//------------------------------------------------------------------------- /* 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 "ns.h" #include "build.h" #include "common.h" #include "mytypes.h" #include "keys.h" #include "names2.h" #include "panel.h" #include "game.h" #include "tags.h" #include "player.h" #include "mclip.h" BEGIN_SW_NS #if 0 int MultiClipMove(PLAYERp pp, int z, int floor_dist) { int i; int ox[MAX_CLIPBOX],oy[MAX_CLIPBOX]; SPRITEp sp = pp->sop->sp_child; USERp u = User[sp - sprite]; SECTOR_OBJECTp sop = pp->sop; short ang; short min_ndx; int min_dist = 999999; int dist; int ret_start; int ret[MAX_CLIPBOX]; int x[MAX_CLIPBOX],y[MAX_CLIPBOX]; for (i = 0; i < sop->clipbox_num; i++) { ang = NORM_ANGLE(pp->pang + sop->clipbox_ang[i]); ox[i] = x[i] = pp->posx + (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)] >> 14); oy[i] = y[i] = pp->posy + (sop->clipbox_vdist[i] * sintable[ang] >> 14); // move the box ret[i] = clipmove_old(&x[i], &y[i], &z, &pp->cursectnum, pp->xvect, pp->yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); // save the dist moved dist = FindDistance2D(x[i] - ox[i], y[i] - oy[i]); if (dist < min_dist) { min_dist = dist; min_ndx = i; } } // put posx and y off from offset pp->posx -= ox[min_ndx] - x[min_ndx]; pp->posy -= oy[min_ndx] - y[min_ndx]; return ret[min_ndx]; } #endif #if 0 int MultiClipMove(PLAYERp pp, int z, int floor_dist) { int i; int ox[MAX_CLIPBOX],oy[MAX_CLIPBOX]; SPRITEp sp = pp->sop->sp_child; USERp u = User[sp - sprite]; SECTOR_OBJECTp sop = pp->sop; short ang; short min_ndx; int min_dist = 999999; int dist; int ret_start; int ret[MAX_CLIPBOX]; int x[MAX_CLIPBOX],y[MAX_CLIPBOX]; for (i = 0; i < sop->clipbox_num; i++) { ang = NORM_ANGLE(pp->pang + sop->clipbox_ang[i]); ox[i] = x[i] = pp->posx + (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)] >> 14); oy[i] = y[i] = pp->posy + (sop->clipbox_vdist[i] * sintable[ang] >> 14); // move the box //pushmove_old(&x[i], &y[i], &z, &pp->cursectnum, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); ret[i] = clipmove_old(&x[i], &y[i], &z, &pp->cursectnum, pp->xvect, pp->yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); //pushmove_old(&x[i], &y[i], &z, &pp->cursectnum, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); // save the dist moved dist = FindDistance2D(x[i] - ox[i], y[i] - oy[i]); if (dist < min_dist) { min_dist = dist; min_ndx = i; } } // put posx and y off from offset pp->posx -= ox[min_ndx] - x[min_ndx]; pp->posy -= oy[min_ndx] - y[min_ndx]; return ret[min_ndx]; } #endif #if 0 int MultiClipMove(PLAYERp pp, int z, int floor_dist) { int i; int ox[MAX_CLIPBOX],oy[MAX_CLIPBOX]; SPRITEp sp = pp->sop->sp_child; USERp u = User[sp - sprite]; SECTOR_OBJECTp sop = pp->sop; short ang; short min_ndx; int min_dist = 999999; int dist; int ret_start; int ret[MAX_CLIPBOX]; int x[MAX_CLIPBOX],y[MAX_CLIPBOX]; int xvect,yvect; int xs,ys; for (i = 0; i < sop->clipbox_num; i++) { // move the box to position instead of using offset- this prevents small rounding errors // allowing you to move through wall ang = NORM_ANGLE(pp->pang + sop->clipbox_ang[i]); xs = pp->posx; ys = pp->posy; xvect = (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)]); yvect = (sop->clipbox_vdist[i] * sintable[ang]); ret_start = clipmove_old(&xs, &ys, &z, &pp->cursectnum, xvect, yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); // save off the start position ox[i] = x[i] = xs; oy[i] = y[i] = ys; // move the box ret[i] = clipmove_old(&x[i], &y[i], &z, &pp->cursectnum, pp->xvect, pp->yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); // save the dist moved dist = ksqrt(SQ(x[i] - ox[i]) + SQ(y[i] - oy[i])); //dist = FindDistance2D(x[i] - ox[i], y[i] - oy[i]); if (ret[i]) { //DSPRINTF(ds,"i %d, ret %d, dist %d",i, ret[i], dist); //printf("%s\n",ds); MONO_PRINT(ds); } if (dist < min_dist) { min_dist = dist; min_ndx = i; } } // put posx and y off from offset pp->posx -= ox[min_ndx] - x[min_ndx]; pp->posy -= oy[min_ndx] - y[min_ndx]; return ret[min_ndx]; } #endif #if 0 int MultiClipMove(PLAYERp pp, int z, int floor_dist) { int i; int ox[MAX_CLIPBOX],oy[MAX_CLIPBOX]; SPRITEp sp = pp->sop->sp_child; USERp u = User[sp - sprite]; SECTOR_OBJECTp sop = pp->sop; short ang; short min_ndx; int min_dist = 999999; int dist; int ret_start; int ret[MAX_CLIPBOX]; int x[MAX_CLIPBOX],y[MAX_CLIPBOX]; int xvect,yvect; int xs,ys; for (i = 0; i < sop->clipbox_num; i++) { // move the box to position instead of using offset- this prevents small rounding errors // allowing you to move through wall ang = NORM_ANGLE(pp->pang + sop->clipbox_ang[i]); xs = pp->posx; ys = pp->posy; xvect = (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)]); yvect = (sop->clipbox_vdist[i] * sintable[ang]); ret_start = clipmove_old(&xs, &ys, &z, &pp->cursectnum, xvect, yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); if (ret_start) { // hit something moving into position min_dist = 0; min_ndx = i; // ox is where it should be ox[i] = x[i] = pp->posx + (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)] >> 14); oy[i] = y[i] = pp->posy + (sop->clipbox_vdist[i] * sintable[ang] >> 14); x[i] = xs; y[i] = ys; dist = ksqrt(SQ(x[i] - ox[i]) + SQ(y[i] - oy[i])); //ox[i] = x[i] = oy[i] = y[i] = 0; } else { // save off the start position ox[i] = x[i] = xs; oy[i] = y[i] = ys; // move the box ret[i] = clipmove_old(&x[i], &y[i], &z, &pp->cursectnum, pp->xvect, pp->yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); // save the dist moved dist = ksqrt(SQ(x[i] - ox[i]) + SQ(y[i] - oy[i])); //dist = FindDistance2D(x[i] - ox[i], y[i] - oy[i]); if (ret[i]) { //DSPRINTF(ds,"i %d, ret %d, dist %d",i, ret[i], dist); MONO_PRINT(ds); } if (dist < min_dist) { min_dist = dist; min_ndx = i; } } } // put posx and y off from offset pp->posx -= ox[min_ndx] - x[min_ndx]; pp->posy -= oy[min_ndx] - y[min_ndx]; return ret[min_ndx]; } #endif int MultiClipMove(PLAYERp pp, int z, int floor_dist) { int i; int ox[MAX_CLIPBOX],oy[MAX_CLIPBOX]; SPRITEp sp = pp->sop->sp_child; USERp u = User[sp - sprite]; SECTOR_OBJECTp sop = pp->sop; short ang; short min_ndx = 0; int min_dist = 999999; int dist; int ret_start; int ret; int min_ret=0; int x[MAX_CLIPBOX],y[MAX_CLIPBOX]; int xvect,yvect; int xs,ys; for (i = 0; i < sop->clipbox_num; i++) { // move the box to position instead of using offset- this prevents small rounding errors // allowing you to move through wall ang = NORM_ANGLE(pp->pang + sop->clipbox_ang[i]); xs = pp->posx; ys = pp->posy; xvect = (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)]); yvect = (sop->clipbox_vdist[i] * sintable[ang]); clipmoveboxtracenum = 1; ret_start = clipmove_old(&xs, &ys, &z, &pp->cursectnum, xvect, yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); clipmoveboxtracenum = 3; if (ret_start) { // hit something moving into start position min_dist = 0; min_ndx = i; // ox is where it should be ox[i] = x[i] = pp->posx + (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)] >> 14); oy[i] = y[i] = pp->posy + (sop->clipbox_vdist[i] * sintable[ang] >> 14); // xs is where it hit x[i] = xs; y[i] = ys; // see the dist moved dist = ksqrt(SQ(x[i] - ox[i]) + SQ(y[i] - oy[i])); // save it off if (dist < min_dist) { min_dist = dist; min_ndx = i; min_ret = ret_start; } } else { // save off the start position ox[i] = x[i] = xs; oy[i] = y[i] = ys; // move the box ret = clipmove_old(&x[i], &y[i], &z, &pp->cursectnum, pp->xvect, pp->yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); // save the dist moved dist = ksqrt(SQ(x[i] - ox[i]) + SQ(y[i] - oy[i])); if (ret) { } if (dist < min_dist) { min_dist = dist; min_ndx = i; min_ret = ret; } } } // put posx and y off from offset pp->posx += x[min_ndx] - ox[min_ndx]; pp->posy += y[min_ndx] - oy[min_ndx]; return min_ret; } short MultiClipTurn(PLAYERp pp, short new_ang, int z, int floor_dist) { int i; SECTOR_OBJECTp sop = pp->sop; int ret; int x,y; short ang; int xvect, yvect; short cursectnum = pp->cursectnum; for (i = 0; i < sop->clipbox_num; i++) { ang = NORM_ANGLE(new_ang + sop->clipbox_ang[i]); x = pp->posx; y = pp->posy; xvect = (sop->clipbox_vdist[i] * sintable[NORM_ANGLE(ang + 512)]); yvect = (sop->clipbox_vdist[i] * sintable[ang]); // move the box ret = clipmove_old(&x, &y, &z, &cursectnum, xvect, yvect, (int)sop->clipbox_dist[i], Z(4), floor_dist, CLIPMASK_PLAYER); ASSERT(cursectnum >= 0); if (ret) { // attempt to move a bit when turning against a wall //ang = NORM_ANGLE(ang + 1024); //pp->xvect += 20 * sintable[NORM_ANGLE(ang + 512)]; //pp->yvect += 20 * sintable[ang]; return FALSE; } } return TRUE; } int testquadinsect(int *point_num, vec2_t const * q, short sectnum) { int i,next_i; *point_num = -1; for (i=0; i < 4; i++) { if (!inside(q[i].x, q[i].y, sectnum)) { ////DSPRINTF(ds,"inside %ld failed",i); //MONO_PRINT(ds); *point_num = i; return FALSE; } } for (i=0; i<4; i++) { next_i = MOD4(i+1); if (!cansee(q[i].x, q[i].y,0x3fffffff, sectnum, q[next_i].x, q[next_i].y,0x3fffffff, sectnum)) { DSPRINTF(ds,"cansee %ld failed, x1 %d, y1 %d, x2 %d, y2 %d, sectnum %d",i, q[i].x, q[i].y, q[next_i].x, q[next_i].y, sectnum); MONO_PRINT(ds); return FALSE; } } return TRUE; } //Ken gives the tank clippin' a try... int RectClipMove(PLAYERp pp, int *qx, int *qy) { SECTORp *sectp; SECTOR_OBJECTp sop = pp->sop; WALLp wp; int count=0; int i; vec2_t xy[4]; short startwall,endwall; int point_num; for (i = 0; i < 4; i++) { xy[i].x = qx[i] + (pp->xvect>>14); xy[i].y = qy[i] + (pp->yvect>>14); } //Given the 4 points: x[4], y[4] if (testquadinsect(&point_num, xy, pp->cursectnum)) { pp->posx += (pp->xvect>>14); pp->posy += (pp->yvect>>14); return TRUE; } if (point_num < 0) return FALSE; if ((point_num == 0) || (point_num == 3)) //Left side bad - strafe right { for (i = 0; i < 4; i++) { xy[i].x = qx[i] - (pp->yvect>>15); xy[i].y = qy[i] + (pp->xvect>>15); } if (testquadinsect(&point_num, xy, pp->cursectnum)) { pp->posx -= (pp->yvect>>15); pp->posy += (pp->xvect>>15); } return FALSE; } if ((point_num == 1) || (point_num == 2)) //Right side bad - strafe left { for (i = 0; i < 4; i++) { xy[i].x = qx[i] + (pp->yvect>>15); xy[i].y = qy[i] - (pp->xvect>>15); } if (testquadinsect(&point_num, xy, pp->cursectnum)) { pp->posx += (pp->yvect>>15); pp->posy -= (pp->xvect>>15); } return FALSE; } return FALSE; } int testpointinquad(int x, int y, int *qx, int *qy) { int i, cnt, x1, y1, x2, y2; cnt = 0; for (i=0; i<4; i++) { y1 = qy[i]-y; y2 = qy[(i+1)&3]-y; if ((y1^y2) >= 0) continue; x1 = qx[i]-x; x2 = qx[(i+1)&3]-x; if ((x1^x2) >= 0) cnt ^= x1; else cnt ^= (x1*y2-x2*y1)^y2; } return cnt>>31; } short RectClipTurn(PLAYERp pp, short new_ang, int *qx, int *qy, int *ox, int *oy) { int i; vec2_t xy[4]; SECTOR_OBJECTp sop = pp->sop; int ret; short ang; short rot_ang; int point_num; rot_ang = NORM_ANGLE(new_ang + sop->spin_ang - sop->ang_orig); for (i = 0; i < 4; i++) { vec2_t const p = { ox[i], oy[i] }; rotatepoint(*(vec2_t *)&pp->posx, p, rot_ang, &xy[i]); // cannot use sop->xmid and ymid because the SO is off the map at this point //rotatepoint(*(vec2_t *)&sop->xmid, p, rot_ang, &xy[i]); } //Given the 4 points: x[4], y[4] if (testquadinsect(&point_num, xy, pp->cursectnum)) { // move to new pos for (i = 0; i < 4; i++) { qx[i] = xy[i].x; qy[i] = xy[i].y; } return TRUE; } if (point_num < 0) return FALSE; return FALSE; } END_SW_NS