// SONIC ROBO BLAST 2 //----------------------------------------------------------------------------- // Copyright (C) 1993-1996 by id Software, Inc. // Copyright (C) 1998-2000 by DooM Legacy Team. // Copyright (C) 1999-2016 by Sonic Team Junior. // // This program is free software distributed under the // terms of the GNU General Public License, version 2. // See the 'LICENSE' file for more details. //----------------------------------------------------------------------------- /// \file p_map.c /// \brief Movement, collision handling /// /// Shooting and aiming #include "doomdef.h" #include "g_game.h" #include "m_bbox.h" #include "m_random.h" #include "p_local.h" #include "p_setup.h" // NiGHTS stuff #include "r_state.h" #include "r_main.h" #include "r_sky.h" #include "s_sound.h" #include "w_wad.h" #include "r_splats.h" #ifdef ESLOPE #include "p_slopes.h" #endif #include "z_zone.h" #include "lua_hook.h" fixed_t tmbbox[4]; mobj_t *tmthing; static INT32 tmflags; fixed_t tmx; fixed_t tmy; static precipmobj_t *tmprecipthing; static fixed_t preciptmbbox[4]; // If "floatok" true, move would be ok // if within "tmfloorz - tmceilingz". boolean floatok; fixed_t tmfloorz, tmceilingz; static fixed_t tmdropoffz, tmdrpoffceilz; // drop-off floor/ceiling heights mobj_t *tmfloorthing; // the thing corresponding to tmfloorz or NULL if tmfloorz is from a sector mobj_t *tmhitthing; // the solid thing you bumped into (for collisions) #ifdef ESLOPE pslope_t *tmfloorslope, *tmceilingslope; #endif // keep track of the line that lowers the ceiling, // so missiles don't explode against sky hack walls line_t *ceilingline; // set by PIT_CheckLine() for any line that stopped the PIT_CheckLine() // that is, for any line which is 'solid' line_t *blockingline; msecnode_t *sector_list = NULL; mprecipsecnode_t *precipsector_list = NULL; camera_t *mapcampointer; // // TELEPORT MOVE // // // P_TeleportMove // boolean P_TeleportMove(mobj_t *thing, fixed_t x, fixed_t y, fixed_t z) { // the move is ok, // so link the thing into its new position P_UnsetThingPosition(thing); // Remove touching_sectorlist from mobj. if (sector_list) { P_DelSeclist(sector_list); sector_list = NULL; } thing->x = x; thing->y = y; thing->z = z; P_SetThingPosition(thing); P_CheckPosition(thing, thing->x, thing->y); if (P_MobjWasRemoved(thing)) return true; thing->floorz = tmfloorz; thing->ceilingz = tmceilingz; return true; } // ========================================================================= // MOVEMENT ITERATOR FUNCTIONS // ========================================================================= // P_DoSpring // // MF_SPRING does some weird, mildly hacky stuff sometimes. // mass = vertical speed // damage = horizontal speed // raisestate = state to change spring to on collision // reactiontime = number of times it can give 10 points (0 is standard) // painchance = spring mode: // 0 = standard vanilla spring behaviour // Positive spring modes are minor variants of vanilla spring behaviour. // 1 = launch players in jump // 2 = don't modify player at all, just add momentum // Negative spring modes are mildly-related gimmicks with customisation. // -1 = pinball bumper // Any other spring mode defaults to standard vanilla spring behaviour, // ****** but forward compatibility is not guaranteed for these. ****** // boolean P_DoSpring(mobj_t *spring, mobj_t *object) { fixed_t vertispeed = spring->info->mass; fixed_t horizspeed = spring->info->damage; boolean final; // Object was already sprung this tic if (object->eflags & MFE_SPRUNG) return false; // Spectators don't trigger springs. if (object->player && object->player->spectator) return false; // "Even in Death" is a song from Volume 8, not a command. if (!spring->health || !object->health) return false; if (spring->info->painchance == -1) // Pinball bumper mode. { // The first of the entirely different spring modes! // Some of the attributes mean different things here. // mass = default strength (can be controlled by mapthing's spawnangle) // damage = unused angle_t horizangle, vertiangle; if (!vertispeed) return false; if (object->player && object->player->homing) // Sonic Heroes and Shadow the Hedgehog are the only games to contain homing-attackable bumpers! { horizangle = 0; vertiangle = ((object->eflags & MFE_VERTICALFLIP) ? ANGLE_270 : ANGLE_90) >> ANGLETOFINESHIFT; object->player->pflags &= ~PF_THOKKED; if (spring->eflags & MFE_VERTICALFLIP) object->z = spring->z - object->height - 1; else object->z = spring->z + spring->height + 1; } else { horizangle = R_PointToAngle2(spring->x, spring->y, object->x, object->y); vertiangle = (R_PointToAngle2( 0, spring->z + spring->height/2, FixedHypot(object->x - spring->x, object->y - spring->y), object->z + object->height/2) >> ANGLETOFINESHIFT) & FINEMASK; } if (spring->spawnpoint && spring->spawnpoint->angle > 0) vertispeed = (spring->spawnpoint->angle<<(FRACBITS-1))/5; vertispeed = FixedMul(vertispeed, FixedMul(object->scale, spring->scale)); if (object->player) { fixed_t playervelocity; if (!(object->player->pflags & PF_THOKKED) && !(object->player->homing) && ((playervelocity = FixedDiv(9*FixedHypot(object->player->speed, object->momz), 10< vertispeed)) vertispeed = playervelocity; if (object->player->powers[pw_carry] == CR_NIGHTSMODE) // THIS has NiGHTS support, at least... { angle_t nightsangle = 0; if (object->player->bumpertime >= TICRATE/4) return false; if ((object->player->pflags & PF_TRANSFERTOCLOSEST) && object->player->axis1 && object->player->axis2) { nightsangle = R_PointToAngle2(object->player->axis1->x, object->player->axis1->y, object->player->axis2->x, object->player->axis2->y); nightsangle += ANGLE_90; } else if (object->target) { if (object->target->flags2 & MF2_AMBUSH) nightsangle = R_PointToAngle2(object->target->x, object->target->y, object->x, object->y); else nightsangle = R_PointToAngle2(object->x, object->y, object->target->x, object->target->y); } object->player->flyangle = AngleFixed(R_PointToAngle2( 0, spring->z + spring->height/2, FixedMul( FINESINE(((nightsangle - horizangle) >> ANGLETOFINESHIFT) & FINEMASK), FixedHypot(object->x - spring->x, object->y - spring->y)), object->z + object->height/2))>>FRACBITS; object->player->bumpertime = TICRATE/2; } else { INT32 pflags = object->player->pflags & (PF_JUMPED|PF_NOJUMPDAMAGE|PF_SPINNING|PF_THOKKED|PF_BOUNCING); // Not identical to below... UINT8 secondjump = object->player->secondjump; if (object->player->pflags & PF_GLIDING) P_SetPlayerMobjState(object, S_PLAY_FALL); P_ResetPlayer(object->player); object->player->pflags |= pflags; object->player->secondjump = secondjump; } } if (!P_IsObjectOnGround(object)) // prevents uncurling when spinning due to "landing" object->momz = FixedMul(vertispeed, FINESINE(vertiangle)); P_InstaThrust(object, horizangle, FixedMul(vertispeed, FINECOSINE(vertiangle))); object->eflags |= MFE_SPRUNG; // apply this flag asap! goto springstate; } // Does nothing? if (!vertispeed && !horizspeed) return false; #ifdef ESLOPE object->standingslope = NULL; // Okay, now we know it's not going to be relevant - no launching off at silly angles for you. #endif if (spring->eflags & MFE_VERTICALFLIP) vertispeed *= -1; if (object->player && (object->player->powers[pw_carry] == CR_NIGHTSMODE)) { /*Someone want to make these work like bumpers?*/ return false; } if (object->player && ((object->player->charability == CA_TWINSPIN && object->player->panim == PA_ABILITY) || (object->player->charability2 == CA2_MELEE && object->player->panim == PA_ABILITY2))) { S_StartSound(object, sfx_s3k8b); if (horizspeed) horizspeed = FixedMul(horizspeed, (4*FRACUNIT)/3); if (vertispeed) vertispeed = FixedMul(vertispeed, (6*FRACUNIT)/5); // aprox square root of above } object->eflags |= MFE_SPRUNG; // apply this flag asap! spring->flags &= ~(MF_SPRING|MF_SPECIAL); // De-solidify if (spring->info->painchance != 2) { if ((horizspeed && vertispeed) || (object->player && object->player->homing)) // Mimic SA { object->momx = object->momy = 0; P_TryMove(object, spring->x, spring->y, true); } if (vertispeed > 0) object->z = spring->z + spring->height + 1; else if (vertispeed < 0) object->z = spring->z - object->height - 1; else { fixed_t offx, offy; // Horizontal springs teleport you in FRONT of them. object->momx = object->momy = 0; // Overestimate the distance to position you at offx = P_ReturnThrustX(spring, spring->angle, (spring->radius + object->radius + 1) * 2); offy = P_ReturnThrustY(spring, spring->angle, (spring->radius + object->radius + 1) * 2); // Make it square by clipping if (offx > (spring->radius + object->radius + 1)) offx = spring->radius + object->radius + 1; else if (offx < -(spring->radius + object->radius + 1)) offx = -(spring->radius + object->radius + 1); if (offy > (spring->radius + object->radius + 1)) offy = spring->radius + object->radius + 1; else if (offy < -(spring->radius + object->radius + 1)) offy = -(spring->radius + object->radius + 1); // Set position! P_TryMove(object, spring->x + offx, spring->y + offy, true); } } if (vertispeed) object->momz = FixedMul(vertispeed,FixedSqrt(FixedMul(object->scale, spring->scale))); if (horizspeed) P_InstaThrustEvenIn2D(object, spring->angle, FixedMul(horizspeed,FixedSqrt(FixedMul(object->scale, spring->scale)))); // Re-solidify spring->flags |= (spring->info->flags & (MF_SPRING|MF_SPECIAL)); if (object->player) { INT32 pflags; UINT8 secondjump; boolean washoming; if (spring->flags & MF_ENEMY) // Spring shells P_SetTarget(&spring->target, object); if (horizspeed) { object->player->drawangle = spring->angle; if (object->player->cmd.forwardmove == 0 && object->player->cmd.sidemove == 0) { object->angle = spring->angle; if (!demoplayback || P_AnalogMove(object->player)) { if (object->player == &players[consoleplayer]) localangle = spring->angle; else if (object->player == &players[secondarydisplayplayer]) localangle2 = spring->angle; } } } pflags = object->player->pflags & (PF_STARTJUMP|PF_JUMPED|PF_NOJUMPDAMAGE|PF_SPINNING|PF_THOKKED|PF_BOUNCING); // I still need these. secondjump = object->player->secondjump; washoming = object->player->homing; if (object->player->pflags & PF_GLIDING) P_SetPlayerMobjState(object, S_PLAY_FALL); P_ResetPlayer(object->player); if (spring->info->painchance == 1) // For all those ancient, SOC'd abilities. { object->player->pflags |= P_GetJumpFlags(object->player); P_SetPlayerMobjState(object, S_PLAY_JUMP); } else if ((spring->info->painchance == 2) || (pflags & PF_BOUNCING)) // Adding momentum only. { object->player->pflags |= (pflags &~ PF_STARTJUMP); object->player->secondjump = secondjump; if (washoming) object->player->pflags &= ~PF_THOKKED; } else if (!vertispeed) { if (pflags & (PF_JUMPED|PF_SPINNING)) { object->player->pflags |= pflags; object->player->secondjump = secondjump; } else P_SetPlayerMobjState(object, S_PLAY_WALK); } else if (P_MobjFlip(object)*vertispeed > 0) P_SetPlayerMobjState(object, S_PLAY_SPRING); else P_SetPlayerMobjState(object, S_PLAY_FALL); } #ifdef ESLOPE object->standingslope = NULL; // And again. #endif final = true; springstate: if ((statenum_t)(spring->state-states) < spring->info->raisestate) { P_SetMobjState(spring, spring->info->raisestate); if (object->player && spring->reactiontime && !(spring->info->flags & MF_ENEMY)) { if (object->player->powers[pw_carry] != CR_NIGHTSMODE) // don't make graphic in NiGHTS P_SetMobjState(P_SpawnMobj(spring->x, spring->y, spring->z + (spring->height/2), MT_SCORE), mobjinfo[MT_SCORE].spawnstate+11); P_AddPlayerScore(object->player, 10); spring->reactiontime--; } } return final; } static void P_DoFanAndGasJet(mobj_t *spring, mobj_t *object) { player_t *p = object->player; // will be NULL if not a player fixed_t zdist; // distance between bottoms fixed_t speed = spring->info->mass; // conveniently, both fans and gas jets use this for the vertical thrust SINT8 flipval = P_MobjFlip(spring); // virtually everything here centers around the thruster's gravity, not the object's! if (p && object->state == &states[object->info->painstate]) // can't use fans and gas jets when player is in pain! return; // is object's top below thruster's position? if not, calculate distance between their bottoms if (spring->eflags & MFE_VERTICALFLIP) { if (object->z > spring->z + spring->height) return; zdist = (spring->z + spring->height) - (object->z + object->height); } else { if (object->z + object->height < spring->z) return; zdist = object->z - spring->z; } #ifdef ESLOPE object->standingslope = NULL; // No launching off at silly angles for you. #endif switch (spring->type) { case MT_FAN: // fan if (zdist > (spring->health << FRACBITS)) // max z distance determined by health (set by map thing angle) break; if (flipval*object->momz >= FixedMul(speed, spring->scale)) // if object's already moving faster than your best, don't bother break; if (p && (p->climbing || p->pflags & PF_GLIDING)) // doesn't affect Knux when he's using his abilities! break; object->momz += flipval*FixedMul(speed/4, spring->scale); // limit the speed if too high if (flipval*object->momz > FixedMul(speed, spring->scale)) object->momz = flipval*FixedMul(speed, spring->scale); if (p && !p->powers[pw_tailsfly]) // doesn't reset anim for Tails' flight { P_ResetPlayer(p); if (p->panim != PA_FALL) P_SetPlayerMobjState(object, S_PLAY_FALL); } break; case MT_STEAM: // Steam if (zdist > FixedMul(16*FRACUNIT, spring->scale)) break; if (spring->state != &states[S_STEAM1]) // Only when it bursts break; object->momz = flipval*FixedMul(speed, FixedSqrt(FixedMul(spring->scale, object->scale))); // scale the speed with both objects' scales, just like with springs! if (p) { P_ResetPlayer(p); if (p->panim != PA_FALL) P_SetPlayerMobjState(object, S_PLAY_FALL); } break; default: break; } } static void P_DoTailsCarry(player_t *sonic, player_t *tails) { INT32 p; fixed_t zdist; // z distance between the two players' bottoms if (tails->powers[pw_carry]) return; if (sonic->powers[pw_carry]) return; if (tails->spectator) return; if (sonic->spectator) return; if (!(tails->pflags & PF_CANCARRY)) return; if (tails->bot == 1) return; if ((sonic->mo->eflags & MFE_VERTICALFLIP) != (tails->mo->eflags & MFE_VERTICALFLIP)) return; // Both should be in same gravity if (tails->mo->eflags & MFE_VERTICALFLIP) { if (tails->mo->ceilingz - (tails->mo->z + tails->mo->height) < sonic->mo->height-FixedMul(2*FRACUNIT, sonic->mo->scale)) return; } else if (tails->mo->z - tails->mo->floorz < sonic->mo->height-FixedMul(2*FRACUNIT, sonic->mo->scale)) return; // No room to pick up this guy! // Search in case another player is already being carried by this fox. for (p = 0; p < MAXPLAYERS; p++) if (playeringame[p] && players[p].mo && players[p].powers[pw_carry] == CR_PLAYER && players[p].mo->tracer == tails->mo) return; // Why block opposing teams from tailsflying each other? // Sneaking into the hands of a flying tails player in Race might be a viable strategy, who knows. /* if (gametype == GT_RACE || gametype == GT_COMPETITION || (netgame && (tails->spectator || sonic->spectator)) || (G_TagGametype() && (!(tails->pflags & PF_TAGIT) != !(sonic->pflags & PF_TAGIT))) || (gametype == GT_MATCH) || (G_GametypeHasTeams() && tails->ctfteam != sonic->ctfteam)) return; */ if (tails->mo->eflags & MFE_VERTICALFLIP) zdist = (sonic->mo->z + sonic->mo->height) - (tails->mo->z + tails->mo->height); else zdist = tails->mo->z - sonic->mo->z; if (zdist <= sonic->mo->height + sonic->mo->scale // FixedMul(FRACUNIT, sonic->mo->scale), but scale == FRACUNIT by default && zdist > sonic->mo->height*2/3 && P_MobjFlip(tails->mo)*sonic->mo->momz <= 0) { if (sonic-players == consoleplayer && botingame) CV_SetValue(&cv_analog2, false); P_ResetPlayer(sonic); P_SetTarget(&sonic->mo->tracer, tails->mo); sonic->powers[pw_carry] = CR_PLAYER; S_StartSound(sonic->mo, sfx_s3k4a); P_UnsetThingPosition(sonic->mo); sonic->mo->x = tails->mo->x; sonic->mo->y = tails->mo->y; P_SetThingPosition(sonic->mo); } else { if (sonic-players == consoleplayer && botingame) CV_SetValue(&cv_analog2, true); P_SetTarget(&sonic->mo->tracer, NULL); sonic->powers[pw_carry] = CR_NONE; } } // // PIT_CheckThing // static boolean PIT_CheckThing(mobj_t *thing) { fixed_t blockdist; // don't clip against self if (thing == tmthing) return true; // Ignore... things. if (!tmthing || !thing || P_MobjWasRemoved(thing)) return true; I_Assert(!P_MobjWasRemoved(tmthing)); I_Assert(!P_MobjWasRemoved(thing)); // Ignore spectators if ((tmthing->player && tmthing->player->spectator) || (thing->player && thing->player->spectator)) return true; #ifdef SEENAMES // Do name checks all the way up here // So that NOTHING ELSE can see MT_NAMECHECK because it is client-side. if (tmthing->type == MT_NAMECHECK) { // Ignore things that aren't players, ignore spectators, ignore yourself. // (also don't bother to check that tmthing->target->player is non-NULL because we're not actually using it here.) if (!thing->player || thing->player->spectator || (tmthing->target && thing->player == tmthing->target->player)) return true; // Now check that you actually hit them. blockdist = thing->radius + tmthing->radius; if (abs(thing->x - tmx) >= blockdist || abs(thing->y - tmy) >= blockdist) return true; // didn't hit it // see if it went over / under if (tmthing->z > thing->z + thing->height) return true; // overhead if (tmthing->z + tmthing->height < thing->z) return true; // underneath seenplayer = thing->player; return false; } #endif // Metal Sonic destroys tiny baby objects. if (tmthing->type == MT_METALSONIC_RACE && (thing->flags & (MF_MISSILE|MF_ENEMY|MF_BOSS) || (thing->type == MT_SPIKE || thing->type == MT_WALLSPIKE))) { if ((thing->flags & (MF_ENEMY|MF_BOSS)) && (thing->health <= 0 || !(thing->flags & MF_SHOOTABLE))) return true; blockdist = thing->radius + tmthing->radius; if (abs(thing->x - tmx) >= blockdist || abs(thing->y - tmy) >= blockdist) return true; // didn't hit it // see if it went over / under if (tmthing->z > thing->z + thing->height) return true; // overhead if (tmthing->z + tmthing->height < thing->z) return true; // underneath if (thing->type == MT_SPIKE || thing->type == MT_WALLSPIKE) { mobjtype_t type = thing->type; if (thing->flags & MF_SOLID) S_StartSound(tmthing, thing->info->deathsound); for (thing = thing->subsector->sector->thinglist; thing; thing = thing->snext) if (thing->type == type && thing->health > 0 && thing->flags & MF_SOLID && P_AproxDistance(P_AproxDistance(thing->x - tmthing->x, thing->y - tmthing->y), thing->z - tmthing->z) < 56*thing->scale)//FixedMul(56*FRACUNIT, thing->scale)) P_KillMobj(thing, tmthing, tmthing, 0); } else { thing->health = 0; P_KillMobj(thing, tmthing, tmthing, 0); } return true; } // SF_DASHMODE users destroy spikes and monitors, CA_TWINSPIN users and CA2_MELEE users destroy spikes. if ((tmthing->player) && (((tmthing->player->charflags & SF_DASHMODE) && (tmthing->player->dashmode >= 3*TICRATE) && (thing->flags & (MF_MONITOR) || (thing->type == MT_SPIKE || thing->type == MT_WALLSPIKE))) || ((((tmthing->player->charability == CA_TWINSPIN) && (tmthing->player->panim == PA_ABILITY)) || (tmthing->player->charability2 == CA2_MELEE && tmthing->player->panim == PA_ABILITY2)) && (thing->type == MT_SPIKE || thing->type == MT_WALLSPIKE)))) { if ((thing->flags & (MF_MONITOR)) && (thing->health <= 0 || !(thing->flags & MF_SHOOTABLE))) return true; blockdist = thing->radius + tmthing->radius; if (abs(thing->x - tmx) >= blockdist || abs(thing->y - tmy) >= blockdist) return true; // didn't hit it // see if it went over / under if (tmthing->z > thing->z + thing->height) return true; // overhead if (tmthing->z + tmthing->height < thing->z) return true; // underneath if (thing->type == MT_SPIKE || thing->type == MT_WALLSPIKE) { mobjtype_t type = thing->type; if (thing->flags & MF_SOLID) S_StartSound(tmthing, thing->info->deathsound); for (thing = thing->subsector->sector->thinglist; thing; thing = thing->snext) if (thing->type == type && thing->health > 0 && thing->flags & MF_SOLID && P_AproxDistance(P_AproxDistance(thing->x - tmthing->x, thing->y - tmthing->y), thing->z - tmthing->z) < 56*thing->scale)//FixedMul(56*FRACUNIT, thing->scale)) P_KillMobj(thing, tmthing, tmthing, 0); } else { thing->health = 0; P_KillMobj(thing, tmthing, tmthing, 0); } return true; } if (!(thing->flags & (MF_SOLID|MF_SPECIAL|MF_PAIN|MF_SHOOTABLE|MF_SPRING))) return true; // Don't collide with your buddies while NiGHTS-flying. if (tmthing->player && thing->player && (maptol & TOL_NIGHTS) && ((tmthing->player->powers[pw_carry] == CR_NIGHTSMODE) || (thing->player->powers[pw_carry] == CR_NIGHTSMODE))) return true; blockdist = thing->radius + tmthing->radius; if (abs(thing->x - tmx) >= blockdist || abs(thing->y - tmy) >= blockdist) return true; // didn't hit it if (thing->flags & MF_PAPERCOLLISION) // CAUTION! Very easy to get stuck inside MF_SOLID objects. Giving the player MF_PAPERCOLLISION is a bad idea unless you know what you're doing. { fixed_t cosradius, sinradius; vertex_t v1, v2; // fake vertexes line_t junk; // fake linedef cosradius = FixedMul(thing->radius, FINECOSINE(thing->angle>>ANGLETOFINESHIFT)); sinradius = FixedMul(thing->radius, FINESINE(thing->angle>>ANGLETOFINESHIFT)); v1.x = thing->x - cosradius; v1.y = thing->y - sinradius; v2.x = thing->x + cosradius; v2.y = thing->y + sinradius; junk.v1 = &v1; junk.v2 = &v2; junk.dx = 2*cosradius; // v2.x - v1.x; junk.dy = 2*sinradius; // v2.y - v1.y; if (tmthing->flags & MF_PAPERCOLLISION) // more strenuous checking to prevent clipping issues { INT32 check1, check2, check3, check4; fixed_t tmcosradius = FixedMul(tmthing->radius, FINECOSINE(tmthing->angle>>ANGLETOFINESHIFT)); fixed_t tmsinradius = FixedMul(tmthing->radius, FINESINE(tmthing->angle>>ANGLETOFINESHIFT)); if (abs(thing->x - tmx) >= (abs(tmcosradius) + abs(cosradius)) || abs(thing->y - tmy) >= (abs(tmsinradius) + abs(sinradius))) return true; // didn't hit it check1 = P_PointOnLineSide(tmx - tmcosradius, tmy - tmsinradius, &junk); check2 = P_PointOnLineSide(tmx + tmcosradius, tmy + tmsinradius, &junk); check3 = P_PointOnLineSide(tmx + tmthing->momx - tmcosradius, tmy + tmthing->momy - tmsinradius, &junk); check4 = P_PointOnLineSide(tmx + tmthing->momx + tmcosradius, tmy + tmthing->momy + tmsinradius, &junk); if ((check1 == check2) && (check2 == check3) && (check3 == check4)) return true; // the line doesn't cross between collider's start or end } else { if (abs(thing->x - tmx) >= (tmthing->radius + abs(cosradius)) || abs(thing->y - tmy) >= (tmthing->radius + abs(sinradius))) return true; // didn't hit it if ((P_PointOnLineSide(tmx - tmthing->radius, tmy - tmthing->radius, &junk) == P_PointOnLineSide(tmx + tmthing->radius, tmy + tmthing->radius, &junk)) && (P_PointOnLineSide(tmx + tmthing->radius, tmy - tmthing->radius, &junk) == P_PointOnLineSide(tmx - tmthing->radius, tmy + tmthing->radius, &junk))) return true; // the line doesn't cross between either pair of opposite corners } } else if (tmthing->flags & MF_PAPERCOLLISION) { fixed_t tmcosradius, tmsinradius; vertex_t v1, v2; // fake vertexes line_t junk; // fake linedef tmcosradius = FixedMul(tmthing->radius, FINECOSINE(tmthing->angle>>ANGLETOFINESHIFT)); tmsinradius = FixedMul(tmthing->radius, FINESINE(tmthing->angle>>ANGLETOFINESHIFT)); if (abs(thing->x - tmx) >= (thing->radius + abs(tmcosradius)) || abs(thing->y - tmy) >= (thing->radius + abs(tmsinradius))) return true; // didn't hit it v1.x = tmx - tmcosradius; v1.y = tmy - tmsinradius; v2.x = tmx + tmcosradius; v2.y = tmy + tmsinradius; junk.v1 = &v1; junk.v2 = &v2; junk.dx = 2*tmcosradius; // v2.x - v1.x; junk.dy = 2*tmsinradius; // v2.y - v1.y; // no need to check whether other thing has MF_PAPERCOLLISION, since would fall under other condition if ((P_PointOnLineSide(thing->x - thing->radius, thing->y - thing->radius, &junk) == P_PointOnLineSide(thing->x + thing->radius, thing->y + thing->radius, &junk)) && (P_PointOnLineSide(thing->x + thing->radius, thing->y - thing->radius, &junk) == P_PointOnLineSide(thing->x - thing->radius, thing->y + thing->radius, &junk))) return true; // the line doesn't cross between either pair of opposite corners } #ifdef HAVE_BLUA { UINT8 shouldCollide = LUAh_MobjCollide(thing, tmthing); // checks hook for thing's type if (P_MobjWasRemoved(tmthing) || P_MobjWasRemoved(thing)) return true; // one of them was removed??? if (shouldCollide == 1) return false; // force collide else if (shouldCollide == 2) return true; // force no collide } { UINT8 shouldCollide = LUAh_MobjMoveCollide(tmthing, thing); // checks hook for tmthing's type if (P_MobjWasRemoved(tmthing) || P_MobjWasRemoved(thing)) return true; // one of them was removed??? if (shouldCollide == 1) return false; // force collide else if (shouldCollide == 2) return true; // force no collide } #endif // Billiards mines! if (thing->type == MT_BIGMINE) { if (tmthing->type == MT_BIGMINE) { if (!tmthing->momx && !tmthing->momy) return true; if ((statenum_t)(thing->state-states) >= thing->info->meleestate) return true; if (thing->z > tmthing->z + tmthing->height) return true; // overhead if (thing->z + thing->height < tmthing->z) return true; // underneath thing->momx = tmthing->momx/3; thing->momy = tmthing->momy/3; thing->momz = tmthing->momz/3; tmthing->momx /= -8; tmthing->momy /= -8; tmthing->momz /= -8; if (thing->info->activesound) S_StartSound(thing, thing->info->activesound); P_SetMobjState(thing, thing->info->meleestate); P_SetTarget(&thing->tracer, tmthing->tracer); return true; } else if (tmthing->type == MT_CRUSHCLAW) { if (tmthing->extravalue1 <= 0) return true; if ((statenum_t)(thing->state-states) >= thing->info->meleestate) return true; if (thing->z > tmthing->z + tmthing->height) return true; // overhead if (thing->z + thing->height < tmthing->z) return true; // underneath thing->momx = P_ReturnThrustX(tmthing, tmthing->angle, 2*tmthing->extravalue1*tmthing->scale/3); thing->momy = P_ReturnThrustY(tmthing, tmthing->angle, 2*tmthing->extravalue1*tmthing->scale/3); if (thing->info->activesound) S_StartSound(thing, thing->info->activesound); P_SetMobjState(thing, thing->info->meleestate); if (tmthing->tracer) P_SetTarget(&thing->tracer, tmthing->tracer->target); return false; } } // When solid spikes move, assume they just popped up and teleport things on top of them to hurt. if (tmthing->type == MT_SPIKE && tmthing->flags & MF_SOLID) { if (thing->z > tmthing->z + tmthing->height) return true; // overhead if (thing->z + thing->height < tmthing->z) return true; // underneath if (tmthing->eflags & MFE_VERTICALFLIP) thing->z = tmthing->z - thing->height - FixedMul(FRACUNIT, tmthing->scale); else thing->z = tmthing->z + tmthing->height + FixedMul(FRACUNIT, tmthing->scale); if (thing->flags & MF_SHOOTABLE) P_DamageMobj(thing, tmthing, tmthing, 1, 0); return true; } if (thing->flags & MF_PAIN && tmthing->player) { // Player touches painful thing sitting on the floor // see if it went over / under if (thing->z > tmthing->z + tmthing->height) return true; // overhead if (thing->z + thing->height < tmthing->z) return true; // underneath if (tmthing->flags & MF_SHOOTABLE && thing->health > 0) { UINT8 damagetype = (thing->info->mass & 0xFF); if (!damagetype && thing->flags & MF_FIRE) // BURN! damagetype = DMG_FIRE; if (P_DamageMobj(tmthing, thing, thing, 1, damagetype) && (damagetype = (thing->info->mass>>8))) S_StartSound(thing, damagetype); } return true; } else if (tmthing->flags & MF_PAIN && thing->player) { // Painful thing splats player in the face // see if it went over / under if (tmthing->z > thing->z + thing->height) return true; // overhead if (tmthing->z + tmthing->height < thing->z) return true; // underneath if (thing->flags & MF_SHOOTABLE && tmthing->health > 0) { UINT8 damagetype = (tmthing->info->mass & 0xFF); if (!damagetype && tmthing->flags & MF_FIRE) // BURN! damagetype = DMG_FIRE; if (P_DamageMobj(thing, tmthing, tmthing, 1, damagetype) && (damagetype = (tmthing->info->mass>>8))) S_StartSound(tmthing, damagetype); } return true; } if (thing->type == MT_HOOPCOLLIDE && thing->flags & MF_SPECIAL && tmthing->player) { P_TouchSpecialThing(thing, tmthing, true); return true; } // check for skulls slamming into things if (tmthing->flags2 & MF2_SKULLFLY) { if (tmthing->type == MT_EGGMOBILE) // Don't make Eggman stop! return true; // Let him RUN YOU RIGHT OVER. >:3 else { // see if it went over / under if (tmthing->z > thing->z + thing->height) return true; // overhead if (tmthing->z + tmthing->height < thing->z) return true; // underneath tmthing->flags2 &= ~MF2_SKULLFLY; tmthing->momx = tmthing->momy = tmthing->momz = 0; return false; // stop moving } } if ((thing->type == MT_SPRINGSHELL || thing->type == MT_YELLOWSHELL) && thing->health > 0 && (tmthing->player || (tmthing->flags & MF_PUSHABLE)) && tmthing->health > 0) { // Multiplying by -1 inherently flips "less than" and "greater than" fixed_t tmz = ((thing->eflags & MFE_VERTICALFLIP) ? -(tmthing->z + tmthing->height) : tmthing->z); fixed_t tmznext = ((thing->eflags & MFE_VERTICALFLIP) ? -tmthing->momz : tmthing->momz) + tmz; fixed_t thzh = ((thing->eflags & MFE_VERTICALFLIP) ? -thing->z : thing->z + thing->height); fixed_t sprarea = FixedMul(8*FRACUNIT, thing->scale) * P_MobjFlip(thing); if ((tmznext <= thzh && tmz > thzh) || (tmznext > thzh - sprarea && tmznext < thzh)) { P_DoSpring(thing, tmthing); return true; } else if (tmz > thzh - sprarea && tmz < thzh) // Don't damage people springing up / down return true; } // missiles can hit other things if (tmthing->flags & MF_MISSILE || tmthing->type == MT_SHELL) { // see if it went over / under if (tmthing->z > thing->z + thing->height) return true; // overhead if (tmthing->z + tmthing->height < thing->z) return true; // underneath if (tmthing->type != MT_SHELL && tmthing->target && tmthing->target->type == thing->type) { // Don't hit same species as originator. if (thing == tmthing->target) return true; if (thing->type != MT_PLAYER) { // Explode, but do no damage. // Let players missile other players. return false; } } // Special case for bounce rings so they don't get caught behind solid objects. if ((tmthing->type == MT_THROWNBOUNCE && tmthing->fuse > 8*TICRATE) && thing->flags & MF_SOLID) return true; // Missiles ignore Brak's helper. if (thing->type == MT_BLACKEGGMAN_HELPER) return true; // Hurting Brak if (tmthing->type == MT_BLACKEGGMAN_MISSILE && thing->type == MT_BLACKEGGMAN && tmthing->target != thing) { // Not if Brak's already in pain if (!(thing->state >= &states[S_BLACKEGG_PAIN1] && thing->state <= &states[S_BLACKEGG_PAIN35])) P_SetMobjState(thing, thing->info->painstate); return false; } if (!(thing->flags & MF_SHOOTABLE) && !(thing->type == MT_EGGSHIELD)) { // didn't do any damage return !(thing->flags & MF_SOLID); } if (tmthing->flags & MF_MISSILE && thing->player && tmthing->target && tmthing->target->player && thing->player->ctfteam == tmthing->target->player->ctfteam && thing->player->powers[pw_carry] == CR_PLAYER && thing->tracer == tmthing->target) return true; // Don't give rings to your carry player by accident. if (thing->type == MT_EGGSHIELD) { angle_t angle = (R_PointToAngle2(thing->x, thing->y, tmthing->x - tmthing->momx, tmthing->y - tmthing->momy) - thing->angle) - ANGLE_90; if (angle < ANGLE_180) // hit shield from behind, shield is destroyed! P_KillMobj(thing, tmthing, tmthing, 0); return false; } // damage / explode if (tmthing->flags & MF_ENEMY) // An actual ENEMY! (Like the deton, for example) P_DamageMobj(thing, tmthing, tmthing, 1, 0); else if (tmthing->type == MT_BLACKEGGMAN_MISSILE && thing->player && (thing->player->pflags & PF_JUMPED) && !thing->player->powers[pw_flashing] && thing->tracer != tmthing && tmthing->target != thing) { // Hop on the missile for a ride! thing->player->powers[pw_carry] = CR_GENERIC; thing->player->pflags &= ~(PF_JUMPED|PF_NOJUMPDAMAGE); P_SetTarget(&thing->tracer, tmthing); P_SetTarget(&tmthing->target, thing); // Set owner to the player P_SetTarget(&tmthing->tracer, NULL); // Disable homing-ness tmthing->momz = 0; thing->angle = tmthing->angle; if (!demoplayback || P_AnalogMove(thing->player)) { if (thing->player == &players[consoleplayer]) localangle = thing->angle; else if (thing->player == &players[secondarydisplayplayer]) localangle2 = thing->angle; } return true; } else if (tmthing->type == MT_BLACKEGGMAN_MISSILE && thing->player && ((thing->player->powers[pw_carry] == CR_GENERIC) || (thing->player->pflags & PF_JUMPED))) { // Ignore } else if (tmthing->type == MT_BLACKEGGMAN_GOOPFIRE) { P_UnsetThingPosition(tmthing); tmthing->x = thing->x; tmthing->y = thing->y; P_SetThingPosition(tmthing); } else if (!(tmthing->type == MT_SHELL && thing->player)) // player collision handled in touchspecial { UINT8 damagetype = tmthing->info->mass; if (!damagetype && tmthing->flags & MF_FIRE) // BURN! damagetype = DMG_FIRE; P_DamageMobj(thing, tmthing, tmthing->target, 1, damagetype); } // don't traverse any more if (tmthing->type == MT_SHELL) return true; else return false; } if (thing->flags & MF_PUSHABLE && (tmthing->player || tmthing->flags & MF_PUSHABLE) && tmthing->z + tmthing->height > thing->z && tmthing->z < thing->z + thing->height && !(netgame && tmthing->player && tmthing->player->spectator)) // Push thing! { if (thing->flags2 & MF2_SLIDEPUSH) // Make it slide { if (tmthing->momy > 0 && tmthing->momy > FixedMul(4*FRACUNIT, thing->scale) && tmthing->momy > thing->momy) { thing->momy += FixedMul(PUSHACCEL, thing->scale); tmthing->momy -= FixedMul(PUSHACCEL, thing->scale); } else if (tmthing->momy < 0 && tmthing->momy < FixedMul(-4*FRACUNIT, thing->scale) && tmthing->momy < thing->momy) { thing->momy -= FixedMul(PUSHACCEL, thing->scale); tmthing->momy += FixedMul(PUSHACCEL, thing->scale); } if (tmthing->momx > 0 && tmthing->momx > FixedMul(4*FRACUNIT, thing->scale) && tmthing->momx > thing->momx) { thing->momx += FixedMul(PUSHACCEL, thing->scale); tmthing->momx -= FixedMul(PUSHACCEL, thing->scale); } else if (tmthing->momx < 0 && tmthing->momx < FixedMul(-4*FRACUNIT, thing->scale) && tmthing->momx < thing->momx) { thing->momx -= FixedMul(PUSHACCEL, thing->scale); tmthing->momx += FixedMul(PUSHACCEL, thing->scale); } if (thing->momx > FixedMul(thing->info->speed, thing->scale)) thing->momx = FixedMul(thing->info->speed, thing->scale); else if (thing->momx < -FixedMul(thing->info->speed, thing->scale)) thing->momx = -FixedMul(thing->info->speed, thing->scale); if (thing->momy > FixedMul(thing->info->speed, thing->scale)) thing->momy = FixedMul(thing->info->speed, thing->scale); else if (thing->momy < -FixedMul(thing->info->speed, thing->scale)) thing->momy = -FixedMul(thing->info->speed, thing->scale); } else { if (tmthing->momx > FixedMul(4*FRACUNIT, thing->scale)) tmthing->momx = FixedMul(4*FRACUNIT, thing->scale); else if (tmthing->momx < FixedMul(-4*FRACUNIT, thing->scale)) tmthing->momx = FixedMul(-4*FRACUNIT, thing->scale); if (tmthing->momy > FixedMul(4*FRACUNIT, thing->scale)) tmthing->momy = FixedMul(4*FRACUNIT, thing->scale); else if (tmthing->momy < FixedMul(-4*FRACUNIT, thing->scale)) tmthing->momy = FixedMul(-4*FRACUNIT, thing->scale); thing->momx = tmthing->momx; thing->momy = tmthing->momy; } if (thing->type != MT_GARGOYLE || P_IsObjectOnGround(thing)) S_StartSound(thing, thing->info->activesound); P_SetTarget(&thing->target, tmthing); } // Respawn rings and items if ((tmthing->type == MT_NIGHTSDRONE || thing->type == MT_NIGHTSDRONE) && (tmthing->player || thing->player)) { mobj_t *droneobj = (tmthing->type == MT_NIGHTSDRONE) ? tmthing : thing; player_t *pl = (droneobj == thing) ? tmthing->player : thing->player; // Must be in bonus time, and must be NiGHTS, must wait about a second // must be flying in the SAME DIRECTION as the last time you came through. // not (your direction) xor (stored direction) // In other words, you can't u-turn and respawn rings near the drone. if (pl->bonustime && (pl->powers[pw_carry] == CR_NIGHTSMODE) && (INT32)leveltime > droneobj->extravalue2 && ( !(pl->flyangle > 90 && pl->flyangle < 270) ^ (droneobj->extravalue1 > 90 && droneobj->extravalue1 < 270) )) { // Reload all the fancy ring stuff! P_ReloadRings(); } droneobj->extravalue1 = pl->flyangle; droneobj->extravalue2 = (INT32)leveltime + TICRATE; } // check for special pickup if (thing->flags & MF_SPECIAL && tmthing->player) { P_TouchSpecialThing(thing, tmthing, true); // can remove thing return true; } // check again for special pickup if (tmthing->flags & MF_SPECIAL && thing->player) { P_TouchSpecialThing(tmthing, thing, true); // can remove thing return true; } // Sprite Spikes! // Do not return because solidity code comes below. if (tmthing->type == MT_SPIKE && tmthing->flags & MF_SOLID && thing->player) // moving spike rams into player?! { if (tmthing->eflags & MFE_VERTICALFLIP) { if (thing->z + thing->height <= tmthing->z + FixedMul(FRACUNIT, tmthing->scale) && thing->z + thing->height + thing->momz >= tmthing->z + FixedMul(FRACUNIT, tmthing->scale) + tmthing->momz && !(thing->player->charability == CA_BOUNCE && thing->player->panim == PA_ABILITY && thing->eflags & MFE_VERTICALFLIP)) P_DamageMobj(thing, tmthing, tmthing, 1, DMG_SPIKE); } else if (thing->z >= tmthing->z + tmthing->height - FixedMul(FRACUNIT, tmthing->scale) && thing->z + thing->momz <= tmthing->z + tmthing->height - FixedMul(FRACUNIT, tmthing->scale) + tmthing->momz && !(thing->player->charability == CA_BOUNCE && thing->player->panim == PA_ABILITY && !(thing->eflags & MFE_VERTICALFLIP))) P_DamageMobj(thing, tmthing, tmthing, 1, DMG_SPIKE); } else if (thing->type == MT_SPIKE && thing->flags & MF_SOLID && tmthing->player) // unfortunate player falls into spike?! { if (thing->eflags & MFE_VERTICALFLIP) { if (tmthing->z + tmthing->height <= thing->z - FixedMul(FRACUNIT, thing->scale) && tmthing->z + tmthing->height + tmthing->momz >= thing->z - FixedMul(FRACUNIT, thing->scale) && !(tmthing->player->charability == CA_BOUNCE && tmthing->player->panim == PA_ABILITY && tmthing->eflags & MFE_VERTICALFLIP)) P_DamageMobj(tmthing, thing, thing, 1, DMG_SPIKE); } else if (tmthing->z >= thing->z + thing->height + FixedMul(FRACUNIT, thing->scale) && tmthing->z + tmthing->momz <= thing->z + thing->height + FixedMul(FRACUNIT, thing->scale) && !(tmthing->player->charability == CA_BOUNCE && tmthing->player->panim == PA_ABILITY && !(tmthing->eflags & MFE_VERTICALFLIP))) P_DamageMobj(tmthing, thing, thing, 1, DMG_SPIKE); } if (tmthing->type == MT_WALLSPIKE && tmthing->flags & MF_SOLID && thing->player) // wall spike impales player { fixed_t bottomz, topz; bottomz = tmthing->z; topz = tmthing->z + tmthing->height; if (tmthing->eflags & MFE_VERTICALFLIP) bottomz -= FixedMul(FRACUNIT, tmthing->scale); else topz += FixedMul(FRACUNIT, tmthing->scale); if (thing->z + thing->height > bottomz // above bottom && thing->z < topz) // below top // don't check angle, the player was clearly in the way in this case P_DamageMobj(thing, tmthing, tmthing, 1, DMG_SPIKE); } else if (thing->type == MT_WALLSPIKE && thing->flags & MF_SOLID && tmthing->player) { fixed_t bottomz, topz; angle_t touchangle = R_PointToAngle2(thing->tracer->x, thing->tracer->y, tmthing->x, tmthing->y); if (P_PlayerInPain(tmthing->player) && (tmthing->momx || tmthing->momy)) { angle_t playerangle = R_PointToAngle2(0, 0, tmthing->momx, tmthing->momy) - touchangle; if (playerangle > ANGLE_180) playerangle = InvAngle(playerangle); if (playerangle < ANGLE_90) return true; // Yes, this is intentionally outside the z-height check. No standing on spikes whilst moving away from them. } bottomz = thing->z; topz = thing->z + thing->height; if (thing->eflags & MFE_VERTICALFLIP) bottomz -= FixedMul(FRACUNIT, thing->scale); else topz += FixedMul(FRACUNIT, thing->scale); if (tmthing->z + tmthing->height > bottomz // above bottom && tmthing->z < topz // below top && !P_MobjWasRemoved(thing->tracer)) // this probably wouldn't work if we didn't have a tracer { // use base as a reference point to determine what angle you touched the spike at touchangle = thing->angle - touchangle; if (touchangle > ANGLE_180) touchangle = InvAngle(touchangle); if (touchangle <= ANGLE_22h) // if you touched it at this close an angle, you get poked! P_DamageMobj(tmthing, thing, thing, 1, DMG_SPIKE); } } if (thing->flags & MF_PUSHABLE) { if (tmthing->type == MT_FAN || tmthing->type == MT_STEAM) P_DoFanAndGasJet(tmthing, thing); } if (tmthing->flags & MF_PUSHABLE) { if (thing->type == MT_FAN || thing->type == MT_STEAM) { P_DoFanAndGasJet(thing, tmthing); return true; } else if (thing->flags & MF_SPRING) { if ( thing->z <= tmthing->z + tmthing->height && tmthing->z <= thing->z + thing->height) if (P_DoSpring(thing, tmthing)) return false; return true; } } // thanks to sal for solidenemies dot lua if (thing->flags & (MF_ENEMY|MF_BOSS) && tmthing->flags & (MF_ENEMY|MF_BOSS)) { if ((thing->z + thing->height >= tmthing->z) && (tmthing->z + tmthing->height >= thing->z)) return false; } // Damage other players when invincible if (tmthing->player && thing->player // Make sure they aren't able to damage you ANYWHERE along the Z axis, you have to be TOUCHING the person. && !(thing->z + thing->height < tmthing->z || thing->z > tmthing->z + tmthing->height)) { if (G_RingSlingerGametype() && (!G_GametypeHasTeams() || tmthing->player->ctfteam != thing->player->ctfteam)) { if ((tmthing->player->powers[pw_invulnerability] || tmthing->player->powers[pw_super] || (((tmthing->player->powers[pw_shield] & SH_NOSTACK) == SH_ELEMENTAL) && (tmthing->player->pflags & PF_SHIELDABILITY))) && !thing->player->powers[pw_super]) P_DamageMobj(thing, tmthing, tmthing, 1, 0); else if ((thing->player->powers[pw_invulnerability] || thing->player->powers[pw_super] || (((thing->player->powers[pw_shield] & SH_NOSTACK) == SH_ELEMENTAL) && (thing->player->pflags & PF_SHIELDABILITY))) && !tmthing->player->powers[pw_super]) P_DamageMobj(tmthing, thing, thing, 1, 0); } // If players are using touch tag, seekers damage hiders. if (G_TagGametype() && cv_touchtag.value && ((thing->player->pflags & PF_TAGIT) != (tmthing->player->pflags & PF_TAGIT))) { if ((tmthing->player->pflags & PF_TAGIT) && !(thing->player->pflags & PF_TAGIT)) P_DamageMobj(thing, tmthing, tmthing, 1, 0); else if ((thing->player->pflags & PF_TAGIT) && !(tmthing->player->pflags & PF_TAGIT)) P_DamageMobj(tmthing, thing, tmthing, 1, 0); } } // Force solid players in hide and seek to avoid corner stacking. if (cv_tailspickup.value && gametype != GT_HIDEANDSEEK) { if (tmthing->player && thing->player) { P_DoTailsCarry(thing->player, tmthing->player); return true; } } else if (thing->player) { if (thing->player-players == consoleplayer && botingame) CV_SetValue(&cv_analog2, true); if (thing->player->powers[pw_carry] == CR_PLAYER) { P_SetTarget(&thing->tracer, NULL); thing->player->powers[pw_carry] = CR_NONE; } } if (thing->player) { // Doesn't matter what gravity player's following! Just do your stuff in YOUR direction only if (tmthing->eflags & MFE_VERTICALFLIP && (tmthing->z + tmthing->height + tmthing->momz < thing->z || tmthing->z + tmthing->height + tmthing->momz >= thing->z + thing->height)) ; else if (!(tmthing->eflags & MFE_VERTICALFLIP) && (tmthing->z + tmthing->momz > thing->z + thing->height || tmthing->z + tmthing->momz <= thing->z)) ; else if (P_IsObjectOnGround(thing) && !P_IsObjectOnGround(tmthing) // Don't crush if the monitor is on the ground... && (tmthing->flags & MF_SOLID)) { if (tmthing->flags & (MF_MONITOR|MF_PUSHABLE)) { // Objects kill you if it falls from above. if (thing != tmthing->target) P_DamageMobj(thing, tmthing, tmthing->target, 1, DMG_CRUSHED); tmthing->momz = -tmthing->momz/2; // Bounce, just for fun! // The tmthing->target allows the pusher of the object // to get the point if he topples it on an opponent. } } if (tmthing->type == MT_FAN || tmthing->type == MT_STEAM) P_DoFanAndGasJet(tmthing, thing); } if (tmthing->player) // Is the moving/interacting object the player? { if (!tmthing->health) return true; if (thing->type == MT_FAN || thing->type == MT_STEAM) P_DoFanAndGasJet(thing, tmthing); else if (thing->flags & MF_SPRING) { if ( thing->z <= tmthing->z + tmthing->height && tmthing->z <= thing->z + thing->height) if (P_DoSpring(thing, tmthing)) return false; return true; } // Monitor? else if (thing->flags & MF_MONITOR && !((thing->type == MT_RING_REDBOX && tmthing->player->ctfteam != 1) || (thing->type == MT_RING_BLUEBOX && tmthing->player->ctfteam != 2))) { // 0 = none, 1 = elemental pierce, 2 = bubble bounce UINT8 elementalpierce = (((tmthing->player->powers[pw_shield] & SH_NOSTACK) == SH_ELEMENTAL || (tmthing->player->powers[pw_shield] & SH_NOSTACK) == SH_BUBBLEWRAP) && (tmthing->player->pflags & PF_SHIELDABILITY) ? (((tmthing->player->powers[pw_shield] & SH_NOSTACK) == SH_ELEMENTAL) ? 1 : 2) : 0); if (!(thing->flags & MF_SOLID) || tmthing->player->pflags & (PF_SPINNING|PF_GLIDING) || ((tmthing->player->pflags & PF_JUMPED) && (!(tmthing->player->pflags & PF_NOJUMPDAMAGE) || (tmthing->player->charability == CA_TWINSPIN && tmthing->player->panim == PA_ABILITY))) || (tmthing->player->charability2 == CA2_MELEE && tmthing->player->panim == PA_ABILITY2) || ((tmthing->player->charflags & SF_STOMPDAMAGE || tmthing->player->pflags & PF_BOUNCING) && (P_MobjFlip(tmthing)*(tmthing->z - (thing->z + thing->height/2)) > 0) && (P_MobjFlip(tmthing)*tmthing->momz < 0)) || elementalpierce) { if (thing->z - thing->scale <= tmthing->z + tmthing->height && thing->z + thing->height + thing->scale >= tmthing->z) { player_t *player = tmthing->player; SINT8 flipval = P_MobjFlip(thing); // Save this value in case monitor gets removed. fixed_t *momz = &tmthing->momz; // tmthing gets changed by P_DamageMobj, so we need a new pointer?! X_x;; fixed_t *z = &tmthing->z; // aau. // Going down? Then bounce back up. if (P_DamageMobj(thing, tmthing, tmthing, 1, 0) // break the monitor && (flipval*(*momz) < 0) // monitor is on the floor and you're going down, or on the ceiling and you're going up && (elementalpierce != 1)) // you're not piercing through the monitor... { if (elementalpierce == 2) P_DoBubbleBounce(player); else if (!(player->charability2 == CA2_MELEE && player->panim == PA_ABILITY2)) *momz = -*momz; // Therefore, you should be thrust in the opposite direction, vertically. } if (!(elementalpierce == 1 && thing->flags & MF_GRENADEBOUNCE)) // prevent gold monitor clipthrough. { if (player->pflags & PF_BOUNCING) P_DoAbilityBounce(player, false); return false; } else *z -= *momz; // to ensure proper collision. } return true; } } } if ((!tmthing->player) && (thing->player)) ; // no solid thing should ever be able to step up onto a player // z checking at last // Treat noclip things as non-solid! else if ((thing->flags & (MF_SOLID|MF_NOCLIP)) == MF_SOLID && (tmthing->flags & (MF_SOLID|MF_NOCLIP)) == MF_SOLID) { fixed_t topz, tmtopz; if (tmthing->eflags & MFE_VERTICALFLIP) { // pass under tmtopz = tmthing->z; if (tmtopz > thing->z + thing->height) { if (thing->z + thing->height > tmfloorz) { tmfloorz = thing->z + thing->height; #ifdef ESLOPE tmfloorslope = NULL; #endif } return true; } topz = thing->z - thing->scale; // FixedMul(FRACUNIT, thing->scale), but thing->scale == FRACUNIT in base scale anyways // block only when jumping not high enough, // (dont climb max. 24units while already in air) // since return false doesn't handle momentum properly, // we lie to P_TryMove() so it's always too high if (tmthing->player && tmthing->z + tmthing->height > topz && tmthing->z + tmthing->height < tmthing->ceilingz) { if (thing->flags & MF_GRENADEBOUNCE && (thing->flags & MF_MONITOR || thing->info->flags & MF_MONITOR)) // Gold monitor hack... return false; tmfloorz = tmceilingz = topz; // block while in air #ifdef ESLOPE tmceilingslope = NULL; #endif tmfloorthing = thing; // needed for side collision } else if (topz < tmceilingz && tmthing->z <= thing->z+thing->height) { tmceilingz = topz; #ifdef ESLOPE tmceilingslope = NULL; #endif tmfloorthing = thing; // thing we may stand on } } else { // pass under tmtopz = tmthing->z + tmthing->height; if (tmtopz < thing->z) { if (thing->z < tmceilingz) { tmceilingz = thing->z; #ifdef ESLOPE tmceilingslope = NULL; #endif } return true; } topz = thing->z + thing->height + thing->scale; // FixedMul(FRACUNIT, thing->scale), but thing->scale == FRACUNIT in base scale anyways // block only when jumping not high enough, // (dont climb max. 24units while already in air) // since return false doesn't handle momentum properly, // we lie to P_TryMove() so it's always too high if (tmthing->player && tmthing->z < topz && tmthing->z > tmthing->floorz) { if (thing->flags & MF_GRENADEBOUNCE && (thing->flags & MF_MONITOR || thing->info->flags & MF_MONITOR)) // Gold monitor hack... return false; tmfloorz = tmceilingz = topz; // block while in air #ifdef ESLOPE tmfloorslope = NULL; #endif tmfloorthing = thing; // needed for side collision } else if (topz > tmfloorz && tmthing->z+tmthing->height >= thing->z) { tmfloorz = topz; #ifdef ESLOPE tmfloorslope = NULL; #endif tmfloorthing = thing; // thing we may stand on } } } // not solid not blocked return true; } // PIT_CheckCameraLine // Adjusts tmfloorz and tmceilingz as lines are contacted - FOR CAMERA ONLY static boolean PIT_CheckCameraLine(line_t *ld) { if (ld->polyobj && !(ld->polyobj->flags & POF_SOLID)) return true; if (tmbbox[BOXRIGHT] <= ld->bbox[BOXLEFT] || tmbbox[BOXLEFT] >= ld->bbox[BOXRIGHT] || tmbbox[BOXTOP] <= ld->bbox[BOXBOTTOM] || tmbbox[BOXBOTTOM] >= ld->bbox[BOXTOP]) { return true; } if (P_BoxOnLineSide(tmbbox, ld) != -1) return true; // A line has been hit // The moving thing's destination position will cross // the given line. // If this should not be allowed, return false. // If the line is special, keep track of it // to process later if the move is proven ok. // NOTE: specials are NOT sorted by order, // so two special lines that are only 8 pixels apart // could be crossed in either order. // this line is out of the if so upper and lower textures can be hit by a splat blockingline = ld; if (!ld->backsector) // one sided line { if (P_PointOnLineSide(mapcampointer->x, mapcampointer->y, ld)) return true; // don't hit the back side return false; } // set openrange, opentop, openbottom P_CameraLineOpening(ld); // adjust floor / ceiling heights if (opentop < tmceilingz) { tmceilingz = opentop; ceilingline = ld; } if (openbottom > tmfloorz) { tmfloorz = openbottom; } if (highceiling > tmdrpoffceilz) tmdrpoffceilz = highceiling; if (lowfloor < tmdropoffz) tmdropoffz = lowfloor; return true; } // // PIT_CheckLine // Adjusts tmfloorz and tmceilingz as lines are contacted // static boolean PIT_CheckLine(line_t *ld) { if (ld->polyobj && !(ld->polyobj->flags & POF_SOLID)) return true; if (tmbbox[BOXRIGHT] <= ld->bbox[BOXLEFT] || tmbbox[BOXLEFT] >= ld->bbox[BOXRIGHT] || tmbbox[BOXTOP] <= ld->bbox[BOXBOTTOM] || tmbbox[BOXBOTTOM] >= ld->bbox[BOXTOP]) return true; if (P_BoxOnLineSide(tmbbox, ld) != -1) return true; if (tmthing->flags & MF_PAPERCOLLISION) // Caution! Turning whilst up against a wall will get you stuck. You probably shouldn't give the player this flag. { fixed_t cosradius, sinradius; cosradius = FixedMul(tmthing->radius, FINECOSINE(tmthing->angle>>ANGLETOFINESHIFT)); sinradius = FixedMul(tmthing->radius, FINESINE(tmthing->angle>>ANGLETOFINESHIFT)); if (P_PointOnLineSide(tmx - cosradius, tmy - sinradius, ld) == P_PointOnLineSide(tmx + cosradius, tmy + sinradius, ld)) return true; // the line doesn't cross between collider's start or end #ifdef PAPER_COLLISIONCORRECTION { fixed_t dist; vertex_t result; angle_t langle; P_ClosestPointOnLine(tmx, tmy, ld, &result); langle = R_PointToAngle2(ld->v1->x, ld->v1->y, ld->v2->x, ld->v2->y); langle += ANGLE_90*(P_PointOnLineSide(tmx, tmy, ld) ? -1 : 1); dist = abs(FixedMul(tmthing->radius, FINECOSINE((tmthing->angle - langle)>>ANGLETOFINESHIFT))); cosradius = FixedMul(dist, FINECOSINE(langle>>ANGLETOFINESHIFT)); sinradius = FixedMul(dist, FINESINE(langle>>ANGLETOFINESHIFT)); tmthing->flags |= MF_NOCLIP; P_TeleportMove(tmthing, result.x + cosradius - tmthing->momx, result.y + sinradius - tmthing->momy, tmthing->z); tmthing->flags &= ~MF_NOCLIP; } #endif } // A line has been hit // The moving thing's destination position will cross // the given line. // If this should not be allowed, return false. // If the line is special, keep track of it // to process later if the move is proven ok. // NOTE: specials are NOT sorted by order, // so two special lines that are only 8 pixels apart // could be crossed in either order. // this line is out of the if so upper and lower textures can be hit by a splat blockingline = ld; if (!ld->backsector) // one sided line { if (P_PointOnLineSide(tmthing->x, tmthing->y, ld)) return true; // don't hit the back side return false; } // missiles can cross uncrossable lines if (!(tmthing->flags & MF_MISSILE)) { if (ld->flags & ML_IMPASSIBLE) // block objects from moving through this linedef. return false; if ((tmthing->flags & (MF_ENEMY|MF_BOSS)) && ld->flags & ML_BLOCKMONSTERS) return false; // block monsters only } // set openrange, opentop, openbottom P_LineOpening(ld, tmthing); // adjust floor / ceiling heights if (opentop < tmceilingz) { tmceilingz = opentop; ceilingline = ld; #ifdef ESLOPE tmceilingslope = opentopslope; #endif } if (openbottom > tmfloorz) { tmfloorz = openbottom; #ifdef ESLOPE tmfloorslope = openbottomslope; #endif } if (highceiling > tmdrpoffceilz) tmdrpoffceilz = highceiling; if (lowfloor < tmdropoffz) tmdropoffz = lowfloor; return true; } // ========================================================================= // MOVEMENT CLIPPING // ========================================================================= // // P_CheckPosition // This is purely informative, nothing is modified // (except things picked up). // // in: // a mobj_t (can be valid or invalid) // a position to be checked // (doesn't need to be related to the mobj_t->x,y) // // during: // special things are touched if MF_PICKUP // early out on solid lines? // // out: // newsubsec // tmfloorz // tmceilingz // tmdropoffz // tmdrpoffceilz // the lowest point contacted // (monsters won't move to a dropoff) // speciallines[] // numspeciallines // // tmfloorz // the nearest floor or thing's top under tmthing // tmceilingz // the nearest ceiling or thing's bottom over tmthing // boolean P_CheckPosition(mobj_t *thing, fixed_t x, fixed_t y) { INT32 xl, xh, yl, yh, bx, by; subsector_t *newsubsec; boolean blockval = true; I_Assert(thing != NULL); #ifdef PARANOIA if (P_MobjWasRemoved(thing)) I_Error("Previously-removed Thing of type %u crashes P_CheckPosition!", thing->type); #endif P_SetTarget(&tmthing, thing); tmflags = thing->flags; tmx = x; tmy = y; tmbbox[BOXTOP] = y + tmthing->radius; tmbbox[BOXBOTTOM] = y - tmthing->radius; tmbbox[BOXRIGHT] = x + tmthing->radius; tmbbox[BOXLEFT] = x - tmthing->radius; newsubsec = R_PointInSubsector(x, y); ceilingline = blockingline = NULL; // The base floor / ceiling is from the subsector // that contains the point. // Any contacted lines the step closer together // will adjust them. tmfloorz = tmdropoffz = P_GetFloorZ(thing, newsubsec->sector, x, y, NULL); //newsubsec->sector->floorheight; tmceilingz = P_GetCeilingZ(thing, newsubsec->sector, x, y, NULL); //newsubsec->sector->ceilingheight; #ifdef ESLOPE tmfloorslope = newsubsec->sector->f_slope; tmceilingslope = newsubsec->sector->c_slope; #endif // Check list of fake floors and see if tmfloorz/tmceilingz need to be altered. if (newsubsec->sector->ffloors) { ffloor_t *rover; fixed_t delta1, delta2; INT32 thingtop = thing->z + thing->height; for (rover = newsubsec->sector->ffloors; rover; rover = rover->next) { fixed_t topheight, bottomheight; if (!(rover->flags & FF_EXISTS)) continue; topheight = P_GetFOFTopZ(thing, newsubsec->sector, rover, x, y, NULL); bottomheight = P_GetFOFBottomZ(thing, newsubsec->sector, rover, x, y, NULL); if ((rover->flags & (FF_SWIMMABLE|FF_GOOWATER)) == (FF_SWIMMABLE|FF_GOOWATER) && !(thing->flags & MF_NOGRAVITY)) { // If you're inside goowater and slowing down fixed_t sinklevel = FixedMul(thing->info->height/6, thing->scale); fixed_t minspeed = FixedMul(thing->info->height/9, thing->scale); if (thing->z < topheight && bottomheight < thingtop && abs(thing->momz) < minspeed) { // Oh no! The object is stick in between the surface of the goo and sinklevel! help them out! if (!(thing->eflags & MFE_VERTICALFLIP) && thing->z > topheight - sinklevel && thing->momz >= 0 && thing->momz < (minspeed>>2)) thing->momz += minspeed>>2; else if (thing->eflags & MFE_VERTICALFLIP && thingtop < bottomheight + sinklevel && thing->momz <= 0 && thing->momz > -(minspeed>>2)) thing->momz -= minspeed>>2; // Land on the top or the bottom, depending on gravity flip. if (!(thing->eflags & MFE_VERTICALFLIP) && thing->z >= topheight - sinklevel && thing->momz <= 0) { if (tmfloorz < topheight - sinklevel) { tmfloorz = topheight - sinklevel; #ifdef ESLOPE tmfloorslope = *rover->t_slope; #endif } } else if (thing->eflags & MFE_VERTICALFLIP && thingtop <= bottomheight + sinklevel && thing->momz >= 0) { if (tmceilingz > bottomheight + sinklevel) { tmceilingz = bottomheight + sinklevel; #ifdef ESLOPE tmceilingslope = *rover->b_slope; #endif } } } continue; } if (thing->player && (P_CheckSolidLava(thing, rover) || P_CanRunOnWater(thing->player, rover))) ; else if (thing->type == MT_SKIM && (rover->flags & FF_SWIMMABLE)) ; else if (!((rover->flags & FF_BLOCKPLAYER && thing->player) || (rover->flags & FF_BLOCKOTHERS && !thing->player) || rover->flags & FF_QUICKSAND)) continue; if (rover->flags & FF_QUICKSAND) { if (thing->z < topheight && bottomheight < thingtop) { if (tmfloorz < thing->z) { tmfloorz = thing->z; #ifdef ESLOPE tmfloorslope = NULL; #endif } } // Quicksand blocks never change heights otherwise. continue; } delta1 = thing->z - (bottomheight + ((topheight - bottomheight)/2)); delta2 = thingtop - (bottomheight + ((topheight - bottomheight)/2)); if (topheight > tmfloorz && abs(delta1) < abs(delta2) && !(rover->flags & FF_REVERSEPLATFORM)) { tmfloorz = tmdropoffz = topheight; #ifdef ESLOPE tmfloorslope = *rover->t_slope; #endif } if (bottomheight < tmceilingz && abs(delta1) >= abs(delta2) && !(rover->flags & FF_PLATFORM) && !(thing->type == MT_SKIM && (rover->flags & FF_SWIMMABLE))) { tmceilingz = tmdrpoffceilz = bottomheight; #ifdef ESLOPE tmceilingslope = *rover->b_slope; #endif } } } // The bounding box is extended by MAXRADIUS // because mobj_ts are grouped into mapblocks // based on their origin point, and can overlap // into adjacent blocks by up to MAXRADIUS units. xl = (unsigned)(tmbbox[BOXLEFT] - bmaporgx - MAXRADIUS)>>MAPBLOCKSHIFT; xh = (unsigned)(tmbbox[BOXRIGHT] - bmaporgx + MAXRADIUS)>>MAPBLOCKSHIFT; yl = (unsigned)(tmbbox[BOXBOTTOM] - bmaporgy - MAXRADIUS)>>MAPBLOCKSHIFT; yh = (unsigned)(tmbbox[BOXTOP] - bmaporgy + MAXRADIUS)>>MAPBLOCKSHIFT; BMBOUNDFIX(xl, xh, yl, yh); #ifdef POLYOBJECTS // Check polyobjects and see if tmfloorz/tmceilingz need to be altered { validcount++; for (by = yl; by <= yh; by++) for (bx = xl; bx <= xh; bx++) { INT32 offset; polymaplink_t *plink; // haleyjd 02/22/06 if (bx < 0 || by < 0 || bx >= bmapwidth || by >= bmapheight) continue; offset = by*bmapwidth + bx; // haleyjd 02/22/06: consider polyobject lines plink = polyblocklinks[offset]; while (plink) { polyobj_t *po = plink->po; if (po->validcount != validcount) // if polyobj hasn't been checked { sector_t *polysec; fixed_t delta1, delta2, thingtop; fixed_t polytop, polybottom; po->validcount = validcount; if (!P_BBoxInsidePolyobj(po, tmbbox) || !(po->flags & POF_SOLID)) { plink = (polymaplink_t *)(plink->link.next); continue; } // We're inside it! Yess... polysec = po->lines[0]->backsector; if (po->flags & POF_CLIPPLANES) { polytop = polysec->ceilingheight; polybottom = polysec->floorheight; } else { polytop = INT32_MAX; polybottom = INT32_MIN; } thingtop = thing->z + thing->height; delta1 = thing->z - (polybottom + ((polytop - polybottom)/2)); delta2 = thingtop - (polybottom + ((polytop - polybottom)/2)); if (polytop > tmfloorz && abs(delta1) < abs(delta2)) { tmfloorz = tmdropoffz = polytop; #ifdef ESLOPE tmfloorslope = NULL; #endif } if (polybottom < tmceilingz && abs(delta1) >= abs(delta2)) { tmceilingz = tmdrpoffceilz = polybottom; #ifdef ESLOPE tmceilingslope = NULL; #endif } } plink = (polymaplink_t *)(plink->link.next); } } } #endif // tmfloorthing is set when tmfloorz comes from a thing's top tmfloorthing = NULL; tmhitthing = NULL; validcount++; if (tmflags & MF_NOCLIP) return true; // Check things first, possibly picking things up. // MF_NOCLIPTHING: used by camera to not be blocked by things if (!(thing->flags & MF_NOCLIPTHING)) { for (bx = xl; bx <= xh; bx++) for (by = yl; by <= yh; by++) { if (!P_BlockThingsIterator(bx, by, PIT_CheckThing)) blockval = false; if (P_MobjWasRemoved(tmthing)) return false; } } validcount++; // check lines for (bx = xl; bx <= xh; bx++) for (by = yl; by <= yh; by++) if (!P_BlockLinesIterator(bx, by, PIT_CheckLine)) blockval = false; return blockval; } static const fixed_t hoopblockdist = 16*FRACUNIT + 8*FRACUNIT; static const fixed_t hoophalfheight = (56*FRACUNIT)/2; // P_CheckPosition optimized for the MT_HOOPCOLLIDE object. This needs to be as fast as possible! void P_CheckHoopPosition(mobj_t *hoopthing, fixed_t x, fixed_t y, fixed_t z, fixed_t radius) { INT32 i; (void)radius; //unused for (i = 0; i < MAXPLAYERS; i++) { if (!playeringame[i] || !players[i].mo || players[i].spectator) continue; if (abs(players[i].mo->x - x) >= hoopblockdist || abs(players[i].mo->y - y) >= hoopblockdist || abs((players[i].mo->z+hoophalfheight) - z) >= hoopblockdist) continue; // didn't hit it // can remove thing P_TouchSpecialThing(hoopthing, players[i].mo, false); break; } return; } // // P_CheckCameraPosition // boolean P_CheckCameraPosition(fixed_t x, fixed_t y, camera_t *thiscam) { INT32 xl, xh, yl, yh, bx, by; subsector_t *newsubsec; tmx = x; tmy = y; tmbbox[BOXTOP] = y + thiscam->radius; tmbbox[BOXBOTTOM] = y - thiscam->radius; tmbbox[BOXRIGHT] = x + thiscam->radius; tmbbox[BOXLEFT] = x - thiscam->radius; newsubsec = R_PointInSubsector(x, y); ceilingline = blockingline = NULL; mapcampointer = thiscam; if (GETSECSPECIAL(newsubsec->sector->special, 4) == 12) { // Camera noclip on entire sector. tmfloorz = tmdropoffz = thiscam->z; tmceilingz = tmdrpoffceilz = thiscam->z + thiscam->height; return true; } // The base floor / ceiling is from the subsector // that contains the point. // Any contacted lines the step closer together // will adjust them. tmfloorz = tmdropoffz = P_CameraGetFloorZ(thiscam, newsubsec->sector, x, y, NULL); tmceilingz = P_CameraGetCeilingZ(thiscam, newsubsec->sector, x, y, NULL); // Cameras use the heightsec's heights rather then the actual sector heights. // If you can see through it, why not move the camera through it too? if (newsubsec->sector->heightsec >= 0) { tmfloorz = tmdropoffz = sectors[newsubsec->sector->heightsec].floorheight; tmceilingz = tmdrpoffceilz = sectors[newsubsec->sector->heightsec].ceilingheight; } // Use preset camera clipping heights if set with Sector Special Parameters whose control sector has Camera Intangible special -Red if (newsubsec->sector->camsec >= 0) { tmfloorz = tmdropoffz = sectors[newsubsec->sector->camsec].floorheight; tmceilingz = tmdrpoffceilz = sectors[newsubsec->sector->camsec].ceilingheight; } // Check list of fake floors and see if tmfloorz/tmceilingz need to be altered. if (newsubsec->sector->ffloors) { ffloor_t *rover; fixed_t delta1, delta2; INT32 thingtop = thiscam->z + thiscam->height; for (rover = newsubsec->sector->ffloors; rover; rover = rover->next) { fixed_t topheight, bottomheight; if (!(rover->flags & FF_BLOCKOTHERS) || !(rover->flags & FF_EXISTS) || !(rover->flags & FF_RENDERALL) || GETSECSPECIAL(rover->master->frontsector->special, 4) == 12) continue; topheight = P_CameraGetFOFTopZ(thiscam, newsubsec->sector, rover, x, y, NULL); bottomheight = P_CameraGetFOFBottomZ(thiscam, newsubsec->sector, rover, x, y, NULL); delta1 = thiscam->z - (bottomheight + ((topheight - bottomheight)/2)); delta2 = thingtop - (bottomheight + ((topheight - bottomheight)/2)); if (topheight > tmfloorz && abs(delta1) < abs(delta2)) { tmfloorz = tmdropoffz = topheight; } if (bottomheight < tmceilingz && abs(delta1) >= abs(delta2)) { tmceilingz = tmdrpoffceilz = bottomheight; } } } // The bounding box is extended by MAXRADIUS // because mobj_ts are grouped into mapblocks // based on their origin point, and can overlap // into adjacent blocks by up to MAXRADIUS units. xl = (unsigned)(tmbbox[BOXLEFT] - bmaporgx)>>MAPBLOCKSHIFT; xh = (unsigned)(tmbbox[BOXRIGHT] - bmaporgx)>>MAPBLOCKSHIFT; yl = (unsigned)(tmbbox[BOXBOTTOM] - bmaporgy)>>MAPBLOCKSHIFT; yh = (unsigned)(tmbbox[BOXTOP] - bmaporgy)>>MAPBLOCKSHIFT; BMBOUNDFIX(xl, xh, yl, yh); #ifdef POLYOBJECTS // Check polyobjects and see if tmfloorz/tmceilingz need to be altered { validcount++; for (by = yl; by <= yh; by++) for (bx = xl; bx <= xh; bx++) { INT32 offset; polymaplink_t *plink; // haleyjd 02/22/06 if (bx < 0 || by < 0 || bx >= bmapwidth || by >= bmapheight) continue; offset = by*bmapwidth + bx; // haleyjd 02/22/06: consider polyobject lines plink = polyblocklinks[offset]; while (plink) { polyobj_t *po = plink->po; if (po->validcount != validcount) // if polyobj hasn't been checked { sector_t *polysec; fixed_t delta1, delta2, thingtop; fixed_t polytop, polybottom; po->validcount = validcount; if (!P_PointInsidePolyobj(po, x, y) || !(po->flags & POF_SOLID)) { plink = (polymaplink_t *)(plink->link.next); continue; } // We're inside it! Yess... polysec = po->lines[0]->backsector; if (GETSECSPECIAL(polysec->special, 4) == 12) { // Camera noclip polyobj. plink = (polymaplink_t *)(plink->link.next); continue; } if (po->flags & POF_CLIPPLANES) { polytop = polysec->ceilingheight; polybottom = polysec->floorheight; } else { polytop = INT32_MAX; polybottom = INT32_MIN; } thingtop = thiscam->z + thiscam->height; delta1 = thiscam->z - (polybottom + ((polytop - polybottom)/2)); delta2 = thingtop - (polybottom + ((polytop - polybottom)/2)); if (polytop > tmfloorz && abs(delta1) < abs(delta2)) tmfloorz = tmdropoffz = polytop; if (polybottom < tmceilingz && abs(delta1) >= abs(delta2)) tmceilingz = tmdrpoffceilz = polybottom; } plink = (polymaplink_t *)(plink->link.next); } } } #endif // check lines for (bx = xl; bx <= xh; bx++) for (by = yl; by <= yh; by++) if (!P_BlockLinesIterator(bx, by, PIT_CheckCameraLine)) return false; return true; } // // CheckMissileImpact // static void CheckMissileImpact(mobj_t *mobj) { if (!(mobj->flags & MF_MISSILE) || !mobj->target) return; if (!mobj->target->player) return; } // The highest the camera will "step up" onto another floor. #define MAXCAMERASTEPMOVE MAXSTEPMOVE // // P_TryCameraMove // // Attempt to move the camera to a new position // // Return true if the move succeeded and no sliding should be done. // boolean P_TryCameraMove(fixed_t x, fixed_t y, camera_t *thiscam) { subsector_t *s = R_PointInSubsector(x, y); boolean retval = true; boolean itsatwodlevel = false; floatok = false; if (twodlevel || (thiscam == &camera && players[displayplayer].mo && (players[displayplayer].mo->flags2 & MF2_TWOD)) || (thiscam == &camera2 && players[secondarydisplayplayer].mo && (players[secondarydisplayplayer].mo->flags2 & MF2_TWOD))) itsatwodlevel = true; if (!itsatwodlevel && players[displayplayer].mo) { fixed_t tryx = thiscam->x; fixed_t tryy = thiscam->y; if ((thiscam == &camera && (players[displayplayer].pflags & PF_NOCLIP)) || (thiscam == &camera2 && (players[secondarydisplayplayer].pflags & PF_NOCLIP))) { // Noclipping player camera noclips too!! floatok = true; thiscam->floorz = thiscam->z; thiscam->ceilingz = thiscam->z + thiscam->height; thiscam->x = x; thiscam->y = y; thiscam->subsector = s; return true; } do { if (x-tryx > MAXRADIUS) tryx += MAXRADIUS; else if (x-tryx < -MAXRADIUS) tryx -= MAXRADIUS; else tryx = x; if (y-tryy > MAXRADIUS) tryy += MAXRADIUS; else if (y-tryy < -MAXRADIUS) tryy -= MAXRADIUS; else tryy = y; if (!P_CheckCameraPosition(tryx, tryy, thiscam)) return false; // solid wall or thing if (tmceilingz - tmfloorz < thiscam->height) return false; // doesn't fit floatok = true; if (tmceilingz - thiscam->z < thiscam->height) { if (s == thiscam->subsector && tmceilingz >= thiscam->z) { floatok = true; thiscam->floorz = tmfloorz; thiscam->ceilingz = tmfloorz + thiscam->height; thiscam->x = x; thiscam->y = y; thiscam->subsector = s; return true; } else return false; // mobj must lower itself to fit } if ((tmfloorz - thiscam->z > MAXCAMERASTEPMOVE)) return false; // too big a step up } while(tryx != x || tryy != y); } else { tmfloorz = P_CameraGetFloorZ(thiscam, thiscam->subsector->sector, x, y, NULL); tmceilingz = P_CameraGetCeilingZ(thiscam, thiscam->subsector->sector, x, y, NULL); } // the move is ok, // so link the thing into its new position thiscam->floorz = tmfloorz; thiscam->ceilingz = tmceilingz; thiscam->x = x; thiscam->y = y; thiscam->subsector = s; return retval; } // // PIT_PushableMoved // // Move things standing on top // of pushable things being pushed. // static mobj_t *stand; static fixed_t standx, standy; boolean PIT_PushableMoved(mobj_t *thing) { fixed_t blockdist; if (!(thing->flags & MF_SOLID) || (thing->flags & MF_NOGRAVITY)) return true; // Don't move something non-solid! // Only pushables are supported... in 2.0. Now players can be moved too! if (!(thing->flags & MF_PUSHABLE || thing->player)) return true; if (thing == stand) return true; blockdist = stand->radius + thing->radius; if (abs(thing->x - stand->x) >= blockdist || abs(thing->y - stand->y) >= blockdist) return true; // didn't hit it if ((!(stand->eflags & MFE_VERTICALFLIP) && thing->z != stand->z + stand->height + FixedMul(FRACUNIT, stand->scale)) || ((stand->eflags & MFE_VERTICALFLIP) && thing->z + thing->height != stand->z - FixedMul(FRACUNIT, stand->scale))) return true; // Not standing on top if (!stand->momx && !stand->momy) return true; // Move this guy! if (thing->player) { // Monster Iestyn - 29/11/13 // Ridiculous amount of newly declared stuff so players can't get stuck in walls AND so gargoyles don't break themselves at the same time either // These are all non-static map variables that are changed for each and every single mobj // See, changing player's momx/y would possibly trigger stuff as if the player were running somehow, so this must be done to keep the player standing // All this so players can ride gargoyles! boolean oldfltok = floatok; fixed_t oldflrz = tmfloorz; fixed_t oldceilz = tmceilingz; mobj_t *oldflrthing = tmfloorthing; mobj_t *oldthing = tmthing; line_t *oldceilline = ceilingline; line_t *oldblockline = blockingline; #ifdef ESLOPE pslope_t *oldfslope = tmfloorslope; pslope_t *oldcslope = tmceilingslope; #endif // Move the player P_TryMove(thing, thing->x+stand->momx, thing->y+stand->momy, true); // Now restore EVERYTHING so the gargoyle doesn't keep the player's tmstuff and break floatok = oldfltok; tmfloorz = oldflrz; tmceilingz = oldceilz; tmfloorthing = oldflrthing; P_SetTarget(&tmthing, oldthing); ceilingline = oldceilline; blockingline = oldblockline; #ifdef ESLOPE tmfloorslope = oldfslope; tmceilingslope = oldcslope; #endif thing->momz = stand->momz; } else { thing->momx = stand->momx; thing->momy = stand->momy; thing->momz = stand->momz; } return true; } // // P_TryMove // Attempt to move to a new position. // boolean P_TryMove(mobj_t *thing, fixed_t x, fixed_t y, boolean allowdropoff) { fixed_t tryx = thing->x; fixed_t tryy = thing->y; fixed_t radius = thing->radius; fixed_t thingtop = thing->z + thing->height; #ifdef ESLOPE fixed_t startingonground = P_IsObjectOnGround(thing); #endif floatok = false; if (radius < MAXRADIUS/2) radius = MAXRADIUS/2; do { if (thing->flags & MF_NOCLIP) { tryx = x; tryy = y; } else { if (x-tryx > radius) tryx += radius; else if (x-tryx < -radius) tryx -= radius; else tryx = x; if (y-tryy > radius) tryy += radius; else if (y-tryy < -radius) tryy -= radius; else tryy = y; } if (!P_CheckPosition(thing, tryx, tryy)) { if (!P_MobjWasRemoved(thing)) CheckMissileImpact(thing); return false; // solid wall or thing } if (!(thing->flags & MF_NOCLIP)) { //All things are affected by their scale. fixed_t maxstep = FixedMul(MAXSTEPMOVE, thing->scale); if (thing->player) { // If using type Section1:13, double the maxstep. if (P_PlayerTouchingSectorSpecial(thing->player, 1, 13) || GETSECSPECIAL(R_PointInSubsector(x, y)->sector->special, 1) == 13) maxstep <<= 1; // Don't 'step up' while springing, // Only step up "if needed". if (thing->player->panim == PA_SPRING && P_MobjFlip(thing)*thing->momz > FixedMul(FRACUNIT, thing->scale)) maxstep = 0; } if (thing->type == MT_SKIM) maxstep = 0; if (tmceilingz - tmfloorz < thing->height) { CheckMissileImpact(thing); if (tmfloorthing) tmhitthing = tmfloorthing; return false; // doesn't fit } floatok = true; if (thing->eflags & MFE_VERTICALFLIP) { if (thing->z < tmfloorz) { CheckMissileImpact(thing); return false; // mobj must raise itself to fit } } else if (tmceilingz < thingtop) { CheckMissileImpact(thing); return false; // mobj must lower itself to fit } // Ramp test if (maxstep > 0 && !( thing->player && ( P_PlayerTouchingSectorSpecial(thing->player, 1, 14) || GETSECSPECIAL(R_PointInSubsector(x, y)->sector->special, 1) == 14) ) ) { // If the floor difference is MAXSTEPMOVE or less, and the sector isn't Section1:14, ALWAYS // step down! Formerly required a Section1:13 sector for the full MAXSTEPMOVE, but no more. if (thing->eflags & MFE_VERTICALFLIP) { if (thingtop == thing->ceilingz && tmceilingz > thingtop && tmceilingz - thingtop <= maxstep) { thing->z = (thing->ceilingz = thingtop = tmceilingz) - thing->height; thing->eflags |= MFE_JUSTSTEPPEDDOWN; } #ifdef ESLOPE // HACK TO FIX DSZ2: apply only if slopes are involved else if (tmceilingslope && tmceilingz < thingtop && thingtop - tmceilingz <= maxstep) { thing->z = (thing->ceilingz = thingtop = tmceilingz) - thing->height; thing->eflags |= MFE_JUSTSTEPPEDDOWN; } #endif } else if (thing->z == thing->floorz && tmfloorz < thing->z && thing->z - tmfloorz <= maxstep) { thing->z = thing->floorz = tmfloorz; thing->eflags |= MFE_JUSTSTEPPEDDOWN; } #ifdef ESLOPE // HACK TO FIX DSZ2: apply only if slopes are involved else if (tmfloorslope && tmfloorz > thing->z && tmfloorz - thing->z <= maxstep) { thing->z = thing->floorz = tmfloorz; thing->eflags |= MFE_JUSTSTEPPEDDOWN; } #endif } if (thing->eflags & MFE_VERTICALFLIP) { if (thingtop - tmceilingz > maxstep) { CheckMissileImpact(thing); if (tmfloorthing) tmhitthing = tmfloorthing; return false; // too big a step up } } else if (tmfloorz - thing->z > maxstep) { CheckMissileImpact(thing); if (tmfloorthing) tmhitthing = tmfloorthing; return false; // too big a step up } if (tmfloorz > thing->z) { if (thing->flags & MF_MISSILE) CheckMissileImpact(thing); } if (!allowdropoff && !(thing->flags & MF_FLOAT) && thing->type != MT_SKIM && !tmfloorthing) { if (thing->eflags & MFE_VERTICALFLIP) { if (tmdrpoffceilz - tmceilingz > maxstep) return false; } else if (tmfloorz - tmdropoffz > maxstep) return false; // don't stand over a dropoff } } } while (tryx != x || tryy != y); // The move is ok! // If it's a pushable object, check if anything is // standing on top and move it, too. if (thing->flags & MF_PUSHABLE) { INT32 bx, by, xl, xh, yl, yh; yh = (unsigned)(thing->y + MAXRADIUS - bmaporgy)>>MAPBLOCKSHIFT; yl = (unsigned)(thing->y - MAXRADIUS - bmaporgy)>>MAPBLOCKSHIFT; xh = (unsigned)(thing->x + MAXRADIUS - bmaporgx)>>MAPBLOCKSHIFT; xl = (unsigned)(thing->x - MAXRADIUS - bmaporgx)>>MAPBLOCKSHIFT; BMBOUNDFIX(xl, xh, yl, yh); stand = thing; standx = x; standy = y; for (by = yl; by <= yh; by++) for (bx = xl; bx <= xh; bx++) P_BlockThingsIterator(bx, by, PIT_PushableMoved); } // Link the thing into its new position P_UnsetThingPosition(thing); thing->floorz = tmfloorz; thing->ceilingz = tmceilingz; #ifdef ESLOPE if (!(thing->flags & MF_NOCLIPHEIGHT)) { // Assign thing's standingslope if needed if (thing->z <= tmfloorz && !(thing->eflags & MFE_VERTICALFLIP)) { if (!startingonground && tmfloorslope) P_HandleSlopeLanding(thing, tmfloorslope); if (thing->momz <= 0) thing->standingslope = tmfloorslope; } else if (thing->z+thing->height >= tmceilingz && (thing->eflags & MFE_VERTICALFLIP)) { if (!startingonground && tmceilingslope) P_HandleSlopeLanding(thing, tmceilingslope); if (thing->momz >= 0) thing->standingslope = tmceilingslope; } } else // don't set standingslope if you're not going to clip against it thing->standingslope = NULL; #endif thing->x = x; thing->y = y; if (tmfloorthing) thing->eflags &= ~MFE_ONGROUND; // not on real floor else thing->eflags |= MFE_ONGROUND; P_SetThingPosition(thing); return true; } boolean P_SceneryTryMove(mobj_t *thing, fixed_t x, fixed_t y) { fixed_t tryx, tryy; tryx = thing->x; tryy = thing->y; do { if (x-tryx > MAXRADIUS) tryx += MAXRADIUS; else if (x-tryx < -MAXRADIUS) tryx -= MAXRADIUS; else tryx = x; if (y-tryy > MAXRADIUS) tryy += MAXRADIUS; else if (y-tryy < -MAXRADIUS) tryy -= MAXRADIUS; else tryy = y; if (!P_CheckPosition(thing, tryx, tryy)) return false; // solid wall or thing if (!(thing->flags & MF_NOCLIP)) { const fixed_t maxstep = MAXSTEPMOVE; if (tmceilingz - tmfloorz < thing->height) return false; // doesn't fit if (tmceilingz - thing->z < thing->height) return false; // mobj must lower itself to fit if (tmfloorz - thing->z > maxstep) return false; // too big a step up } } while(tryx != x || tryy != y); // the move is ok, // so link the thing into its new position P_UnsetThingPosition(thing); thing->floorz = tmfloorz; thing->ceilingz = tmceilingz; thing->x = x; thing->y = y; if (tmfloorthing) thing->eflags &= ~MFE_ONGROUND; // not on real floor else thing->eflags |= MFE_ONGROUND; P_SetThingPosition(thing); return true; } // // P_ThingHeightClip // Takes a valid thing and adjusts the thing->floorz, // thing->ceilingz, and possibly thing->z. // This is called for all nearby monsters // whenever a sector changes height. // If the thing doesn't fit, // the z will be set to the lowest value // and false will be returned. // static boolean P_ThingHeightClip(mobj_t *thing) { boolean floormoved; fixed_t oldfloorz = thing->floorz; boolean onfloor = P_IsObjectOnGround(thing);//(thing->z <= thing->floorz); if (thing->flags & MF_NOCLIPHEIGHT) return true; P_CheckPosition(thing, thing->x, thing->y); if (P_MobjWasRemoved(thing)) return true; floormoved = (thing->eflags & MFE_VERTICALFLIP && tmceilingz != thing->ceilingz) || (!(thing->eflags & MFE_VERTICALFLIP) && tmfloorz != thing->floorz); thing->floorz = tmfloorz; thing->ceilingz = tmceilingz; // Ugly hack?!?! As long as just ceilingz is the lowest, // you'll still get crushed, right? if (tmfloorz > oldfloorz+thing->height) return true; if (onfloor && !(thing->flags & MF_NOGRAVITY) && floormoved) { if (thing->eflags & MFE_VERTICALFLIP) thing->pmomz = thing->ceilingz - (thing->z + thing->height); else thing->pmomz = thing->floorz - thing->z; thing->eflags |= MFE_APPLYPMOMZ; if (thing->eflags & MFE_VERTICALFLIP) thing->z = thing->ceilingz - thing->height; else thing->z = thing->floorz; } else if (!tmfloorthing) { // don't adjust a floating monster unless forced to if (thing->eflags & MFE_VERTICALFLIP) { if (!onfloor && thing->z < tmfloorz) thing->z = thing->floorz; } else if (!onfloor && thing->z + thing->height > tmceilingz) thing->z = thing->ceilingz - thing->height; } // debug: be sure it falls to the floor thing->eflags &= ~MFE_ONGROUND; if (thing->ceilingz - thing->floorz < thing->height && thing->z >= thing->floorz) // BP: i know that this code cause many trouble but this also fixes // a lot of problems, mainly this is implementation of the stepping // for mobj (walk on solid corpse without jumping or fake 3d bridge) // problem is imp into imp at map01 and monster going at top of others return false; return true; } // // SLIDE MOVE // Allows the player to slide along any angled walls. // static fixed_t bestslidefrac, secondslidefrac; static line_t *bestslideline; static line_t *secondslideline; static mobj_t *slidemo; static fixed_t tmxmove, tmymove; // // P_HitCameraSlideLine // static void P_HitCameraSlideLine(line_t *ld, camera_t *thiscam) { INT32 side; angle_t lineangle, moveangle, deltaangle; fixed_t movelen, newlen; if (ld->slopetype == ST_HORIZONTAL) { tmymove = 0; return; } if (ld->slopetype == ST_VERTICAL) { tmxmove = 0; return; } side = P_PointOnLineSide(thiscam->x, thiscam->y, ld); lineangle = R_PointToAngle2(0, 0, ld->dx, ld->dy); if (side == 1) lineangle += ANGLE_180; moveangle = R_PointToAngle2(0, 0, tmxmove, tmymove); deltaangle = moveangle-lineangle; if (deltaangle > ANGLE_180) deltaangle += ANGLE_180; lineangle >>= ANGLETOFINESHIFT; deltaangle >>= ANGLETOFINESHIFT; movelen = P_AproxDistance(tmxmove, tmymove); newlen = FixedMul(movelen, FINECOSINE(deltaangle)); tmxmove = FixedMul(newlen, FINECOSINE(lineangle)); tmymove = FixedMul(newlen, FINESINE(lineangle)); } // // P_HitSlideLine // Adjusts the xmove / ymove // so that the next move will slide along the wall. // static void P_HitSlideLine(line_t *ld) { INT32 side; angle_t lineangle, moveangle, deltaangle; fixed_t movelen, newlen; if (ld->slopetype == ST_HORIZONTAL) { tmymove = 0; return; } if (ld->slopetype == ST_VERTICAL) { tmxmove = 0; return; } side = P_PointOnLineSide(slidemo->x, slidemo->y, ld); lineangle = R_PointToAngle2(0, 0, ld->dx, ld->dy); if (side == 1) lineangle += ANGLE_180; moveangle = R_PointToAngle2(0, 0, tmxmove, tmymove); deltaangle = moveangle-lineangle; if (deltaangle > ANGLE_180) deltaangle += ANGLE_180; lineangle >>= ANGLETOFINESHIFT; deltaangle >>= ANGLETOFINESHIFT; movelen = P_AproxDistance(tmxmove, tmymove); newlen = FixedMul(movelen, FINECOSINE(deltaangle)); tmxmove = FixedMul(newlen, FINECOSINE(lineangle)); tmymove = FixedMul(newlen, FINESINE(lineangle)); } // // P_HitBounceLine // // Adjusts the xmove / ymove so that the next move will bounce off the wall. // static void P_HitBounceLine(line_t *ld) { angle_t lineangle, moveangle, deltaangle; fixed_t movelen; if (ld->slopetype == ST_HORIZONTAL) { tmymove = -tmymove; return; } if (ld->slopetype == ST_VERTICAL) { tmxmove = -tmxmove; return; } lineangle = R_PointToAngle2(0, 0, ld->dx, ld->dy); if (lineangle >= ANGLE_180) lineangle -= ANGLE_180; moveangle = R_PointToAngle2(0, 0, tmxmove, tmymove); deltaangle = moveangle + 2*(lineangle - moveangle); lineangle >>= ANGLETOFINESHIFT; deltaangle >>= ANGLETOFINESHIFT; movelen = P_AproxDistance(tmxmove, tmymove); tmxmove = FixedMul(movelen, FINECOSINE(deltaangle)); tmymove = FixedMul(movelen, FINESINE(deltaangle)); deltaangle = R_PointToAngle2(0, 0, tmxmove, tmymove); } // // PTR_SlideCameraTraverse // static boolean PTR_SlideCameraTraverse(intercept_t *in) { line_t *li; I_Assert(in->isaline); li = in->d.line; // one-sided linedef if (!li->backsector) { if (P_PointOnLineSide(mapcampointer->x, mapcampointer->y, li)) return true; // don't hit the back side goto isblocking; } // set openrange, opentop, openbottom P_CameraLineOpening(li); if (openrange < mapcampointer->height) goto isblocking; // doesn't fit if (opentop - mapcampointer->z < mapcampointer->height) goto isblocking; // mobj is too high if (openbottom - mapcampointer->z > 0) // We don't want to make the camera step up. goto isblocking; // too big a step up // this line doesn't block movement return true; // the line does block movement, // see if it is closer than best so far isblocking: { if (in->frac < bestslidefrac) { secondslidefrac = bestslidefrac; secondslideline = bestslideline; bestslidefrac = in->frac; bestslideline = li; } } return false; // stop } // // P_IsClimbingValid // // Unlike P_DoClimbing, don't use when up against a one-sided linedef. // static boolean P_IsClimbingValid(player_t *player, angle_t angle) { fixed_t platx, platy; subsector_t *glidesector; fixed_t floorz, ceilingz; platx = P_ReturnThrustX(player->mo, angle, player->mo->radius + FixedMul(8*FRACUNIT, player->mo->scale)); platy = P_ReturnThrustY(player->mo, angle, player->mo->radius + FixedMul(8*FRACUNIT, player->mo->scale)); glidesector = R_PointInSubsector(player->mo->x + platx, player->mo->y + platy); #ifdef ESLOPE floorz = glidesector->sector->f_slope ? P_GetZAt(glidesector->sector->f_slope, player->mo->x, player->mo->y) : glidesector->sector->floorheight; ceilingz = glidesector->sector->c_slope ? P_GetZAt(glidesector->sector->c_slope, player->mo->x, player->mo->y) : glidesector->sector->ceilingheight; #else floorz = glidesector->sector->floorheight; ceilingz = glidesector->sector->ceilingheight; #endif if (glidesector->sector != player->mo->subsector->sector) { boolean floorclimb = false; fixed_t topheight, bottomheight; if (glidesector->sector->ffloors) { ffloor_t *rover; for (rover = glidesector->sector->ffloors; rover; rover = rover->next) { if (!(rover->flags & FF_EXISTS) || !(rover->flags & FF_BLOCKPLAYER)) continue; topheight = *rover->topheight; bottomheight = *rover->bottomheight; #ifdef ESLOPE if (*rover->t_slope) topheight = P_GetZAt(*rover->t_slope, player->mo->x, player->mo->y); if (*rover->b_slope) bottomheight = P_GetZAt(*rover->b_slope, player->mo->x, player->mo->y); #endif floorclimb = true; if (player->mo->eflags & MFE_VERTICALFLIP) { if ((topheight < player->mo->z + player->mo->height) && ((player->mo->z + player->mo->height + player->mo->momz) < topheight)) { floorclimb = true; } if (topheight < player->mo->z) // Waaaay below the ledge. { floorclimb = false; } if (bottomheight > player->mo->z + player->mo->height - FixedMul(16*FRACUNIT,player->mo->scale)) { floorclimb = false; } } else { if ((bottomheight > player->mo->z) && ((player->mo->z - player->mo->momz) > bottomheight)) { floorclimb = true; } if (bottomheight > player->mo->z + player->mo->height) // Waaaay below the ledge. { floorclimb = false; } if (topheight < player->mo->z + FixedMul(16*FRACUNIT,player->mo->scale)) { floorclimb = false; } } if (floorclimb) break; } } if (player->mo->eflags & MFE_VERTICALFLIP) { if ((floorz <= player->mo->z + player->mo->height) && ((player->mo->z + player->mo->height - player->mo->momz) <= floorz)) floorclimb = true; if ((floorz > player->mo->z) && glidesector->sector->floorpic == skyflatnum) return false; if ((player->mo->z + player->mo->height - FixedMul(16*FRACUNIT,player->mo->scale) > ceilingz) || (player->mo->z + player->mo->height <= floorz)) floorclimb = true; } else { if ((ceilingz >= player->mo->z) && ((player->mo->z - player->mo->momz) >= ceilingz)) floorclimb = true; if ((ceilingz < player->mo->z+player->mo->height) && glidesector->sector->ceilingpic == skyflatnum) return false; if ((player->mo->z + FixedMul(16*FRACUNIT,player->mo->scale) < ceilingz) || (player->mo->z >= ceilingz)) floorclimb = true; } if (!floorclimb) return false; return true; } return false; } // // PTR_SlideTraverse // static boolean PTR_SlideTraverse(intercept_t *in) { line_t *li; I_Assert(in->isaline); li = in->d.line; // one-sided linedefs are always solid to sliding movement. // one-sided linedef if (!li->backsector) { if (P_PointOnLineSide(slidemo->x, slidemo->y, li)) return true; // don't hit the back side goto isblocking; } if (!(slidemo->flags & MF_MISSILE)) { if (li->flags & ML_IMPASSIBLE) goto isblocking; if ((slidemo->flags & (MF_ENEMY|MF_BOSS)) && li->flags & ML_BLOCKMONSTERS) goto isblocking; } // set openrange, opentop, openbottom P_LineOpening(li, slidemo); if (openrange < slidemo->height) goto isblocking; // doesn't fit if (opentop - slidemo->z < slidemo->height) goto isblocking; // mobj is too high if (openbottom - slidemo->z > FixedMul(MAXSTEPMOVE, slidemo->scale)) goto isblocking; // too big a step up // this line doesn't block movement return true; // the line does block movement, // see if it is closer than best so far isblocking: if (li->polyobj && slidemo->player) { if ((li->polyobj->lines[0]->backsector->flags & SF_TRIGGERSPECIAL_TOUCH) && !(li->polyobj->flags & POF_NOSPECIALS)) P_ProcessSpecialSector(slidemo->player, slidemo->subsector->sector, li->polyobj->lines[0]->backsector); } if (slidemo->player && (slidemo->player->pflags & PF_GLIDING || slidemo->player->climbing) && slidemo->player->charability == CA_GLIDEANDCLIMB) { line_t *checkline = li; sector_t *checksector; ffloor_t *rover; fixed_t topheight, bottomheight; boolean fofline = false; INT32 side = P_PointOnLineSide(slidemo->x, slidemo->y, li); if (!side && li->backsector) checksector = li->backsector; else checksector = li->frontsector; if (checksector->ffloors) { for (rover = checksector->ffloors; rover; rover = rover->next) { if (!(rover->flags & FF_EXISTS) || !(rover->flags & FF_BLOCKPLAYER) || (rover->flags & FF_BUSTUP)) continue; topheight = *rover->topheight; bottomheight = *rover->bottomheight; #ifdef ESLOPE if (*rover->t_slope) topheight = P_GetZAt(*rover->t_slope, slidemo->x, slidemo->y); if (*rover->b_slope) bottomheight = P_GetZAt(*rover->b_slope, slidemo->x, slidemo->y); #endif if (topheight < slidemo->z) continue; if (bottomheight > slidemo->z + slidemo->height) continue; // Got this far, so I guess it's climbable. // TODO: Climbing check, also, better method to do this? if (rover->master->flags & ML_TFERLINE) { size_t linenum = li-checksector->lines[0]; checkline = rover->master->frontsector->lines[0] + linenum; fofline = true; } break; } } // see about climbing on the wall if (!(checkline->flags & ML_NOCLIMB)) { boolean canclimb; angle_t climbangle, climbline; INT32 whichside = P_PointOnLineSide(slidemo->x, slidemo->y, li); climbangle = climbline = R_PointToAngle2(li->v1->x, li->v1->y, li->v2->x, li->v2->y); if (whichside) // on second side? climbline += ANGLE_180; climbangle += (ANGLE_90 * (whichside ? -1 : 1)); canclimb = (li->backsector ? P_IsClimbingValid(slidemo->player, climbangle) : true); if (((!slidemo->player->climbing && abs((signed)(slidemo->angle - ANGLE_90 - climbline)) < ANGLE_45) || (slidemo->player->climbing == 1 && abs((signed)(slidemo->angle - climbline)) < ANGLE_135)) && canclimb) { slidemo->angle = climbangle; if (!demoplayback || P_AnalogMove(slidemo->player)) { if (slidemo->player == &players[consoleplayer]) localangle = slidemo->angle; else if (slidemo->player == &players[secondarydisplayplayer]) localangle2 = slidemo->angle; } if (!slidemo->player->climbing) { S_StartSound(slidemo->player->mo, sfx_s3k4a); slidemo->player->climbing = 5; } slidemo->player->pflags &= ~(PF_GLIDING|PF_SPINNING|PF_JUMPED|PF_NOJUMPDAMAGE|PF_THOKKED); slidemo->player->glidetime = 0; slidemo->player->secondjump = 0; if (slidemo->player->climbing > 1) slidemo->momz = slidemo->momx = slidemo->momy = 0; if (fofline) whichside = 0; if (!whichside) { slidemo->player->lastsidehit = checkline->sidenum[whichside]; slidemo->player->lastlinehit = (INT16)(checkline - lines); } P_Thrust(slidemo, slidemo->angle, FixedMul(5*FRACUNIT, slidemo->scale)); } } } if (in->frac < bestslidefrac && (!slidemo->player || !slidemo->player->climbing)) { secondslidefrac = bestslidefrac; secondslideline = bestslideline; bestslidefrac = in->frac; bestslideline = li; } return false; // stop } // // P_SlideCameraMove // // Tries to slide the camera along a wall. // void P_SlideCameraMove(camera_t *thiscam) { fixed_t leadx, leady, trailx, traily, newx, newy; INT32 hitcount = 0; INT32 retval = 0; bestslideline = NULL; retry: if (++hitcount == 3) goto stairstep; // don't loop forever // trace along the three leading corners if (thiscam->momx > 0) { leadx = thiscam->x + thiscam->radius; trailx = thiscam->x - thiscam->radius; } else { leadx = thiscam->x - thiscam->radius; trailx = thiscam->x + thiscam->radius; } if (thiscam->momy > 0) { leady = thiscam->y + thiscam->radius; traily = thiscam->y - thiscam->radius; } else { leady = thiscam->y - thiscam->radius; traily = thiscam->y + thiscam->radius; } bestslidefrac = FRACUNIT+1; mapcampointer = thiscam; P_PathTraverse(leadx, leady, leadx + thiscam->momx, leady + thiscam->momy, PT_ADDLINES, PTR_SlideCameraTraverse); P_PathTraverse(trailx, leady, trailx + thiscam->momx, leady + thiscam->momy, PT_ADDLINES, PTR_SlideCameraTraverse); P_PathTraverse(leadx, traily, leadx + thiscam->momx, traily + thiscam->momy, PT_ADDLINES, PTR_SlideCameraTraverse); // move up to the wall if (bestslidefrac == FRACUNIT+1) { retval = P_TryCameraMove(thiscam->x, thiscam->y + thiscam->momy, thiscam); // the move must have hit the middle, so stairstep stairstep: if (!retval) // Allow things to drop off. P_TryCameraMove(thiscam->x + thiscam->momx, thiscam->y, thiscam); return; } // fudge a bit to make sure it doesn't hit bestslidefrac -= 0x800; if (bestslidefrac > 0) { newx = FixedMul(thiscam->momx, bestslidefrac); newy = FixedMul(thiscam->momy, bestslidefrac); retval = P_TryCameraMove(thiscam->x + newx, thiscam->y + newy, thiscam); if (!retval) goto stairstep; } // Now continue along the wall. // First calculate remainder. bestslidefrac = FRACUNIT - (bestslidefrac+0x800); if (bestslidefrac > FRACUNIT) bestslidefrac = FRACUNIT; if (bestslidefrac <= 0) return; tmxmove = FixedMul(thiscam->momx, bestslidefrac); tmymove = FixedMul(thiscam->momy, bestslidefrac); P_HitCameraSlideLine(bestslideline, thiscam); // clip the moves thiscam->momx = tmxmove; thiscam->momy = tmymove; retval = P_TryCameraMove(thiscam->x + tmxmove, thiscam->y + tmymove, thiscam); if (!retval) goto retry; } // // P_SlideMove // The momx / momy move is bad, so try to slide // along a wall. // Find the first line hit, move flush to it, // and slide along it // // This is a kludgy mess. // void P_SlideMove(mobj_t *mo) { fixed_t leadx, leady, trailx, traily, newx, newy; INT16 hitcount = 0; boolean success = false; boolean papercol = false; vertex_t v1, v2; // fake vertexes line_t junk; // fake linedef if (tmhitthing && mo->z + mo->height > tmhitthing->z && mo->z < tmhitthing->z + tmhitthing->height) { // Don't mess with your momentum if it's a pushable object. Pushables do their own crazy things already. if (tmhitthing->flags & MF_PUSHABLE) return; if (tmhitthing->flags & MF_PAPERCOLLISION) { fixed_t cosradius, sinradius, num, den; // trace along the three leading corners if (mo->momx > 0) { leadx = mo->x + mo->radius; trailx = mo->x - mo->radius; } else { leadx = mo->x - mo->radius; trailx = mo->x + mo->radius; } if (mo->momy > 0) { leady = mo->y + mo->radius; traily = mo->y - mo->radius; } else { leady = mo->y - mo->radius; traily = mo->y + mo->radius; } papercol = true; slidemo = mo; bestslideline = &junk; cosradius = FixedMul(tmhitthing->radius, FINECOSINE(tmhitthing->angle>>ANGLETOFINESHIFT)); sinradius = FixedMul(tmhitthing->radius, FINESINE(tmhitthing->angle>>ANGLETOFINESHIFT)); v1.x = tmhitthing->x - cosradius; v1.y = tmhitthing->y - sinradius; v2.x = tmhitthing->x + cosradius; v2.y = tmhitthing->y + sinradius; junk.v1 = &v1; junk.v2 = &v2; junk.dx = 2*cosradius; // v2.x - v1.x; junk.dy = 2*sinradius; // v2.y - v1.y; junk.slopetype = !cosradius ? ST_VERTICAL : !sinradius ? ST_HORIZONTAL : ((sinradius > 0) == (cosradius > 0)) ? ST_POSITIVE : ST_NEGATIVE; bestslidefrac = FRACUNIT+1; den = FixedMul(junk.dy>>8, mo->momx) - FixedMul(junk.dx>>8, mo->momy); if (!den) bestslidefrac = 0; else { fixed_t frac; #define P_PaperTraverse(startx, starty) \ num = FixedMul((v1.x - leadx)>>8, junk.dy) + FixedMul((leady - v1.y)>>8, junk.dx); \ frac = FixedDiv(num, den); \ if (frac < bestslidefrac) \ bestslidefrac = frac P_PaperTraverse(leadx, leady); P_PaperTraverse(trailx, leady); P_PaperTraverse(leadx, traily); #undef dowork } goto papercollision; } // Thankfully box collisions are a lot simpler than arbitrary lines. There's only four possible cases. if (mo->y + mo->radius <= tmhitthing->y - tmhitthing->radius) { mo->momy = 0; P_TryMove(mo, mo->x + mo->momx, tmhitthing->y - tmhitthing->radius - mo->radius, true); } else if (mo->y - mo->radius >= tmhitthing->y + tmhitthing->radius) { mo->momy = 0; P_TryMove(mo, mo->x + mo->momx, tmhitthing->y + tmhitthing->radius + mo->radius, true); } else if (mo->x + mo->radius <= tmhitthing->x - tmhitthing->radius) { mo->momx = 0; P_TryMove(mo, tmhitthing->x - tmhitthing->radius - mo->radius, mo->y + mo->momy, true); } else if (mo->x - mo->radius >= tmhitthing->x + tmhitthing->radius) { mo->momx = 0; P_TryMove(mo, tmhitthing->x + tmhitthing->radius + mo->radius, mo->y + mo->momy, true); } else mo->momx = mo->momy = 0; return; } slidemo = mo; bestslideline = NULL; retry: if ((++hitcount == 3) || papercol) goto stairstep; // don't loop forever // trace along the three leading corners if (mo->momx > 0) { leadx = mo->x + mo->radius; trailx = mo->x - mo->radius; } else { leadx = mo->x - mo->radius; trailx = mo->x + mo->radius; } if (mo->momy > 0) { leady = mo->y + mo->radius; traily = mo->y - mo->radius; } else { leady = mo->y - mo->radius; traily = mo->y + mo->radius; } bestslidefrac = FRACUNIT+1; P_PathTraverse(leadx, leady, leadx + mo->momx, leady + mo->momy, PT_ADDLINES, PTR_SlideTraverse); P_PathTraverse(trailx, leady, trailx + mo->momx, leady + mo->momy, PT_ADDLINES, PTR_SlideTraverse); P_PathTraverse(leadx, traily, leadx + mo->momx, traily + mo->momy, PT_ADDLINES, PTR_SlideTraverse); // Some walls are bouncy even if you're not if (bestslideline && bestslideline->flags & ML_BOUNCY) { P_BounceMove(mo); return; } papercollision: // move up to the wall if (bestslidefrac == FRACUNIT+1) { // the move must have hit the middle, so stairstep stairstep: if (!P_TryMove(mo, mo->x, mo->y + mo->momy, true)) //Allow things to drop off. P_TryMove(mo, mo->x + mo->momx, mo->y, true); return; } // fudge a bit to make sure it doesn't hit bestslidefrac -= 0x800; if (bestslidefrac > 0) { newx = FixedMul(mo->momx, bestslidefrac); newy = FixedMul(mo->momy, bestslidefrac); if (!P_TryMove(mo, mo->x + newx, mo->y + newy, true)) goto stairstep; } // Now continue along the wall. // First calculate remainder. bestslidefrac = FRACUNIT - (bestslidefrac+0x800); if (bestslidefrac > FRACUNIT) bestslidefrac = FRACUNIT; if (bestslidefrac <= 0) return; tmxmove = FixedMul(mo->momx, bestslidefrac); tmymove = FixedMul(mo->momy, bestslidefrac); P_HitSlideLine(bestslideline); // clip the moves if ((twodlevel || (mo->flags2 & MF2_TWOD)) && mo->player) { mo->momx = tmxmove; tmymove = 0; } else { mo->momx = tmxmove; mo->momy = tmymove; } do { if (tmxmove > mo->radius) { newx = mo->x + mo->radius; tmxmove -= mo->radius; } else if (tmxmove < -mo->radius) { newx = mo->x - mo->radius; tmxmove += mo->radius; } else { newx = mo->x + tmxmove; tmxmove = 0; } if (tmymove > mo->radius) { newy = mo->y + mo->radius; tmymove -= mo->radius; } else if (tmymove < -mo->radius) { newy = mo->y - mo->radius; tmymove += mo->radius; } else { newy = mo->y + tmymove; tmymove = 0; } if (!P_TryMove(mo, newx, newy, true)) { if (success) return; // Good enough!! else goto retry; } success = true; } while(tmxmove || tmymove); } // // P_BounceMove // // The momx / momy move is bad, so try to bounce off a wall. // void P_BounceMove(mobj_t *mo) { fixed_t leadx, leady; fixed_t trailx, traily; fixed_t newx, newy; INT32 hitcount; fixed_t mmomx = 0, mmomy = 0; slidemo = mo; hitcount = 0; retry: if (++hitcount == 3) goto bounceback; // don't loop forever if (mo->player) { mmomx = mo->player->rmomx; mmomy = mo->player->rmomy; } else { mmomx = mo->momx; mmomy = mo->momy; } // trace along the three leading corners if (mo->momx > 0) { leadx = mo->x + mo->radius; trailx = mo->x - mo->radius; } else { leadx = mo->x - mo->radius; trailx = mo->x + mo->radius; } if (mo->momy > 0) { leady = mo->y + mo->radius; traily = mo->y - mo->radius; } else { leady = mo->y - mo->radius; traily = mo->y + mo->radius; } bestslidefrac = FRACUNIT + 1; P_PathTraverse(leadx, leady, leadx + mmomx, leady + mmomy, PT_ADDLINES, PTR_SlideTraverse); P_PathTraverse(trailx, leady, trailx + mmomx, leady + mmomy, PT_ADDLINES, PTR_SlideTraverse); P_PathTraverse(leadx, traily, leadx + mmomx, traily + mmomy, PT_ADDLINES, PTR_SlideTraverse); // move up to the wall if (bestslidefrac == FRACUNIT + 1) { // the move must have hit the middle, so bounce straight back bounceback: if (P_TryMove(mo, mo->x - mmomx, mo->y - mmomy, true)) { mo->momx *= -1; mo->momy *= -1; mo->momx = FixedMul(mo->momx, (FRACUNIT - (FRACUNIT>>2) - (FRACUNIT>>3))); mo->momy = FixedMul(mo->momy, (FRACUNIT - (FRACUNIT>>2) - (FRACUNIT>>3))); if (mo->player) { mo->player->cmomx *= -1; mo->player->cmomy *= -1; mo->player->cmomx = FixedMul(mo->player->cmomx, (FRACUNIT - (FRACUNIT>>2) - (FRACUNIT>>3))); mo->player->cmomy = FixedMul(mo->player->cmomy, (FRACUNIT - (FRACUNIT>>2) - (FRACUNIT>>3))); } } return; } // fudge a bit to make sure it doesn't hit bestslidefrac -= 0x800; if (bestslidefrac > 0) { newx = FixedMul(mmomx, bestslidefrac); newy = FixedMul(mmomy, bestslidefrac); if (!P_TryMove(mo, mo->x + newx, mo->y + newy, true)) goto bounceback; } // Now continue along the wall. // First calculate remainder. bestslidefrac = FRACUNIT - bestslidefrac; if (bestslidefrac > FRACUNIT) bestslidefrac = FRACUNIT; if (bestslidefrac <= 0) return; if (mo->type == MT_SHELL) { tmxmove = mmomx; tmymove = mmomy; } else if (mo->type == MT_THROWNBOUNCE) { tmxmove = FixedMul(mmomx, (FRACUNIT - (FRACUNIT>>6) - (FRACUNIT>>5))); tmymove = FixedMul(mmomy, (FRACUNIT - (FRACUNIT>>6) - (FRACUNIT>>5))); } else if (mo->type == MT_THROWNGRENADE || mo->type == MT_CYBRAKDEMON_NAPALM_BOMB_LARGE) { // Quickly decay speed as it bounces tmxmove = FixedDiv(mmomx, 2*FRACUNIT); tmymove = FixedDiv(mmomy, 2*FRACUNIT); } else { tmxmove = FixedMul(mmomx, (FRACUNIT - (FRACUNIT>>2) - (FRACUNIT>>3))); tmymove = FixedMul(mmomy, (FRACUNIT - (FRACUNIT>>2) - (FRACUNIT>>3))); } P_HitBounceLine(bestslideline); // clip the moves mo->momx = tmxmove; mo->momy = tmymove; if (mo->player) { mo->player->cmomx = tmxmove; mo->player->cmomy = tmymove; } if (!P_TryMove(mo, mo->x + tmxmove, mo->y + tmymove, true)) goto retry; } // // RADIUS ATTACK // static fixed_t bombdamage; static mobj_t *bombsource; static mobj_t *bombspot; static UINT8 bombdamagetype; // // PIT_RadiusAttack // "bombsource" is the creature // that caused the explosion at "bombspot". // static boolean PIT_RadiusAttack(mobj_t *thing) { fixed_t dx, dy, dz, dist; if (thing == bombspot) // ignore the bomb itself (Deton fix) return true; if ((thing->flags & (MF_MONITOR|MF_SHOOTABLE)) != MF_SHOOTABLE) return true; if (bombsource && thing->type == bombsource->type && !(bombdamagetype & DMG_CANHURTSELF)) // ignore the type of guys who dropped the bomb (Jetty-Syn Bomber or Skim can bomb eachother, but not themselves.) return true; dx = abs(thing->x - bombspot->x); dy = abs(thing->y - bombspot->y); dz = abs(thing->z + (thing->height>>1) - bombspot->z); dist = P_AproxDistance(P_AproxDistance(dx, dy), dz); dist -= thing->radius; if (dist < 0) dist = 0; if (dist >= bombdamage) return true; // out of range if (thing->floorz > bombspot->z && bombspot->ceilingz < thing->z) return true; if (thing->ceilingz < bombspot->z && bombspot->floorz > thing->z) return true; if (P_CheckSight(thing, bombspot)) { // must be in direct path P_DamageMobj(thing, bombspot, bombsource, 1, bombdamagetype); // Tails 01-11-2001 } return true; } // // P_RadiusAttack // Source is the creature that caused the explosion at spot. // void P_RadiusAttack(mobj_t *spot, mobj_t *source, fixed_t damagedist, UINT8 damagetype) { INT32 x, y; INT32 xl, xh, yl, yh; fixed_t dist; dist = FixedMul(damagedist, spot->scale) + MAXRADIUS; yh = (unsigned)(spot->y + dist - bmaporgy)>>MAPBLOCKSHIFT; yl = (unsigned)(spot->y - dist - bmaporgy)>>MAPBLOCKSHIFT; xh = (unsigned)(spot->x + dist - bmaporgx)>>MAPBLOCKSHIFT; xl = (unsigned)(spot->x - dist - bmaporgx)>>MAPBLOCKSHIFT; BMBOUNDFIX(xl, xh, yl, yh); bombspot = spot; bombsource = source; bombdamage = FixedMul(damagedist, spot->scale); bombdamagetype = damagetype; for (y = yl; y <= yh; y++) for (x = xl; x <= xh; x++) P_BlockThingsIterator(x, y, PIT_RadiusAttack); } // // SECTOR HEIGHT CHANGING // After modifying a sectors floor or ceiling height, // call this routine to adjust the positions // of all things that touch the sector. // // If anything doesn't fit anymore, true will be returned. // If crunch is true, they will take damage // as they are being crushed. // If Crunch is false, you should set the sector height back // the way it was and call P_CheckSector (? was P_ChangeSector - Graue) again // to undo the changes. // static boolean crushchange; static boolean nofit; // // PIT_ChangeSector // static boolean PIT_ChangeSector(mobj_t *thing, boolean realcrush) { mobj_t *killer = NULL; if (P_ThingHeightClip(thing)) { //thing fits, check next thing return true; } if (!(thing->flags & (MF_SHOOTABLE|MF_PUSHABLE)) || thing->flags & MF_NOCLIPHEIGHT) { //doesn't interact with the crusher, just ignore it return true; } // Thing doesn't fit. If thing is vulnerable, that means it's being crushed. If thing is pushable, it might // just be blocked by another object - check if it's really a ceiling! if (thing->z + thing->height > thing->ceilingz && thing->z <= thing->ceilingz) { if (thing->flags & MF_PUSHABLE && thing->z + thing->height > thing->subsector->sector->ceilingheight) { //Thing is a pushable and blocks the moving ceiling nofit = true; return false; } //Check FOFs in the sector if (thing->subsector->sector->ffloors && (realcrush || thing->flags & MF_PUSHABLE)) { ffloor_t *rover; fixed_t topheight, bottomheight; fixed_t delta1, delta2; INT32 thingtop = thing->z + thing->height; for (rover = thing->subsector->sector->ffloors; rover; rover = rover->next) { if (!(((rover->flags & FF_BLOCKPLAYER) && thing->player) || ((rover->flags & FF_BLOCKOTHERS) && !thing->player)) || !(rover->flags & FF_EXISTS)) continue; topheight = *rover->topheight; bottomheight = *rover->bottomheight; /*#ifdef ESLOPE if (rover->t_slope) topheight = P_GetZAt(rover->t_slope, thing->x, thing->y); if (rover->b_slope) bottomheight = P_GetZAt(rover->b_slope, thing->x, thing->y); #endif*/ delta1 = thing->z - (bottomheight + topheight)/2; delta2 = thingtop - (bottomheight + topheight)/2; if (bottomheight <= thing->ceilingz && abs(delta1) >= abs(delta2)) { if (thing->flags & MF_PUSHABLE) { //FOF is blocked by pushable nofit = true; return false; } else { //If the thing was crushed by a crumbling FOF, reward the player who made it crumble! thinker_t *think; elevator_t *crumbler; for (think = thinkercap.next; think != &thinkercap; think = think->next) { if (think->function.acp1 != (actionf_p1)T_StartCrumble) continue; crumbler = (elevator_t *)think; if (crumbler->player && crumbler->player->mo && crumbler->player->mo != thing && crumbler->actionsector == thing->subsector->sector && crumbler->sector == rover->master->frontsector && (crumbler->type == elevateBounce || crumbler->type == elevateContinuous)) { killer = crumbler->player->mo; } } } } } } if (realcrush) { // Crush the object if (netgame && thing->player && thing->player->spectator) P_DamageMobj(thing, NULL, NULL, 1, DMG_SPECTATOR); // Respawn crushed spectators else P_DamageMobj(thing, killer, killer, 1, DMG_CRUSHED); return true; } } if (realcrush && crushchange) P_DamageMobj(thing, NULL, NULL, 1, 0); // keep checking (crush other things) return true; } // // P_CheckSector // boolean P_CheckSector(sector_t *sector, boolean crunch) { msecnode_t *n; nofit = false; crushchange = crunch; // killough 4/4/98: scan list front-to-back until empty or exhausted, // restarting from beginning after each thing is processed. Avoids // crashes, and is sure to examine all things in the sector, and only // the things which are in the sector, until a steady-state is reached. // Things can arbitrarily be inserted and removed and it won't mess up. // // killough 4/7/98: simplified to avoid using complicated counter // First, let's see if anything will keep it from crushing. if (sector->numattached) { size_t i; sector_t *sec; for (i = 0; i < sector->numattached; i++) { sec = §ors[sector->attached[i]]; for (n = sec->touching_thinglist; n; n = n->m_thinglist_next) n->visited = false; sec->moved = true; P_RecalcPrecipInSector(sec); if (!sector->attachedsolid[i]) continue; do { for (n = sec->touching_thinglist; n; n = n->m_thinglist_next) if (!n->visited) { n->visited = true; if (!(n->m_thing->flags & MF_NOBLOCKMAP)) { if (!PIT_ChangeSector(n->m_thing, false)) { nofit = true; return nofit; } } break; } } while (n); } } // Mark all things invalid sector->moved = true; for (n = sector->touching_thinglist; n; n = n->m_thinglist_next) n->visited = false; do { for (n = sector->touching_thinglist; n; n = n->m_thinglist_next) // go through list if (!n->visited) // unprocessed thing found { n->visited = true; // mark thing as processed if (!(n->m_thing->flags & MF_NOBLOCKMAP)) //jff 4/7/98 don't do these { if (!PIT_ChangeSector(n->m_thing, false)) // process it { nofit = true; return nofit; } } break; // exit and start over } } while (n); // repeat from scratch until all things left are marked valid // Nothing blocked us, so lets crush for real! if (sector->numattached) { size_t i; sector_t *sec; for (i = 0; i < sector->numattached; i++) { sec = §ors[sector->attached[i]]; for (n = sec->touching_thinglist; n; n = n->m_thinglist_next) n->visited = false; sec->moved = true; P_RecalcPrecipInSector(sec); if (!sector->attachedsolid[i]) continue; do { for (n = sec->touching_thinglist; n; n = n->m_thinglist_next) if (!n->visited) { n->visited = true; if (!(n->m_thing->flags & MF_NOBLOCKMAP)) { PIT_ChangeSector(n->m_thing, true); return nofit; } break; } } while (n); } } // Mark all things invalid sector->moved = true; for (n = sector->touching_thinglist; n; n = n->m_thinglist_next) n->visited = false; do { for (n = sector->touching_thinglist; n; n = n->m_thinglist_next) // go through list if (!n->visited) // unprocessed thing found { n->visited = true; // mark thing as processed if (!(n->m_thing->flags & MF_NOBLOCKMAP)) //jff 4/7/98 don't do these { PIT_ChangeSector(n->m_thing, true); // process it return nofit; } break; // exit and start over } } while (n); // repeat from scratch until all things left are marked valid return nofit; } /* SoM: 3/15/2000 Lots of new Boom functions that work faster and add functionality. */ static msecnode_t *headsecnode = NULL; static mprecipsecnode_t *headprecipsecnode = NULL; void P_Initsecnode(void) { headsecnode = NULL; headprecipsecnode = NULL; } // P_GetSecnode() retrieves a node from the freelist. The calling routine // should make sure it sets all fields properly. static msecnode_t *P_GetSecnode(void) { msecnode_t *node; if (headsecnode) { node = headsecnode; headsecnode = headsecnode->m_thinglist_next; } else node = Z_Calloc(sizeof (*node), PU_LEVEL, NULL); return node; } static mprecipsecnode_t *P_GetPrecipSecnode(void) { mprecipsecnode_t *node; if (headprecipsecnode) { node = headprecipsecnode; headprecipsecnode = headprecipsecnode->m_thinglist_next; } else node = Z_Calloc(sizeof (*node), PU_LEVEL, NULL); return node; } // P_PutSecnode() returns a node to the freelist. static inline void P_PutSecnode(msecnode_t *node) { node->m_thinglist_next = headsecnode; headsecnode = node; } // Tails 08-25-2002 static inline void P_PutPrecipSecnode(mprecipsecnode_t *node) { node->m_thinglist_next = headprecipsecnode; headprecipsecnode = node; } // P_AddSecnode() searches the current list to see if this sector is // already there. If not, it adds a sector node at the head of the list of // sectors this object appears in. This is called when creating a list of // nodes that will get linked in later. Returns a pointer to the new node. static msecnode_t *P_AddSecnode(sector_t *s, mobj_t *thing, msecnode_t *nextnode) { msecnode_t *node; node = nextnode; while (node) { if (node->m_sector == s) // Already have a node for this sector? { node->m_thing = thing; // Yes. Setting m_thing says 'keep it'. return nextnode; } node = node->m_sectorlist_next; } // Couldn't find an existing node for this sector. Add one at the head // of the list. node = P_GetSecnode(); // mark new nodes unvisited. node->visited = 0; node->m_sector = s; // sector node->m_thing = thing; // mobj node->m_sectorlist_prev = NULL; // prev node on Thing thread node->m_sectorlist_next = nextnode; // next node on Thing thread if (nextnode) nextnode->m_sectorlist_prev = node; // set back link on Thing // Add new node at head of sector thread starting at s->touching_thinglist node->m_thinglist_prev = NULL; // prev node on sector thread node->m_thinglist_next = s->touching_thinglist; // next node on sector thread if (s->touching_thinglist) node->m_thinglist_next->m_thinglist_prev = node; s->touching_thinglist = node; return node; } // More crazy crap Tails 08-25-2002 static mprecipsecnode_t *P_AddPrecipSecnode(sector_t *s, precipmobj_t *thing, mprecipsecnode_t *nextnode) { mprecipsecnode_t *node; node = nextnode; while (node) { if (node->m_sector == s) // Already have a node for this sector? { node->m_thing = thing; // Yes. Setting m_thing says 'keep it'. return nextnode; } node = node->m_sectorlist_next; } // Couldn't find an existing node for this sector. Add one at the head // of the list. node = P_GetPrecipSecnode(); // mark new nodes unvisited. node->visited = 0; node->m_sector = s; // sector node->m_thing = thing; // mobj node->m_sectorlist_prev = NULL; // prev node on Thing thread node->m_sectorlist_next = nextnode; // next node on Thing thread if (nextnode) nextnode->m_sectorlist_prev = node; // set back link on Thing // Add new node at head of sector thread starting at s->touching_thinglist node->m_thinglist_prev = NULL; // prev node on sector thread node->m_thinglist_next = s->touching_preciplist; // next node on sector thread if (s->touching_preciplist) node->m_thinglist_next->m_thinglist_prev = node; s->touching_preciplist = node; return node; } // P_DelSecnode() deletes a sector node from the list of // sectors this object appears in. Returns a pointer to the next node // on the linked list, or NULL. static msecnode_t *P_DelSecnode(msecnode_t *node) { msecnode_t *tp; // prev node on thing thread msecnode_t *tn; // next node on thing thread msecnode_t *sp; // prev node on sector thread msecnode_t *sn; // next node on sector thread if (!node) return NULL; // Unlink from the Thing thread. The Thing thread begins at // sector_list and not from mobj_t->touching_sectorlist. tp = node->m_sectorlist_prev; tn = node->m_sectorlist_next; if (tp) tp->m_sectorlist_next = tn; if (tn) tn->m_sectorlist_prev = tp; // Unlink from the sector thread. This thread begins at // sector_t->touching_thinglist. sp = node->m_thinglist_prev; sn = node->m_thinglist_next; if (sp) sp->m_thinglist_next = sn; else node->m_sector->touching_thinglist = sn; if (sn) sn->m_thinglist_prev = sp; // Return this node to the freelist P_PutSecnode(node); return tn; } // Tails 08-25-2002 static mprecipsecnode_t *P_DelPrecipSecnode(mprecipsecnode_t *node) { mprecipsecnode_t *tp; // prev node on thing thread mprecipsecnode_t *tn; // next node on thing thread mprecipsecnode_t *sp; // prev node on sector thread mprecipsecnode_t *sn; // next node on sector thread if (!node) return NULL; // Unlink from the Thing thread. The Thing thread begins at // sector_list and not from mobj_t->touching_sectorlist. tp = node->m_sectorlist_prev; tn = node->m_sectorlist_next; if (tp) tp->m_sectorlist_next = tn; if (tn) tn->m_sectorlist_prev = tp; // Unlink from the sector thread. This thread begins at // sector_t->touching_thinglist. sp = node->m_thinglist_prev; sn = node->m_thinglist_next; if (sp) sp->m_thinglist_next = sn; else node->m_sector->touching_preciplist = sn; if (sn) sn->m_thinglist_prev = sp; // Return this node to the freelist P_PutPrecipSecnode(node); return tn; } // Delete an entire sector list void P_DelSeclist(msecnode_t *node) { while (node) node = P_DelSecnode(node); } // Tails 08-25-2002 void P_DelPrecipSeclist(mprecipsecnode_t *node) { while (node) node = P_DelPrecipSecnode(node); } // PIT_GetSectors // Locates all the sectors the object is in by looking at the lines that // cross through it. You have already decided that the object is allowed // at this location, so don't bother with checking impassable or // blocking lines. static inline boolean PIT_GetSectors(line_t *ld) { if (tmbbox[BOXRIGHT] <= ld->bbox[BOXLEFT] || tmbbox[BOXLEFT] >= ld->bbox[BOXRIGHT] || tmbbox[BOXTOP] <= ld->bbox[BOXBOTTOM] || tmbbox[BOXBOTTOM] >= ld->bbox[BOXTOP]) return true; if (P_BoxOnLineSide(tmbbox, ld) != -1) return true; if (ld->polyobj) // line belongs to a polyobject, don't add it return true; // This line crosses through the object. // Collect the sector(s) from the line and add to the // sector_list you're examining. If the Thing ends up being // allowed to move to this position, then the sector_list // will be attached to the Thing's mobj_t at touching_sectorlist. sector_list = P_AddSecnode(ld->frontsector,tmthing,sector_list); // Don't assume all lines are 2-sided, since some Things // like MT_TFOG are allowed regardless of whether their radius takes // them beyond an impassable linedef. // Use sidedefs instead of 2s flag to determine two-sidedness. if (ld->backsector) sector_list = P_AddSecnode(ld->backsector, tmthing, sector_list); return true; } // Tails 08-25-2002 static inline boolean PIT_GetPrecipSectors(line_t *ld) { if (preciptmbbox[BOXRIGHT] <= ld->bbox[BOXLEFT] || preciptmbbox[BOXLEFT] >= ld->bbox[BOXRIGHT] || preciptmbbox[BOXTOP] <= ld->bbox[BOXBOTTOM] || preciptmbbox[BOXBOTTOM] >= ld->bbox[BOXTOP]) return true; if (P_BoxOnLineSide(preciptmbbox, ld) != -1) return true; if (ld->polyobj) // line belongs to a polyobject, don't add it return true; // This line crosses through the object. // Collect the sector(s) from the line and add to the // sector_list you're examining. If the Thing ends up being // allowed to move to this position, then the sector_list // will be attached to the Thing's mobj_t at touching_sectorlist. precipsector_list = P_AddPrecipSecnode(ld->frontsector, tmprecipthing, precipsector_list); // Don't assume all lines are 2-sided, since some Things // like MT_TFOG are allowed regardless of whether their radius takes // them beyond an impassable linedef. // Use sidedefs instead of 2s flag to determine two-sidedness. if (ld->backsector) precipsector_list = P_AddPrecipSecnode(ld->backsector, tmprecipthing, precipsector_list); return true; } // P_CreateSecNodeList alters/creates the sector_list that shows what sectors // the object resides in. void P_CreateSecNodeList(mobj_t *thing, fixed_t x, fixed_t y) { INT32 xl, xh, yl, yh, bx, by; msecnode_t *node = sector_list; mobj_t *saved_tmthing = tmthing; /* cph - see comment at func end */ fixed_t saved_tmx = tmx, saved_tmy = tmy; /* ditto */ // First, clear out the existing m_thing fields. As each node is // added or verified as needed, m_thing will be set properly. When // finished, delete all nodes where m_thing is still NULL. These // represent the sectors the Thing has vacated. while (node) { node->m_thing = NULL; node = node->m_sectorlist_next; } P_SetTarget(&tmthing, thing); tmflags = thing->flags; tmx = x; tmy = y; tmbbox[BOXTOP] = y + tmthing->radius; tmbbox[BOXBOTTOM] = y - tmthing->radius; tmbbox[BOXRIGHT] = x + tmthing->radius; tmbbox[BOXLEFT] = x - tmthing->radius; validcount++; // used to make sure we only process a line once xl = (unsigned)(tmbbox[BOXLEFT] - bmaporgx)>>MAPBLOCKSHIFT; xh = (unsigned)(tmbbox[BOXRIGHT] - bmaporgx)>>MAPBLOCKSHIFT; yl = (unsigned)(tmbbox[BOXBOTTOM] - bmaporgy)>>MAPBLOCKSHIFT; yh = (unsigned)(tmbbox[BOXTOP] - bmaporgy)>>MAPBLOCKSHIFT; BMBOUNDFIX(xl, xh, yl, yh); for (bx = xl; bx <= xh; bx++) for (by = yl; by <= yh; by++) P_BlockLinesIterator(bx, by, PIT_GetSectors); // Add the sector of the (x, y) point to sector_list. sector_list = P_AddSecnode(thing->subsector->sector, thing, sector_list); // Now delete any nodes that won't be used. These are the ones where // m_thing is still NULL. node = sector_list; while (node) { if (!node->m_thing) { if (node == sector_list) sector_list = node->m_sectorlist_next; node = P_DelSecnode(node); } else node = node->m_sectorlist_next; } /* cph - * This is the strife we get into for using global variables. tmthing * is being used by several different functions calling * P_BlockThingIterator, including functions that can be called *from* * P_BlockThingIterator. Using a global tmthing is not reentrant. * OTOH for Boom/MBF demos we have to preserve the buggy behavior. * Fun. We restore its previous value unless we're in a Boom/MBF demo. */ P_SetTarget(&tmthing, saved_tmthing); /* And, duh, the same for tmx/y - cph 2002/09/22 * And for tmbbox - cph 2003/08/10 */ tmx = saved_tmx, tmy = saved_tmy; if (tmthing) { tmbbox[BOXTOP] = tmy + tmthing->radius; tmbbox[BOXBOTTOM] = tmy - tmthing->radius; tmbbox[BOXRIGHT] = tmx + tmthing->radius; tmbbox[BOXLEFT] = tmx - tmthing->radius; } } // More crazy crap Tails 08-25-2002 void P_CreatePrecipSecNodeList(precipmobj_t *thing,fixed_t x,fixed_t y) { INT32 xl, xh, yl, yh, bx, by; mprecipsecnode_t *node = precipsector_list; precipmobj_t *saved_tmthing = tmprecipthing; /* cph - see comment at func end */ // First, clear out the existing m_thing fields. As each node is // added or verified as needed, m_thing will be set properly. When // finished, delete all nodes where m_thing is still NULL. These // represent the sectors the Thing has vacated. while (node) { node->m_thing = NULL; node = node->m_sectorlist_next; } tmprecipthing = thing; preciptmbbox[BOXTOP] = y + 2*FRACUNIT; preciptmbbox[BOXBOTTOM] = y - 2*FRACUNIT; preciptmbbox[BOXRIGHT] = x + 2*FRACUNIT; preciptmbbox[BOXLEFT] = x - 2*FRACUNIT; validcount++; // used to make sure we only process a line once xl = (unsigned)(preciptmbbox[BOXLEFT] - bmaporgx)>>MAPBLOCKSHIFT; xh = (unsigned)(preciptmbbox[BOXRIGHT] - bmaporgx)>>MAPBLOCKSHIFT; yl = (unsigned)(preciptmbbox[BOXBOTTOM] - bmaporgy)>>MAPBLOCKSHIFT; yh = (unsigned)(preciptmbbox[BOXTOP] - bmaporgy)>>MAPBLOCKSHIFT; BMBOUNDFIX(xl, xh, yl, yh); for (bx = xl; bx <= xh; bx++) for (by = yl; by <= yh; by++) P_BlockLinesIterator(bx, by, PIT_GetPrecipSectors); // Add the sector of the (x, y) point to sector_list. precipsector_list = P_AddPrecipSecnode(thing->subsector->sector, thing, precipsector_list); // Now delete any nodes that won't be used. These are the ones where // m_thing is still NULL. node = precipsector_list; while (node) { if (!node->m_thing) { if (node == precipsector_list) precipsector_list = node->m_sectorlist_next; node = P_DelPrecipSecnode(node); } else node = node->m_sectorlist_next; } /* cph - * This is the strife we get into for using global variables. tmthing * is being used by several different functions calling * P_BlockThingIterator, including functions that can be called *from* * P_BlockThingIterator. Using a global tmthing is not reentrant. * OTOH for Boom/MBF demos we have to preserve the buggy behavior. * Fun. We restore its previous value unless we're in a Boom/MBF demo. */ tmprecipthing = saved_tmthing; } /* cphipps 2004/08/30 - * Must clear tmthing at tic end, as it might contain a pointer to a removed thinker, or the level might have ended/been ended and we clear the objects it was pointing too. Hopefully we don't need to carry this between tics for sync. */ void P_MapStart(void) { if (tmthing) I_Error("P_MapStart: tmthing set!"); } void P_MapEnd(void) { P_SetTarget(&tmthing, NULL); } // P_FloorzAtPos // Returns the floorz of the XYZ position // TODO: Need ceilingpos function too // Tails 05-26-2003 fixed_t P_FloorzAtPos(fixed_t x, fixed_t y, fixed_t z, fixed_t height) { sector_t *sec = R_PointInSubsector(x, y)->sector; fixed_t floorz = sec->floorheight; #ifdef ESLOPE if (sec->f_slope) floorz = P_GetZAt(sec->f_slope, x, y); #endif // Intercept the stupid 'fall through 3dfloors' bug Tails 03-17-2002 if (sec->ffloors) { ffloor_t *rover; fixed_t delta1, delta2, thingtop = z + height; for (rover = sec->ffloors; rover; rover = rover->next) { fixed_t topheight, bottomheight; if (!(rover->flags & FF_EXISTS)) continue; if ((!(rover->flags & FF_SOLID || rover->flags & FF_QUICKSAND) || (rover->flags & FF_SWIMMABLE))) continue; topheight = *rover->topheight; bottomheight = *rover->bottomheight; #ifdef ESLOPE if (*rover->t_slope) topheight = P_GetZAt(*rover->t_slope, x, y); if (*rover->b_slope) bottomheight = P_GetZAt(*rover->b_slope, x, y); #endif if (rover->flags & FF_QUICKSAND) { if (z < topheight && bottomheight < thingtop) { if (floorz < z) floorz = z; } continue; } delta1 = z - (bottomheight + ((topheight - bottomheight)/2)); delta2 = thingtop - (bottomheight + ((topheight - bottomheight)/2)); if (topheight > floorz && abs(delta1) < abs(delta2)) floorz = topheight; } } return floorz; }