*0.3f;
        }
        return true;
    }

    EventProgress(event.rTime);

    if ( m_phase == ANUP_WAIT )
    {
        if ( m_progress >= 1.0f )
        {
            fret = SearchUranium();  // transform uranium?
            if ( fret == 0 || SearchVehicle() )
            {
                m_phase    = ANUP_WAIT;  // still waiting ...
                m_progress = 0.0f;
                m_speed    = 1.0f/2.0f;
            }
            else
            {
                fret->SetLock(true);  // usable uranium

                SetBusy(true);
                InitProgressTotal(1.5f+NUCLEAR_DELAY+1.5f);
                UpdateInterface();

                m_sound->Play(SOUND_OPEN, m_object->GetPosition(0), 1.0f, 1.4f);

                m_phase    = ANUP_CLOSE;
                m_progress = 0.0f;
                m_speed    = 1.0f/1.5f;
            }
        }
    }

    if ( m_phase == ANUP_CLOSE )
    {
        if ( m_progress < 1.0f )
        {
            angle = (1.0f-m_progress)*(135.0f*Math::PI/180.0f);
            m_object->SetAngleZ(1, angle);
        }
        else
        {
            m_object->SetAngleZ(1, 0.0f);

            mat = m_object->GetWorldMatrix(0);
            max = static_cast< int >(10.0f*m_engine->GetParticleDensity());
            for ( i=0 ; i<max ; i++ )
            {
                pos.x = 27.0f;
                pos.y =  0.0f;
                pos.z = (Math::Rand()-0.5f)*8.0f;
                pos = Transform(*mat, pos);
                speed.y = 0.0f;
                speed.x = 0.0f;
                speed.z = 0.0f;
                dim.x = Math::Rand()*1.0f+1.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTICRASH);
            }

            m_sound->Play(SOUND_CLOSE, m_object->GetPosition(0), 1.0f, 1.0f);

            m_channelSound = m_sound->Play(SOUND_NUCLEAR, m_object->GetPosition(0), 1.0f, 0.1f, true);
            m_sound->AddEnvelope(m_channelSound, 1.0f, 1.0f, NUCLEAR_DELAY-1.0f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f, 2.0f, SOPER_STOP);

            m_phase    = ANUP_GENERATE;
            m_progress = 0.0f;
            m_speed    = 1.0f/NUCLEAR_DELAY;
        }
    }

    if ( m_phase == ANUP_GENERATE )
    {
        if ( m_progress < 1.0f )
        {
            if ( m_lastParticle+m_engine->ParticleAdapt(0.10f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_object->GetPosition(0);
                pos.y += 30.0f;
                pos.x += (Math::Rand()-0.5f)*6.0f;
                pos.z += (Math::Rand()-0.5f)*6.0f;
                speed.y = Math::Rand()*15.0f+15.0f;
                speed.x = 0.0f;
                speed.z = 0.0f;
                dim.x = Math::Rand()*8.0f+8.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTICRASH);

                pos = m_pos;
                speed.x = (Math::Rand()-0.5f)*20.0f;
                speed.y = (Math::Rand()-0.5f)*20.0f;
                speed.z = (Math::Rand()-0.5f)*20.0f;
                dim.x = 2.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIBLITZ, 1.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            fret = SearchUranium();
            if ( fret != 0 )
            {
                fret->DeleteObject();  // destroyed uranium
                delete fret;
                m_object->SetPower(0);
            }

            CreatePower();  // creates the atomic cell

            max = static_cast< int >(20.0f*m_engine->GetParticleDensity());
            for ( i=0 ; i<max ; i++ )
            {
                pos = m_pos;
                pos.x += (Math::Rand()-0.5f)*3.0f;
                pos.y += (Math::Rand()-0.5f)*3.0f;
                pos.z += (Math::Rand()-0.5f)*3.0f;
                speed.y = 0.0f;
                speed.x = 0.0f;
                speed.z = 0.0f;
                dim.x = Math::Rand()*2.0f+2.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIBLUE, Math::Rand()*5.0f+5.0f, 0.0f, 0.0f);
            }

            m_sound->Play(SOUND_OPEN, m_object->GetPosition(0), 1.0f, 1.4f);

            m_phase    = ANUP_OPEN;
            m_progress = 0.0f;
            m_speed    = 1.0f/1.5f;
        }
    }

    if ( m_phase == ANUP_OPEN )
    {
        if ( m_progress < 1.0f )
        {
            angle = m_progress*(135.0f*Math::PI/180.0f);
            m_object->SetAngleZ(1, angle);
        }
        else
        {
            m_object->SetAngleZ(1, 135.0f*Math::PI/180.0f);

            SetBusy(false);
            UpdateInterface();

            m_main->DisplayError(INFO_NUCLEAR, m_object);

            m_phase    = ANUP_WAIT;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    return true;
}
예제 #8
0
bool CAutoFactory::EventProcess(const Event &event)
{
    ObjectType  type;
    CObject*    cargo;
    CObject*    vehicle;
    Math::Matrix*   mat;
    CPhysics*   physics;
    Math::Vector    pos, speed;
    Math::Point     dim;
    float       zoom, angle, prog;
    int         i;

    CAuto::EventProcess(event);

    if ( m_engine->GetPause() )  return true;

    if ( m_object->GetSelect() )  // factory selected?
    {
        if ( event.type == EVENT_UPDINTERFACE )
        {
            CreateInterface(true);
        }

        type = ObjectTypeFromFactoryButton(event.type);

        Error err = StartAction(type);
        if( err != ERR_OK && err != ERR_UNKNOWN )
            m_main->DisplayError(err, m_object);

        if( err != ERR_UNKNOWN )
            return false;
    }

    if ( event.type != EVENT_FRAME )  return true;

    m_progress += event.rTime*m_speed;
    EventProgress(event.rTime);

    if ( m_phase == AFP_WAIT )
    {
        if ( m_progress >= 1.0f )
        {
            m_phase    = AFP_WAIT;  // still waiting ...
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    if ( m_phase == AFP_CLOSE_S )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                zoom = 0.30f+(m_progress-0.5f+i/16.0f)*2.0f*0.70f;
                if ( zoom < 0.30f )  zoom = 0.30f;
                if ( zoom > 1.00f )  zoom = 1.00f;
                m_object->SetPartScaleZ( 1+i, zoom);
                m_object->SetPartScaleZ(10+i, zoom);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetPartScaleZ( 1+i, 1.0f);
                m_object->SetPartScaleZ(10+i, 1.0f);
            }

            SoundManip(2.0f, 1.0f, 1.2f);

            m_phase    = AFP_CLOSE_T;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    if ( m_phase == AFP_CLOSE_T )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                angle = -m_progress*(Math::PI/2.0f)+Math::PI/2.0f;
                m_object->SetPartRotationZ( 1+i,  angle);
                m_object->SetPartRotationZ(10+i, -angle);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetPartRotationZ( 1+i, 0.0f);
                m_object->SetPartRotationZ(10+i, 0.0f);
            }

            m_channelSound = m_sound->Play(SOUND_FACTORY, m_object->GetPosition(), 0.0f, 1.0f, true);
            m_sound->AddEnvelope(m_channelSound, 1.0f, 1.0f,  2.0f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_channelSound, 1.0f, 1.0f, 11.0f, SOPER_CONTINUE);
            m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f,  2.0f, SOPER_STOP);

            m_phase    = AFP_BUILD;
            m_progress = 0.0f;
            m_speed    = 1.0f/15.0f;
        }
    }

    if ( m_phase == AFP_BUILD )
    {
        if ( m_progress == 0.0f )
        {
            if ( !CreateVehicle() )
            {
                cargo = SearchCargo();  // transform metal?
                if ( cargo != nullptr )
                {
                    cargo->SetLock(false);  // metal usable again
                }

                if ( m_channelSound != -1 )
                {
                    m_sound->FlushEnvelope(m_channelSound);
                    m_sound->AddEnvelope(m_channelSound, 0.0f, 1.0f, 1.0f, SOPER_STOP);
                    m_channelSound = -1;
                }

                m_phase    = AFP_OPEN_T;
                m_progress = 0.0f;
                m_speed    = 1.0f/2.0f;
                return true;
            }
        }

        if ( m_progress < 1.0f )
        {
            if ( m_type == OBJECT_MOBILErt ||
                 m_type == OBJECT_MOBILErc ||
                 m_type == OBJECT_MOBILErr ||
                 m_type == OBJECT_MOBILErs )
            {
                prog = 1.0f-m_progress*1.5f;
                if ( prog < 0.0f )  prog = 0.0f;
            }
            else
            {
                prog = 1.0f-m_progress;
            }
            angle = powf(prog*10.0f, 2.0f)+m_object->GetRotationY();

            vehicle = SearchVehicle();
            if ( vehicle != nullptr )
            {
                vehicle->SetRotationY(angle+Math::PI);
                vehicle->SetScale(m_progress);
            }

            cargo = SearchCargo();  // transform metal?
            if ( cargo != nullptr )
            {
                cargo->SetScale(1.0f-m_progress);
            }

            if ( m_lastParticle+m_engine->ParticleAdapt(0.05f) <= m_time )
            {
                m_lastParticle = m_time;

                mat = m_object->GetWorldMatrix(0);
                pos = Math::Vector(-12.0f, 20.0f, -4.0f);  // position of chimney
                pos = Math::Transform(*mat, pos);
                pos.y += 2.0f;
                pos.x += (Math::Rand()-0.5f)*2.0f;
                pos.z += (Math::Rand()-0.5f)*2.0f;
                speed.x = 0.0f;
                speed.z = 0.0f;
                speed.y = 6.0f+Math::Rand()*6.0f;
                dim.x = Math::Rand()*1.5f+1.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTISMOKE3, 4.0f);
            }
        }
        else
        {
            m_main->DisplayError(INFO_FACTORY, m_object);
            SoundManip(2.0f, 1.0f, 1.2f);

            cargo = SearchCargo();  // transform metal?
            if ( cargo != nullptr )
            {
                CObjectManager::GetInstancePointer()->DeleteObject(cargo);
            }

            vehicle = SearchVehicle();
            if ( vehicle != nullptr )
            {
                assert(vehicle->Implements(ObjectInterfaceType::Movable));
                physics = dynamic_cast<CMovableObject*>(vehicle)->GetPhysics();
                physics->SetFreeze(false);  // can move

                vehicle->SetLock(false);  // vehicle useable
                vehicle->SetRotationY(m_object->GetRotationY()+Math::PI);
                vehicle->SetScale(1.0f);

                if ( !m_program.empty() )
                {
                    if (vehicle->Implements(ObjectInterfaceType::Programmable) && vehicle->Implements(ObjectInterfaceType::ProgramStorage))
                    {
                        Program* program = dynamic_cast<CProgramStorageObject*>(vehicle)->AddProgram();

                        if (boost::regex_search(m_program, boost::regex("^[A-Za-z0-9_]+$"))) // Public function name?
                        {
                            std::string code = "extern void object::Start_"+m_program+"()\n{\n\t\n\t//Automatically generated by object.factory()\n\t"+m_program+"();\n\t\n}\n";
                            program->script->SendScript(code.c_str());
                        }
                        else if (boost::regex_search(m_program, boost::regex("\\.txt$"))) // File name (with .txt extension)?
                        {
                            program->script->ReadScript(m_program.c_str());
                        }
                        else // Program code?
                        {
                            program->script->SendScript(m_program.c_str());
                        }

                        dynamic_cast<CProgrammableObject*>(vehicle)->RunProgram(program);
                    }
                }
            }

            m_main->CreateShortcuts();

            m_phase    = AFP_OPEN_T;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    if ( m_phase == AFP_OPEN_T )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                angle = -(1.0f-m_progress)*(Math::PI/2.0f)+Math::PI/2.0f;
                m_object->SetPartRotationZ( 1+i,  angle);
                m_object->SetPartRotationZ(10+i, -angle);
            }

            if ( m_lastParticle+m_engine->ParticleAdapt(0.1f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_cargoPos;
                pos.x += (Math::Rand()-0.5f)*10.0f;
                pos.z += (Math::Rand()-0.5f)*10.0f;
                pos.y += Math::Rand()*10.0f;
                speed = Math::Vector(0.0f, 0.0f, 0.0f);
                dim.x = 2.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIGLINT, 2.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetPartRotationZ( 1+i,  Math::PI/2.0f);
                m_object->SetPartRotationZ(10+i, -Math::PI/2.0f);
            }

            SoundManip(3.0f, 1.0f, 0.5f);

            m_phase    = AFP_OPEN_S;
            m_progress = 0.0f;
            m_speed    = 1.0f/3.0f;
        }
    }

    if ( m_phase == AFP_OPEN_S )
    {
        if ( m_progress < 1.0f )
        {
            for ( i=0 ; i<9 ; i++ )
            {
                zoom = 0.30f+((1.0f-m_progress)-0.5f+i/16.0f)*2.0f*0.70f;
                if ( zoom < 0.30f )  zoom = 0.30f;
                if ( zoom > 1.00f )  zoom = 1.00f;
                m_object->SetPartScaleZ( 1+i, zoom);
                m_object->SetPartScaleZ(10+i, zoom);
            }

            if ( m_lastParticle+m_engine->ParticleAdapt(0.1f) <= m_time )
            {
                m_lastParticle = m_time;

                pos = m_cargoPos;
                pos.x += (Math::Rand()-0.5f)*10.0f;
                pos.z += (Math::Rand()-0.5f)*10.0f;
                pos.y += Math::Rand()*10.0f;
                speed = Math::Vector(0.0f, 0.0f, 0.0f);
                dim.x = 2.0f;
                dim.y = dim.x;
                m_particle->CreateParticle(pos, speed, dim, Gfx::PARTIGLINT, 2.0f, 0.0f, 0.0f);
            }
        }
        else
        {
            for ( i=0 ; i<9 ; i++ )
            {
                m_object->SetPartScaleZ( 1+i, 0.30f);
                m_object->SetPartScaleZ(10+i, 0.30f);
            }

            SetBusy(false);
            UpdateInterface();

            m_phase    = AFP_WAIT;
            m_progress = 0.0f;
            m_speed    = 1.0f/2.0f;
        }
    }

    return true;
}
예제 #9
0
bool CAutoPowerStation::EventProcess(const Event &event)
{
    CAuto::EventProcess(event);

    if ( m_engine->GetPause() )  return true;
    if ( event.type != EVENT_FRAME )  return true;

    m_timeVirus -= event.rTime;

    if ( m_object->GetVirusMode() )  // contaminated by a virus?
    {
        if ( !m_bLastVirus )
        {
            m_bLastVirus = true;
            m_energyVirus = dynamic_cast<CPowerContainerObject*>(m_object)->GetEnergyLevel();
        }

        if ( m_timeVirus <= 0.0f )
        {
            m_timeVirus = 0.1f+Math::Rand()*0.3f;

            dynamic_cast<CPowerContainerObject*>(m_object)->SetEnergyLevel(Math::Rand());
        }
        return true;
    }
    else
    {
        if ( m_bLastVirus )
        {
            m_bLastVirus = false;
            dynamic_cast<CPowerContainerObject*>(m_object)->SetEnergyLevel(m_energyVirus);
        }
    }

    UpdateInterface(event.rTime);

    float big = dynamic_cast<CPowerContainerObject*>(m_object)->GetEnergy();

    Gfx::TerrainRes res = m_terrain->GetResource(m_object->GetPosition());
    if ( res == Gfx::TR_POWER )
    {
        big += event.rTime*0.01f;  // recharges the large battery
    }

    float used = big;
    float freq = 1.0f;
    if (big > 0.0f)
    {
        CObject* vehicle = SearchVehicle();
        if (vehicle != nullptr)
        {
            if (vehicle->Implements(ObjectInterfaceType::Powered))
            {
                CObject* power = dynamic_cast<CPoweredObject*>(vehicle)->GetPower();
                if ( power != nullptr && power->Implements(ObjectInterfaceType::PowerContainer) )
                {
                    CPowerContainerObject* powerContainer = dynamic_cast<CPowerContainerObject*>(power);
                    if (powerContainer->IsRechargeable())
                    {
                        float energy = powerContainer->GetEnergy();
                        float add = event.rTime*0.2f;
                        if ( add > big*4.0f )  add = big*4.0f;
                        if ( add > 1.0f-energy )  add = 1.0f-energy;
                        energy += add;  // Charging the battery
                        powerContainer->SetEnergy(energy);
                        if ( energy < freq )  freq = energy;
                        big -= add/4.0f;  // discharge the large battery
                    }
                }
            }

            if (vehicle->Implements(ObjectInterfaceType::Carrier))
            {
                CObject* power = dynamic_cast<CCarrierObject*>(vehicle)->GetCargo();
                if ( power != nullptr && power->Implements(ObjectInterfaceType::PowerContainer) )
                {
                    CPowerContainerObject* powerContainer = dynamic_cast<CPowerContainerObject*>(power);
                    if (powerContainer->IsRechargeable())
                    {
                        float energy = powerContainer->GetEnergy();
                        float add = event.rTime*0.2f;
                        if ( add > big*4.0f )  add = big*4.0f;
                        if ( add > 1.0f-energy )  add = 1.0f-energy;
                        energy += add;  // Charging the battery
                        powerContainer->SetEnergy(energy);
                        if ( energy < freq )  freq = energy;
                        big -= add/4.0f;  // discharge the large battery
                    }
                }
            }
        }
    }
    used -= big;  // energy used

    if ( freq < 1.0f )  // charging in progress?
    {
        freq = 1.0f+3.0f*freq;
        if ( m_soundChannel == -1 )
        {
            m_soundChannel = m_sound->Play(SOUND_STATION, m_object->GetPosition(),
                                           0.3f, freq, true);
        }
        m_sound->Frequency(m_soundChannel, freq);
    }
    else
    {
        if ( m_soundChannel != -1 )
        {
            m_sound->Stop(m_soundChannel);
            m_soundChannel = -1;
        }
    }

    if ( used != 0.0f &&
         m_lastParticle+m_engine->ParticleAdapt(0.05f) <= m_time )
    {
        m_lastParticle = m_time;

        Math::Vector    pos, ppos, speed;
        Math::Point     dim;

        Math::Matrix* mat = m_object->GetWorldMatrix(0);
        pos = Math::Vector(-15.0f, 7.0f, 0.0f);  // battery position
        pos = Math::Transform(*mat, pos);
        speed.x = (Math::Rand()-0.5f)*20.0f;
        speed.y = (Math::Rand()-0.5f)*20.0f;
        speed.z = (Math::Rand()-0.5f)*20.0f;
        ppos.x = pos.x;
        ppos.y = pos.y+(Math::Rand()-0.5f)*4.0f;
        ppos.z = pos.z;
        dim.x = 1.5f;
        dim.y = 1.5f;
        m_particle->CreateParticle(ppos, speed, dim, Gfx::PARTIBLITZ, 1.0f, 0.0f, 0.0f);

        ppos = pos;
        ppos.y += 1.0f;
        ppos.x += (Math::Rand()-0.5f)*3.0f;
        ppos.z += (Math::Rand()-0.5f)*3.0f;
        speed.x = 0.0f;
        speed.z = 0.0f;
        speed.y = 2.5f+Math::Rand()*5.0f;
        dim.x = Math::Rand()*1.0f+0.6f;
        dim.y = dim.x;
        m_particle->CreateParticle(ppos, speed, dim, Gfx::PARTIVAPOR, 3.0f);
    }

    if ( big < 0.0f )  big = 0.0f;
    if ( big > 1.0f )  big = 1.0f;
    dynamic_cast<CPowerContainerObject*>(m_object)->SetEnergy(big);  // Shift the large battery

    return true;
}