//------------------------------------------------------------------------- /* 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" #define QUIET #include "build.h" #include "automap.h" #include "pragmas.h" #include "names2.h" #include "panel.h" #include "game.h" #include "jsector.h" #include "mytypes.h" #include "gamecontrol.h" #include "network.h" #include "pal.h" #include "player.h" #include "jtags.h" #include "parent.h" #include "misc.h" #include "menus.h" #include "interp.h" #include "interpso.h" #include "sector.h" #include "menu.h" #include "v_2ddrawer.h" #include "v_video.h" #include "glbackend/glbackend.h" BEGIN_SW_NS static int OverlapDraw = false; extern bool QuitFlag, SpriteInfo; extern bool Voxel; extern char buffer[]; bool DrawScreen; extern short f_c; extern ParentalStruct aVoxelArray[MAXTILES]; int ConnectCopySprite(uspritetype const * tsp); void PreDrawStackedWater(void); void SW_InitMultiPsky(void) { // default psky_t* const defaultsky = tileSetupSky(DEFAULTPSKY); defaultsky->lognumtiles = 1; defaultsky->horizfrac = 8192; } #if 1 void ShadeSprite(tspriteptr_t tsp) { // set shade of sprite tsp->shade = sector[tsp->sectnum].floorshade - 25; if (tsp->shade > -3) tsp->shade = -3; if (tsp->shade < -30) tsp->shade = -30; } #else #endif short GetRotation(short tSpriteNum, int viewx, int viewy) { static short RotTable8[] = {0, 7, 6, 5, 4, 3, 2, 1}; static short RotTable5[] = {0, 1, 2, 3, 4, 3, 2, 1}; short rotation; tspriteptr_t tsp = &tsprite[tSpriteNum]; USERp tu = User[tsp->owner]; short angle2; if (tu->RotNum == 0) return 0; // Get which of the 8 angles of the sprite to draw (0-7) // rotation ranges from 0-7 angle2 = getangle(tsp->x - viewx, tsp->y - viewy); rotation = ((tsp->ang + 3072 + 128 - angle2) & 2047); rotation = (rotation >> 8) & 7; if (tu->RotNum == 5) { if (TEST(tu->Flags, SPR_XFLIP_TOGGLE)) { if (rotation <= 4) { // leave rotation alone RESET(tsp->cstat, CSTAT_SPRITE_XFLIP); } else { rotation = (8 - rotation); SET(tsp->cstat, CSTAT_SPRITE_XFLIP); // clear x-flipping bit } } else { if (rotation > 3 || rotation == 0) { // leave rotation alone RESET(tsp->cstat, CSTAT_SPRITE_XFLIP); // clear x-flipping bit } else { rotation = (8 - rotation); SET(tsp->cstat, CSTAT_SPRITE_XFLIP); // set } } // Special case bunk if (tu->ID == TOILETGIRL_R0 || tu->ID == WASHGIRL_R0 || tu->ID == TRASHCAN || tu->ID == CARGIRL_R0 || tu->ID == MECHANICGIRL_R0 || tu->ID == PRUNEGIRL_R0 || tu->ID == SAILORGIRL_R0) RESET(tsp->cstat, CSTAT_SPRITE_XFLIP); // clear x-flipping bit return RotTable5[rotation]; } return RotTable8[rotation]; } /* !AIC - At draw time this is called for actor rotation. GetRotation() is more complex than needs to be in part because importing of actor rotations and x-flip directions was not standardized. */ int SetActorRotation(short tSpriteNum, int viewx, int viewy) { tspriteptr_t tsp = &tsprite[tSpriteNum]; USERp tu = User[tsp->owner]; short StateOffset, Rotation; // don't modify ANY tu vars - back them up! STATEp State = tu->State; STATEp StateStart = tu->StateStart; if (tu->RotNum == 0) return 0; // Get the offset into the State animation StateOffset = State - StateStart; // Get the rotation angle Rotation = GetRotation(tSpriteNum, viewx, viewy); ASSERT(Rotation < 5); // Reset the State animation start based on the Rotation StateStart = tu->Rot[Rotation]; // Set the sprites state State = StateStart + StateOffset; // set the picnum here - may be redundant, but we just changed states and // thats a big deal tsp->picnum = State->Pic; return 0; } int DoShadowFindGroundPoint(tspriteptr_t sp) { // USES TSPRITE !!!!! USERp u = User[sp->owner]; SPRITEp hsp; int ceilhit, florhit; int hiz, loz = u->loz; short save_cstat, bak_cstat; // recursive routine to find the ground - either sector or floor sprite // skips over enemy and other types of sprites // IMPORTANT!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! // This will return invalid FAF ceiling and floor heights inside of analyzesprite // because the ceiling and floors get moved out of the way for drawing. save_cstat = sp->cstat; RESET(sp->cstat, CSTAT_SPRITE_BLOCK | CSTAT_SPRITE_BLOCK_HITSCAN); FAFgetzrangepoint(sp->x, sp->y, sp->z, sp->sectnum, &hiz, &ceilhit, &loz, &florhit); sp->cstat = save_cstat; ASSERT(TEST(florhit, HIT_SPRITE | HIT_SECTOR)); switch (TEST(florhit, HIT_MASK)) { case HIT_SPRITE: { hsp = &sprite[NORM_SPRITE(florhit)]; if (TEST(hsp->cstat, CSTAT_SPRITE_ALIGNMENT_FLOOR)) { // found a sprite floor return loz; } else { // reset the blocking bit of what you hit and try again - // recursive bak_cstat = hsp->cstat; RESET(hsp->cstat, CSTAT_SPRITE_BLOCK | CSTAT_SPRITE_BLOCK_HITSCAN); loz = DoShadowFindGroundPoint(sp); hsp->cstat = bak_cstat; } break; } case HIT_SECTOR: break; default: ASSERT(true == false); break; } return loz; } void DoShadows(tspriteptr_t tsp, int viewz, bool mirror) { tspriteptr_t New = &tsprite[spritesortcnt]; USERp tu = User[tsp->owner]; int ground_dist = 0; int view_dist = 0; int loz; short xrepeat; short yrepeat; short sectnum; sectnum = tsp->sectnum; // make sure its the correct sector // DoShadowFindGroundPoint calls FAFgetzrangepoint and this is sensitive //updatesectorz(tsp->x, tsp->y, tsp->z, §num); updatesector(tsp->x, tsp->y, §num); if (sectnum < 0) { return; } tsp->sectnum = sectnum; *New = *tsp; // shadow is ALWAYS draw last - status is priority New->statnum = MAXSTATUS; New->sectnum = sectnum; if ((tsp->yrepeat >> 2) > 4) { yrepeat = (tsp->yrepeat >> 2) - (SPRITEp_SIZE_Y(tsp) / 64) * 2; xrepeat = New->xrepeat; } else { yrepeat = New->yrepeat; xrepeat = New->xrepeat; } New->shade = 127; SET(New->cstat, CSTAT_SPRITE_TRANSLUCENT); loz = tu->loz; if (tu->lo_sp) { if (!TEST(tu->lo_sp->cstat, CSTAT_SPRITE_ALIGNMENT_WALL | CSTAT_SPRITE_ALIGNMENT_FLOOR)) { loz = DoShadowFindGroundPoint(tsp); } } // need to find the ground here New->z = loz; // if below or close to sprites z don't bother to draw it if ((viewz - loz) > -Z(8)) return; // if close to shadows z shrink it view_dist = labs(loz - viewz) >> 8; if (view_dist < 32) view_dist = 256/view_dist; else view_dist = 0; // make shadow smaller depending on height from ground ground_dist = labs(loz - SPRITEp_BOS(tsp)) >> 8; ground_dist = DIV16(ground_dist); xrepeat = max(xrepeat - ground_dist - view_dist, 4); yrepeat = max(yrepeat - ground_dist - view_dist, 4); xrepeat = min(xrepeat, short(255)); yrepeat = min(yrepeat, short(255)); New->xrepeat = xrepeat; New->yrepeat = yrepeat; if (tilehasmodelorvoxel(tsp->picnum,tsp->pal)) { New->yrepeat = 0; // cstat: trans reverse // clipdist: tell mdsprite.cpp to use Z-buffer hacks to hide overdraw issues New->clipdist |= TSPR_FLAGS_MDHACK; New->cstat |= 512; } else { int const camang = mirror ? NORM_ANGLE(2048 - Player[screenpeek].siang) : Player[screenpeek].siang; vec2_t const ofs = { sintable[NORM_ANGLE(camang+512)]>>11, sintable[NORM_ANGLE(camang)]>>11}; New->x += ofs.x; New->y += ofs.y; } // Check for voxel items and use a round generic pic if so //DoVoxelShadow(New); spritesortcnt++; } void DoMotionBlur(tspritetype const * const tsp) { USERp tu = User[tsp->owner]; int nx,ny,nz = 0,dx,dy,dz; short i, ang; short xrepeat, yrepeat, repeat_adj = 0; int z_amt_per_pixel; ang = NORM_ANGLE(tsp->ang + 1024); if (tsp->xvel == 0) { return; } if (TEST(tsp->extra, SPRX_PLAYER_OR_ENEMY)) { z_amt_per_pixel = IntToFixed((int)-tu->jump_speed * ACTORMOVETICS)/tsp->xvel; } else { z_amt_per_pixel = IntToFixed((int)-tsp->zvel)/tsp->xvel; } switch (tu->motion_blur_dist) { case 64: dx = nx = MOVEx(64, ang); dy = ny = MOVEy(64, ang); nz = FixedToInt(z_amt_per_pixel * 64); break; case 128: dx = nx = MOVEx(128, ang); dy = ny = MOVEy(128, ang); nz = FixedToInt(z_amt_per_pixel * 128); break; case 256: dx = nx = MOVEx(256, ang); dy = ny = MOVEy(256, ang); nz = FixedToInt(z_amt_per_pixel * 256); break; case 512: dx = nx = MOVEx(512, ang); dy = ny = MOVEy(512, ang); nz = FixedToInt(z_amt_per_pixel * 512); break; default: dx = nx = MOVEx(tu->motion_blur_dist, ang); dy = ny = MOVEy(tu->motion_blur_dist, ang); break; } dz = nz; xrepeat = tsp->xrepeat; yrepeat = tsp->yrepeat; switch (TEST(tu->Flags2, SPR2_BLUR_TAPER)) { case 0: repeat_adj = 0; break; case SPR2_BLUR_TAPER_SLOW: repeat_adj = xrepeat / (tu->motion_blur_num*2); break; case SPR2_BLUR_TAPER_FAST: repeat_adj = xrepeat / tu->motion_blur_num; break; } for (i = 0; i < tu->motion_blur_num; i++) { tspriteptr_t New = &tsprite[spritesortcnt]; *New = *tsp; SET(New->cstat, CSTAT_SPRITE_TRANSLUCENT|CSTAT_SPRITE_TRANSLUCENT_INVERT); New->x += dx; New->y += dy; dx += nx; dy += ny; New->z += dz; dz += nz; New->xrepeat = xrepeat; New->yrepeat = yrepeat; xrepeat -= repeat_adj; yrepeat -= repeat_adj; spritesortcnt++; } } void SetVoxelSprite(SPRITEp sp, short pic) { SET(sp->cstat, CSTAT_SPRITE_ALIGNMENT_SLAB); sp->picnum = pic; } void WarpCopySprite(void) { SPRITEp sp1, sp2, sp; short sn, nsn; short sn2, nsn2; short spnum, next_spnum; int xoff,yoff,zoff; short match; short sect1, sect2; // look for the first one TRAVERSE_SPRITE_STAT(headspritestat[STAT_WARP_COPY_SPRITE1], sn, nsn) { sp1 = &sprite[sn]; match = sp1->lotag; // look for the second one TRAVERSE_SPRITE_STAT(headspritestat[STAT_WARP_COPY_SPRITE2], sn2, nsn2) { sp = &sprite[sn2]; if (sp->lotag == match) { sp2 = sp; sect1 = sp1->sectnum; sect2 = sp2->sectnum; TRAVERSE_SPRITE_SECT(headspritesect[sect1], spnum, next_spnum) { if (&sprite[spnum] == sp1) continue; if (sprite[spnum].picnum == ST1) continue; tspriteptr_t New = renderAddTSpriteFromSprite(spnum); New->statnum = 0; xoff = sp1->x - New->x; yoff = sp1->y - New->y; zoff = sp1->z - New->z; New->x = sp2->x - xoff; New->y = sp2->y - yoff; New->z = sp2->z - zoff; New->sectnum = sp2->sectnum; } TRAVERSE_SPRITE_SECT(headspritesect[sect2], spnum, next_spnum) { if (&sprite[spnum] == sp2) continue; if (sprite[spnum].picnum == ST1) continue; tspriteptr_t New = renderAddTSpriteFromSprite(spnum); New->statnum = 0; xoff = sp2->x - New->x; yoff = sp2->y - New->y; zoff = sp2->z - New->z; New->x = sp1->x - xoff; New->y = sp1->y - yoff; New->z = sp1->z - zoff; New->sectnum = sp1->sectnum; } } } } } void DoStarView(tspriteptr_t tsp, USERp tu, int viewz) { extern STATE s_Star[], s_StarDown[]; extern STATE s_StarStuck[], s_StarDownStuck[]; int zdiff = viewz - tsp->z; if (labs(zdiff) > Z(24)) { if (tu->StateStart == s_StarStuck) tsp->picnum = s_StarDownStuck[tu->State - s_StarStuck].Pic; else tsp->picnum = s_StarDown[tu->State - s_Star].Pic; if (zdiff > 0) SET(tsp->cstat, CSTAT_SPRITE_YFLIP); } else { if (zdiff > 0) SET(tsp->cstat, CSTAT_SPRITE_YFLIP); } } void analyzesprites(int viewx, int viewy, int viewz, bool mirror) { int tSpriteNum; short SpriteNum; int smr4, smr2; USERp tu; static int ang = 0; PLAYERp pp = Player + screenpeek; short newshade=0; const int DART_PIC = 2526; const int DART_REPEAT = 16; ang = NORM_ANGLE(ang + 12); smr4 = smoothratio + IntToFixed(MoveSkip4); smr2 = smoothratio + IntToFixed(MoveSkip2); for (tSpriteNum = spritesortcnt - 1; tSpriteNum >= 0; tSpriteNum--) { SpriteNum = tsprite[tSpriteNum].owner; tspriteptr_t tsp = &tsprite[tSpriteNum]; tu = User[SpriteNum]; #if 0 // Brighten up the sprite if set somewhere else to do so if (tu && tu->Vis > 0) { short tmpshade; // Having this prevent overflow tmpshade = tsp->shade - tu->Vis; if (tmpshade < -128) tmpshade = -128; tsp->shade = tmpshade; tu->Vis -= 8; } #endif // don't draw these if (tsp->statnum >= STAT_DONT_DRAW) { tsp->owner = -1; continue; } // Diss any parentally locked sprites if (adult_lockout) { if (aVoxelArray[tsp->picnum].Parental == 6145) { tsp->owner = -1; tu = NULL; } else if (aVoxelArray[tsp->picnum].Parental > 0) { ASSERT(aVoxelArray[tsp->picnum].Parental >= 0 && aVoxelArray[tsp->picnum].Parental < 6145); tsp->picnum=aVoxelArray[tsp->picnum].Parental; // Change the pic } } if (tu) { if (tsp->statnum != STAT_DEFAULT) { if (TEST(tu->Flags, SPR_SKIP4)) { if (tsp->statnum <= STAT_SKIP4_INTERP_END) { tsp->x = tu->ox + mulscale18(tsp->x - tu->ox, smr4); tsp->y = tu->oy + mulscale18(tsp->y - tu->oy, smr4); tsp->z = tu->oz + mulscale18(tsp->z - tu->oz, smr4); } } if (TEST(tu->Flags, SPR_SKIP2)) { if (tsp->statnum <= STAT_SKIP2_INTERP_END) { tsp->x = tu->ox + mulscale17(tsp->x - tu->ox, smr2); tsp->y = tu->oy + mulscale17(tsp->y - tu->oy, smr2); tsp->z = tu->oz + mulscale17(tsp->z - tu->oz, smr2); } } } // workaround for mines and floor decals beneath the floor if (tsp->picnum == BETTY_R0 || tsp->picnum == FLOORBLOOD1) { auto sp = (uspriteptr_t)&sprite[SpriteNum]; int32_t const floorz = getflorzofslope(sp->sectnum, sp->x, sp->y); if (sp->z > floorz) tsp->z = floorz; } if (r_shadows && TEST(tu->Flags, SPR_SHADOW)) { DoShadows(tsp, viewz, mirror); } //#define UK_VERSION 1 //#define DART_REPEAT 6 //#define DART_PIC 2233 if (sw_darts) if (tu->ID == 1793 || tsp->picnum == 1793) { tsp->picnum = 2519; tsp->xrepeat = 27; tsp->yrepeat = 29; } if (tu->ID == STAR1) { if (sw_darts) { tsp->picnum = DART_PIC; tsp->ang = NORM_ANGLE(tsp->ang - 512 - 24); tsp->xrepeat = tsp->yrepeat = DART_REPEAT; SET(tsp->cstat, CSTAT_SPRITE_ALIGNMENT_WALL); } else DoStarView(tsp, tu, viewz); } // rotation if (tu->RotNum > 0) SetActorRotation(tSpriteNum, viewx, viewy); if (tu->motion_blur_num) { DoMotionBlur(tsp); } // set palette lookup correctly if (tsp->pal != sector[tsp->sectnum].floorpal) { if (sector[tsp->sectnum].floorpal == PALETTE_DEFAULT) { // default pal for sprite is stored in tu->spal // mostly for players and other monster types tsp->pal = tu->spal; } else { // if sector pal is something other than default SECT_USERp sectu = SectUser[tsp->sectnum]; uint8_t pal = sector[tsp->sectnum].floorpal; bool nosectpal=false; // sprite does not take on the new pal if sector flag is set if (sectu && TEST(sectu->flags, SECTFU_DONT_COPY_PALETTE)) { pal = PALETTE_DEFAULT; nosectpal = true; } //if(tu->spal == PALETTE_DEFAULT) if (tsp->hitag != SECTFU_DONT_COPY_PALETTE && tsp->hitag != LUMINOUS && !nosectpal && pal != PALETTE_FOG && pal != PALETTE_DIVE && pal != PALETTE_DIVE_LAVA) tsp->pal = pal; else tsp->pal = tu->spal; } } // Sprite debug information mode if (tsp->hitag == 9997) { tsp->pal = PALETTE_RED_LIGHTING; // Turn it off, it gets reset by PrintSpriteInfo sprite[tu->SpriteNum].hitag = 0; } } if (sw_darts) if (tsp->statnum == STAT_STAR_QUEUE) { tsp->picnum = DART_PIC; tsp->ang = NORM_ANGLE(tsp->ang - 512); tsp->xrepeat = tsp->yrepeat = DART_REPEAT; SET(tsp->cstat, CSTAT_SPRITE_ALIGNMENT_WALL); } // Call my sprite handler // Does autosizing and voxel handling JAnalyzeSprites(tsp); // only do this of you are a player sprite //if (tsp->statnum >= STAT_PLAYER0 && tsp->statnum < STAT_PLAYER0 + MAX_SW_PLAYERS) if (tu && tu->PlayerP) { // Shadow spell if (!TEST(tsp->cstat, CSTAT_SPRITE_TRANSLUCENT)) ShadeSprite(tsp); // sw if its your playersprite //if ((Player + screenpeek)->PlayerSprite == SpriteNum) if ((Player + screenpeek)->PlayerSprite == tu->SpriteNum) { PLAYERp pp = Player + screenpeek; if (mirror || TEST(pp->Flags, PF_VIEW_FROM_OUTSIDE|PF_VIEW_FROM_CAMERA)) { if (TEST(pp->Flags, PF_VIEW_FROM_OUTSIDE)) SET(tsp->cstat, CSTAT_SPRITE_TRANSLUCENT); if (TEST(pp->Flags, PF_CLIMBING)) { // move sprite forward some so he looks like he's // climbing tsp->x = pp->six + MOVEx(128 + 80, tsp->ang); tsp->y = pp->siy + MOVEy(128 + 80, tsp->ang); } else { tsp->x = pp->six; tsp->y = pp->siy; } tsp->z = tsp->z + pp->siz; tsp->ang = pp->siang; //continue; } else { // dont draw your sprite tsp->owner = -1; //SET(tsp->cstat, CSTAT_SPRITE_INVISIBLE); } } else // Otherwise just interpolate the player sprite { PLAYERp pp = tu->PlayerP; tsp->x -= mulscale16(pp->posx - pp->oposx, 65536-smoothratio); tsp->y -= mulscale16(pp->posy - pp->oposy, 65536-smoothratio); tsp->z -= mulscale16(pp->posz - pp->oposz, 65536-smoothratio); tsp->ang -= FixedToInt(mulscale16(pp->q16ang - pp->oq16ang, 65536-smoothratio)); } } if (OverlapDraw && FAF_ConnectArea(tsp->sectnum) && tsp->owner >= 0) { static_assert(sizeof(uspritetype) == sizeof(tspritetype)); // see TSPRITE_SIZE ConnectCopySprite((uspriteptr_t)tsp); } // // kens original sprite shade code he moved out of the engine // switch (tsp->statnum) { case STAT_ENEMY: case STAT_DEAD_ACTOR: case STAT_FAF_COPY: break; default: newshade = tsp->shade; newshade += 6; if (newshade > 127) newshade = 127; tsp->shade = newshade; } if (TEST(sector[tsp->sectnum].ceilingstat, CEILING_STAT_PLAX)) { newshade = tsp->shade; newshade += sector[tsp->sectnum].ceilingshade; if (newshade > 127) newshade = 127; if (newshade < -128) newshade = -128; tsp->shade = newshade; } else { newshade = tsp->shade; newshade += sector[tsp->sectnum].floorshade; if (newshade > 127) newshade = 127; if (newshade < -128) newshade = -128; tsp->shade = newshade; } if (tsp->hitag == 9998) tsp->shade = 127; // Invisible enemy ninjas // Correct shades for luminous sprites if (tsp->hitag == LUMINOUS) { tsp->shade = -128; } if (pp->NightVision && TEST(tsp->extra, SPRX_PLAYER_OR_ENEMY)) { if (tu && tu->ID == TRASHCAN) continue; // Don't light up trashcan tsp->pal = PALETTE_ILLUMINATE; // Make sprites REALLY bright green. tsp->shade = -128; } if (tu && tu->PlayerP) { if (TEST(tu->Flags2, SPR2_VIS_SHADING)) { if ((Player + screenpeek)->PlayerSprite != tu->SpriteNum) { if (!TEST(tu->PlayerP->Flags, PF_VIEW_FROM_OUTSIDE)) { RESET(tsp->cstat, CSTAT_SPRITE_TRANSLUCENT); } } tsp->shade = 12 - STD_RANDOM_RANGE(30); } } } WarpCopySprite(); } #if 1 tspriteptr_t get_tsprite(short SpriteNum) { int tSpriteNum; for (tSpriteNum = spritesortcnt - 1; tSpriteNum >= 0; tSpriteNum--) { if (tsprite[tSpriteNum].owner == SpriteNum) return &tsprite[tSpriteNum]; } return NULL; } void post_analyzesprites(void) { int tSpriteNum; short SpriteNum; USERp tu; for (tSpriteNum = spritesortcnt - 1; tSpriteNum >= 0; tSpriteNum--) { SpriteNum = tsprite[tSpriteNum].owner; if (SpriteNum < 0) continue; // JBF: verify this is safe tspriteptr_t tsp = &tsprite[tSpriteNum]; tu = User[SpriteNum]; if (tu) { if (tu->ID == FIREBALL_FLAMES && tu->Attach >= 0) { //uspritetype * const atsp = &sprite[tu->Attach]; tspriteptr_t const atsp = get_tsprite(tu->Attach); if (!atsp) { //DSPRINTF(ds,"Attach not found"); MONO_PRINT(ds); continue; } tsp->x = atsp->x; tsp->y = atsp->y; // statnum is priority - draw this ALWAYS first at 0 // statnum is priority - draw this ALWAYS last at MAXSTATUS if (TEST(atsp->extra, SPRX_BURNABLE)) { atsp->statnum = 1; tsp->statnum = 0; } else tsp->statnum = MAXSTATUS; } } } } #endif void BackView(int *nx, int *ny, int *nz, short *vsect, fixed_t *nq16ang, fixed_t q16horiz) { vec3_t n = { *nx, *ny, *nz }; SPRITEp sp; hitdata_t hitinfo; int i, vx, vy, vz, hx, hy; short bakcstat, daang; PLAYERp pp = &Player[screenpeek]; short ang; ASSERT(*vsect >= 0 && *vsect < MAXSECTORS); ang = FixedToInt(*nq16ang) + pp->view_outside_dang; // Calculate the vector (nx,ny,nz) to shoot backwards vx = (sintable[NORM_ANGLE(ang + 1536)] >> 3); vy = (sintable[NORM_ANGLE(ang + 1024)] >> 3); vz = (q16horiz - IntToFixed(100)) >> 8; // Player sprite of current view sp = &sprite[pp->PlayerSprite]; bakcstat = sp->cstat; RESET(sp->cstat, CSTAT_SPRITE_BLOCK|CSTAT_SPRITE_BLOCK_HITSCAN); // Make sure sector passed to FAFhitscan is correct //COVERupdatesector(*nx, *ny, vsect); hitscan(&n, *vsect, vx, vy, vz, &hitinfo, CLIPMASK_PLAYER); ASSERT(*vsect >= 0 && *vsect < MAXSECTORS); sp->cstat = bakcstat; // Restore cstat hx = hitinfo.pos.x - (*nx); hy = hitinfo.pos.y - (*ny); // If something is in the way, make pp->camera_dist lower if necessary if (klabs(vx) + klabs(vy) > klabs(hx) + klabs(hy)) { if (hitinfo.wall >= 0) // Push you a little bit off the wall { *vsect = hitinfo.sect; daang = getangle(wall[wall[hitinfo.wall].point2].x - wall[hitinfo.wall].x, wall[wall[hitinfo.wall].point2].y - wall[hitinfo.wall].y); i = vx * sintable[daang] + vy * sintable[NORM_ANGLE(daang + 1536)]; if (klabs(vx) > klabs(vy)) hx -= mulscale28(vx, i); else hy -= mulscale28(vy, i); } else if (hitinfo.sprite < 0) // Push you off the ceiling/floor { *vsect = hitinfo.sect; if (klabs(vx) > klabs(vy)) hx -= (vx >> 5); else hy -= (vy >> 5); } else { SPRITEp hsp = &sprite[hitinfo.sprite]; int flag_backup; // if you hit a sprite that's not a wall sprite - try again if (!TEST(hsp->cstat, CSTAT_SPRITE_ALIGNMENT_WALL)) { flag_backup = hsp->cstat; RESET(hsp->cstat, CSTAT_SPRITE_BLOCK|CSTAT_SPRITE_BLOCK_HITSCAN); ASSERT(*vsect >= 0 && *vsect < MAXSECTORS); BackView(nx, ny, nz, vsect, nq16ang, q16horiz); hsp->cstat = flag_backup; return; } else { // same as wall calculation daang = NORM_ANGLE(sp->ang-512); i = vx * sintable[daang] + vy * sintable[NORM_ANGLE(daang + 1536)]; if (klabs(vx) > klabs(vy)) hx -= mulscale28(vx, i); else hy -= mulscale28(vy, i); } } if (klabs(vx) > klabs(vy)) i = IntToFixed(hx) / vx; else i = IntToFixed(hy) / vy; if (i < pp->camera_dist) pp->camera_dist = i; } // Actually move you! (Camerdist is 65536 if nothing is in the way) *nx = (*nx) + mulscale16(vx, pp->camera_dist); *ny = (*ny) + mulscale16(vy, pp->camera_dist); *nz = (*nz) + mulscale16(vz, pp->camera_dist); // Slowly increase pp->camera_dist until it reaches 65536 // Synctics is a timer variable so it increases the same rate // on all speed computers pp->camera_dist = min(pp->camera_dist + (3 << 10), 65536); //pp->camera_dist = min(pp->camera_dist + (synctics << 10), 65536); // Make sure vsect is correct updatesectorz(*nx, *ny, *nz, vsect); *nq16ang = IntToFixed(ang); } void CircleCamera(int *nx, int *ny, int *nz, short *vsect, int *nq16ang, fixed_t q16horiz) { vec3_t n = { *nx, *ny, *nz }; SPRITEp sp; hitdata_t hitinfo; int i, vx, vy, vz, hx, hy; short bakcstat, daang; PLAYERp pp = &Player[screenpeek]; short ang; ang = FixedToInt(*nq16ang) + pp->circle_camera_ang; // Calculate the vector (nx,ny,nz) to shoot backwards vx = (sintable[NORM_ANGLE(ang + 1536)] >> 4); vy = (sintable[NORM_ANGLE(ang + 1024)] >> 4); // lengthen the vector some vx += DIV2(vx); vy += DIV2(vy); vz = (q16horiz - IntToFixed(100)) >> 8; // Player sprite of current view sp = &sprite[pp->PlayerSprite]; bakcstat = sp->cstat; RESET(sp->cstat, CSTAT_SPRITE_BLOCK|CSTAT_SPRITE_BLOCK_HITSCAN); // Make sure sector passed to hitscan is correct //COVERupdatesector(*nx, *ny, vsect); hitscan(&n, *vsect, vx, vy, vz, &hitinfo, CLIPMASK_MISSILE); sp->cstat = bakcstat; // Restore cstat //ASSERT(hitinfo.sect >= 0); hx = hitinfo.pos.x - (*nx); hy = hitinfo.pos.y - (*ny); // If something is in the way, make pp->circle_camera_dist lower if necessary if (klabs(vx) + klabs(vy) > klabs(hx) + klabs(hy)) { if (hitinfo.wall >= 0) // Push you a little bit off the wall { *vsect = hitinfo.sect; daang = getangle(wall[wall[hitinfo.wall].point2].x - wall[hitinfo.wall].x, wall[wall[hitinfo.wall].point2].y - wall[hitinfo.wall].y); i = vx * sintable[daang] + vy * sintable[NORM_ANGLE(daang + 1536)]; if (klabs(vx) > klabs(vy)) hx -= mulscale28(vx, i); else hy -= mulscale28(vy, i); } else if (hitinfo.sprite < 0) // Push you off the ceiling/floor { *vsect = hitinfo.sect; if (klabs(vx) > klabs(vy)) hx -= (vx >> 5); else hy -= (vy >> 5); } else { SPRITEp hsp = &sprite[hitinfo.sprite]; int flag_backup; // if you hit a sprite that's not a wall sprite - try again if (!TEST(hsp->cstat, CSTAT_SPRITE_ALIGNMENT_WALL)) { flag_backup = hsp->cstat; RESET(hsp->cstat, CSTAT_SPRITE_BLOCK|CSTAT_SPRITE_BLOCK_HITSCAN); CircleCamera(nx, ny, nz, vsect, nq16ang, q16horiz); hsp->cstat = flag_backup; return; } } if (klabs(vx) > klabs(vy)) i = IntToFixed(hx) / vx; else i = IntToFixed(hy) / vy; if (i < pp->circle_camera_dist) pp->circle_camera_dist = i; } // Actually move you! (Camerdist is 65536 if nothing is in the way) *nx = (*nx) + FixedToInt(vx * pp->circle_camera_dist); *ny = (*ny) + FixedToInt(vy * pp->circle_camera_dist); *nz = (*nz) + FixedToInt(vz * pp->circle_camera_dist); // Slowly increase pp->circle_camera_dist until it reaches 65536 // Synctics is a timer variable so it increases the same rate // on all speed computers pp->circle_camera_dist = min(pp->circle_camera_dist + (3 << 8), 65536); //pp->circle_camera_dist = min(pp->circle_camera_dist + (synctics << 10), 65536); // Make sure vsect is correct updatesectorz(*nx, *ny, *nz, vsect); *nq16ang = IntToFixed(ang); } FString GameInterface::GetCoordString() { PLAYERp pp = Player + myconnectindex; FString out; out.AppendFormat("POSX:%d ", pp->posx); out.AppendFormat("POSY:%d ", pp->posy); out.AppendFormat("POSZ:%d ", pp->posz); out.AppendFormat("ANG:%d\n", FixedToInt(pp->q16ang)); return out; } void PrintSpriteInfo(PLAYERp pp) { const int Y_STEP = 7; int x = windowxy1.x+2; int y = windowxy1.y+2; SPRITEp sp; USERp u; //if (SpriteInfo && !LocationInfo) { short hit_sprite = DoPickTarget(pp->SpriteP, 32, 2); sp = &sprite[hit_sprite]; u = User[hit_sprite]; sp->hitag = 9997; // Special tag to make the actor glow red for one frame if (hit_sprite == -1) { Printf("SPRITENUM: NONE TARGETED\n"); return; } else Printf("SPRITENUM:%d\n", hit_sprite); if (u) { Printf("ID:%d, ", u->ID); Printf("PALETTE:%d, ", u->spal); Printf("HEALTH:%d, ", u->Health); Printf("WAITTICS:%d, ", u->WaitTics); Printf("COUNTER:%d, ", u->Counter); Printf("COUNTER2:%d\n", u->Counter); } if (sp) { Printf("POSX:%d, ", TrackerCast(sp->x)); Printf("POSY:%d, ", TrackerCast(sp->y)); Printf("POSZ:%d,", TrackerCast(sp->z)); Printf("ANG:%d\n", TrackerCast(sp->ang)); } } } void SpriteSortList2D(int tx, int ty) { SPRITEp sp; int i; int dist,a,b,c; spritesortcnt = 0; for (i = 0; i < MAXSPRITES; i++) { if (sprite[i].statnum < MAXSTATUS) { sp = &sprite[i]; if (!TEST(sp->cstat, CSTAT_SPRITE_INVISIBLE) && (sp->xrepeat > 0) && (sp->yrepeat > 0) && (spritesortcnt < MAXSPRITESONSCREEN)) { DISTANCE(tx,ty,sp->x,sp->y,dist,a,b,c); if (dist < 22000) { renderAddTSpriteFromSprite(i); } } } } } void DrawCrosshair(PLAYERp pp) { extern bool CameraTestMode; if (!(CameraTestMode) && !TEST(pp->Flags, PF_VIEW_FROM_OUTSIDE)) { USERp u = User[pp->PlayerSprite]; ::DrawCrosshair(2326, u->Health, -getHalfLookAng(pp->oq16look_ang, pp->q16look_ang, cl_syncinput, smoothratio), 0, 2, shadeToLight(10)); } } void CameraView(PLAYERp pp, int *tx, int *ty, int *tz, short *tsectnum, fixed_t *tq16ang, fixed_t *tq16horiz) { int i,nexti; short ang; SPRITEp sp; bool found_camera = false; bool player_in_camera = false; bool FAFcansee_test; bool ang_test; if (pp == &Player[screenpeek]) { TRAVERSE_SPRITE_STAT(headspritestat[STAT_DEMO_CAMERA], i, nexti) { sp = &sprite[i]; ang = getangle(*tx - sp->x, *ty - sp->y); ang_test = getincangle(ang, sp->ang) < sp->lotag; FAFcansee_test = (FAFcansee(sp->x, sp->y, sp->z, sp->sectnum, *tx, *ty, *tz, pp->cursectnum) || FAFcansee(sp->x, sp->y, sp->z, sp->sectnum, *tx, *ty, *tz + SPRITEp_SIZE_Z(pp->SpriteP), pp->cursectnum)); player_in_camera = ang_test && FAFcansee_test; if (player_in_camera || pp->camera_check_time_delay > 0) { // if your not in the camera but are still looking // make sure that only the last camera shows you if (!player_in_camera && pp->camera_check_time_delay > 0) { if (pp->last_camera_sp != sp) continue; } switch (sp->clipdist) { case 1: pp->last_camera_sp = sp; CircleCamera(tx, ty, tz, tsectnum, tq16ang, IntToFixed(100)); found_camera = true; break; default: { int xvect,yvect,zvect,zdiff; pp->last_camera_sp = sp; xvect = sintable[NORM_ANGLE(ang + 512)] >> 3; yvect = sintable[NORM_ANGLE(ang)] >> 3; zdiff = sp->z - *tz; if (labs(sp->x - *tx) > 1000) zvect = scale(xvect, zdiff, sp->x - *tx); else if (labs(sp->y - *ty) > 1000) zvect = scale(yvect, zdiff, sp->y - *ty); else if (sp->x - *tx != 0) zvect = scale(xvect, zdiff, sp->x - *tx); else if (sp->y - *ty != 0) zvect = scale(yvect, zdiff, sp->y - *ty); else zvect = 0; // new horiz to player *tq16horiz = IntToFixed(100 - (zvect/256)); *tq16horiz = max(*tq16horiz, IntToFixed(PLAYER_HORIZ_MIN)); *tq16horiz = min(*tq16horiz, IntToFixed(PLAYER_HORIZ_MAX)); //DSPRINTF(ds,"xvect %d,yvect %d,zvect %d,tq16horiz %d",xvect,yvect,zvect,*tq16horiz); MONO_PRINT(ds); *tq16ang = IntToFixed(ang); *tx = sp->x; *ty = sp->y; *tz = sp->z; *tsectnum = sp->sectnum; found_camera = true; break; } } } if (found_camera) break; } } // if you player_in_camera you definately have a camera if (player_in_camera) { pp->camera_check_time_delay = 120/2; SET(pp->Flags, PF_VIEW_FROM_CAMERA); ASSERT(found_camera); } else // if you !player_in_camera you still might have a camera // for a split second { if (found_camera) { SET(pp->Flags, PF_VIEW_FROM_CAMERA); } else { pp->circle_camera_ang = 0; pp->circle_camera_dist = CIRCLE_CAMERA_DIST_MIN; RESET(pp->Flags, PF_VIEW_FROM_CAMERA); } } } void PreDraw(void) { short i, nexti; PreDrawStackedWater(); TRAVERSE_SPRITE_STAT(headspritestat[STAT_FLOOR_SLOPE_DONT_DRAW], i, nexti) { RESET(sector[sprite[i].sectnum].floorstat, FLOOR_STAT_SLOPE); } } void PostDraw(void) { short i, nexti; TRAVERSE_SPRITE_STAT(headspritestat[STAT_FLOOR_SLOPE_DONT_DRAW], i, nexti) { SET(sector[sprite[i].sectnum].floorstat, FLOOR_STAT_SLOPE); } TRAVERSE_SPRITE_STAT(headspritestat[STAT_FAF_COPY], i, nexti) { if (User[i]) { FreeMem(User[i]); User[i] = NULL; } deletesprite(i); } } int CopySprite(uspritetype const * tsp, short newsector) { short New; SPRITEp sp; New = COVERinsertsprite(newsector, STAT_FAF_COPY); sp = &sprite[New]; sp->x = tsp->x; sp->y = tsp->y; sp->z = tsp->z; sp->cstat = tsp->cstat; sp->picnum = tsp->picnum; sp->pal = tsp->pal; sp->xrepeat = tsp->xrepeat; sp->yrepeat = tsp->yrepeat; sp->xoffset = tsp->xoffset; sp->yoffset = tsp->yoffset; sp->ang = tsp->ang; sp->xvel = tsp->xvel; sp->yvel = tsp->yvel; sp->zvel = tsp->zvel; sp->shade = tsp->shade; RESET(sp->cstat, CSTAT_SPRITE_BLOCK|CSTAT_SPRITE_BLOCK_HITSCAN); return New; } int ConnectCopySprite(uspritetype const * tsp) { short newsector; int testz; if (FAF_ConnectCeiling(tsp->sectnum)) { newsector = tsp->sectnum; testz = SPRITEp_TOS(tsp) - Z(10); if (testz < sector[tsp->sectnum].ceilingz) updatesectorz(tsp->x, tsp->y, testz, &newsector); if (newsector >= 0 && newsector != tsp->sectnum) { return CopySprite(tsp, newsector); } } if (FAF_ConnectFloor(tsp->sectnum)) { newsector = tsp->sectnum; testz = SPRITEp_BOS(tsp) + Z(10); if (testz > sector[tsp->sectnum].floorz) updatesectorz(tsp->x, tsp->y, testz, &newsector); if (newsector >= 0 && newsector != tsp->sectnum) { return CopySprite(tsp, newsector); } } return -1; } void PreDrawStackedWater(void) { short si,snexti; short i,nexti; SPRITEp sp; USERp u,nu; short New; TRAVERSE_SPRITE_STAT(headspritestat[STAT_CEILING_FLOOR_PIC_OVERRIDE], si, snexti) { TRAVERSE_SPRITE_SECT(headspritesect[sprite[si].sectnum], i, nexti) { if (User[i]) { if (sprite[i].statnum == STAT_ITEM) continue; if (sprite[i].statnum <= STAT_DEFAULT || sprite[i].statnum > STAT_PLAYER0 + MAX_SW_PLAYERS) continue; // code so that a copied sprite will not make another copy if (User[i]->xchange == -989898) continue; sp = &sprite[i]; u = User[i]; New = ConnectCopySprite((uspritetype const *)sp); if (New >= 0) { // spawn a user User[New] = nu = (USERp)CallocMem(sizeof(USER), 1); ASSERT(nu != NULL); nu->xchange = -989898; // copy everything reasonable from the user that // analyzesprites() needs to draw the image nu->State = u->State; nu->Rot = u->Rot; nu->StateStart = u->StateStart; nu->StateEnd = u->StateEnd; nu->ox = u->ox; nu->oy = u->oy; nu->oz = u->oz; nu->Flags = u->Flags; nu->Flags2 = u->Flags2; nu->RotNum = u->RotNum; nu->ID = u->ID; // set these to other sprite for players draw nu->SpriteNum = i; nu->SpriteP = sp; nu->PlayerP = u->PlayerP; nu->spal = u->spal; } } } } } void FAF_DrawRooms(int x, int y, int z, fixed_t q16ang, fixed_t q16horiz, short sectnum) { short i,nexti; TRAVERSE_SPRITE_STAT(headspritestat[STAT_CEILING_FLOOR_PIC_OVERRIDE], i, nexti) { if (SPRITE_TAG3(i) == 0) { // back up ceilingpicnum and ceilingstat SPRITE_TAG5(i) = sector[sprite[i].sectnum].ceilingpicnum; sector[sprite[i].sectnum].ceilingpicnum = SPRITE_TAG2(i); SPRITE_TAG4(i) = sector[sprite[i].sectnum].ceilingstat; //SET(sector[sprite[i].sectnum].ceilingstat, ((int)SPRITE_TAG7(i))<<7); SET(sector[sprite[i].sectnum].ceilingstat, SPRITE_TAG6(i)); RESET(sector[sprite[i].sectnum].ceilingstat, CEILING_STAT_PLAX); } else if (SPRITE_TAG3(i) == 1) { SPRITE_TAG5(i) = sector[sprite[i].sectnum].floorpicnum; sector[sprite[i].sectnum].floorpicnum = SPRITE_TAG2(i); SPRITE_TAG4(i) = sector[sprite[i].sectnum].floorstat; //SET(sector[sprite[i].sectnum].floorstat, ((int)SPRITE_TAG7(i))<<7); SET(sector[sprite[i].sectnum].floorstat, SPRITE_TAG6(i)); RESET(sector[sprite[i].sectnum].floorstat, FLOOR_STAT_PLAX); } } renderDrawRoomsQ16(x,y,z,q16ang,q16horiz,sectnum); TRAVERSE_SPRITE_STAT(headspritestat[STAT_CEILING_FLOOR_PIC_OVERRIDE], i, nexti) { // manually set gotpic if (TEST_GOTSECTOR(sprite[i].sectnum)) { SET_GOTPIC(FAF_MIRROR_PIC); } if (SPRITE_TAG3(i) == 0) { // restore ceilingpicnum and ceilingstat sector[sprite[i].sectnum].ceilingpicnum = SPRITE_TAG5(i); sector[sprite[i].sectnum].ceilingstat = SPRITE_TAG4(i); //RESET(sector[sprite[i].sectnum].ceilingstat, CEILING_STAT_TYPE_MASK); RESET(sector[sprite[i].sectnum].ceilingstat, CEILING_STAT_PLAX); } else if (SPRITE_TAG3(i) == 1) { sector[sprite[i].sectnum].floorpicnum = SPRITE_TAG5(i); sector[sprite[i].sectnum].floorstat = SPRITE_TAG4(i); //RESET(sector[sprite[i].sectnum].floorstat, FLOOR_STAT_TYPE_MASK); RESET(sector[sprite[i].sectnum].floorstat, FLOOR_STAT_PLAX); } } } short ScreenSavePic = false; bool PicInView(short, bool); void DoPlayerDiveMeter(PLAYERp pp); void drawscreen(PLAYERp pp, double smoothratio) { extern bool CameraTestMode; int tx, ty, tz; fixed_t tq16horiz, tq16ang, tq16rotscrnang; short tsectnum; short i,j; int bob_amt = 0; int quake_z, quake_x, quake_y; short quake_ang; extern bool FAF_DebugView; PLAYERp camerapp; // prediction player if prediction is on, else regular player // last valid stuff static short lv_sectnum = -1; static int lv_x, lv_y, lv_z; int const viewingRange = viewingrange; DrawScreen = true; PreDraw(); PreUpdatePanel(smoothratio); if (!ScreenSavePic) { dointerpolations(smoothratio); // Stick at beginning of drawscreen short_dointerpolations(smoothratio); // Stick at beginning of drawscreen if (cl_sointerpolation) so_dointerpolations(smoothratio); // Stick at beginning of drawscreen } // TENSW: when rendering with prediction, the only thing that counts should // be the predicted player. if (PredictionOn && CommEnabled && pp == Player+myconnectindex) camerapp = ppp; else camerapp = pp; tx = camerapp->oposx + xs_CRoundToInt(fmulscale16(camerapp->posx - camerapp->oposx, smoothratio)); ty = camerapp->oposy + xs_CRoundToInt(fmulscale16(camerapp->posy - camerapp->oposy, smoothratio)); tz = camerapp->oposz + xs_CRoundToInt(fmulscale16(camerapp->posz - camerapp->oposz, smoothratio)); // Interpolate the player's angle while on a sector object, just like VoidSW. // This isn't needed for the turret as it was fixable, but moving sector objects are problematic. if (cl_syncinput || pp != Player+myconnectindex || (!cl_syncinput && pp->sop && !TEST(pp->Flags2, PF2_INPUT_CAN_TURN_TURRET))) { fixed_t dang = IntToFixed(1024); fixed_t oang = camerapp->oq16ang + camerapp->oq16look_ang; fixed_t ang = camerapp->q16ang + camerapp->q16look_ang; tq16ang = oang + xs_CRoundToInt(fmulscale16(NORM_Q16ANGLE(ang + dang - oang) - dang, smoothratio)); tq16horiz = camerapp->oq16horiz + xs_CRoundToInt(fmulscale16(camerapp->q16horiz - camerapp->oq16horiz, smoothratio)); tq16rotscrnang = camerapp->oq16rotscrnang + xs_CRoundToInt(fmulscale16(NORM_Q16ANGLE(camerapp->q16rotscrnang + dang - camerapp->oq16rotscrnang) - dang, smoothratio)); } else { tq16ang = pp->q16ang + pp->q16look_ang; tq16horiz = pp->q16horiz; tq16rotscrnang = pp->q16rotscrnang; } tsectnum = camerapp->cursectnum; renderSetRollAngle(FixedToFloat(tq16rotscrnang)); COVERupdatesector(tx, ty, &tsectnum); if (tsectnum >= 0) { // last valid stuff lv_sectnum = tsectnum; lv_x = tx; lv_y = ty; lv_z = tz; } if (pp->sop_riding || pp->sop_control) { if (pp->sop_control && (!cl_sointerpolation || (CommEnabled && !pp->sop_remote))) { tx = pp->posx; ty = pp->posy; tz = pp->posz; tq16ang = pp->q16ang; } tsectnum = pp->cursectnum; updatesectorz(tx, ty, tz, &tsectnum); } pp->six = tx; pp->siy = ty; pp->siz = tz - pp->posz; pp->siang = FixedToInt(tq16ang); QuakeViewChange(camerapp, &quake_z, &quake_x, &quake_y, &quake_ang); VisViewChange(camerapp, &g_visibility); tz = tz + quake_z; tx = tx + quake_x; ty = ty + quake_y; //tq16horiz = tq16horiz + IntToFixed(quake_x); tq16ang = NORM_Q16ANGLE(tq16ang + IntToFixed(quake_ang)); if (pp->sop_remote) { if (TEST_BOOL1(pp->remote_sprite)) tq16ang = IntToFixed(pp->remote_sprite->ang); else tq16ang = gethiq16angle(pp->sop_remote->xmid - tx, pp->sop_remote->ymid - ty); } if (TEST(pp->Flags, PF_VIEW_FROM_OUTSIDE)) { BackView(&tx, &ty, &tz, &tsectnum, &tq16ang, tq16horiz); } else { bob_amt = camerapp->bob_amt; if (CameraTestMode) { CameraView(camerapp, &tx, &ty, &tz, &tsectnum, &tq16ang, &tq16horiz); } } if (!TEST(pp->Flags, PF_VIEW_FROM_CAMERA|PF_VIEW_FROM_OUTSIDE)) { if (cl_viewbob) { tz += bob_amt; tz += pp->obob_z + xs_CRoundToInt(fmulscale16(pp->bob_z - pp->obob_z, smoothratio)); } // recoil only when not in camera tq16horiz = tq16horiz + pp->recoil_horizoff; tq16horiz = max(tq16horiz, IntToFixed(PLAYER_HORIZ_MIN)); tq16horiz = min(tq16horiz, IntToFixed(PLAYER_HORIZ_MAX)); } if (automapMode != am_full)// && !ScreenSavePic) { // Cameras must be done before the main loop. JS_DrawCameras(pp, tx, ty, tz); } videoSetCorrectedAspect(); renderSetAspect(xs_CRoundToInt(double(viewingrange)* tan(r_fov* (PI / 360.))), yxaspect); OverlapDraw = true; DrawOverlapRoom(tx, ty, tz, tq16ang, tq16horiz, tsectnum); OverlapDraw = false; if (automapMode != am_full)// && !ScreenSavePic) { // TEST this! Changed to camerapp //JS_DrawMirrors(camerapp, tx, ty, tz, tq16ang, tq16horiz); JS_DrawMirrors(pp, tx, ty, tz, tq16ang, tq16horiz); } // TODO: This call is redundant if the tiled overhead map is shown, but the // HUD elements should be properly outputted with hardware rendering first. if (!FAF_DebugView) FAF_DrawRooms(tx, ty, tz, tq16ang, tq16horiz, tsectnum); analyzesprites(tx, ty, tz, false); post_analyzesprites(); renderDrawMasks(); renderSetAspect(viewingRange, divscale16(ydim * 8, xdim * 5)); if (!ScreenSavePic) UpdatePanel(smoothratio); #define SLIME 2305 // Only animate lava if its picnum is on screen // gotpic is a bit array where the tile number's bit is set // whenever it is drawn (ceilings, walls, sprites, etc.) #if 0 // This needs a different implementation. if ((gotpic[SLIME >> 3] & (1 << (SLIME & 7))) > 0) { gotpic[SLIME >> 3] &= ~(1 << (SLIME & 7)); if (waloff[SLIME]) movelava((char *) waloff[SLIME]); } #endif // if doing a screen save don't need to process the rest if (ScreenSavePic) { DrawScreen = false; return; } MarkSectorSeen(pp->cursectnum); if ((automapMode != am_off) && pp == Player+myconnectindex) { for (j = 0; j < MAXSPRITES; j++) { // Don't show sprites tagged with 257 if (sprite[j].lotag == 257) { if (TEST(sprite[j].cstat, CSTAT_SPRITE_ALIGNMENT_FLOOR)) { RESET(sprite[j].cstat, CSTAT_SPRITE_ALIGNMENT_FLOOR); sprite[j].owner = -2; } } } DrawOverheadMap(tx, ty, FixedToInt(tq16ang)); } for (j = 0; j < MAXSPRITES; j++) { // Don't show sprites tagged with 257 if (sprite[j].lotag == 257 && sprite[j].owner == -2) SET(sprite[j].cstat, CSTAT_SPRITE_ALIGNMENT_FLOOR); } //PrintLocationInfo(pp); //PrintSpriteInfo(pp); #if SYNC_TEST SyncStatMessage(); #endif UpdateStatusBar(); DrawCrosshair(pp); DoPlayerDiveMeter(pp); // Do the underwater breathing bar // Boss Health Meter, if Boss present BossHealthMeter(); #if SYNC_TEST SyncStatMessage(); #endif restoreinterpolations(); // Stick at end of drawscreen short_restoreinterpolations(); // Stick at end of drawscreen if (cl_sointerpolation) so_restoreinterpolations(); // Stick at end of drawscreen if (paused && !M_Active()) { MNU_DrawString(160, 100, "Game Paused", 0, 0, 0); } if (!CommEnabled && TEST(pp->Flags, PF_DEAD)) { if (ReloadPrompt) { ReloadPrompt = false; } } PostDraw(); DrawScreen = false; } bool GameInterface::GenerateSavePic() { ScreenSavePic = true; drawscreen(Player + myconnectindex, 65536); ScreenSavePic = false; return true; } bool GameInterface::DrawAutomapPlayer(int cposx, int cposy, int czoom, int cang) { int i, j, k, l, x1, y1, x2, y2, x3, y3, x4, y4, ox, oy, xoff, yoff; int dax, day, cosang, sinang, xspan, yspan, sprx, spry; int xrepeat, yrepeat, z1, z2, startwall, endwall, tilenum, daang; int xvect, yvect, xvect2, yvect2; walltype* wal, * wal2; spritetype* spr; short p; static int pspr_ndx[8] = { 0,0,0,0,0,0,0,0 }; bool sprisplayer = false; short txt_x, txt_y; xvect = sintable[(2048 - cang) & 2047] * czoom; yvect = sintable[(1536 - cang) & 2047] * czoom; xvect2 = mulscale16(xvect, yxaspect); yvect2 = mulscale16(yvect, yxaspect); // Draw sprites k = Player[screenpeek].PlayerSprite; for (i = 0; i < numsectors; i++) for (j = headspritesect[i]; j >= 0; j = nextspritesect[j]) { for (p = connecthead; p >= 0; p = connectpoint2[p]) { if (Player[p].PlayerSprite == j) { if (sprite[Player[p].PlayerSprite].xvel > 16) pspr_ndx[myconnectindex] = ((PlayClock >> 4) & 3); sprisplayer = true; goto SHOWSPRITE; } } if (gFullMap || show2dsprite[j]) { SHOWSPRITE: spr = &sprite[j]; PalEntry col = GPalette.BaseColors[56]; // 1=white / 31=black / 44=green / 56=pink / 128=yellow / 210=blue / 248=orange / 255=purple if ((spr->cstat & 1) > 0) col = GPalette.BaseColors[248]; if (j == k) col = GPalette.BaseColors[31]; sprx = spr->x; spry = spr->y; k = spr->statnum; if ((k >= 1) && (k <= 8) && (k != 2)) // Interpolate moving { sprx = sprite[j].x; spry = sprite[j].y; } switch (spr->cstat & 48) { case 0: // Regular sprite if (Player[p].PlayerSprite == j) { ox = sprx - cposx; oy = spry - cposy; x1 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y1 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); if (((gotsector[i >> 3] & (1 << (i & 7))) > 0) && (czoom > 192)) { daang = (spr->ang - cang) & 2047; // Special case tiles if (spr->picnum == 3123) break; int spnum = -1; if (sprisplayer) { if (gNet.MultiGameType != MULTI_GAME_COMMBAT || j == Player[screenpeek].PlayerSprite) spnum = 1196 + pspr_ndx[myconnectindex]; } else spnum = spr->picnum; double xd = ((x1 << 4) + (xdim << 15)) / 65536.; double yd = ((y1 << 4) + (ydim << 15)) / 65536.; double sc = mulscale16(czoom * (spr->yrepeat), yxaspect) / 32768.; if (spnum >= 0) { DrawTexture(twod, tileGetTexture(1196 + pspr_ndx[myconnectindex], true), xd, yd, DTA_ScaleX, sc, DTA_ScaleY, sc, DTA_Rotate, daang * (-360. / 2048), DTA_CenterOffsetRel, true, DTA_TranslationIndex, TRANSLATION(Translation_Remap, spr->pal), DTA_Color, shadeToLight(spr->shade), DTA_Alpha, (spr->cstat & 2) ? 0.33 : 1., TAG_DONE); } } } break; case 16: // Rotated sprite x1 = sprx; y1 = spry; tilenum = spr->picnum; xoff = (int)tileLeftOffset(tilenum) + (int)spr->xoffset; if ((spr->cstat & 4) > 0) xoff = -xoff; k = spr->ang; l = spr->xrepeat; dax = sintable[k & 2047] * l; day = sintable[(k + 1536) & 2047] * l; l = tilesiz[tilenum].x; k = (l >> 1) + xoff; x1 -= mulscale16(dax, k); x2 = x1 + mulscale16(dax, l); y1 -= mulscale16(day, k); y2 = y1 + mulscale16(day, l); ox = x1 - cposx; oy = y1 - cposy; x1 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y1 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); ox = x2 - cposx; oy = y2 - cposy; x2 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y2 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); drawlinergb(x1 + (xdim << 11), y1 + (ydim << 11), x2 + (xdim << 11), y2 + (ydim << 11), col); break; case 32: // Floor sprite if (automapMode == am_overlay) { tilenum = spr->picnum; xoff = (int)tileLeftOffset(tilenum) + (int)spr->xoffset; yoff = (int)tileTopOffset(tilenum) + (int)spr->yoffset; if ((spr->cstat & 4) > 0) xoff = -xoff; if ((spr->cstat & 8) > 0) yoff = -yoff; k = spr->ang; cosang = sintable[(k + 512) & 2047]; sinang = sintable[k]; xspan = tilesiz[tilenum].x; xrepeat = spr->xrepeat; yspan = tilesiz[tilenum].y; yrepeat = spr->yrepeat; dax = ((xspan >> 1) + xoff) * xrepeat; day = ((yspan >> 1) + yoff) * yrepeat; x1 = sprx + mulscale16(sinang, dax) + mulscale16(cosang, day); y1 = spry + mulscale16(sinang, day) - mulscale16(cosang, dax); l = xspan * xrepeat; x2 = x1 - mulscale16(sinang, l); y2 = y1 + mulscale16(cosang, l); l = yspan * yrepeat; k = -mulscale16(cosang, l); x3 = x2 + k; x4 = x1 + k; k = -mulscale16(sinang, l); y3 = y2 + k; y4 = y1 + k; ox = x1 - cposx; oy = y1 - cposy; x1 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y1 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); ox = x2 - cposx; oy = y2 - cposy; x2 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y2 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); ox = x3 - cposx; oy = y3 - cposy; x3 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y3 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); ox = x4 - cposx; oy = y4 - cposy; x4 = mulscale16(ox, xvect) - mulscale16(oy, yvect); y4 = mulscale16(oy, xvect2) + mulscale16(ox, yvect2); drawlinergb(x1 + (xdim << 11), y1 + (ydim << 11), x2 + (xdim << 11), y2 + (ydim << 11), col); drawlinergb(x2 + (xdim << 11), y2 + (ydim << 11), x3 + (xdim << 11), y3 + (ydim << 11), col); drawlinergb(x3 + (xdim << 11), y3 + (ydim << 11), x4 + (xdim << 11), y4 + (ydim << 11), col); drawlinergb(x4 + (xdim << 11), y4 + (ydim << 11), x1 + (xdim << 11), y1 + (ydim << 11), col); } break; } } } return true; } END_SW_NS