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https://git.do.srb2.org/KartKrew/Kart-Public.git
synced 2024-12-26 12:21:19 +00:00
Teetering now supports slopes properly.
Behaves ALMOST as you'd expect. It gets the z position of the slope at the player coordinates when it comes to the sectorlist check (which is first), though, so there's a few oddities that are amplified with steep slopes: * If the slope's sloping away from you at a steep angle, you might not be able to step down onto it, but you won't teeter (because it's at a step-down-able height if it extended to directly beneath you) * If the slope's sloping towards you at a steep angle, you might end up in teetering frames when you're able to step down onto it (because it's NOT at a step-down-able height if it extended to directly beneath you) HOWEVER, it would be pretty obnoxious to hold back code which is functionally superior in every way otherwise, and it doesn't really seem like there's a good way to get that checked tbph
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parent
3591e92dfa
commit
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1 changed files with 132 additions and 70 deletions
202
src/p_user.c
202
src/p_user.c
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@ -2853,90 +2853,124 @@ static void P_DoTeeter(player_t *player)
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boolean teeter = false;
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boolean roverfloor; // solid 3d floors?
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boolean checkedforteeter = false;
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fixed_t floorheight, ceilingheight;
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fixed_t topheight, bottomheight; // for 3d floor usage
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const fixed_t tiptop = FixedMul(MAXSTEPMOVE, player->mo->scale); // Distance you have to be above the ground in order to teeter.
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for (node = player->mo->touching_sectorlist; node; node = node->m_snext)
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#define maxzdelta 3<<(FRACBITS-2) // 3/4 on the fixed scale
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if (player->mo->standingslope && player->mo->standingslope->zdelta >= maxzdelta) // Always teeter if the slope is too steep.
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teeter = true;
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#undef maxzdelta
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else // Let's do some checks...
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{
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// Ledge teetering. Check if any nearby sectors are low enough from your current one.
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checkedforteeter = true;
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roverfloor = false;
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if (node->m_sector->ffloors)
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for (node = player->mo->touching_sectorlist; node; node = node->m_snext)
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{
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ffloor_t *rover;
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for (rover = node->m_sector->ffloors; rover; rover = rover->next)
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// Ledge teetering. Check if any nearby sectors are low enough from your current one.
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checkedforteeter = true;
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roverfloor = false;
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ceilingheight = node->m_sector->ceilingheight;
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floorheight = node->m_sector->floorheight;
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#ifdef ESLOPE
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if (node->m_sector->c_slope)
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ceilingheight = P_GetZAt(node->m_sector->c_slope, player->mo->x, player->mo->y) + FixedMul(node->m_sector->c_slope->zdelta, tiptop);
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if (node->m_sector->f_slope)
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floorheight = P_GetZAt(node->m_sector->f_slope, player->mo->x, player->mo->y);
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#endif
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if (node->m_sector->ffloors)
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{
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if (!(rover->flags & FF_EXISTS)) continue;
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if (P_CheckSolidLava(player->mo, rover))
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;
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else if (!(rover->flags & FF_BLOCKPLAYER || rover->flags & FF_QUICKSAND))
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continue; // intangible 3d floor
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if (player->mo->eflags & MFE_VERTICALFLIP)
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ffloor_t *rover;
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for (rover = node->m_sector->ffloors; rover; rover = rover->next)
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{
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if (*rover->bottomheight > node->m_sector->ceilingheight) // Above the ceiling
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continue;
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if (!(rover->flags & FF_EXISTS)) continue;
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if (*rover->bottomheight > player->mo->z + player->mo->height + tiptop
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|| (*rover->topheight < player->mo->z
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&& player->mo->z + player->mo->height < node->m_sector->ceilingheight - tiptop))
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topheight = *rover->topheight;
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bottomheight = *rover->bottomheight;
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#ifdef ESLOPE
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if (*rover->t_slope)
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topheight = P_GetZAt(*rover->t_slope, player->mo->x, player->mo->y);
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if (*rover->b_slope)
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bottomheight = P_GetZAt(*rover->b_slope, player->mo->x, player->mo->y);
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#endif
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if (P_CheckSolidLava(player->mo, rover))
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;
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else if (!(rover->flags & FF_BLOCKPLAYER || rover->flags & FF_QUICKSAND))
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continue; // intangible 3d floor
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if (player->mo->eflags & MFE_VERTICALFLIP)
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{
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teeter = true;
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roverfloor = true;
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if (bottomheight > ceilingheight) // Above the ceiling
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continue;
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if (bottomheight > player->mo->z + player->mo->height + tiptop
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|| (topheight < player->mo->z
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&& player->mo->z + player->mo->height < ceilingheight - tiptop))
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{
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teeter = true;
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roverfloor = true;
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}
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else
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{
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teeter = false;
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roverfloor = true;
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break;
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}
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}
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else
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{
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teeter = false;
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roverfloor = true;
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break;
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if (topheight < floorheight) // Below the floor
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continue;
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if (topheight < player->mo->z - tiptop
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|| (bottomheight > player->mo->z + player->mo->height
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&& player->mo->z > floorheight + tiptop))
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{
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teeter = true;
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roverfloor = true;
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}
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else
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{
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teeter = false;
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roverfloor = true;
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break;
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}
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}
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}
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}
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if (!teeter && !roverfloor)
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{
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if (player->mo->eflags & MFE_VERTICALFLIP)
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{
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if (ceilingheight > player->mo->z + player->mo->height + tiptop)
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teeter = true;
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}
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else
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{
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if (*rover->topheight < node->m_sector->floorheight) // Below the floor
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continue;
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if (*rover->topheight < player->mo->z - tiptop
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|| (*rover->bottomheight > player->mo->z + player->mo->height
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&& player->mo->z > node->m_sector->floorheight + tiptop))
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{
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if (floorheight < player->mo->z - tiptop)
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teeter = true;
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roverfloor = true;
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}
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else
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{
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teeter = false;
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roverfloor = true;
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break;
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}
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}
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}
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}
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if (!teeter && !roverfloor)
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{
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if (player->mo->eflags & MFE_VERTICALFLIP)
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{
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if (node->m_sector->ceilingheight > player->mo->z + player->mo->height + tiptop)
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teeter = true;
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}
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else
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{
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if (node->m_sector->floorheight < player->mo->z - tiptop)
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teeter = true;
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}
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}
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}
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if (checkedforteeter && !teeter) // Backup code
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{
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subsector_t *subsec[4]; // changed abcd into array instead
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fixed_t subsecfloorheight[4];
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fixed_t subsecceilingheight[4];
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UINT8 i;
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// Following is replaced by xsign and ysign code
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/*
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subsec[0] = R_PointInSubsector(player->mo->x + FixedMul(5*FRACUNIT, player->mo->scale), player->mo->y + FixedMul(5*FRACUNIT, player->mo->scale));
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subsec[1] = R_PointInSubsector(player->mo->x - FixedMul(5*FRACUNIT, player->mo->scale), player->mo->y + FixedMul(5*FRACUNIT, player->mo->scale));
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subsec[2] = R_PointInSubsector(player->mo->x + FixedMul(5*FRACUNIT, player->mo->scale), player->mo->y - FixedMul(5*FRACUNIT, player->mo->scale));
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subsec[3] = R_PointInSubsector(player->mo->x - FixedMul(5*FRACUNIT, player->mo->scale), player->mo->y - FixedMul(5*FRACUNIT, player->mo->scale));
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*/
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teeter = false;
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roverfloor = false;
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@ -2944,6 +2978,24 @@ static void P_DoTeeter(player_t *player)
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{
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ffloor_t *rover;
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#define xsign ((i & 1) ? -1 : 1) // 0 -> 1 | 1 -> -1 | 2 -> 1 | 3 -> -1
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#define ysign ((i & 2) ? 1 : -1) // 0 -> 1 | 1 -> 1 | 2 -> -1 | 3 -> -1
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fixed_t checkx = player->mo->x + (xsign*FixedMul(5*FRACUNIT, player->mo->scale));
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fixed_t checky = player->mo->y + (ysign*FixedMul(5*FRACUNIT, player->mo->scale));
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subsec[i] = R_PointInSubsector(checkx, checky);
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subsecceilingheight[i] = subsec[i]->sector->ceilingheight;
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subsecfloorheight[i] = subsec[i]->sector->floorheight;
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#ifdef ESLOPE
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if (subsec[i]->sector->c_slope)
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subsecceilingheight[i] = P_GetZAt(subsec[i]->sector->c_slope, checkx, checky);
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if (subsec[i]->sector->f_slope)
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subsecfloorheight[i] = P_GetZAt(subsec[i]->sector->f_slope, checkx, checky);
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#endif
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#undef xsign
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#undef ysign
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if (!(subsec[i]->sector->ffloors))
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continue; // move on to the next subsector
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{
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if (!(rover->flags & FF_EXISTS)) continue;
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topheight = *rover->topheight;
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bottomheight = *rover->bottomheight;
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#ifdef ESLOPE
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if (*rover->t_slope)
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topheight = P_GetZAt(*rover->t_slope, player->mo->x, player->mo->y);
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if (*rover->b_slope)
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bottomheight = P_GetZAt(*rover->b_slope, player->mo->x, player->mo->y);
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#endif
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if (P_CheckSolidLava(player->mo, rover))
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;
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else if (!(rover->flags & FF_BLOCKPLAYER || rover->flags & FF_QUICKSAND))
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@ -2958,12 +3020,12 @@ static void P_DoTeeter(player_t *player)
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if (player->mo->eflags & MFE_VERTICALFLIP)
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{
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if (*rover->bottomheight > subsec[i]->sector->ceilingheight) // Above the ceiling
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if (bottomheight > subsecceilingheight[i]) // Above the ceiling
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continue;
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if (*rover->bottomheight > player->mo->z + player->mo->height + tiptop
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|| (*rover->topheight < player->mo->z
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&& player->mo->z + player->mo->height < subsec[i]->sector->ceilingheight - tiptop))
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if (bottomheight > player->mo->z + player->mo->height + tiptop
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|| (topheight < player->mo->z
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&& player->mo->z + player->mo->height < subsecceilingheight[i] - tiptop))
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{
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teeter = true;
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roverfloor = true;
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@ -2977,12 +3039,12 @@ static void P_DoTeeter(player_t *player)
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}
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else
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{
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if (*rover->topheight < subsec[i]->sector->floorheight) // Below the floor
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if (topheight < subsecfloorheight[i]) // Below the floor
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continue;
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if (*rover->topheight < player->mo->z - tiptop
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|| (*rover->bottomheight > player->mo->z + player->mo->height
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&& player->mo->z > subsec[i]->sector->floorheight + tiptop))
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if (topheight < player->mo->z - tiptop
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|| (bottomheight > player->mo->z + player->mo->height
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&& player->mo->z > subsecfloorheight[i] + tiptop))
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{
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teeter = true;
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roverfloor = true;
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@ -3000,18 +3062,18 @@ static void P_DoTeeter(player_t *player)
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if (player->mo->eflags & MFE_VERTICALFLIP)
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{
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if (!teeter && !roverfloor && (subsec[0]->sector->ceilingheight > player->mo->ceilingz + tiptop
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|| subsec[1]->sector->ceilingheight > player->mo->ceilingz + tiptop
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|| subsec[2]->sector->ceilingheight > player->mo->ceilingz + tiptop
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|| subsec[3]->sector->ceilingheight > player->mo->ceilingz + tiptop))
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if (!teeter && !roverfloor && (subsecceilingheight[0] > player->mo->ceilingz + tiptop
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|| subsecceilingheight[1] > player->mo->ceilingz + tiptop
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|| subsecceilingheight[2] > player->mo->ceilingz + tiptop
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|| subsecceilingheight[3] > player->mo->ceilingz + tiptop))
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teeter = true;
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}
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else
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{
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if (!teeter && !roverfloor && (subsec[0]->sector->floorheight < player->mo->floorz - tiptop
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|| subsec[1]->sector->floorheight < player->mo->floorz - tiptop
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|| subsec[2]->sector->floorheight < player->mo->floorz - tiptop
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|| subsec[3]->sector->floorheight < player->mo->floorz - tiptop))
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if (!teeter && !roverfloor && (subsecfloorheight[0] < player->mo->floorz - tiptop
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|| subsecfloorheight[1] < player->mo->floorz - tiptop
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|| subsecfloorheight[2] < player->mo->floorz - tiptop
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|| subsecfloorheight[3] < player->mo->floorz - tiptop))
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teeter = true;
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}
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}
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