//------------------------------------------------------------------------- /* Copyright (C) 1997, 2005 - 3D Realms Entertainment This file is part of Shadow Warrior version 1.2 Shadow Warrior 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. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. Original Source: 1997 - Frank Maddin and Jim Norwood Prepared for public release: 03/28/2005 - Charlie Wiederhold, 3D Realms */ //------------------------------------------------------------------------- #include "build.h" #include "names2.h" #include "panel.h" #include "game.h" #include "network.h" #include "tags.h" #include "sector.h" #include "text.h" #include "interp.h" #include "sprite.h" short DoRotatorMatch(PLAYERp pp, short match, SWBOOL); SWBOOL TestRotatorMatchActive(short match); void InterpSectorSprites(short sectnum, SWBOOL state); void DoMatchEverything(PLAYERp pp, short match, short state); void DoRotatorSetInterp(short SpriteNum); void DoRotatorStopInterp(short SpriteNum); void ReverseRotator(short SpriteNum) { USERp u = User[SpriteNum]; SPRITEp sp = u->SpriteP; ROTATORp r; r = u->rotator; // if paused go ahead and start it up again if (u->Tics) { u->Tics = 0; SetRotatorActive(SpriteNum); return; } // moving toward to OFF pos if (r->tgt == 0) { r->tgt = r->open_dest; } else if (r->tgt == r->open_dest) { r->tgt = 0; } r->vel = -r->vel; } SWBOOL RotatorSwitch(short match, short setting) { SPRITEp sp; short i,nexti; SWBOOL found = FALSE; TRAVERSE_SPRITE_STAT(headspritestat[STAT_DEFAULT], i, nexti) { sp = &sprite[i]; if (sp->lotag == TAG_SPRITE_SWITCH_VATOR && sp->hitag == match) { found = TRUE; AnimateSwitch(sp, setting); } } return found; } void SetRotatorActive(short SpriteNum) { USERp u = User[SpriteNum]; SPRITEp sp = u->SpriteP; SECTORp sectp = §or[sp->sectnum]; ROTATORp r; r = u->rotator; DoRotatorSetInterp(SpriteNum); // play activate sound DoSoundSpotMatch(SP_TAG2(sp), 1, SOUND_OBJECT_TYPE); SET(u->Flags, SPR_ACTIVE); u->Tics = 0; // moving to the OFF position if (r->tgt == 0) VatorSwitch(SP_TAG2(sp), OFF); else VatorSwitch(SP_TAG2(sp), ON); } void SetRotatorInactive(short SpriteNum) { USERp u = User[SpriteNum]; SPRITEp sp = u->SpriteP; SECTORp sectp = §or[sp->sectnum]; DoRotatorStopInterp(SpriteNum); // play inactivate sound DoSoundSpotMatch(SP_TAG2(sp), 2, SOUND_OBJECT_TYPE); RESET(u->Flags, SPR_ACTIVE); } // called for operation from the space bar short DoRotatorOperate(PLAYERp pp, short sectnum) { USERp fu; SPRITEp fsp; short match; short i,nexti; match = sector[sectnum].hitag; if (match > 0) { if (TestRotatorMatchActive(match)) return -1; else return DoRotatorMatch(pp, match, TRUE); } return -1; } // called from switches and triggers // returns first vator found short DoRotatorMatch(PLAYERp pp, short match, SWBOOL manual) { USERp fu; SPRITEp fsp; short sectnum; short first_vator = -1; short i,nexti; //RotatorSwitch(match, ON); TRAVERSE_SPRITE_STAT(headspritestat[STAT_ROTATOR], i, nexti) { fsp = &sprite[i]; if (SP_TAG1(fsp) == SECT_ROTATOR && SP_TAG2(fsp) == match) { fu = User[i]; // single play only vator // SWBOOL 8 must be set for message to display if (TEST_BOOL4(fsp) && (gNet.MultiGameType == MULTI_GAME_COMMBAT || gNet.MultiGameType == MULTI_GAME_AI_BOTS)) { if (pp && TEST_BOOL11(fsp)) PutStringInfo(pp,"This only opens in single play."); continue; } // switch trigger only if (SP_TAG3(fsp) == 1) { // tried to manually operat a switch/trigger only if (manual) continue; } if (first_vator == -1) first_vator = i; sectnum = fsp->sectnum; if (pp && SectUser[sectnum] && SectUser[sectnum]->stag == SECT_LOCK_DOOR && SectUser[sectnum]->number) { short key_num; key_num = SectUser[sectnum]->number; #if 0 if (pp->HasKey[key_num - 1]) { int i; for (i=0; istag == SECT_LOCK_DOOR && SectUser[i]->number == key_num) SectUser[i]->number = 0; // unlock all doors of this type } UnlockKeyLock(key_num); } else #endif { PutStringInfo(pp, KeyDoorMessage[key_num - 1]); return -1; } } if (TEST(fu->Flags, SPR_ACTIVE)) { ReverseRotator(i); continue; } SetRotatorActive(i); } } return first_vator; } SWBOOL TestRotatorMatchActive(short match) { USERp fu; SPRITEp fsp; short sectnum; short i,nexti; TRAVERSE_SPRITE_STAT(headspritestat[STAT_ROTATOR], i, nexti) { fsp = &sprite[i]; if (SP_TAG1(fsp) == SECT_ROTATOR && SP_TAG2(fsp) == match) { fu = User[i]; // Does not have to be inactive to be operated if (TEST_BOOL6(fsp)) continue; if (TEST(fu->Flags, SPR_ACTIVE) || fu->Tics) return TRUE; } } return FALSE; } void DoRotatorSetInterp(short SpriteNum) { SPRITEp sp = &sprite[SpriteNum]; short w,startwall,endwall; startwall = sector[sp->sectnum].wallptr; endwall = startwall + sector[sp->sectnum].wallnum - 1; // move points for (w = startwall; w <= endwall; w++) { setinterpolation(&wall[w].x); setinterpolation(&wall[w].y); setinterpolation(&wall[DRAG_WALL(w)].x); setinterpolation(&wall[DRAG_WALL(w)].y); } } void DoRotatorStopInterp(short SpriteNum) { SPRITEp sp = &sprite[SpriteNum]; short w,startwall,endwall; startwall = sector[sp->sectnum].wallptr; endwall = startwall + sector[sp->sectnum].wallnum - 1; // move points for (w = startwall; w <= endwall; w++) { stopinterpolation(&wall[w].x); stopinterpolation(&wall[w].y); stopinterpolation(&wall[DRAG_WALL(w)].x); stopinterpolation(&wall[DRAG_WALL(w)].y); } } int DoRotatorMove(short SpriteNum) { USERp u = User[SpriteNum]; SPRITEp sp = u->SpriteP; ROTATORp r; short ndx,w,startwall,endwall; SPRITEp pivot = NULL; int i, nexti; vec2_t nxy; int dist,closest; SWBOOL kill = FALSE; r = u->rotator; // Example - ang pos moves from 0 to 512 <> from 0 to -512 // control SPEED of swinging if (r->pos < r->tgt) { // Increment swing angle r->pos += r->speed; r->speed += r->vel; // if the other way make it equal if (r->pos > r->tgt) r->pos = r->tgt; } if (r->pos > r->tgt) { // Increment swing angle r->pos -= r->speed; r->speed += r->vel; // if the other way make it equal if (r->pos < r->tgt) r->pos = r->tgt; } if (r->pos == r->tgt) { // If ang is OPEN if (r->pos == r->open_dest) { // new tgt is CLOSED (0) r->tgt = 0; r->vel = -r->vel; SetRotatorInactive(SpriteNum); if (SP_TAG6(sp)) DoMatchEverything(NULL, SP_TAG6(sp), -1); // wait a bit and close it if (u->WaitTics) u->Tics = u->WaitTics; } else // If ang is CLOSED then if (r->pos == 0) { short match = SP_TAG2(sp); // new tgt is OPEN (open) r->tgt = r->open_dest; r->speed = r->orig_speed; r->vel = labs(r->vel); SetRotatorInactive(SpriteNum); // set owner swith back to OFF // only if ALL vators are inactive if (!TestRotatorMatchActive(match)) { //RotatorSwitch(match, OFF); } if (SP_TAG6(sp) && TEST_BOOL5(sp)) DoMatchEverything(NULL, SP_TAG6(sp), -1); } if (TEST_BOOL2(sp)) kill = TRUE; } closest = 99999; TRAVERSE_SPRITE_STAT(headspritestat[STAT_ROTATOR_PIVOT], i, nexti) { if (sprite[i].lotag == sp->lotag) { dist = Distance(sp->x, sp->y, sprite[i].x, sprite[i].y); if (dist < closest) { closest = dist; pivot = &sprite[i]; } } } if (!pivot) return 0; startwall = sector[sp->sectnum].wallptr; endwall = startwall + sector[sp->sectnum].wallnum - 1; // move points for (w = startwall, ndx = 0; w <= endwall; w++) { vec2_t const orig = { r->origx[ndx], r->origy[ndx] }; rotatepoint(*(vec2_t *)&pivot->x, orig, r->pos, &nxy); dragpoint(w, nxy.x, nxy.y, 0); ndx++; } if (kill) { SetRotatorInactive(SpriteNum); KillSprite(SpriteNum); return 0; } return 0; } int DoRotator(short SpriteNum) { USERp u = User[SpriteNum]; SPRITEp sp = u->SpriteP; SECTORp sectp = §or[sp->sectnum]; int *lptr; int amt; // could move this inside sprite control DoRotatorMove(SpriteNum); return 0; } #include "saveable.h" static saveable_code saveable_rotator_code[] = { SAVE_CODE(ReverseRotator), SAVE_CODE(RotatorSwitch), SAVE_CODE(SetRotatorActive), SAVE_CODE(SetRotatorInactive), SAVE_CODE(DoRotatorOperate), SAVE_CODE(DoRotatorMatch), SAVE_CODE(TestRotatorMatchActive), SAVE_CODE(DoRotatorSetInterp), SAVE_CODE(DoRotatorStopInterp), SAVE_CODE(DoRotatorMove), SAVE_CODE(DoRotator) }; saveable_module saveable_rotator = { // code saveable_rotator_code, SIZ(saveable_rotator_code), // data NULL,0 };