// // Copyright(C) 1993-1996 Id Software, Inc. // Copyright(C) 2005-2014 Simon Howard // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // as published by the Free Software Foundation; either version 2 // of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // DESCRIPTION: // Floor animation: raising stairs. // #include "z_zone.h" #include "doomdef.h" #include "p_local.h" #include "s_sound.h" // State. #include "doomstat.h" #include "r_state.h" // Data. #include "sounds.h" //e6y #define STAIRS_UNINITIALIZED_CRUSH_FIELD_VALUE 10 // // FLOORS // // // Move a plane (floor or ceiling) and check for crushing // result_e T_MovePlane ( sector_t* sector, fixed_t speed, fixed_t dest, boolean crush, int floorOrCeiling, int direction ) { boolean flag; fixed_t lastpos; // [AM] Store old sector heights for interpolation. sector->oldfloorheight = sector->floorheight; sector->oldceilingheight = sector->ceilingheight; sector->oldgametic = gametic; switch(floorOrCeiling) { case 0: // FLOOR switch(direction) { case -1: // DOWN if (sector->floorheight - speed < dest) { lastpos = sector->floorheight; sector->floorheight = dest; flag = P_ChangeSector(sector,crush); if (flag == true) { sector->floorheight =lastpos; P_ChangeSector(sector,crush); //return crushed; } return pastdest; } else { lastpos = sector->floorheight; sector->floorheight -= speed; flag = P_ChangeSector(sector,crush); if (flag == true) { sector->floorheight = lastpos; P_ChangeSector(sector,crush); return crushed; } } break; case 1: // UP if (sector->floorheight + speed > dest) { lastpos = sector->floorheight; sector->floorheight = dest; flag = P_ChangeSector(sector,crush); if (flag == true) { sector->floorheight = lastpos; P_ChangeSector(sector,crush); //return crushed; } return pastdest; } else { // COULD GET CRUSHED lastpos = sector->floorheight; sector->floorheight += speed; flag = P_ChangeSector(sector,crush); if (flag == true) { if (crush == true) return crushed; sector->floorheight = lastpos; P_ChangeSector(sector,crush); return crushed; } } break; } break; case 1: // CEILING switch(direction) { case -1: // DOWN if (sector->ceilingheight - speed < dest) { lastpos = sector->ceilingheight; sector->ceilingheight = dest; flag = P_ChangeSector(sector,crush); if (flag == true) { sector->ceilingheight = lastpos; P_ChangeSector(sector,crush); //return crushed; } return pastdest; } else { // COULD GET CRUSHED lastpos = sector->ceilingheight; sector->ceilingheight -= speed; flag = P_ChangeSector(sector,crush); if (flag == true) { if (crush == true) return crushed; sector->ceilingheight = lastpos; P_ChangeSector(sector,crush); return crushed; } } break; case 1: // UP if (sector->ceilingheight + speed > dest) { lastpos = sector->ceilingheight; sector->ceilingheight = dest; flag = P_ChangeSector(sector,crush); if (flag == true) { sector->ceilingheight = lastpos; P_ChangeSector(sector,crush); //return crushed; } return pastdest; } else { lastpos = sector->ceilingheight; sector->ceilingheight += speed; flag = P_ChangeSector(sector,crush); // UNUSED #if 0 if (flag == true) { sector->ceilingheight = lastpos; P_ChangeSector(sector,crush); return crushed; } #endif } break; } break; } return ok; } // // MOVE A FLOOR TO IT'S DESTINATION (UP OR DOWN) // void T_MoveFloor(floormove_t* floor) { result_e res; res = T_MovePlane(floor->sector, floor->speed, floor->floordestheight, floor->crush,0,floor->direction); if (!(leveltime&7)) S_StartSound(&floor->sector->soundorg, sfx_stnmov); if (res == pastdest) { floor->sector->specialdata = NULL; if (floor->direction == 1) { switch(floor->type) { case donutRaise: floor->sector->special = floor->newspecial; floor->sector->floorpic = floor->texture; default: break; } } else if (floor->direction == -1) { switch(floor->type) { case lowerAndChange: floor->sector->special = floor->newspecial; floor->sector->floorpic = floor->texture; default: break; } } P_RemoveThinker(&floor->thinker); S_StartSound(&floor->sector->soundorg, sfx_pstop); } } // [crispy] easter egg: homage to an old friend (thinker) void T_MoveGoobers (floormove_t *floor) { result_e res1, res2; // [crispy] one thinker for the floors ... res1 = T_MovePlane(floor->sector, 2 * FLOORSPEED, 0, true, 0, (floor->direction & 1) * 2 - 1); // [crispy] ... and one for the ceilings // * floordestheight is actually the ceiling destination height (either 0 or 128) // * the 5th argument is "floorOrCeiling" // * the actual direction is given by the second-lowest bit of the "direction" field res2 = T_MovePlane(floor->sector, 2 * FLOORSPEED, floor->floordestheight, true, 1, (floor->direction >> 1) * 2 - 1); if (!(leveltime & 7)) { S_StartSound(&floor->sector->soundorg, sfx_stnmov); } // [crispy] remove thinker once both the sector's floor and ceiling // have reached their respective destination heights if ((res1 & res2) == pastdest) { floor->sector->specialdata = NULL; P_RemoveThinker(&floor->thinker); S_StartSound(&floor->sector->soundorg, sfx_pstop); } } // [crispy] easter egg: homage to an old friend void EV_DoGoobers (void) { int i; for (i = 0; i < numsectors; i++) { sector_t* sec; floormove_t* floor; sec = §ors[i]; // [crispy] remove thinker for sectors that are already moving if (sec->specialdata) { floor = sec->specialdata; P_RemoveThinker(&floor->thinker); sec->specialdata = NULL; } floor = Z_Malloc(sizeof(*floor), PU_LEVSPEC, 0); P_AddThinker(&floor->thinker); sec->specialdata = floor; floor->thinker.function.acp1 = (actionf_p1) T_MoveGoobers; floor->sector = sec; // [crispy] actually destination ceilingheight here (destination floorheight is always 0), // leave destination ceilingheight for untagged closed sectors (i.e. DR-type doors) at 0, // for all others set to 128 floor->floordestheight = (!sec->tag && sec->interpceilingheight == sec->interpfloorheight) ? 0 : 128 * FRACUNIT; // [crispy] the lowest bit determines floor direction (i.e. 1 means "up" for floorheight < 0), // the second-lowest bit determines ceiling direction (e.g. if ceiling height is below its destination height) floor->direction = (sec->floorheight < 0) | (sec->ceilingheight < floor->floordestheight) << 1; } } // // HANDLE FLOOR TYPES // int EV_DoFloor ( line_t* line, floor_e floortype ) { int secnum; int rtn; int i; sector_t* sec; floormove_t* floor; secnum = -1; rtn = 0; while ((secnum = P_FindSectorFromLineTag(line,secnum)) >= 0) { sec = §ors[secnum]; // ALREADY MOVING? IF SO, KEEP GOING... if (sec->specialdata) continue; // new floor thinker rtn = 1; floor = Z_Malloc (sizeof(*floor), PU_LEVSPEC, 0); P_AddThinker (&floor->thinker); sec->specialdata = floor; floor->thinker.function.acp1 = (actionf_p1) T_MoveFloor; floor->type = floortype; floor->crush = false; switch(floortype) { case lowerFloor: floor->direction = -1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = P_FindHighestFloorSurrounding(sec); break; case lowerFloorToLowest: floor->direction = -1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = P_FindLowestFloorSurrounding(sec); break; case turboLower: floor->direction = -1; floor->sector = sec; floor->speed = FLOORSPEED * 4; floor->floordestheight = P_FindHighestFloorSurrounding(sec); if (gameversion <= exe_doom_1_2 || floor->floordestheight != sec->floorheight) floor->floordestheight += 8*FRACUNIT; break; case raiseFloorCrush: floor->crush = true; case raiseFloor: floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = P_FindLowestCeilingSurrounding(sec); if (floor->floordestheight > sec->ceilingheight) floor->floordestheight = sec->ceilingheight; floor->floordestheight -= (8*FRACUNIT)* (floortype == raiseFloorCrush); break; case raiseFloorTurbo: floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED*4; floor->floordestheight = P_FindNextHighestFloor(sec,sec->floorheight); break; case raiseFloorToNearest: floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = P_FindNextHighestFloor(sec,sec->floorheight); break; case raiseFloor24: floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = floor->sector->floorheight + 24 * FRACUNIT; break; case raiseFloor512: floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = floor->sector->floorheight + 512 * FRACUNIT; break; case raiseFloor24AndChange: floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = floor->sector->floorheight + 24 * FRACUNIT; sec->floorpic = line->frontsector->floorpic; sec->special = line->frontsector->special; break; case raiseToTexture: { int minsize = INT_MAX; side_t* side; floor->direction = 1; floor->sector = sec; floor->speed = FLOORSPEED; for (i = 0; i < sec->linecount; i++) { if (twoSided (secnum, i) ) { side = getSide(secnum,i,0); if (side->bottomtexture >= 0) if (textureheight[side->bottomtexture] < minsize) minsize = textureheight[side->bottomtexture]; side = getSide(secnum,i,1); if (side->bottomtexture >= 0) if (textureheight[side->bottomtexture] < minsize) minsize = textureheight[side->bottomtexture]; } } floor->floordestheight = floor->sector->floorheight + minsize; } break; case lowerAndChange: floor->direction = -1; floor->sector = sec; floor->speed = FLOORSPEED; floor->floordestheight = P_FindLowestFloorSurrounding(sec); floor->texture = sec->floorpic; for (i = 0; i < sec->linecount; i++) { if ( twoSided(secnum, i) ) { if (getSide(secnum,i,0)->sector-sectors == secnum) { sec = getSector(secnum,i,1); if (sec->floorheight == floor->floordestheight) { floor->texture = sec->floorpic; floor->newspecial = sec->special; break; } } else { sec = getSector(secnum,i,0); if (sec->floorheight == floor->floordestheight) { floor->texture = sec->floorpic; floor->newspecial = sec->special; break; } } } } default: break; } } return rtn; } // // BUILD A STAIRCASE! // int EV_BuildStairs ( line_t* line, stair_e type ) { int secnum; int height; int i; int newsecnum; int texture; int ok; int rtn; sector_t* sec; sector_t* tsec; floormove_t* floor; fixed_t stairsize = 0; fixed_t speed = 0; secnum = -1; rtn = 0; while ((secnum = P_FindSectorFromLineTag(line,secnum)) >= 0) { sec = §ors[secnum]; // ALREADY MOVING? IF SO, KEEP GOING... if (sec->specialdata) continue; // new floor thinker rtn = 1; floor = Z_Malloc (sizeof(*floor), PU_LEVSPEC, 0); P_AddThinker (&floor->thinker); sec->specialdata = floor; floor->thinker.function.acp1 = (actionf_p1) T_MoveFloor; floor->direction = 1; floor->sector = sec; switch(type) { case build8: speed = FLOORSPEED/4; stairsize = 8*FRACUNIT; break; case turbo16: speed = FLOORSPEED*4; stairsize = 16*FRACUNIT; break; } floor->speed = speed; height = sec->floorheight + stairsize; floor->floordestheight = height; // Initialize floor->type = lowerFloor; // e6y // Uninitialized crush field will not be equal to 0 or 1 (true) // with high probability. So, initialize it with any other value floor->crush = STAIRS_UNINITIALIZED_CRUSH_FIELD_VALUE; texture = sec->floorpic; // Find next sector to raise // 1. Find 2-sided line with same sector side[0] // 2. Other side is the next sector to raise do { ok = 0; for (i = 0;i < sec->linecount;i++) { if ( !((sec->lines[i])->flags & ML_TWOSIDED) ) continue; tsec = (sec->lines[i])->frontsector; newsecnum = tsec-sectors; if (secnum != newsecnum) continue; tsec = (sec->lines[i])->backsector; newsecnum = tsec - sectors; if (tsec->floorpic != texture) continue; height += stairsize; if (tsec->specialdata) continue; sec = tsec; secnum = newsecnum; floor = Z_Malloc (sizeof(*floor), PU_LEVSPEC, 0); P_AddThinker (&floor->thinker); sec->specialdata = floor; floor->thinker.function.acp1 = (actionf_p1) T_MoveFloor; floor->direction = 1; floor->sector = sec; floor->speed = speed; floor->floordestheight = height; // Initialize floor->type = lowerFloor; // e6y // Uninitialized crush field will not be equal to 0 or 1 (true) // with high probability. So, initialize it with any other value floor->crush = STAIRS_UNINITIALIZED_CRUSH_FIELD_VALUE; ok = 1; break; } } while(ok); } return rtn; }