Exemplo n.º 1
0
static mobj_t* getTeleportDestination(short tag)
{
    iterlist_t* list;

    list = P_GetSectorIterListForTag(tag, false);
    if(list)
    {
        Sector* sec = NULL;
        findmobjparams_t params;

        params.type = MT_TELEPORTMAN;
        params.foundMobj = NULL;

        IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
        IterList_RewindIterator(list);
        while((sec = IterList_MoveIterator(list)) != NULL)
        {
            params.sec = sec;

            if(Thinker_Iterate(P_MobjThinker, findMobj, &params))
            {   // Found one.
                return params.foundMobj;
            }
        }
    }

    return NULL;
}
Exemplo n.º 2
0
void EV_LightTurnOn(Line *line, float max)
{
    iterlist_t *list = P_GetSectorIterListForTag(P_ToXLine(line)->tag, false);
    if(!list) return;

    float lightLevel = 0;
    if(NON_ZERO(max))
        lightLevel = max;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        // If Max = 0 means to search for the highest light level in the
        // surrounding sector.
        if(IS_ZERO(max))
        {
            lightLevel = P_GetFloatp(sec, DMU_LIGHT_LEVEL);
            float otherLevel = DDMINFLOAT;
            P_FindSectorSurroundingHighestLight(sec, &otherLevel);
            if(otherLevel > lightLevel)
                lightLevel = otherLevel;
        }

        P_SetFloatp(sec, DMU_LIGHT_LEVEL, lightLevel);
    }
}
Exemplo n.º 3
0
/**
 * Start strobing lights (usually from a trigger)
 */
void EV_StartLightStrobing(Line *line)
{
    iterlist_t *list = P_GetSectorIterListForTag(P_ToXLine(line)->tag, false);
    if(!list) return;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        if(P_ToXSector(sec)->specialData)
            continue;

        P_SpawnStrobeFlash(sec, SLOWDARK, 0);
    }
}
Exemplo n.º 4
0
void EV_TurnTagLightsOff(Line *line)
{
    iterlist_t *list = P_GetSectorIterListForTag(P_ToXLine(line)->tag, false);
    if(!list) return;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        float lightLevel = P_GetFloatp(sec, DMU_LIGHT_LEVEL);
        float otherLevel = DDMAXFLOAT;
        P_FindSectorSurroundingLowestLight(sec, &otherLevel);
        if(otherLevel < lightLevel)
            lightLevel = otherLevel;

        P_SetFloatp(sec, DMU_LIGHT_LEVEL, lightLevel);
    }
}
Exemplo n.º 5
0
/**
 * d64tc
 */
void P_ThunderSector()
{
    if(!(P_Random() < 10)) return;

    iterlist_t *list = P_GetSectorIterListForTag(20000, false);
    if(!list) return;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        if(!(mapTime & 32))
        {
            P_SetFloatp(sec, DMU_LIGHT_LEVEL, 1);
        }
    }

    S_StartSound(SFX_SSSIT | DDSF_NO_ATTENUATION, NULL);
}
Exemplo n.º 6
0
dd_bool EV_StartFloorWaggle(int tag, int height, int speed, int offset, int timer)
{
    iterlist_t *list = P_GetSectorIterListForTag(tag, false);
    if(!list) return false;

    dd_bool retCode = false;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        if(P_ToXSector(sec)->specialData)
            continue; // Already moving, so keep going...

        retCode = true;

        waggle_t *waggle = (waggle_t *)Z_Calloc(sizeof(*waggle), PU_MAP, 0);
        waggle->thinker.function = (thinkfunc_t) T_FloorWaggle;
        Thinker_Add(&waggle->thinker);

        P_ToXSector(sec)->specialData = waggle;
        waggle->sector         = sec;
        waggle->originalHeight = P_GetDoublep(sec, DMU_FLOOR_HEIGHT);
        waggle->accumulator    = offset;
        waggle->accDelta       = FIX2FLT(speed << 10);
        waggle->scale          = 0;
        waggle->targetScale    = FIX2FLT(height << 10);
        waggle->scaleDelta     =
            FIX2FLT(FLT2FIX(waggle->targetScale) /
                    (TICSPERSEC + ((3 * TICSPERSEC) * height) / 255));
        waggle->ticker         = timer ? timer * 35 : -1;
        waggle->state          = WS_EXPAND;
    }

    return retCode;
}
Exemplo n.º 7
0
int EV_OpenPillar(Line * /*line*/, byte *args)
{
    iterlist_t *list = P_GetSectorIterListForTag((int) args[0], false);
    if(!list) return 0;

    int rtn = 0;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        // If already moving keep going...
        if(P_ToXSector(sec)->specialData)
            continue;

        if(!FEQUAL(P_GetDoublep(sec, DMU_FLOOR_HEIGHT),
                   P_GetDoublep(sec, DMU_CEILING_HEIGHT)))
            continue; // Pillar isn't closed.

        rtn = 1;

        pillar_t *pillar = (pillar_t *)Z_Calloc(sizeof(*pillar), PU_MAP, 0);
        pillar->thinker.function = (thinkfunc_t) T_BuildPillar;
        Thinker_Add(&pillar->thinker);

        P_ToXSector(sec)->specialData = pillar;
        pillar->sector = sec;
        if(!args[2])
        {
            P_FindSectorSurroundingLowestFloor(sec,
                P_GetDoublep(sec, DMU_FLOOR_HEIGHT), &pillar->floorDest);
        }
        else
        {
            pillar->floorDest =
                P_GetDoublep(sec, DMU_FLOOR_HEIGHT) - (coord_t) args[2];
        }

        if(!args[3])
        {
            P_FindSectorSurroundingHighestCeiling(sec, 0, &pillar->ceilingDest);
        }
        else
        {
            pillar->ceilingDest =
                P_GetDoublep(sec, DMU_CEILING_HEIGHT) + (coord_t) args[3];
        }

        if(P_GetDoublep(sec, DMU_FLOOR_HEIGHT) - pillar->floorDest >=
           pillar->ceilingDest - P_GetDoublep(sec, DMU_CEILING_HEIGHT))
        {
            pillar->floorSpeed = (float) args[1] * (1.0f / 8);
            pillar->ceilingSpeed =
                (P_GetDoublep(sec, DMU_CEILING_HEIGHT) - pillar->ceilingDest) *
                    (pillar->floorSpeed / (pillar->floorDest - P_GetDoublep(sec, DMU_FLOOR_HEIGHT)));
        }
        else
        {
            pillar->ceilingSpeed = (float) args[1] * (1.0f / 8);
            pillar->floorSpeed =
                (pillar->floorDest - P_GetDoublep(sec, DMU_FLOOR_HEIGHT)) *
                    (pillar->ceilingSpeed / (P_GetDoublep(sec, DMU_CEILING_HEIGHT) - pillar->ceilingDest));
        }

        pillar->direction = -1; // Open the pillar.
        SN_StartSequence((mobj_t *)P_GetPtrp(pillar->sector, DMU_EMITTER),
                         SEQ_PLATFORM + P_ToXSector(pillar->sector)->seqType);
    }

    return rtn;
}
Exemplo n.º 8
0
int EV_BuildPillar(Line * /*line*/, byte *args, dd_bool crush)
{
    iterlist_t *list = P_GetSectorIterListForTag((int) args[0], false);
    if(!list) return 0;

    int rtn = 0;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        // If already moving keep going...
        if(P_ToXSector(sec)->specialData)
            continue;

        if(FEQUAL(P_GetDoublep(sec, DMU_FLOOR_HEIGHT),
                  P_GetDoublep(sec, DMU_CEILING_HEIGHT)))
            continue; // Pillar is already closed.

        rtn = 1;
        coord_t newHeight = 0;
        if(!args[2])
        {
            newHeight = P_GetDoublep(sec, DMU_FLOOR_HEIGHT) +
                ((P_GetDoublep(sec, DMU_CEILING_HEIGHT) -
                  P_GetDoublep(sec, DMU_FLOOR_HEIGHT)) * .5f);
        }
        else
        {
            newHeight = P_GetDoublep(sec, DMU_FLOOR_HEIGHT) + (coord_t) args[2];
        }

        pillar_t *pillar = (pillar_t *)Z_Calloc(sizeof(*pillar), PU_MAP, 0);
        pillar->thinker.function = (thinkfunc_t) T_BuildPillar;
        Thinker_Add(&pillar->thinker);

        P_ToXSector(sec)->specialData = pillar;
        pillar->sector = sec;

        if(!args[2])
        {
            pillar->ceilingSpeed = pillar->floorSpeed =
                (float) args[1] * (1.0f / 8);
        }
        else if(newHeight - P_GetDoublep(sec, DMU_FLOOR_HEIGHT) >
                P_GetDoublep(sec, DMU_CEILING_HEIGHT) - newHeight)
        {
            pillar->floorSpeed = (float) args[1] * (1.0f / 8);
            pillar->ceilingSpeed =
                (P_GetDoublep(sec, DMU_CEILING_HEIGHT) - newHeight) *
                      (pillar->floorSpeed / (newHeight - P_GetDoublep(sec, DMU_FLOOR_HEIGHT)));
        }
        else
        {
            pillar->ceilingSpeed = (float) args[1] * (1.0f / 8);
            pillar->floorSpeed =
                (newHeight - P_GetDoublep(sec, DMU_FLOOR_HEIGHT)) *
                    (pillar->ceilingSpeed / (P_GetDoublep(sec, DMU_CEILING_HEIGHT) - newHeight));
        }

        pillar->floorDest = newHeight;
        pillar->ceilingDest = newHeight;
        pillar->direction = 1;
        pillar->crush = crush * (int) args[3];
        SN_StartSequence((mobj_t *)P_GetPtrp(pillar->sector, DMU_EMITTER),
                         SEQ_PLATFORM + P_ToXSector(pillar->sector)->seqType);
    }
    return rtn;
}
Exemplo n.º 9
0
static int doPlat(Line *line, int tag, plattype_e type, int amount)
#endif
{
#if !__JHEXEN__
    Sector *frontSector = (Sector *)P_GetPtrp(line, DMU_FRONT_SECTOR);
#endif

    iterlist_t *list = P_GetSectorIterListForTag(tag, false);
    if(!list) return 0;

    int rtn = 0;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        xsector_t *xsec = P_ToXSector(sec);

        if(xsec->specialData)
            continue;

        // Find lowest & highest floors around sector
        rtn = 1;

        plat_t *plat = (plat_t *) Z_Calloc(sizeof(*plat), PU_MAP, 0);
        plat->thinker.function = T_PlatRaise;
        Thinker_Add(&plat->thinker);

        xsec->specialData = plat;

        plat->type   = type;
        plat->sector = sec;
        plat->crush  = false;
        plat->tag    = tag;
#if __JHEXEN__
        plat->speed  = (float) args[1] * (1.0 / 8);
#endif

        coord_t floorHeight = P_GetDoublep(sec, DMU_FLOOR_HEIGHT);

        switch(type)
        {
#if !__JHEXEN__
        case PT_RAISETONEARESTANDCHANGE:
            plat->speed = PLATSPEED * .5;

            P_SetPtrp(sec, DMU_FLOOR_MATERIAL,
                      P_GetPtrp(frontSector, DMU_FLOOR_MATERIAL));

            {
            coord_t nextFloor;
            if(P_FindSectorSurroundingNextHighestFloor(sec, floorHeight, &nextFloor))
                plat->high = nextFloor;
            else
                plat->high = floorHeight;
            }

            plat->wait = 0;
            plat->state = PS_UP;
            // No more damage if applicable.
            xsec->special = 0;
            S_PlaneSound((Plane *)P_GetPtrp(sec, DMU_FLOOR_PLANE), SFX_PLATFORMMOVE);
            break;

        case PT_RAISEANDCHANGE:
            plat->speed = PLATSPEED * .5;

            P_SetPtrp(sec, DMU_FLOOR_MATERIAL,
                      P_GetPtrp(frontSector, DMU_FLOOR_MATERIAL));

            plat->high = floorHeight + amount;
            plat->wait = 0;
            plat->state = PS_UP;
            S_PlaneSound((Plane *)P_GetPtrp(sec, DMU_FLOOR_PLANE), SFX_PLATFORMMOVE);
            break;
#endif
        case PT_DOWNWAITUPSTAY:
            P_FindSectorSurroundingLowestFloor(sec,
                P_GetDoublep(sec, DMU_FLOOR_HEIGHT), &plat->low);
#if __JHEXEN__
            plat->low += 8;
#else
            plat->speed = PLATSPEED * 4;
#endif
            if(plat->low > floorHeight)
                plat->low = floorHeight;

            plat->high = floorHeight;
            plat->state = PS_DOWN;
#if __JHEXEN__
            plat->wait = (int) args[2];
#else
            plat->wait = PLATWAIT * TICSPERSEC;
#endif
#if !__JHEXEN__
            S_PlaneSound((Plane *)P_GetPtrp(sec, DMU_FLOOR_PLANE), SFX_PLATFORMSTART);
#endif
            break;

#if __JDOOM64__ || __JHEXEN__
        case PT_UPWAITDOWNSTAY:
            P_FindSectorSurroundingHighestFloor(sec, -500, &plat->high);

            if(plat->high < floorHeight)
                plat->high = floorHeight;

            plat->low = floorHeight;
            plat->state = PS_UP;
# if __JHEXEN__
            plat->wait = (int) args[2];
# else
            plat->wait = PLATWAIT * TICSPERSEC;
# endif
# if __JDOOM64__
            plat->speed = PLATSPEED * 8;
            S_PlaneSound((Plane *)P_GetPtrp(sec, DMU_FLOOR_PLANE), SFX_PLATFORMSTART);
# endif
            break;
#endif
#if __JDOOM64__
        case PT_DOWNWAITUPDOOR: // jd64
            plat->speed = PLATSPEED * 8;
            P_FindSectorSurroundingLowestFloor(sec,
                P_GetDoublep(sec, DMU_FLOOR_HEIGHT), &plat->low);

            if(plat->low > floorHeight)
                plat->low = floorHeight;
            if(plat->low != floorHeight)
                plat->low += 6;

            plat->high = floorHeight;
            plat->wait = 50 * PLATWAIT;
            plat->state = PS_DOWN;
            break;
#endif
#if __JHEXEN__
       case PT_DOWNBYVALUEWAITUPSTAY:
            plat->low = floorHeight - (coord_t) args[3] * 8;
            if(plat->low > floorHeight)
                plat->low = floorHeight;
            plat->high = floorHeight;
            plat->wait = (int) args[2];
            plat->state = PS_DOWN;
            break;

        case PT_UPBYVALUEWAITDOWNSTAY:
            plat->high = floorHeight + (coord_t) args[3] * 8;
            if(plat->high < floorHeight)
                plat->high = floorHeight;
            plat->low = floorHeight;
            plat->wait = (int) args[2];
            plat->state = PS_UP;
            break;
#endif
#if __JDOOM__ || __JDOOM64__
        case PT_DOWNWAITUPSTAYBLAZE:
            plat->speed = PLATSPEED * 8;
            P_FindSectorSurroundingLowestFloor(sec,
                P_GetDoublep(sec, DMU_FLOOR_HEIGHT), &plat->low);

            if(plat->low > floorHeight)
                plat->low = floorHeight;

            plat->high = floorHeight;
            plat->wait = PLATWAIT * TICSPERSEC;
            plat->state = PS_DOWN;
            S_PlaneSound((Plane *)P_GetPtrp(sec, DMU_FLOOR_PLANE), SFX_PLATFORMSTART);
            break;
#endif
        case PT_PERPETUALRAISE:
            P_FindSectorSurroundingLowestFloor(sec,
                P_GetDoublep(sec, DMU_FLOOR_HEIGHT), &plat->low);
#if __JHEXEN__
            plat->low += 8;
#else
            plat->speed = PLATSPEED;
#endif
            if(plat->low > floorHeight)
                plat->low = floorHeight;

            P_FindSectorSurroundingHighestFloor(sec, -500, &plat->high);

            if(plat->high < floorHeight)
                plat->high = floorHeight;

            plat->state = platstate_e(P_Random() & 1);
#if __JHEXEN__
            plat->wait = (int) args[2];
#else
            plat->wait = PLATWAIT * TICSPERSEC;
#endif
#if !__JHEXEN__
            S_PlaneSound((Plane *)P_GetPtrp(sec, DMU_FLOOR_PLANE), SFX_PLATFORMSTART);
#endif
            break;

        default:
            break;
        }

#if __JHEXEN__
        SN_StartSequenceInSec(plat->sector, SEQ_PLATFORM);
#endif
    }

    return rtn;
}
Exemplo n.º 10
0
dd_bool EV_SpawnLight(Line * /*line*/, byte *arg, lighttype_t type)
{
    int arg1, arg2, arg3, arg4;

    arg1 = (int) arg[1];
    arg2 = (int) arg[2];
    arg3 = (int) arg[3];
    arg4 = (int) arg[4];

    iterlist_t *list = P_GetSectorIterListForTag((int) arg[0], false);
    if(!list) return false;

    dd_bool rtn = false;

    IterList_SetIteratorDirection(list, ITERLIST_FORWARD);
    IterList_RewindIterator(list);

    Sector *sec;
    while((sec = (Sector *)IterList_MoveIterator(list)))
    {
        rtn = true;

        dd_bool think = false;

        light_t *light = (light_t *)Z_Calloc(sizeof(*light), PU_MAP, 0);

        light->type   = type;
        light->sector = sec;
        light->count  = 0;

        switch(type)
        {
        case LITE_RAISEBYVALUE:
            P_SectorModifyLight(light->sector, (float) arg1 / 255.0f);
            break;

        case LITE_LOWERBYVALUE:
            P_SectorModifyLight(light->sector, -((float) arg1 / 255.0f));
            break;

        case LITE_CHANGETOVALUE:
            P_SectorSetLight(light->sector, (float) arg1 / 255.0f);
            break;

        case LITE_FADE:
            think = true;
            light->value1 = (float) arg1 / 255.0f; // Destination lightlevel.
            light->value2 =
                FIX2FLT(FixedDiv((arg1 - (int) (255.0f * P_SectorLight(light->sector))) << FRACBITS,
                         arg2 << FRACBITS)) / 255.0f; // Delta lightlevel.
            if(P_SectorLight(light->sector) <= (float) arg1 / 255.0f)
            {
                light->tics2 = 1; // Get brighter.
            }
            else
            {
                light->tics2 = -1;
            }
            break;

        case LITE_GLOW:
            think = true;
            light->value1 = (float) arg1 / 255.0f; // Upper lightlevel.
            light->value2 = (float) arg2 / 255.0f; // Lower lightlevel.
            light->tics1 =
                FixedDiv((arg1 - (int) (255.0f * P_SectorLight(light->sector))) << FRACBITS,
                         arg3 << FRACBITS); // Lightlevel delta.
            if(P_SectorLight(light->sector) <= (float) arg1 / 255.0f)
            {
                light->tics2 = 1; // Get brighter.
            }
            else
            {
                light->tics2 = -1;
            }
            break;

        case LITE_FLICKER:
            think = true;
            light->value1 = (float) arg1 / 255.0f; // Upper lightlevel.
            light->value2 = (float) arg2 / 255.0f; // Lower lightlevel.
            P_SectorSetLight(light->sector, light->value1);
            light->count = (P_Random() & 64) + 1;
            break;

        case LITE_STROBE:
            think = true;
            light->value1 = (float) arg1 / 255.0f; // Upper lightlevel.
            light->value2 = (float) arg2 / 255.0f; // Lower lightlevel.
            light->tics1 = arg3; // Upper tics.
            light->tics2 = arg4; // Lower tics.
            light->count = arg3;
            P_SectorSetLight(light->sector, light->value1);
            break;

        default:
            rtn = false;
            break;
        }

        if(think)
        {
            light->thinker.function = (thinkfunc_t) T_Light;
            Thinker_Add(&light->thinker);
        }
        else
        {
            Z_Free(light);
        }
    }

    return rtn;
}