//------------------------------------------------------------------------- /* 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 "pragmas.h" #include "cache1d.h" #include "keys.h" #include "names2.h" #include "panel.h" #include "game.h" #include "quake.h" #include "vis.h" #include "jsector.h" #include "mytypes.h" #include "control.h" #include "function.h" #include "network.h" #include "pal.h" #include "player.h" #include "jtags.h" #include "parent.h" #include "cache.h" #include "reserve.h" #include "text.h" #include "menus.h" #include "interp.h" #include "sector.h" #include "config.h" BEGIN_SW_NS static int OverlapDraw = FALSE; extern SWBOOL QuitFlag, LocationInfo, ConPanel, SpriteInfo, PauseKeySet; extern SWBOOL Voxel; extern char buffer[]; SWBOOL DrawScreen; extern short f_c; extern SWBOOL HelpInputMode; extern short HelpPage; extern short HelpPagePic[]; extern ParentalStruct aVoxelArray[MAXTILES]; extern SWBOOL RedrawScreen; SWBOOL RedrawCompass=FALSE; extern int Follow_posx,Follow_posy; int ConnectCopySprite(uspritetype const * tsp); void PreDrawStackedWater(void); void DrawCompass(PLAYERp pp); #if 1 void ShadeSprite(uspritetype * 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; extern short screenpeek; uspritetype * tsp = &tsprite[tSpriteNum]; USERp tu = User[tsp->owner]; PLAYERp pp = Player + screenpeek; 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) { uspritetype * 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; //sprintf(ds,"SetActorRotation:tsp->picnum: %d",tsp->picnum); //CON_Message(ds); /* !AIC KEY - For actor states EVERY rotation needs to have the same tics animators. The only thing different can be the picnum. If not then sync bugs will occur. This code attempts to check to the best of its ability for this problem. Should go away with shipped compile. */ #if DEBUG { short i; for (i = 0; i < tu->RotNum; i++) { STATEp TestStateStart, TestState; TestStateStart = tu->Rot[i]; TestState = TestStateStart + StateOffset; ASSERT(State->Tics == TestState->Tics); ASSERT(State->Animator == TestState->Animator); } } #endif return 0; } int DoShadowFindGroundPoint(uspritetype * sp) { // USES TSPRITE !!!!! USERp u = User[sp->owner]; SPRITEp hsp; int ceilhit, florhit; int hiz, loz = u->loz; short save_cstat, bak_cstat; SWBOOL found = FALSE; // 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; } #if 0 #define GENERIC_SHADOW_PIC 66 extern SWBOOL bVoxelsOn; void DoVoxelShadow(SPRITEp tspr) { // Check for voxels if (bVoxelsOn) { switch (tspr->picnum) { case ICON_STAR: // 1793 case ICON_UZI: // 1797 case ICON_UZIFLOOR: // 1807 case ICON_LG_UZI_AMMO: // 1799 case ICON_HEART: // 1824 case ICON_HEART_LG_AMMO: // 1820 case ICON_GUARD_HEAD: // 1814 case ICON_FIREBALL_LG_AMMO: // 3035 case ICON_ROCKET: // 1843 case ICON_SHOTGUN: // 1794 case ICON_LG_ROCKET: // 1796 case ICON_LG_SHOTSHELL: // 1823 case ICON_MICRO_GUN: // 1818 case ICON_MICRO_BATTERY: // 1800 case ICON_GRENADE_LAUNCHER: // 1817 case ICON_LG_GRENADE: // 1831 case ICON_LG_MINE: // 1842 case ICON_RAIL_GUN: // 1811 case ICON_RAIL_AMMO: // 1812 case ICON_SM_MEDKIT: // 1802 case ICON_MEDKIT: // 1803 case ICON_CHEMBOMB: // 1808 case ICON_FLASHBOMB: // 1805 case ICON_NUKE: // 1809 case ICON_CALTROPS: case ICON_BOOSTER: // 1810 case ICON_HEAT_CARD: // 1819 case ICON_REPAIR_KIT: // 1813 case ICON_EXPLOSIVE_BOX: // 1801 case ICON_ENVIRON_SUIT: // 1837 case ICON_FLY: // 1782 case ICON_CLOAK: // 1826 case ICON_NIGHT_VISION: // 3031 case ICON_NAPALM: // 3046 case ICON_RING: // 3050 //case ICON_GOROAMMO: // 3035 //case ICON_HEARTAMMO: // 1820 case ICON_RINGAMMO: // 3054 case ICON_NAPALMAMMO: // 3058 case ICON_GRENADE: // 3059 //case ICON_OXYGEN: // 1800 case ICON_ARMOR: // 3030 case BLUE_KEY: // 1766 case RED_KEY: // 1770 case GREEN_KEY: // 1774 case YELLOW_KEY: // 1778 case GOLD_SKELKEY: case SILVER_SKELKEY: case BRONZE_SKELKEY: case RED_SKELKEY: case BLUE_CARD: case RED_CARD: case GREEN_CARD: case YELLOW_CARD: // tspr->picnum = GENERIC_SHADOW_PIC; tspr->xrepeat = 0; // For now, don't do voxel shadows tspr->yrepeat = 0; // tspr->xrepeat = 27; // tspr->yrepeat = 4; //tspr->z+=(sintable[(rotang*2)%2047]/16); break; } } } #endif void DoShadows(uspritetype * tsp, int viewz) { uspritetype * 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) { //int cz,fz; //getzsofslope(tsp->sectnum, tsp->x, tsp->y, &cz, &fz); ////DSPRINTF(ds,"Shad sect !fnd x%d, y%d, z%d, sect%d, cz %d, fz %d", tsp->x, tsp->y, tsp->z, tsp->sectnum, cz, fz); //MONO_PRINT(ds); return; } tsp->sectnum = sectnum; memcpy(New, tsp, sizeof(SPRITE)); // 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); } } #if 0 if (SectUser[tsp->sectnum] && SectUser[tsp->sectnum]->depth) { loz -= Z(SectUser[tsp->sectnum]->depth); } #endif // 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; // Check for voxel items and use a round generic pic if so //DoVoxelShadow(New); spritesortcnt++; } void DoMotionBlur(uspritetype const * tsp) { uspritetype * New; 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 = (((int)-tu->jump_speed * ACTORMOVETICS)<<16)/tsp->xvel; } else { z_amt_per_pixel = (((int)-tsp->zvel)<<16)/tsp->xvel; } switch (tu->motion_blur_dist) { case 64: dx = nx = MOVEx(64, ang); dy = ny = MOVEy(64, ang); nz = (z_amt_per_pixel * 64)>>16; break; case 128: dx = nx = MOVEx(128, ang); dy = ny = MOVEy(128, ang); nz = (z_amt_per_pixel * 128)>>16; break; case 256: dx = nx = MOVEx(256, ang); dy = ny = MOVEy(256, ang); nz = (z_amt_per_pixel * 256)>>16; break; case 512: dx = nx = MOVEx(512, ang); dy = ny = MOVEy(512, ang); nz = (z_amt_per_pixel * 512)>>16; 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++) { New = &tsprite[spritesortcnt]; memcpy(New, tsp, sizeof(SPRITE)); 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; uspritetype * New; 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; New = &tsprite[spritesortcnt]; memcpy(New, &sprite[spnum], sizeof(SPRITE)); spritesortcnt++; New->owner = 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; New = &tsprite[spritesortcnt]; memcpy(New, &sprite[spnum], sizeof(SPRITE)); spritesortcnt++; New->owner = 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(uspritetype * 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, SWBOOL mirror) { int tSpriteNum, j, k; short SpriteNum, pnum; int smr4, smr2; uspritetype * tsp; USERp tu; static int ang = 0; PLAYERp pp = Player + screenpeek; short newshade=0; ang = NORM_ANGLE(ang + 12); smr4 = smoothratio + (((int) MoveSkip4) << 16); smr2 = smoothratio + (((int) MoveSkip2) << 16); for (tSpriteNum = spritesortcnt - 1; tSpriteNum >= 0; tSpriteNum--) { SpriteNum = tsprite[tSpriteNum].owner; tsp = &tsprite[tSpriteNum]; tu = User[SpriteNum]; //if(tsp->statnum == STAT_GENERIC_QUEUE) // CON_ConMessage("tsp->pal = %d",tsp->pal); #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 (gs.ParentalLock || Global_PLock) { 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); } } } if (gs.Shadows && TEST(tu->Flags, SPR_SHADOW)) { DoShadows(tsp, viewz); } //#define UK_VERSION 1 //#define DART_REPEAT 6 //#define DART_PIC 2233 if (useDarts) if (tu->ID == 1793 || tsp->picnum == 1793) { tsp->picnum = 2519; tsp->xrepeat = 27; tsp->yrepeat = 29; } #define DART_PIC 2526 #define DART_REPEAT 16 if (tu->ID == STAR1) { if (useDarts) { 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; SWBOOL 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 (useDarts) 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); } } } if (OverlapDraw && FAF_ConnectArea(tsp->sectnum) && tsp->owner >= 0) { ConnectCopySprite(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 uspritetype * 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; uspritetype * tsp; USERp tu; for (tSpriteNum = spritesortcnt - 1; tSpriteNum >= 0; tSpriteNum--) { SpriteNum = tsprite[tSpriteNum].owner; if (SpriteNum < 0) continue; // JBF: verify this is safe tsp = &tsprite[tSpriteNum]; tu = User[SpriteNum]; if (tu) { if (tu->ID == FIREBALL_FLAMES && tu->Attach >= 0) { //uspritetype * const atsp = &sprite[tu->Attach]; uspritetype * 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 ResizeView(PLAYERp pp) { if (MenuInputMode || InputMode || HelpInputMode || ConPanel || ConInputMode || PauseKeySet) return; if (dimensionmode == 2 || dimensionmode == 5 || dimensionmode == 6) { if (PKEY_PRESSED(KEYSC_DASH)||PKEY_PRESSED(KEYSC_GMINUS)) { if ((zoom -= (zoom >> 4)) < 48) zoom = 48; } if (PKEY_PRESSED(KEYSC_EQUAL)||PKEY_PRESSED(KEYSC_GPLUS)) { if ((zoom += (zoom >> 4)) > 4096) zoom = 4096; } if (KEY_PRESSED(KEYSC_ESC)) { extern SWBOOL ScrollMode2D; KEY_PRESSED(KEYSC_ESC) = 0; dimensionmode = 3; ScrollMode2D = FALSE; SetRedrawScreen(pp); } } else { if (BUTTON(gamefunc_Shrink_Screen)) // && // !BUTTONHELD(gamefunc_SizeVi // ewDown)) { CONTROL_ClearButton(gamefunc_Shrink_Screen); SetBorder(pp, gs.BorderNum + 1); SetRedrawScreen(pp); } if (BUTTON(gamefunc_Enlarge_Screen)) // && // !BUTTONHELD(gamefunc_SizeViewUp)) { CONTROL_ClearButton(gamefunc_Enlarge_Screen); SetBorder(pp, gs.BorderNum - 1); SetRedrawScreen(pp); } } } // !JIM! 08/06 extern SWBOOL UsingMenus; #if 0 void ViewOutsidePlayerRecurse(PLAYERp pp, int32_t* vx, int32_t* vy, int32_t* vz, int16_t* ang, int16_t* vsectnum) { int nx, ny; int ret; *vx = pp->posx; *vy = pp->posy; *vz = pp->posz; *vsectnum = pp->cursectnum; *ang = pp->pang + pp->view_outside_dang; nx = sintable[NORM_ANGLE(*ang + 512 + 1024)] << 11; ny = sintable[NORM_ANGLE(*ang + 1024)] << 11; ret = clipmove_old(vx, vy, vz, vsectnum, nx, ny, 64L, 4 << 8, 4 << 8, CLIPMASK_PLAYER); switch (TEST(ret, HIT_MASK)) { case HIT_SPRITE: { short hit_sprite; SPRITEp sp; hit_sprite = NORM_SPRITE(ret); sp = &sprite[hit_sprite]; // if you hit a sprite that's not a wall sprite - try again if (!TEST(sp->cstat, CSTAT_SPRITE_ALIGNMENT_WALL)) { FLIP(sp->cstat, CSTAT_SPRITE_BLOCK); ViewOutsidePlayerRecurse(pp, vx, vy, vz, ang, vsectnum); FLIP(sp->cstat, CSTAT_SPRITE_BLOCK); } break; } } if (TEST(sector[*vsectnum].floorstat, FLOOR_STAT_SLOPE)|TEST(sector[*vsectnum].ceilingstat, CEILING_STAT_SLOPE)) { int cz, fz; getzsofslope(*vsectnum, *vx, *vy, &cz, &fz); if (*vz > fz - Z(12)) *vz = fz - Z(12); if (*vz < cz + Z(12)) *vz = cz + Z(12); } } #endif void BackView(int *nx, int *ny, int *nz, short *vsect, short *nang, short horiz) { vec3_t n = { *nx, *ny, *nz }; SPRITEp sp; hitdata_t hitinfo; int i, vx, vy, vz, hx, hy, hz; short bakcstat, daang; PLAYERp pp = &Player[screenpeek]; short ang; ASSERT(*vsect >= 0 && *vsect < MAXSECTORS); ang = *nang + 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 = (horiz - 100) * 256L; // 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, nang, horiz); 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 = (hx << 16) / vx; else i = (hy << 16) / 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); *nang = ang; } void CircleCamera(int *nx, int *ny, int *nz, short *vsect, short *nang, short horiz) { vec3_t n = { *nx, *ny, *nz }; SPRITEp sp; hitdata_t hitinfo; int i, vx, vy, vz, hx, hy, hz; short bakcstat, daang; PLAYERp pp = &Player[screenpeek]; short ang; ang = *nang + 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 = (horiz - 100) * 256; // 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, nang, horiz); hsp->cstat = flag_backup; return; } } if (klabs(vx) > klabs(vy)) i = (hx << 16) / vx; else i = (hy << 16) / 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) + ((vx * pp->circle_camera_dist) >> 16); *ny = (*ny) + ((vy * pp->circle_camera_dist) >> 16); *nz = (*nz) + ((vz * pp->circle_camera_dist) >> 16); // 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); *nang = ang; } void PrintLocationInfo(PLAYERp pp) { #define Y_STEP 7 #define AVERAGEFRAMES 16 int x = windowxy1.x+2; int y = windowxy1.y+2; static int frameval[AVERAGEFRAMES], framecnt = 0; int i; if (LocationInfo) { i = (int32_t) totalclock; if (i != frameval[framecnt]) { sprintf(buffer, "FPS: %d", ((120 * AVERAGEFRAMES) / (i - frameval[framecnt])) + f_c); printext256(x, y, 1, -1, buffer, 1); frameval[framecnt] = i; } framecnt = ((framecnt + 1) & (AVERAGEFRAMES - 1)); if (LocationInfo > 1) { y += Y_STEP; sprintf(buffer, "POSX:%d", pp->posx); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "POSY:%d", pp->posy); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "POSZ:%d", pp->posz); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "ANG:%d", (int32_t) pp->pang); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; } } } SWBOOL DebugSecret = FALSE; void SecretInfo(PLAYERp pp) { #define Y_STEP 7 #define AVERAGEFRAMES 16 int x = windowxy1.x+2; int y = windowxy1.y+2+8; extern short LevelSecrets,TotalKillable; if (CommEnabled || numplayers > 1) return; x = x / (xdim/320.0); y = y / (ydim/200.0); if (gs.Stats) { sprintf(ds, "Kills %d/%d", Player->Kills, TotalKillable); DisplayMiniBarSmString(pp, x, y, PAL_XLAT_BROWN, ds); sprintf(ds, "Secrets %d/%d", Player->SecretsFound, LevelSecrets); DisplayMiniBarSmString(pp, x, y+10, PAL_XLAT_BROWN, ds); } } void PrintSpriteInfo(PLAYERp pp) { #define 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 y += Y_STEP; if (hit_sprite == -1) { sprintf(buffer, "SPRITENUM: NONE TARGETED"); printext256(x, y, 1, -1, buffer, 1); return; } else sprintf(buffer, "SPRITENUM:%d", hit_sprite); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; if (u) { sprintf(buffer, "ID:%d", u->ID); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "PALETTE:%d", u->spal); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "HEALTH:%d", u->Health); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "WAITTICS:%d", u->WaitTics); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "COUNTER:%d", u->Counter); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "COUNTER2:%d", u->Counter); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; } if (SpriteInfo > 1) { sprintf(buffer, "POSX:%d", TrackerCast(sp->x)); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "POSY:%d", TrackerCast(sp->y)); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "POSZ:%d", TrackerCast(sp->z)); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; sprintf(buffer, "ANG:%d", TrackerCast(sp->ang)); printext256(x, y, 1, -1, buffer, 1); y += Y_STEP; } } } 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) { memcpy(&tsprite[spritesortcnt], sp, sizeof(SPRITE)); tsprite[spritesortcnt++].owner = i; } } } } } int COVERsetgamemode(int mode, int xdim, int ydim, int bpp) { ScreenHeight = ydim; ScreenWidth = xdim; ScreenMode = mode; ScreenBPP = bpp; // [JM] Should I be using upscalefactor here, or some SW equivalent to Duke's ud.detail? !CHECKME! return (int)videoSetGameMode(mode,xdim,ydim,bpp,upscalefactor); } void CheatResChange(void) { /* extern char permanentupdate; int i; // needs to be called from drawscreen - crashes otherwise //cycle through all vesa modes, then screen-buffer mode if (vidoption == 1) { for(i=0;i < validmodecnt;i++) { if ((validmodexdim[i] == xdim) && (validmodeydim[i] == ydim)) { if (i == validmodecnt-1) COVERsetgamemode(2,320L,200L); else COVERsetgamemode(1,validmodexdim[i+1],validmodeydim[i+1]); break; } } } else { if (validmodecnt > 0) COVERsetgamemode(1,validmodexdim[0],validmodeydim[0]); } permanentupdate = 0; SetupAspectRatio(); SetRedrawScreen(Player + myconnectindex); sprintf(ds,"%d x %d mode selected.", xdim, ydim); PutStringInfo(Player + myconnectindex, ds); */ PutStringInfo(Player + myconnectindex, "JonoF: Not now"); } #if 0 void ResChange(void) { extern char permanentupdate; int i; static short sw_res[5]; static short res_ndx=0; // clear pages before and after res set for good measure for (i = 0; i < numpages; i++) { clearview(0); nextpage(); } // needs to be called from drawscreen - crashes otherwise if (res_ndx == 0) { // choose resolutions for shadow warrior for (i=0; i < validmodecnt; i++) { if (validmodexdim[i] + validmodeydim[i] == 320 + 200) sw_res[res_ndx++] = i; else if (validmodexdim[i] + validmodeydim[i] == 640 + 400) sw_res[res_ndx++] = i; else if (validmodexdim[i] + validmodeydim[i] == 640 + 480) sw_res[res_ndx++] = i; else if (validmodexdim[i] + validmodeydim[i] == 800 + 600) sw_res[res_ndx++] = i; } } //cycle through all sw modes, then screen-buffer mode if (vidoption == 1) { for (i = 0; i < res_ndx; i++) { if ((validmodexdim[sw_res[i]] == xdim) && (validmodeydim[sw_res[i]] == ydim)) { if (i >= res_ndx-1) COVERsetgamemode(2, 320L, 200L); else COVERsetgamemode(1, validmodexdim[sw_res[i+1]], validmodeydim[sw_res[i+1]]); break; } } // if did not find current res then reset to 320x200 if (i >= res_ndx) COVERsetgamemode(2, 320L, 200L); } else { if (validmodecnt > 0) COVERsetgamemode(1, validmodexdim[0], validmodeydim[0]); } permanentupdate = 0; for (i = 0; i < numpages; i++) { clearview(0); nextpage(); } SetupAspectRatio(); SetRedrawScreen(Player + myconnectindex); sprintf(ds,"%d x %d mode selected.", xdim, ydim); PutStringInfo(Player + myconnectindex, ds); } #endif void ScreenCaptureKeys(void) { if (ConPanel) return; // screen capture if (KEY_PRESSED(KEYSC_F12)) { KEY_PRESSED(KEYSC_F12) = 0; PauseAction(); videoCaptureScreenTGA("swcpxxxx.tga", KEY_PRESSED(KEYSC_LSHIFT) | KEY_PRESSED(KEYSC_RSHIFT)); ResumeAction(); PutStringInfo(Player + myconnectindex, "Screen Captured"); } } void DrawCheckKeys(PLAYERp pp) { extern SWBOOL ResCheat; extern SWBOOL PauseKeySet; /* JonoF: Who really needs this now? if (KEY_PRESSED(KEYSC_F5) && !(KEY_PRESSED(KEYSC_RSHIFT) || KEY_PRESSED(KEYSC_LSHIFT) || KEY_PRESSED(KEYSC_ALT) || KEY_PRESSED(KEYSC_RALT)) && !PauseKeySet) { KEY_PRESSED(KEYSC_F5) = 0; ResChange(); } */ if (ResCheat) { ResCheat = FALSE; CheatResChange(); // allow all modes when cheating } if (ConPanel) return; if (!InputMode) ResizeView(pp); ScreenCaptureKeys(); } #if 0 void DrawMessageInput(PLAYERp pp) { short w,h; static SWBOOL cur_show; short c; // Used to make cursor fade in and out c = 4-(sintable[(totalclock<<4)&2047]>>11); if (MessageInputMode) { MNU_MeasureString(MessageInputString, &w, &h); cur_show ^= 1; if (cur_show) { MNU_DrawString(TEXT_XCENTER(w), MESSAGE_LINE, MessageInputString,1,ROTATE_SPRITE_SCREEN_CLIP); rotatesprite((TEXT_XCENTER(w)+w+7)<<16,(MESSAGE_LINE+3)<<16,64<<9,0,COINCURSOR+((totalclock>>3)%7),c,0, (ROTATE_SPRITE_SCREEN_CLIP),0,0,xdim-1,ydim-1); } else { MNU_DrawString(TEXT_XCENTER(w), MESSAGE_LINE, MessageInputString,1,ROTATE_SPRITE_SCREEN_CLIP); rotatesprite((TEXT_XCENTER(w)+w+7)<<16,(MESSAGE_LINE+3)<<16,64<<9,0,COINCURSOR+((totalclock>>3)%7),c,0, (ROTATE_SPRITE_SCREEN_CLIP),0,0,xdim-1,ydim-1); } } } #else void DrawMessageInput(PLAYERp pp) { short w,h; static SWBOOL cur_show; short c; // Used to make cursor fade in and out c = 4-(sintable[((int32_t) totalclock<<4)&2047]>>11); if (MessageInputMode) { MNU_MeasureSmallString(MessageInputString, &w, &h); cur_show ^= 1; if (cur_show) { minigametext(TEXT_XCENTER(w), MESSAGE_LINE, MessageInputString,0,ROTATE_SPRITE_SCREEN_CLIP); rotatesprite((TEXT_XCENTER(w)+w+2)<<16,(MESSAGE_LINE+1)<<16,20000,0,COINCURSOR+(((int32_t) totalclock>>3)%7),c,0,ROTATE_SPRITE_SCREEN_CLIP,0,0,xdim-1,ydim-1); } else { minigametext(TEXT_XCENTER(w), MESSAGE_LINE, MessageInputString,0,ROTATE_SPRITE_SCREEN_CLIP); rotatesprite((TEXT_XCENTER(w)+w+2)<<16,(MESSAGE_LINE+1)<<16,20000,0,COINCURSOR+(((int32_t) totalclock>>3)%7),c,0,ROTATE_SPRITE_SCREEN_CLIP,0,0,xdim-1,ydim-1); } } } #endif void DrawConInput(PLAYERp pp) { #define PANELINPUTX 30 #define PANELINPUTY 100 short w,h; static SWBOOL cur_show; short c; // Used to make cursor fade in and out c = 4-(sintable[((int32_t) totalclock<<4)&2047]>>11); if (ConInputMode) { MNU_MeasureSmallString(MessageInputString, &w, &h); cur_show ^= 1; if (cur_show) { MNU_DrawSmallString(PANELINPUTX, PANELINPUTY, MessageInputString,1,17); rotatesprite((PANELINPUTX+w+1)<<16,(PANELINPUTY)<<16,65536L,0,2992,c,0,ROTATE_SPRITE_SCREEN_CLIP,0,0,xdim-1,ydim-1); //rotatesprite((PANELINPUTX+w+3)<<16,(PANELINPUTY)<<16,64<<8,0,COINCURSOR+((totalclock>>3)%7),c,0,ROTATE_SPRITE_SCREEN_CLIP,0,0,xdim-1,ydim-1); } else { MNU_DrawSmallString(PANELINPUTX, PANELINPUTY, MessageInputString,1,17); rotatesprite((PANELINPUTX+w+1)<<16,(PANELINPUTY)<<16,65536L,0,2992,c,0,ROTATE_SPRITE_SCREEN_CLIP,0,0,xdim-1,ydim-1); //rotatesprite((PANELINPUTX+w+3)<<16,(PANELINPUTY)<<16,64<<8,0,COINCURSOR+((totalclock>>3)%7),c,0,ROTATE_SPRITE_SCREEN_CLIP,0,0,xdim-1,ydim-1); } } } void DrawCrosshair(PLAYERp pp) { extern int CrosshairX, CrosshairY; extern SWBOOL DemoMode,CameraTestMode; if (!gs.Crosshair) return; if (DemoMode || CameraTestMode) return; if (TEST(pp->Flags, PF_VIEW_FROM_OUTSIDE)) return; if (dimensionmode == 6) return; // wdx = 160; // wdy = 100; #if 0 if (gs.AutoAim) { int daz; short hit_sprite, daang; static int handle=-1; daz = pp->posz + pp->bob_z; daang = 32; if ((hit_sprite = WeaponAutoAimHitscan(pp->SpriteP, &daz, &daang, FALSE)) != -1) { SPRITEp hp = &sprite[hit_sprite]; USERp hu = User[hit_sprite]; vec2_t const zero = { 0, 0 }; // Find the delta coordinates from player to monster that is targeted vec2_t dxy = { hp->x - pp->posx, hp->y - pp->posy }; int dz = ((hp->z - (SPRITE_SIZE_Z(hit_sprite)/2)) - pp->posz) >> 4; rotatepoint(zero, dxy, (-pp->pang)&2047, &dxy); if (dxy.x == 0) return; wdx = windowxy1.x + ((windowxy2.x-windowxy1.x)/2); wdy = windowxy1.y + ((windowxy2.y-windowxy1.y)/2); x = (dxy.y * wdx << 8) / dxy.x + (wdx << 8); y = (dz * wdx << 8) / dxy.x + (wdy << 8); y -= 100; y += (pp->horiz*wdx)/160; if (pp->CurWpn == pp->Wpn[WPN_RAIL]) { if (!FX_SoundActive(handle)) handle = PlaySound(DIGI_RAILLOCKED, &pp->posx, &pp->posy, &pp->posz, v3df_follow|v3df_dontpan); } } else { // It didn't target anything. if (pp->CurWpn == pp->Wpn[WPN_RAIL]) { if (FX_SoundActive(handle)) FX_StopSound(handle); } goto NORMALXHAIR; } rotatesprite(x << 8, y << 8, (1 << 16), 0, 2326, 10, 0, ROTATE_SPRITE_VIEW_CLIP|ROTATE_SPRITE_CORNER, 0, 0, xdim - 1, ydim - 1); } else #endif { //NORMALXHAIR: rotatesprite(CrosshairX, CrosshairY, (1 << 16), 0, 2326, 10, 0, //ROTATE_SPRITE_VIEW_CLIP|ROTATE_SPRITE_CORNER, 0, 0, xdim - 1, ydim - 1); ROTATE_SPRITE_SCREEN_CLIP|ROTATE_SPRITE_CORNER, 0, 0, xdim - 1, ydim - 1); } //#define TITLE_ROT_FLAGS (ROTATE_SPRITE_CORNER|ROTATE_SPRITE_SCREEN_CLIP|ROTATE_SPRITE_NON_MASK) } void CameraView(PLAYERp pp, int *tx, int *ty, int *tz, short *tsectnum, short *tang, int *thoriz) { int i,nexti; short ang; SPRITEp sp; SWBOOL found_camera = FALSE; SWBOOL player_in_camera = FALSE; SWBOOL FAFcansee_test; SWBOOL 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 = GetDeltaAngle(sp->ang, 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, tang, 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 *thoriz = 100 - (zvect/256); *thoriz = max(*thoriz, PLAYER_HORIZ_MIN); *thoriz = min(*thoriz, PLAYER_HORIZ_MAX); //DSPRINTF(ds,"xvect %d,yvect %d,zvect %d,thoriz %d",xvect,yvect,zvect,*thoriz); MONO_PRINT(ds); *tang = 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; short sectnum,statnum; SPRITEp sp; 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; } #if DEBUG sp = &sprite[i]; statnum = sp->statnum; sectnum = sp->sectnum; memset(sp, 0xCC, sizeof(SPRITE)); sp->statnum = statnum; sp->sectnum = sectnum; #endif 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,np; USERp u,nu; short New; int smr4,smr2; int x,y,z; short ang; PLAYERp pp = Player + screenpeek; smr4 = smoothratio + (((int) MoveSkip4) << 16); smr2 = smoothratio + (((int) MoveSkip2) << 16); 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) { np = &sprite[New]; // 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, short ang, int horiz, 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); } } drawrooms(x,y,z,ang,horiz,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; SWBOOL PicInView(short, SWBOOL); void DoPlayerDiveMeter(PLAYERp pp); void drawscreen(PLAYERp pp) { extern SWBOOL DemoMode,CameraTestMode; int tx, ty, tz,thoriz,pp_siz; short tang,tsectnum; short i,j; walltype *wal; int tiltlock; int bob_amt = 0; int quake_z, quake_x, quake_y; short quake_ang; extern SWBOOL 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; if (HelpInputMode) { renderFlushPerms(); // note - could put Order Info Pages at the top like this also rotatesprite(0,0,65536L,0,HelpPagePic[HelpPage],0,0, (ROTATE_SPRITE_CORNER|ROTATE_SPRITE_SCREEN_CLIP|ROTATE_SPRITE_NON_MASK|ROTATE_SPRITE_IGNORE_START_MOST), 0, 0, xdim-1, ydim-1); videoNextPage(); return; } #if 0 if (TenScreenMode) { #define TEN_PIC 5109 flushperms(); // note - could put Order Info Pages at the top like this also rotatesprite(0,0,65536L,0,TEN_PIC,0,0, (ROTATE_SPRITE_CORNER|ROTATE_SPRITE_SCREEN_CLIP|ROTATE_SPRITE_NON_MASK|ROTATE_SPRITE_IGNORE_START_MOST), 0, 0, xdim-1, ydim-1); nextpage(); return; } #endif if (videoGetRenderMode() >= REND_POLYMOST) RedrawScreen = TRUE; DrawScreen = TRUE; PreDraw(); // part of new border refresh method if (RedrawScreen) { RedrawCompass = TRUE; RedrawScreen = FALSE; // get rid of all PERM sprites! renderFlushPerms(); // get rid of all PANF_KILL_AFTER_SHOW sprites! pFlushPerms(pp); SetBorder(pp,gs.BorderNum); } PreUpdatePanel(); smoothratio = min(max(((int32_t) totalclock - ototalclock) * (65536 / synctics),0),65536); if (!ScreenSavePic) { dointerpolations(smoothratio); // Stick at beginning of drawscreen short_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 + mulscale16(camerapp->posx - camerapp->oposx, smoothratio); ty = camerapp->oposy + mulscale16(camerapp->posy - camerapp->oposy, smoothratio); tz = camerapp->oposz + mulscale16(camerapp->posz - camerapp->oposz, smoothratio); tang = camerapp->oang + mulscale16(((camerapp->pang + 1024 - camerapp->oang) & 2047) - 1024, smoothratio); thoriz = camerapp->ohoriz + mulscale16(camerapp->horiz - camerapp->ohoriz, smoothratio); tsectnum = camerapp->cursectnum; //ASSERT(tsectnum >= 0 && tsectnum <= MAXSECTORS); // if updatesectorz is to sensitive try COVERupdatesector //updatesectorz(tx, ty, tz, &tsectnum); COVERupdatesector(tx, ty, &tsectnum); if (tsectnum < 0) { // if we hit an invalid sector move to the last valid position for drawing tsectnum = lv_sectnum; tx = lv_x; ty = lv_y; tz = lv_z; } else { // last valid stuff lv_sectnum = tsectnum; lv_x = tx; lv_y = ty; lv_z = tz; } // with "last valid" code this should never happen ASSERT(tsectnum >= 0 && tsectnum <= MAXSECTORS); pp->six = tx; pp->siy = ty; pp->siz = tz - pp->posz; pp_siz = tz; pp->siang = tang; if (pp->sop_riding || pp->sop_control) { tx = pp->posx; ty = pp->posy; tz = pp->posz; tang = pp->pang; tsectnum = pp->cursectnum; updatesectorz(tx, ty, tz, &tsectnum); pp->six = tx; pp->siy = ty; pp->siz = tz - pp->posz; pp->siang = tang; } 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; //thoriz = thoriz + quake_x; tang = NORM_ANGLE(tang + quake_ang); if (pp->sop_remote) { if (TEST_BOOL1(pp->remote_sprite)) tang = pp->remote_sprite->ang; else tang = getangle(pp->sop_remote->xmid - tx, pp->sop_remote->ymid - ty); } //if (TEST(camerapp->Flags, PF_VIEW_FROM_OUTSIDE)) if (TEST(pp->Flags, PF_VIEW_FROM_OUTSIDE)) { BackView(&tx, &ty, &tz, &tsectnum, &tang, thoriz); } else { bob_amt = camerapp->bob_amt; if (DemoMode || CameraTestMode) CameraView(camerapp, &tx, &ty, &tz, &tsectnum, &tang, &thoriz); } if (!TEST(pp->Flags, PF_VIEW_FROM_CAMERA|PF_VIEW_FROM_OUTSIDE)) { tz += bob_amt; tz += camerapp->bob_z; // recoil only when not in camera //thoriz = thoriz + camerapp->recoil_horizoff; thoriz = thoriz + pp->recoil_horizoff; thoriz = max(thoriz, PLAYER_HORIZ_MIN); thoriz = min(thoriz, PLAYER_HORIZ_MAX); } if (FAF_DebugView) videoClearViewableArea(255L); OverlapDraw = TRUE; DrawOverlapRoom(tx, ty, tz, tang, thoriz, tsectnum); OverlapDraw = FALSE; if (dimensionmode != 6 && !ScreenSavePic) { // TEST this! Changed to camerapp //JS_DrawMirrors(camerapp, tx, ty, tz, tang, thoriz); JS_DrawMirrors(pp, tx, ty, tz, tang, thoriz); } if (!FAF_DebugView) { FAF_DrawRooms(tx, ty, tz, tang, thoriz, tsectnum); PicInView(FAF_MIRROR_PIC, FALSE); } analyzesprites(tx, ty, tz, FALSE); post_analyzesprites(); renderDrawMasks(); UpdatePanel(); #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 i = pp->cursectnum; show2dsector[i>>3] |= (1<<(i&7)); wal = &wall[sector[i].wallptr]; for (j=sector[i].wallnum; j>0; j--,wal++) { i = wal->nextsector; if (i < 0) continue; if (wal->cstat&0x0071) continue; if (wall[wal->nextwall].cstat&0x0071) continue; if (sector[i].lotag == 32767) continue; if (sector[i].ceilingz >= sector[i].floorz) continue; show2dsector[i>>3] |= (1<<(i&7)); } if ((dimensionmode == 5 || dimensionmode == 6) && pp == Player+myconnectindex) { void MoveScrollMode2D(PLAYERp pp); extern SWBOOL ScrollMode2D; if (ScrollMode2D) { tx = Follow_posx; ty = Follow_posy; } 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; } } } if (dimensionmode == 6) { videoClearViewableArea(0L); renderDrawMapView(tx, ty, zoom, tang); } // Draw the line map on top of texture 2d map or just stand alone drawoverheadmap(tx, ty, zoom, tang); } 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); } // if doing a screen save don't need to process the rest if (ScreenSavePic) { DrawScreen = FALSE; return; } PrintLocationInfo(pp); PrintSpriteInfo(pp); #if SYNC_TEST SyncStatMessage(); #endif DrawCrosshair(pp); operatefta(); // Draw all the user quotes in the quote array operateconfta(); // Draw messages in the console DoPlayerDiveMeter(pp); // Do the underwater breathing bar // Boss Health Meter, if Boss present BossHealthMeter(); if (ConInputMode) { DrawConInput(pp); // Console panel input mode } else DrawMessageInput(pp); // This is only used for non-multiplayer input now DrawCompass(pp); UpdateMiniBar(pp); if (UsingMenus) MNU_DrawMenu(); else SecretInfo(pp); videoNextPage(); #if SYNC_TEST SyncStatMessage(); #endif // certain input is done here - probably shouldn't be DrawCheckKeys(pp); restoreinterpolations(); // Stick at end of drawscreen short_restoreinterpolations(); // Stick at end of drawscreen PostDraw(); DrawScreen = FALSE; } void DrawCompass(PLAYERp pp) { #define COMPASS_TIC 2380 #define COMPASS_TIC2 2381 #define COMPASS_NORTH 2382 #define COMPASS_NORTH2 2383 #define COMPASS_SOUTH 2384 #define COMPASS_SOUTH2 2385 #define COMPASS_EAST 2386 #define COMPASS_EAST2 2387 #define COMPASS_WEST 2388 #define COMPASS_WEST2 2389 #define COMPASS_MID_TIC 2390 #define COMPASS_MID_TIC2 2391 #define COMPASS_X 140 #define COMPASS_Y (162-5) #define NORM_CANG(ang) (((ang) + 32) & 31) short start_ang,ang; short x_size = tilesiz[COMPASS_NORTH].x; short x; short i; int flags; PANEL_SPRITEp psp; static short CompassPic[32] = { COMPASS_EAST, COMPASS_EAST2, COMPASS_TIC, COMPASS_TIC2, COMPASS_MID_TIC, COMPASS_MID_TIC2, COMPASS_TIC, COMPASS_TIC2, COMPASS_SOUTH, COMPASS_SOUTH2, COMPASS_TIC, COMPASS_TIC2, COMPASS_MID_TIC, COMPASS_MID_TIC2, COMPASS_TIC, COMPASS_TIC2, COMPASS_WEST, COMPASS_WEST2, COMPASS_TIC, COMPASS_TIC2, COMPASS_MID_TIC, COMPASS_MID_TIC2, COMPASS_TIC, COMPASS_TIC2, COMPASS_NORTH, COMPASS_NORTH2, COMPASS_TIC, COMPASS_TIC2, COMPASS_MID_TIC, COMPASS_MID_TIC2, COMPASS_TIC, COMPASS_TIC2, }; static short CompassShade[10] = { //20, 16, 11, 6, 1, 1, 6, 11, 16, 20 25, 19, 15, 9, 1, 1, 9, 15, 19, 25 }; extern SWBOOL PanelUpdateMode; if (!PanelUpdateMode) return; if (gs.BorderNum < BORDER_BAR || pp - Player != screenpeek) return; ang = pp->pang; if (pp->sop_remote) ang = 0; start_ang = (ang + 32) >> 6; start_ang = NORM_CANG(start_ang - 4); flags = ROTATE_SPRITE_SCREEN_CLIP | ROTATE_SPRITE_CORNER; if (RedrawCompass) { RedrawCompass = FALSE; SET(flags, ROTATE_SPRITE_ALL_PAGES); } for (i = 0, x = COMPASS_X; i < 10; i++) { rotatesprite(x << 16, COMPASS_Y << 16, (1 << 16), 0, CompassPic[NORM_CANG(start_ang + i)], CompassShade[i], 0, flags, 0, 0, xdim - 1, ydim - 1); x += x_size; } } void ScreenTileLock(void) { } void ScreenTileUnLock(void) { } int ScreenLoadSaveSetup(PLAYERp pp) { int tx, ty, tz,thoriz,pp_siz; short tang,tsectnum; short i; // lock and allocate memory ScreenTileLock(); TileFiles.tileCreate(SAVE_SCREEN_TILE, SAVE_SCREEN_XSIZE, SAVE_SCREEN_YSIZE); return SAVE_SCREEN_TILE; } int ScreenSaveSetup(PLAYERp pp) { short i; ScreenLoadSaveSetup(Player + myconnectindex); renderSetTarget(SAVE_SCREEN_TILE, SAVE_SCREEN_YSIZE, SAVE_SCREEN_XSIZE); ScreenSavePic = TRUE; drawscreen(Player + myconnectindex); ScreenSavePic = FALSE; renderRestoreTarget(); return SAVE_SCREEN_TILE; } END_SW_NS