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SRB2/src/p_map.c
toasterbabe 9797ae31a6 Fix the springs jumping! 
The issue was that because both them and the player had MF_SOLID, the tmfloorz of the spring was getting set to above the player (or vicea versa with tmceilingz), forcing it upwards with them under certain circumstances.

Now, springs only acknowledge the solidity (for purpose of tmfloorz/tmceilingz) of objects they CAN'T launch.
2017-07-02 16:48:58 +01:00

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// 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
// =========================================================================
boolean P_DoSpring(mobj_t *spring, mobj_t *object)
{
INT32 pflags;
fixed_t offx, offy;
fixed_t vertispeed = spring->info->mass;
fixed_t horizspeed = spring->info->damage;
if (object->eflags & MFE_SPRUNG) // Object was already sprung this tic
return false;
// Spectators don't trigger springs.
if (object->player && object->player->spectator)
return false;
if (object->player && (object->player->pflags & PF_NIGHTSMODE))
{
/*Someone want to make these work like bumpers?*/
return false;
}
#ifdef ESLOPE
object->standingslope = NULL; // Okay, now we can't return - no launching off at silly angles for you.
#endif
object->eflags |= MFE_SPRUNG; // apply this flag asap!
spring->flags &= ~(MF_SOLID|MF_SPECIAL); // De-solidify
if (horizspeed && vertispeed) // Mimic SA
{
object->momx = object->momy = 0;
P_TryMove(object, spring->x, spring->y, true);
}
if (spring->eflags & MFE_VERTICALFLIP)
vertispeed *= -1;
if (vertispeed > 0)
object->z = spring->z + spring->height + 1;
else if (vertispeed < 0)
object->z = spring->z - object->height - 1;
else
{
// 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_SPECIAL|MF_SOLID));
P_SetMobjState(spring, spring->info->raisestate);
if (object->player)
{
if (spring->flags & MF_ENEMY) // Spring shells
P_SetTarget(&spring->target, object);
if (horizspeed && 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_JUMPED|PF_SPINNING|PF_THOKKED); // I still need these.
P_ResetPlayer(object->player);
if (P_MobjFlip(object)*vertispeed > 0)
P_SetPlayerMobjState(object, S_PLAY_SPRING);
else if (P_MobjFlip(object)*vertispeed < 0)
P_SetPlayerMobjState(object, S_PLAY_FALL1);
else // horizontal spring
{
if (pflags & (PF_JUMPED|PF_SPINNING) && object->player->panim == PA_ROLL)
object->player->pflags = pflags;
else
P_SetPlayerMobjState(object, S_PLAY_RUN1);
}
if (spring->info->painchance)
{
object->player->pflags |= PF_JUMPED;
P_SetPlayerMobjState(object, S_PLAY_ATK1);
}
}
return true;
}
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_FALL1);
}
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_FALL1);
}
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->pflags & PF_CARRIED) && tails->mo->tracer == sonic->mo)
return;
if ((sonic->pflags & PF_CARRIED) && sonic->mo->tracer == tails->mo)
return;
if (!tails->powers[pw_tailsfly] && !(tails->charability == CA_FLY && (tails->mo->state >= &states[S_PLAY_SPC1] && tails->mo->state <= &states[S_PLAY_SPC4])))
return;
if (tails->bot == 1)
return;
if (sonic->pflags & PF_NIGHTSMODE)
return;
if (sonic->mo->tracer && sonic->mo->tracer->type == MT_TUBEWAYPOINT
&& !(sonic->pflags & PF_ROPEHANG))
return; // don't steal players from zoomtubes!
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].pflags & PF_CARRIED && players[p].mo->tracer == tails->mo)
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 + FixedMul(FRACUNIT, sonic->mo->scale)
&& zdist > sonic->mo->height*2/3
&& P_MobjFlip(tails->mo)*sonic->mo->momz <= 0)
{
// 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))
sonic->pflags &= ~PF_CARRIED; */
if (tails->spectator || sonic->spectator)
sonic->pflags &= ~PF_CARRIED;
else
{
if (sonic-players == consoleplayer && botingame)
CV_SetValue(&cv_analog2, false);
P_ResetPlayer(sonic);
P_SetTarget(&sonic->mo->tracer, tails->mo);
sonic->pflags |= PF_CARRIED;
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);
sonic->pflags &= ~PF_CARRIED;
}
}
//
// PIT_CheckThing
//
static boolean PIT_CheckThing(mobj_t *thing)
{
fixed_t blockdist;
boolean iwassprung = false;
// 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))
{
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)
{
S_StartSound(tmthing, thing->info->deathsound);
for (thing = thing->subsector->sector->thinglist; thing; thing = thing->snext)
if (thing->type == MT_SPIKE && thing->health > 0 && thing->flags & MF_SOLID && P_AproxDistance(thing->x - tmthing->x, thing->y - tmthing->y) < FixedMul(56*FRACUNIT, thing->scale))
P_KillMobj(thing, tmthing, tmthing);
}
else
{
thing->health = 0;
P_KillMobj(thing, tmthing, tmthing);
}
return true;
}
if (!(thing->flags & (MF_SOLID|MF_SPECIAL|MF_PAIN|MF_SHOOTABLE)))
return true;
// Don't collide with your buddies while NiGHTS-flying.
if (tmthing->player && thing->player && (maptol & TOL_NIGHTS)
&& ((tmthing->player->pflags & PF_NIGHTSMODE) || (thing->player->pflags & PF_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
#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
// 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);
return true;
}
if (thing->flags & MF_PAIN)
{ // 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->player && tmthing->flags & MF_SHOOTABLE && thing->health > 0)
P_DamageMobj(tmthing, thing, thing, 1);
return true;
}
else if (tmthing->flags & MF_PAIN)
{ // 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->player && thing->flags & MF_SHOOTABLE && tmthing->health > 0)
P_DamageMobj(thing, tmthing, tmthing, 1);
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->pflags & PF_CARRIED && thing->tracer == tmthing->target)
return true; // Don't give rings to your carry player by accident.
if (thing->type == MT_EGGSHIELD)
{
fixed_t touchx, touchy;
angle_t angle;
if (P_AproxDistance(tmthing->x-thing->x, tmthing->y-thing->y) >
P_AproxDistance((tmthing->x-tmthing->momx)-thing->x, (tmthing->y-tmthing->momy)-thing->y))
{
touchx = tmthing->x + tmthing->momx;
touchy = tmthing->y + tmthing->momy;
}
else
{
touchx = tmthing->x;
touchy = tmthing->y;
}
angle = R_PointToAngle2(thing->x, thing->y, touchx, touchy) - thing->angle;
if (!(angle > ANGLE_90 && angle < ANGLE_270)) // hit front of shield, didn't destroy it
return false;
else // hit shield from behind, shield is destroyed!
{
P_KillMobj(thing, tmthing, tmthing);
return false;
}
}
if (tmthing->type == MT_SHELL && tmthing->threshold > TICRATE)
return true;
// damage / explode
if (tmthing->flags & MF_ENEMY) // An actual ENEMY! (Like the deton, for example)
P_DamageMobj(thing, tmthing, tmthing, 1);
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->pflags |= PF_ITEMHANG;
thing->player->pflags &= ~PF_JUMPED;
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->pflags & PF_ITEMHANG) || (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
P_DamageMobj(thing, tmthing, tmthing->target, 1);
// 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->pflags & PF_NIGHTSMODE) && (INT32)leveltime > droneobj->extravalue2 && (
!(pl->anotherflyangle >= 90 && pl->anotherflyangle <= 270)
^ (droneobj->extravalue1 >= 90 && droneobj->extravalue1 <= 270)
))
{
// Reload all the fancy ring stuff!
P_ReloadRings();
}
droneobj->extravalue1 = pl->anotherflyangle;
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)
P_DamageMobj(thing, tmthing, tmthing, 1);
}
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)
P_DamageMobj(thing, tmthing, tmthing, 1);
}
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))
P_DamageMobj(tmthing, thing, thing, 1);
}
else if (tmthing->z >= thing->z + thing->height + FixedMul(FRACUNIT, thing->scale)
&& tmthing->z + tmthing->momz <= thing->z + thing->height + FixedMul(FRACUNIT, thing->scale))
P_DamageMobj(tmthing, thing, thing, 1);
}
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);
else if (thing->flags & MF_SPRING)
{
if ( thing->z <= tmthing->z + tmthing->height
&& tmthing->z <= thing->z + thing->height)
iwassprung = P_DoSpring(thing, tmthing);
}
}
// 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])
&& !thing->player->powers[pw_super])
P_DamageMobj(thing, tmthing, tmthing, 1);
else if ((thing->player->powers[pw_invulnerability] || thing->player->powers[pw_super])
&& !tmthing->player->powers[pw_super])
P_DamageMobj(tmthing, thing, thing, 1);
}
// 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);
else if ((thing->player->pflags & PF_TAGIT) && !(tmthing->player->pflags & PF_TAGIT))
P_DamageMobj(tmthing, thing, tmthing, 1);
}
}
// 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);
thing->player->pflags &= ~PF_CARRIED;
}
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, 10000);
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)
iwassprung = P_DoSpring(thing, tmthing);
}
// Are you touching the side of the object you're interacting with?
else if (thing->z - FixedMul(FRACUNIT, thing->scale) <= tmthing->z + tmthing->height
&& thing->z + thing->height + FixedMul(FRACUNIT, thing->scale) >= tmthing->z)
{
if (thing->flags & MF_MONITOR
&& tmthing->player->pflags & (PF_JUMPED|PF_SPINNING|PF_GLIDING))
{
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;;
P_DamageMobj(thing, tmthing, tmthing, 1); // break the monitor
// Going down? Then bounce back up.
if ((P_MobjWasRemoved(thing) // Monitor was removed
|| !thing->health) // or otherwise popped
&& (flipval*(*momz) < 0)) // monitor is on the floor and you're going down, or on the ceiling and you're going up
*momz = -*momz; // Therefore, you should be thrust in the opposite direction, vertically.
return false;
}
}
}
if (thing->flags & MF_SPRING && (tmthing->player || tmthing->flags & MF_PUSHABLE))
{
if (iwassprung) // this spring caused you to gain MFE_SPRUNG just now...
return false; // "cancel" P_TryMove via blocking so you keep your current position
}
else if (tmthing->flags & MF_SPRING && (thing->player || thing->flags & MF_PUSHABLE))
; // Fix a few nasty spring-jumping bugs that happen sometimes.
// Monitors are not treated as solid to players who are jumping, spinning or gliding,
// unless it's a CTF team monitor and you're on the wrong team
else if (thing->flags & MF_MONITOR && tmthing->player && tmthing->player->pflags & (PF_JUMPED|PF_SPINNING|PF_GLIDING)
&& !((thing->type == MT_REDRINGBOX && tmthing->player->ctfteam != 1) || (thing->type == MT_BLUERINGBOX && tmthing->player->ctfteam != 2)))
;
// 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
if (thing->flags & MF_SPRING)
;
// 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
else if (tmthing->player && tmthing->z + tmthing->height > topz
&& tmthing->z + tmthing->height < tmthing->ceilingz)
{
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
if (thing->flags & MF_SPRING)
;
// 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
else if (tmthing->player && tmthing->z < topz
&& tmthing->z > tmthing->floorz)
{
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;
// 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->state == &states[S_PLAY_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_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;
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;
// 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)
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;
}
// 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;
//
// 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)
|| (bombsource && thing->type == bombsource->type)) // ignore the type of guys who dropped the bomb (Jetty-Syn Bomber or Skim can bomb eachother, but not themselves.)
return true;
if (!(thing->flags & MF_SHOOTABLE))
return true;
if (thing->flags & MF_BOSS)
return true;
if (thing->flags & MF_MONITOR)
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); // 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)
{
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);
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, 42000); // Respawn crushed spectators
else
{
if (!killer)
{
//Nobody is responsible for crushing the object, so give a generic crush message
killer = P_SpawnMobj(thing->x, thing->y, thing->z, MT_NULL);
killer->threshold = 44; // Special flag for crushing
}
P_DamageMobj(thing, killer, killer, 10000);
}
}
}
if (realcrush && crushchange)
P_DamageMobj(thing, NULL, NULL, 1);
// 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 = &sectors[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 = &sectors[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;
// 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;
}
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