//------------------------------------------------------------------------- /* Copyright (C) 1996, 2003 - 3D Realms Entertainment Copyright (C) 2004, 2007 - EDuke32 developers This file is part of EDuke32 EDuke32 is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ //------------------------------------------------------------------------- #include "compat.h" #include "build.h" #include "editor.h" #include "pragmas.h" #include "baselayer.h" #include "names.h" #include "osd.h" #include "osdfuncs.h" #include "cache1d.h" #include "mapster32.h" #include "keys.h" #include "types.h" #include "keyboard.h" #include "scriptfile.h" #include "crc32.h" #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #include #include #endif #define BUILDDATE " 20090227" #define VERSION " 1.2.0devel" static int32_t floor_over_floor; // static char *startwin_labeltext = "Starting Mapster32..."; static char setupfilename[BMAX_PATH]= "mapster32.cfg"; static char defaultduke3dgrp[BMAX_PATH] = "duke3d.grp"; static char *duke3dgrp = defaultduke3dgrp; static int32_t fixmapbeforesaving = 1; static int32_t lastsave = -180*60; static int32_t NoAutoLoad = 0; int32_t spnoclip=1; #if !defined(_WIN32) static int32_t usecwd = 0; #endif static struct strllist { struct strllist *next; char *str; } *CommandPaths = NULL, *CommandGrps = NULL; #define MAXHELP2D (int32_t)(sizeof(Help2d)/sizeof(Help2d[0])) #define eitherALT (keystatus[KEYSC_LALT]| keystatus[KEYSC_RALT]) #define eitherCTRL (keystatus[KEYSC_LCTRL]| keystatus[KEYSC_RCTRL]) #define eitherSHIFT (keystatus[KEYSC_LSHIFT]|keystatus[KEYSC_RSHIFT]) static char *Help2d[]= { " 'A = Autosave toggle", " 'J = Jump to location", " 'L = Adjust sprite/wall coords", " 'S = Sprite size", " '3 = Caption mode", " '7 = Swap tags", " 'F = Special functions", " X = Horiz. flip selected sects", " Y = Vert. flip selected sects", " F5 = Item count", " F6 = Actor count/SE help", " F7 = Edit sector", " F8 = Edit wall/sprite", " F9 = Sector tag help", " Ctrl-S = Quick save", " Alt-F7 = Search sector lotag", " Alt-F8 = Search wall/sprite tags", " [ = Search forward", " ] = Search backward", }; static char *SpriteMode[]= { "NONE", "SECTORS", "WALLS", "SPRITES", "ALL", "ITEMS ONLY", "CURRENT SPRITE ONLY", "ONLY SECTOREFFECTORS AND SECTORS", "NO SECTOREFFECTORS OR SECTORS" }; #define MAXSKILL 5 static char *SKILLMODE[MAXSKILL]= { "Actor skill display: PIECE OF CAKE", "Actor skill display: LET'S ROCK", "Actor skill display: COME GET SOME", "Actor skill display: DAMN I'M GOOD", "Actor skill display: ALL SKILL LEVELS" }; #define MAXNOSPRITES 4 static char *SPRDSPMODE[MAXNOSPRITES]= { "Sprite display: DISPLAY ALL SPRITES", "Sprite display: NO EFFECTORS", "Sprite display: NO ACTORS", "Sprite display: NO EFFECTORS OR ACTORS" }; #define MAXHELP3D (int32_t)(sizeof(Help3d)/sizeof(Help3d[0])) static char *Help3d[]= { "Mapster32 3D mode help", " ", " F1 = TOGGLE THIS HELP DISPLAY", " F2 = TOGGLE CLIPBOARD", " F3 = MOUSELOOK", " F6 = AUTOMATIC SECTOREFFECTOR HELP", " F7 = AUTOMATIC SECTOR TAG HELP", "", " ' A = TOGGLE AUTOSAVE", " ' D = CYCLE SPRITE SKILL DISPLAY", " ' R = TOGGLE FRAMERATE DISPLAY", " ' W = TOGGLE SPRITE DISPLAY", " ' X = MAP SHADE PREVIEW", " ' Y = TOGGLE PURPLE BACKGROUND", "", " ' T = CHANGE LOTAG", " ' H = CHANGE HITAG", " ' S = CHANGE SHADE", " ' M = CHANGE EXTRA", " ' V = CHANGE VISIBILITY", " ' L = CHANGE OBJECT COORDINATES", " ' C = CHANGE GLOBAL SHADE", "", " ' ENTER = PASTE GRAPHIC ONLY", " ' P & ; P = PASTE PALETTE TO ALL SELECTED SECTORS", " ; V = SET VISIBILITY ON ALL SELECTED SECTORS", " ' DEL = CSTAT=0", " CTRL-S = SAVE BOARD", " HOME = PGUP/PGDN MODIFIER (256 UNITS)", " END = PGUP/PGDN MODIFIER (512 UNITS)", }; static char *type2str[]={"Wall","Sector","Sector","Sprite","Wall"}; static CACHE1D_FIND_REC *finddirs=NULL, *findfiles=NULL, *finddirshigh=NULL, *findfileshigh=NULL; static int32_t numdirs=0, numfiles=0; static int32_t currentlist=0; static int32_t mouseaction=0, mouseax=0, mouseay=0; static int32_t repeatcountx, repeatcounty; static int32_t infobox=3; // bit0: current window, bit1: mouse pointer, the variable should be renamed extern char mskip; extern int16_t capturecount; extern int32_t editorgridextent; // in engine.c extern char game_executable[BMAX_PATH]; extern int32_t fillsector(int16_t sectnum, char fillcolor); static void clearfilenames(void) { klistfree(finddirs); klistfree(findfiles); finddirs = findfiles = NULL; numfiles = numdirs = 0; } static int32_t getfilenames(const char *path, char kind[]) { CACHE1D_FIND_REC *r; clearfilenames(); finddirs = klistpath(path,"*",CACHE1D_FIND_DIR); findfiles = klistpath(path,kind,CACHE1D_FIND_FILE); for (r = finddirs; r; r=r->next) numdirs++; for (r = findfiles; r; r=r->next) numfiles++; finddirshigh = finddirs; findfileshigh = findfiles; currentlist = 0; if (findfileshigh) currentlist = 1; return(0); } void ExtLoadMap(const char *mapname) { int32_t i; int32_t sky=0; int32_t j; getmessageleng = 0; getmessagetimeoff = 0; // PreCache Wall Tiles /* for(j=0;j=0; j--) { /* if (tilesizx[sprite[j].picnum]==0 || tilesizy[sprite[j].picnum]==0) sprite[j].picnum=0; */ if (sprite[j].picnum>=20 && sprite[j].picnum<=59) { if (sprite[j].picnum==26) { sprite[j].xrepeat = 8; sprite[j].yrepeat = 8; } else { sprite[j].xrepeat = 32; sprite[j].yrepeat = 32; } } } Bstrcpy(levelname,mapname); pskyoff[0]=0; for (i=0; i<8; i++) pskyoff[i]=0; for (i=0; i= MAX_TILE_GROUPS || s_TileGroups[group].szText == NULL) { // group isn't valid. return 0; } for (temp = 0; temp < s_TileGroups[group].nIds; temp++) { if (tilenum == s_TileGroups[group].pIds[temp]) { return 1; } } return 0; } const char *ExtGetSectorType(int32_t lotag) { static char tempbuf[64]; Bmemset(tempbuf,0,sizeof(tempbuf)); switch (lotag) { case 1: Bsprintf(tempbuf,"WATER (SE 7)"); break; case 2: Bsprintf(tempbuf,"UNDERWATER (SE 7)"); break; case 9: Bsprintf(tempbuf,"STAR TREK DOORS"); break; case 15: Bsprintf(tempbuf,"ELEVATOR TRANSPORT (SE 17)"); break; case 16: Bsprintf(tempbuf,"ELEVATOR PLATFORM DOWN"); break; case 17: Bsprintf(tempbuf,"ELEVATOR PLATFORM UP"); break; case 18: Bsprintf(tempbuf,"ELEVATOR DOWN"); break; case 19: Bsprintf(tempbuf,"ELEVATOR UP"); break; case 20: Bsprintf(tempbuf,"CEILING DOOR"); break; case 21: Bsprintf(tempbuf,"FLOOR DOOR"); break; case 22: Bsprintf(tempbuf,"SPLIT DOOR"); break; case 23: Bsprintf(tempbuf,"SWING DOOR (SE 11)"); break; case 25: Bsprintf(tempbuf,"SLIDE DOOR (SE 15)"); break; case 26: Bsprintf(tempbuf,"SPLIT STAR TREK DOOR"); break; case 27: Bsprintf(tempbuf,"BRIDGE (SE 20)"); break; case 28: Bsprintf(tempbuf,"DROP FLOOR (SE 21)"); break; case 29: Bsprintf(tempbuf,"TEETH DOOR (SE 22)"); break; case 30: Bsprintf(tempbuf,"ROTATE RISE BRIDGE"); break; case 31: Bsprintf(tempbuf,"2 WAY TRAIN (SE=30)"); break; case 32767: Bsprintf(tempbuf,"SECRET ROOM"); break; case -1: Bsprintf(tempbuf,"END OF LEVEL"); break; default : if (lotag > 10000 && lotag < 32767) Bsprintf(tempbuf,"1 TIME SOUND"); // else Bsprintf(tempbuf,"%hu",lotag); break; } return(tempbuf); } const char *ExtGetSectorCaption(int16_t sectnum) { static char tempbuf[64]; Bmemset(tempbuf,0,sizeof(tempbuf)); if (qsetmode != 200 && (!(onnames==1 || onnames==4 || onnames==7) || (onnames==8))) { tempbuf[0] = 0; return(tempbuf); } if (qsetmode != 200 && (sector[sectnum].lotag|sector[sectnum].hitag) == 0) { tempbuf[0] = 0; } else { Bstrcpy(lo,ExtGetSectorType(sector[sectnum].lotag)); if (qsetmode != 200) Bsprintf(tempbuf,"%hu,%hu %s",sector[sectnum].hitag,sector[sectnum].lotag,lo); else Bsprintf(tempbuf,"%hu %s",sector[sectnum].lotag,lo); } return(tempbuf); } const char *ExtGetWallCaption(int16_t wallnum) { static char tempbuf[64]; Bmemset(tempbuf,0,sizeof(tempbuf)); if (wall[wallnum].cstat & (1<<14)) { int32_t dax = wall[wallnum].x-wall[wall[wallnum].point2].x; int32_t day = wall[wallnum].y-wall[wall[wallnum].point2].y; int32_t dist = ksqrt(dax*dax+day*day); Bsprintf(tempbuf,"%d",dist); wall[wallnum].cstat &= ~(1<<14); return(tempbuf); } if (!(onnames==2 || onnames==4)) { tempbuf[0] = 0; return(tempbuf); } // HERE if ((wall[wallnum].lotag|wall[wallnum].hitag) == 0) { tempbuf[0] = 0; } else { Bsprintf(tempbuf,"%hu,%hu",wall[wallnum].hitag,wall[wallnum].lotag); } return(tempbuf); } //end const char *SectorEffectorTagText(int32_t lotag) { static char tempbuf[64]; Bmemset(tempbuf,0,sizeof(tempbuf)); switch (lotag) { case 0: Bsprintf(tempbuf,"%d: ROTATED SECTOR",lotag); break; case 1: Bsprintf(tempbuf,"%d: PIVOT SPRITE FOR SE 0",lotag); break; case 2: Bsprintf(tempbuf,"%d: EARTHQUAKE",lotag); break; case 3: Bsprintf(tempbuf,"%d: RANDOM LIGHTS AFTER SHOT OUT",lotag); break; case 4: Bsprintf(tempbuf,"%d: RANDOM LIGHTS",lotag); break; case 6: Bsprintf(tempbuf,"%d: SUBWAY",lotag); break; case 7: Bsprintf(tempbuf,"%d: TRANSPORT",lotag); break; case 8: Bsprintf(tempbuf,"%d: UP OPEN DOOR LIGHTS",lotag); break; case 9: Bsprintf(tempbuf,"%d: DOWN OPEN DOOR LIGHTS",lotag); break; case 10: Bsprintf(tempbuf,"%d: DOOR AUTO CLOSE (H=DELAY)",lotag); break; case 11: Bsprintf(tempbuf,"%d: ROTATE SECTOR DOOR",lotag); break; case 12: Bsprintf(tempbuf,"%d: LIGHT SWITCH",lotag); break; case 13: Bsprintf(tempbuf,"%d: EXPLOSIVE",lotag); break; case 14: Bsprintf(tempbuf,"%d: SUBWAY CAR",lotag); break; case 15: Bsprintf(tempbuf,"%d: SLIDE DOOR (ST 25)",lotag); break; case 16: Bsprintf(tempbuf,"%d: ROTATE REACTOR SECTOR",lotag); break; case 17: Bsprintf(tempbuf,"%d: ELEVATOR TRANSPORT (ST 15)",lotag); break; case 18: Bsprintf(tempbuf,"%d: INCREMENTAL SECTOR RISE/FALL",lotag); break; case 19: Bsprintf(tempbuf,"%d: CEILING FALL ON EXPLOSION",lotag); break; case 20: Bsprintf(tempbuf,"%d: BRIDGE (ST 27)",lotag); break; case 21: Bsprintf(tempbuf,"%d: DROP FLOOR (ST 28)",lotag); break; case 22: Bsprintf(tempbuf,"%d: TEETH DOOR (ST 29)",lotag); break; case 23: Bsprintf(tempbuf,"%d: 1-WAY SE7 DESTINATION (H=SE 7)",lotag); break; case 24: Bsprintf(tempbuf,"%d: CONVAYER BELT",lotag); break; case 25: Bsprintf(tempbuf,"%d: ENGINE",lotag); break; case 28: Bsprintf(tempbuf,"%d: LIGHTNING (H= TILE#4890)",lotag); break; case 27: Bsprintf(tempbuf,"%d: CAMERA FOR PLAYBACK",lotag); break; case 29: Bsprintf(tempbuf,"%d: FLOAT",lotag); break; case 30: Bsprintf(tempbuf,"%d: 2 WAY TRAIN (ST=31)",lotag); break; case 31: Bsprintf(tempbuf,"%d: FLOOR RISE",lotag); break; case 32: Bsprintf(tempbuf,"%d: CEILING FALL",lotag); break; case 33: Bsprintf(tempbuf,"%d: SPAWN JIB W/QUAKE",lotag); break; case 36: Bsprintf(tempbuf,"%d: SKRINK RAY SHOOTER",lotag); break; default: Bsprintf(tempbuf,"%d: (UNKNOWN)",lotag); break; } return (tempbuf); } const char *SectorEffectorText(int32_t spritenum) { static char tempbuf[64]; Bmemset(tempbuf,0,sizeof(tempbuf)); Bmemset(lo,0,sizeof(lo)); Bstrcpy(lo,SectorEffectorTagText(sprite[spritenum].lotag)); if (!lo[5]) // tags are 5 chars or less SpriteName(spritenum,tempbuf); else Bsprintf(tempbuf,"SE %s",lo); return (tempbuf); } const char *ExtGetSpriteCaption(int16_t spritenum) { static char tempbuf[1024]; Bmemset(tempbuf,0,sizeof(tempbuf)); if ((onnames!=5 && onnames!=6 &&(!(onnames==3 || onnames==4 || onnames==7 || onnames==8))) || (onnames==7 && sprite[spritenum].picnum!=1)) { tempbuf[0] = 0; return(tempbuf); } if (onnames==5) { if (!tileInGroup(tilegroupItems, sprite[spritenum].picnum)) { tempbuf[0] = 0; return(tempbuf); } } if (onnames==6 && sprite[spritenum].picnum != sprite[cursprite].picnum) { tempbuf[0] = 0; return(tempbuf); } tempbuf[0] = 0; if ((sprite[spritenum].lotag|sprite[spritenum].hitag) == 0) { SpriteName(spritenum,lo); if (lo[0]!=0) { if (sprite[spritenum].pal==1) Bsprintf(tempbuf,"%s (MULTIPLAYER)",lo); else Bsprintf(tempbuf,"%s",lo); } } else if (sprite[spritenum].picnum==SECTOREFFECTOR) { if (onnames==8) tempbuf[0] = 0; else { Bsprintf(lo,"%s",SectorEffectorText(spritenum)); Bsprintf(tempbuf,"%s, %hu",lo,sprite[spritenum].hitag); } } else { SpriteName(spritenum,lo); if (sprite[spritenum].extra != -1) Bsprintf(tempbuf,"%hu,%hu,%d %s",sprite[spritenum].hitag,sprite[spritenum].lotag,sprite[spritenum].extra,lo); else Bsprintf(tempbuf,"%hu,%hu %s",sprite[spritenum].hitag,sprite[spritenum].lotag,lo); } return(tempbuf); } //end //printext16 parameters: //printext16(int32_t xpos, int32_t ypos, int16_t col, int16_t backcol, // char name[82], char fontsize) // xpos 0-639 (top left) // ypos 0-479 (top left) // col 0-15 // backcol 0-15, -1 is transparent background // name // fontsize 0=8*8, 1=3*5 //drawline16 parameters: // drawline16(int32_t x1, int32_t y1, int32_t x2, int32_t y2, char col) // x1, x2 0-639 // y1, y2 0-143 (status bar is 144 high, origin is top-left of STATUS BAR) // col 0-15 void ExtShowSectorData(int16_t sectnum) //F5 { int16_t statnum=0; int32_t x,x2,y; int32_t i; int32_t secrets=0; int32_t totalactors1=0,totalactors2=0,totalactors3=0,totalactors4=0; int32_t totalrespawn=0; UNREFERENCED_PARAMETER(sectnum); if (qsetmode==200) return; for (i=0; ixmax) xmax=x; } tempbuf[x]=0; printext16(xx*4,ydim16+(y*6)+2,editorcolors[11],-1,tempbuf,1); x=0; y++; if (y>18) { col++; y=6; xx+=xmax; xmax=0; } } enddrawing(); kclose(fp); }// end Show2dText // PK_ vvvv typedef struct helppage_ { int32_t numlines; char line[][80]; // C99 flexible array member } helppage_t; helppage_t **helppage=NULL; int32_t numhelppages=0; static int32_t emptyline(const char *start) { int32_t i; for (i=0; i<80; i++) { if (start[i]=='\n' || !start[i]) break; if (start[i]!=' ' && start[i]!='\t' && start[i]!='\r') return 0; } return 1; } static int32_t newpage(const char *start) { int32_t i; for (i=80-1; i>=0; i--) { if (start[i] == '^' && start[i+1] == 'P') return 1; } return 0; } #define IHELP_INITPAGES 32 #define IHELP_INITLINES 16 static void ReadHelpFile(const char *name) { BFILE *fp; int32_t i, j, k, numallocpages; int32_t pos, charsread=0; helppage_t *hp; char skip=0; initprintf("Loading \"%s\"\n",name); if ((fp=fopenfrompath(name,"rb")) == NULL) { initprintf("Error initializing integrated help: file \"%s\" not found.\n", name); return; } helppage=malloc(IHELP_INITPAGES * sizeof(helppage_t *)); numallocpages=IHELP_INITPAGES; if (!helppage) goto HELPFILE_ERROR; i=0; while (!Bfeof(fp) && !ferror(fp)) { while (!Bfeof(fp)) // skip empty lines { pos = ftell(fp); if (Bfgets(tempbuf, 80, fp) == NULL) break; charsread = ftell(fp)-pos; if (!newpage(tempbuf)) { break; } } if (Bfeof(fp) || charsread<=0) break; hp=Bcalloc(1,sizeof(helppage_t) + IHELP_INITLINES*80); if (!hp) goto HELPFILE_ERROR; hp->numlines = IHELP_INITLINES; if (charsread == 79 && tempbuf[78]!='\n') skip=1; j=0; do { if (j >= hp->numlines) { hp=realloc(hp, sizeof(helppage_t) + 2*hp->numlines*80); if (!hp) goto HELPFILE_ERROR; hp->numlines *= 2; } // limit the line length to 78 chars and probably get rid of the CR if (charsread>0) { tempbuf[charsread-1]=0; if (tempbuf[charsread-2]==0x0d) tempbuf[charsread-2]=0; } memcpy(hp->line[j], tempbuf, 80); for (k=charsread; k<80; k++) hp->line[j][k]=0; if (skip) { while (fgetc(fp)!='\n' && !Bfeof(fp)) /*skip rest of line*/; skip=0; } pos = ftell(fp); if (Bfgets(tempbuf, 80, fp) == NULL) break; charsread = ftell(fp)-pos; if (charsread == 79 && tempbuf[78]!='\n') skip=1; j++; } while (!newpage(tempbuf) && !Bfeof(fp) && charsread>0); hp=realloc(hp, sizeof(helppage_t) + j*80); if (!hp) goto HELPFILE_ERROR; hp->numlines=j; if (i >= numallocpages) { helppage = realloc(helppage, 2*numallocpages*sizeof(helppage_t *)); numallocpages *= 2; if (!helppage) goto HELPFILE_ERROR; } helppage[i] = hp; i++; } helppage = realloc(helppage, i*sizeof(helppage_t *)); if (!helppage) goto HELPFILE_ERROR; numhelppages = i; Bfclose(fp); return; HELPFILE_ERROR: Bfclose(fp); initprintf("ReadHelpFile(): ERROR allocating memory.\n"); return; } // why can't MSVC allocate an array of variable size?! #define IHELP_NUMDISPLINES 42 // ((overridepm16y>>4)+(overridepm16y>>5)+(overridepm16y>>7)-2) #define IHELP_PATLEN 45 extern int32_t overridepm16y; // influences printmessage16() and clearmidstatbar16() static void IntegratedHelp() { if (!helppage) return; overridepm16y = 3*STATUS2DSIZ; { int32_t i, j; static int32_t curhp=0, curline=0; int32_t highlighthp=-1, highlightline=-1, lasthighlighttime=0; char disptext[IHELP_NUMDISPLINES][80]; char oldpattern[IHELP_PATLEN+1]; begindrawing(); clearbuf((char *)(frameplace + (ydim-overridepm16y)*bytesperline), (bytesperline*(overridepm16y-25)) >> 2, 0L); drawline16(0,ydim-overridepm16y,xdim-1,ydim-overridepm16y,editorcolors[1]); Bsprintf(tempbuf, "Mapster32 Help Mode"); printext16(9L,ydim2d-overridepm16y+9L,editorcolors[4],-1,tempbuf,0); printext16(8L,ydim2d-overridepm16y+8L,editorcolors[12],-1,tempbuf,0); enddrawing(); memset(oldpattern, 0, sizeof(char)); // clearmidstatbar16(); while (keystatus[KEYSC_ESC]==0 && keystatus[KEYSC_Q]==0 && keystatus[KEYSC_F1]==0) { if (handleevents()) { if (quitevent) quitevent = 0; } idle(); // printmessage16("Help mode, press to exit"); if (keystatus[KEYSC_T]) // goto table of contents { keystatus[KEYSC_T]=0; curhp=0; curline=0; } else if (keystatus[KEYSC_G]) // goto arbitrary page { keystatus[KEYSC_G]=0; Bsprintf(tempbuf, "Goto page: "); curhp=getnumber16(tempbuf, 0, numhelppages-1, 0); curline=0; } else if (keystatus[KEYSC_UP]) // scroll up { keystatus[KEYSC_UP]=0; if (curline>0) curline--; } else if (keystatus[KEYSC_DOWN]) // scroll down { keystatus[KEYSC_DOWN]=0; if (curline+IHELP_NUMDISPLINES < helppage[curhp]->numlines) curline++; } else if (keystatus[KEYSC_PGUP]) // scroll one page up { keystatus[KEYSC_PGUP]=0; i=IHELP_NUMDISPLINES; while (i>0 && curline>0) i--, curline--; } else if (keystatus[KEYSC_PGDN]) // scroll one page down { keystatus[KEYSC_PGDN]=0; i=IHELP_NUMDISPLINES; while (i>0 && curline+IHELP_NUMDISPLINES < helppage[curhp]->numlines) i--, curline++; } else if (keystatus[KEYSC_SPACE]) // goto next paragraph { keystatus[KEYSC_SPACE]=0; for (i=curline, j=0; i < helppage[curhp]->numlines; i++) { if (emptyline(helppage[curhp]->line[i])) { j=1; continue; } if (j==1 && !emptyline(helppage[curhp]->line[i])) { j=2; break; } } if (j==2) { if (i+IHELP_NUMDISPLINES < helppage[curhp]->numlines) curline=i; else if (helppage[curhp]->numlines-IHELP_NUMDISPLINES > curline) curline = helppage[curhp]->numlines-IHELP_NUMDISPLINES; } } else if (keystatus[KEYSC_BS]) // goto prev paragraph { keystatus[KEYSC_BS]=0; for (i=curline-1, j=0; i>=0; i--) { if (!emptyline(helppage[curhp]->line[i])) { j=1; continue; } if (j==1 && emptyline(helppage[curhp]->line[i])) { j=2; break; } } if (j==2 || i==-1) curline=i+1; } else if (keystatus[KEYSC_HOME]) // goto beginning of page { keystatus[KEYSC_HOME]=0; curline=0; } else if (keystatus[KEYSC_END]) // goto end of page { keystatus[KEYSC_END]=0; if ((curline=helppage[curhp]->numlines-IHELP_NUMDISPLINES) >= 0) /**/; else curline=0; } else if (keystatus[KEYSC_LEFT] || keystatus[KEYSC_LBRACK]) // prev page { keystatus[KEYSC_LEFT] = keystatus[KEYSC_LBRACK] = 0; if (curhp>0) { curhp--; curline=0; } } else if (keystatus[KEYSC_RIGHT] || keystatus[KEYSC_RBRACK]) // next page { keystatus[KEYSC_RIGHT] = keystatus[KEYSC_RBRACK] = 0; if (curhp 0) { if (i > 0 && (ch == 8 || ch == 127)) { i--; pattern[i] = 0; } else if (i < IHELP_PATLEN && ch >= 32 && ch < 128) { pattern[i++] = ch; pattern[i] = 0; } } } if (bad==1) { keystatus[KEYSC_ESC] = keystatus[KEYSC_Q] = keystatus[KEYSC_F1] = 0; } if (bad==2) { keystatus[KEYSC_ENTER] = 0; for (i=curhp; inumlines; j++) { // entering an empty pattern will search with the last used pattern if (strstr(helppage[i]->line[j], pattern[0]?pattern:oldpattern)) { curhp = i; if ((curline=j) <= helppage[i]->numlines-IHELP_NUMDISPLINES) /**/; else if ((curline=helppage[i]->numlines-IHELP_NUMDISPLINES) >= 0) /**/; else curline=0; highlighthp = i; highlightline = j; lasthighlighttime = totalclock; goto ENDFOR1; } } } ENDFOR1: if (pattern[0]) memcpy(oldpattern, pattern, IHELP_PATLEN+1); } } else // '1'-'0' on the upper row { for (i=2; i<=11; i++) if (keystatus[i]) break; if (i--<12 && inumlines) { printmessage16(helppage[0]->line[curhp]); } else { for (i=Bsprintf(tempbuf, "%d. (Untitled page)", curhp); i<80; i++) tempbuf[i]=0; printmessage16(tempbuf); } for (i=0; j=(curhp==0)?(i+curline+1):(i+curline), inumlines; i++) { Bmemcpy(disptext[i], helppage[curhp]->line[j], 80); printext16(8,ydim-overridepm16y+28+i*9,editorcolors[10], (j==highlightline && curhp==highlighthp && totalclock-lasthighlighttime<120*5)?editorcolors[1]:-1, disptext[i],0); } showframe(1); } clearmidstatbar16(); overridepm16y = -1; i=ydim16; ydim16=ydim; drawline16(0,ydim-STATUS2DSIZ,xdim-1,ydim-STATUS2DSIZ,editorcolors[1]); ydim16=i; printmessage16(""); showframe(1); keystatus[KEYSC_ESC] = keystatus[KEYSC_Q] = keystatus[KEYSC_F1] = 0; } } // PK_ ^^^^ static void Show3dText(char *name) { int32_t fp,t; uint8_t x=0,y=4,xmax=0,xx=0,col=0; if ((fp=kopen4load(name,0)) == -1) { begindrawing(); printext256(1*4,4*8,whitecol,-1,"ERROR: file not found.",0); enddrawing(); return; } t=65; begindrawing(); while (t!=EOF && col<5) { t = 0; if (kread(fp,&t,1)<=0) t = EOF; while (t!=EOF && t!='\n' && x<250) { tempbuf[x]=t; t = 0; if (kread(fp,&t,1)<=0) t = EOF; x++; if (x>xmax) xmax=x; } tempbuf[x]=0; printext256(xx*4,(y*6)+2,whitecol,-1,tempbuf,1); x=0; y++; if (y>18) { col++; y=6; xx+=xmax; xmax=0; } } enddrawing(); kclose(fp); }// end Show3dText #if 0 static void ShowHelpText(char *name) { BFILE *fp; char x=0,y=4; UNREFERENCED_PARAMETER(name); if ((fp=fopenfrompath("helpdoc.txt","rb")) == NULL) { begindrawing(); printext256(1*4,4*8,whitecol,-1,"ERROR: file not found.",0); enddrawing(); return; } /* Bfgets(tempbuf,80,fp); while(!Bfeof(fp) && Bstrcmp(tempbuf,"SectorEffector")) { Bfgets(tempbuf,80,fp); } */ y=2; Bfgets(tempbuf,80,fp); Bstrcat(tempbuf,"\n"); begindrawing(); while (!Bfeof(fp) && !(Bstrcmp(tempbuf,"SectorEffector")==0)) { Bfgets(tempbuf,80,fp); Bstrcat(tempbuf,"\n"); printext256(x*4,(y*6)+2,whitecol,-1,tempbuf,1); y++; } enddrawing(); Bfclose(fp); }// end ShowHelpText #endif void ExtShowSpriteData(int16_t spritenum) //F6 { UNREFERENCED_PARAMETER(spritenum); if (qsetmode != 200) Show2dText("sehelp.hlp"); /* if (qsetmode == 200) // In 3D mode return; while (KEY_PRESSED(KEYSC_F6)); ResetKeys(); ContextHelp(spritenum); // Get context sensitive help */ }// end ExtShowSpriteData // Floor Over Floor (duke3d) // If standing in sector with SE42 or SE44 // then draw viewing to SE41 and raise all =hi SE43 cielings. // If standing in sector with SE43 or SE45 // then draw viewing to SE40 and lower all =hi SE42 floors. int32_t fofsizex = -1; int32_t fofsizey = -1; #if 0 static void ResetFOFSize() { if (fofsizex != -1) tilesizx[FOF] = fofsizex; if (fofsizey != -1) tilesizy[FOF] = fofsizey; } #endif static void ExtSE40Draw(int32_t spnum,int32_t x,int32_t y,int32_t z,int16_t a,int16_t h) { static int32_t tempsectorz[MAXSECTORS]; static int32_t tempsectorpicnum[MAXSECTORS]; int32_t i=0,j=0,k=0; int32_t floor1=0,floor2=0,ok=0,fofmode=0,draw_both=0; int32_t offx,offy,offz; if (sprite[spnum].ang!=512) return; // Things are a little different now, as we allow for masked transparent // floors and ceilings. So the FOF textures is no longer required // if (!(gotpic[FOF>>3]&(1<<(FOF&7)))) // return; // gotpic[FOF>>3] &= ~(1<<(FOF&7)); if (tilesizx[562]) { fofsizex = tilesizx[562]; tilesizx[562] = 0; } if (tilesizy[562]) { fofsizey = tilesizy[562]; tilesizy[562] = 0; } floor1=spnum; if (sprite[spnum].lotag==42) fofmode=40; if (sprite[spnum].lotag==43) fofmode=41; if (sprite[spnum].lotag==44) fofmode=40; if (sprite[spnum].lotag==45) fofmode=41; // fofmode=sprite[spnum].lotag-2; // sectnum=sprite[j].sectnum; // sectnum=cursectnum; ok++; /* recursive? for(j=0;j= 1024) offz = sprite[floor2].z; else if (fofmode==41) offz = sector[sprite[floor2].sectnum].floorz; else offz = sector[sprite[floor2].sectnum].ceilingz; if (sprite[floor1].ang >= 1024) offz -= sprite[floor1].z; else if (fofmode==40) offz -= sector[sprite[floor1].sectnum].floorz; else offz -= sector[sprite[floor1].sectnum].ceilingz; // if(ok==2) { Message("no floor2",RED); return; } for (j=0; j lastupdate) { mousecol += mouseadd; if (mousecol >= 30 || mousecol <= 0) { mouseadd = -mouseadd; mousecol += mouseadd; } lastupdate = totalclock + 3; } switch (whitecol) { case 1: // Shadow Warrior col = whitecol+mousecol; break; case 31: // Duke Nukem 3D col = whitecol-mousecol; break; default: col = whitecol; break; } if (col != whitecol) { for (i=((xdim > 640)?3:2); i<=((xdim > 640)?7:3); i++) { plotpixel(searchx+i,searchy,col); plotpixel(searchx-i,searchy,col); plotpixel(searchx,searchy-i,col); plotpixel(searchx,searchy+i,col); } for (i=1; i<=((xdim > 640)?2:1); i++) { plotpixel(searchx+i,searchy,whitecol); plotpixel(searchx-i,searchy,whitecol); plotpixel(searchx,searchy-i,whitecol); plotpixel(searchx,searchy+i,whitecol); } i=((xdim > 640)?8:4); plotpixel(searchx+i,searchy,0); plotpixel(searchx-i,searchy,0); plotpixel(searchx,searchy-i,0); plotpixel(searchx,searchy+i,0); } if (xdim > 640) { for (i=1; i<=4; i++) { plotpixel(searchx+i,searchy,whitecol); plotpixel(searchx-i,searchy,whitecol); plotpixel(searchx,searchy-i,whitecol); plotpixel(searchx,searchy+i,whitecol); } } } static int32_t AskIfSure(char *text) { int32_t retval=1; if (qsetmode == 200) { begindrawing(); //{{{ printext256(0,0,whitecol,0,text?text:"Are you sure you want to proceed?",0); enddrawing(); //}}} } else { printmessage16(text?text:"Are you sure you want to proceed?"); } showframe(1); while ((keystatus[KEYSC_ESC]|keystatus[KEYSC_ENTER]|keystatus[KEYSC_SPACE]|keystatus[KEYSC_N]) == 0) { if (handleevents()) { if (quitevent) { retval = 1; break; } } idle(); if (keystatus[KEYSC_Y]||keystatus[KEYSC_ENTER]) { keystatus[KEYSC_Y] = 0; keystatus[KEYSC_ENTER] = 0; retval = 0; break; } } while (keystatus[KEYSC_ESC]) { keystatus[KEYSC_ESC] = 0; retval = 1; break; } return(retval); } static int32_t IsValidTile(const int32_t idTile) { int32_t bValid = 0; if ((idTile >= 0) && (idTile < MAXTILES)) { if ((tilesizx[idTile] != 0) && (tilesizy[idTile] != 0)) { bValid = 1; } } return bValid; } static int32_t SelectAllTiles(int32_t iCurrentTile) { int32_t i; if (iCurrentTile < localartlookupnum) { iCurrentTile = localartlookup[iCurrentTile]; } else { iCurrentTile = 0; } localartlookupnum = MAXTILES; for (i = 0; i < MAXTILES; i++) { localartlookup[i] = i; localartfreq[i] = 0; } return iCurrentTile; } static int32_t OnGotoTile(int32_t iTile); static int32_t OnSelectTile(int32_t iTile); static int32_t s_Zoom = INITIAL_ZOOM; static int32_t s_TileZoom = 1; static int32_t DrawTiles(int32_t iTopLeft, int32_t iSelected, int32_t nXTiles, int32_t nYTiles, int32_t TileDim, int32_t offset); static int32_t m32gettile(int32_t idInitialTile) { int32_t gap, temp; int32_t nXTiles, nYTiles, nDisplayedTiles; int32_t i; int32_t iTile, iTopLeftTile; int32_t idSelectedTile; int32_t scrollmode; int32_t mousedx, mousedy, mtile, omousex=searchx, omousey=searchy, moffset=0; // Enable following line for testing. I couldn't work out how to change vidmode on the fly // s_Zoom = NUM_ZOOMS - 1; if (idInitialTile < 0) { idInitialTile = 0; } else if (idInitialTile >= MAXTILES) { idInitialTile = MAXTILES - 1; } // Ensure zoom not to big (which can happen if display size // changes whilst Mapster is running) do { nXTiles = xdim / ZoomToThumbSize[s_Zoom]; nYTiles = ydim / ZoomToThumbSize[s_Zoom]; // Refuse to draw less than half of a row. if (ZoomToThumbSize[s_Zoom]/2 < 12) nYTiles--; nDisplayedTiles = nXTiles * nYTiles; if (!nDisplayedTiles) { // Eh-up, resolution changed since we were last displaying tiles. s_Zoom--; } } while (!nDisplayedTiles); keystatus[KEYSC_V] = 0; for (i = 0; i < MAXTILES; i++) { localartfreq[i] = 0; localartlookup[i] = i; } iTile = idSelectedTile = idInitialTile; switch (searchstat) { case 0 : for (i = 0; i < numwalls; i++) { localartfreq[ wall[i].picnum ]++; } break; case 1 : case 2 : for (i = 0; i < numsectors; i++) { localartfreq[ sector[i].ceilingpicnum ]++; localartfreq[ sector[i].floorpicnum ]++; } break; case 3 : for (i=0; i= 0)) { int32_t tempint; tempint = localartfreq[temp]; localartfreq[temp] = localartfreq[temp+gap]; localartfreq[temp+gap] = tempint; tempint = localartlookup[temp]; localartlookup[temp] = localartlookup[temp+gap]; localartlookup[temp+gap] = tempint; if (iTile == temp) { iTile = temp + gap; } else if (iTile == temp + gap) { iTile = temp; } temp -= gap; } } gap >>= 1; } while (gap > 0); // // Set up count of number of used tiles // localartlookupnum = 0; while (localartfreq[localartlookupnum] > 0) { localartlookupnum++; } // // Check : If no tiles used at all then switch to displaying all tiles // if (!localartfreq[0]) { localartlookupnum = MAXTILES; for (i = 0; i < MAXTILES; i++) { localartlookup[i] = i; localartfreq[i] = 0; // Terrible bodge : zero tilefreq's not displayed in tile view. Still, when in Rome ... :-) } iTile = idInitialTile; } // // // iTopLeftTile = iTile - (iTile % nXTiles); if (iTopLeftTile < 0) { iTopLeftTile = 0; } if (iTopLeftTile > MAXTILES-nDisplayedTiles) { iTopLeftTile = MAXTILES-nDisplayedTiles; } searchx=((iTile-iTopLeftTile)%nXTiles)*ZoomToThumbSize[s_Zoom]+ZoomToThumbSize[s_Zoom]/2; searchy=((iTile-iTopLeftTile)/nXTiles)*ZoomToThumbSize[s_Zoom]+ZoomToThumbSize[s_Zoom]/2; //////////////////////////////// // Start of key handling code // //////////////////////////////// while ((keystatus[KEYSC_ENTER]|keystatus[KEYSC_ESC]|(bstatus&1)) == 0) // <- Presumably one of these is escape key ??? { DrawTiles(iTopLeftTile, (iTile >= localartlookupnum)?localartlookupnum-1:iTile, nXTiles, nYTiles, ZoomToThumbSize[s_Zoom],moffset); getmousevalues(&mousedx,&mousedy,&bstatus); searchx += mousedx; searchy += mousedy; if (bstatus&2) { moffset+=mousedy*2; searchy += mousedy; searchx -= mousedx; if ((moffset < 0 && iTopLeftTile > localartlookupnum-nDisplayedTiles-1) || (moffset > 0 && iTopLeftTile==0)) { moffset=0; searchy -= mousedy*2; } while (moffset>ZoomToThumbSize[s_Zoom]) { iTopLeftTile-=nXTiles; moffset-=ZoomToThumbSize[s_Zoom]; } while (moffset<-ZoomToThumbSize[s_Zoom]) { iTopLeftTile+=nXTiles; moffset+=ZoomToThumbSize[s_Zoom]; } } // Keep the pointer visible at all times. temp = min((ZoomToThumbSize[s_Zoom] / 2), 12); if (searchx < temp) searchx = temp; if (searchy < temp) searchy = temp; if (searchx > xdim - temp) searchx = xdim - temp; if (searchy > ydim - temp) searchy = ydim - temp; scrollmode=!(eitherCTRL^revertCTRL); if (bstatus&16 && scrollmode && iTopLeftTile > 0) { mouseb &= ~16; iTopLeftTile -= (nXTiles*scrollamount); } if (bstatus&32 && scrollmode && iTopLeftTile < localartlookupnum-nDisplayedTiles-1) { mouseb &= ~32; iTopLeftTile += (nXTiles*scrollamount); } mtile=iTile=(searchx/ZoomToThumbSize[s_Zoom])+((searchy-moffset)/ZoomToThumbSize[s_Zoom])*nXTiles+iTopLeftTile; while (iTile >= iTopLeftTile + nDisplayedTiles) { iTile-=nXTiles; mtile=iTile; } if (handleevents()) { if (quitevent) quitevent = 0; } idle(); // These two lines are so obvious I don't need to comment them ...;-) synctics = totalclock-lockclock; lockclock += synctics; // Zoom in / out using numeric key pad's / and * keys if (((keystatus[KEYSC_gSLASH] || (!scrollmode && bstatus&16)) && s_Zoom<(signed)(NUM_ZOOMS-1)) || ((keystatus[KEYSC_gSTAR] || (!scrollmode && bstatus&32)) && s_Zoom>0)) { if (keystatus[KEYSC_gSLASH] || (!scrollmode && bstatus&16)) { keystatus[KEYSC_gSLASH] = 0; mouseb &= ~16; bstatus &= ~16; // Watch out : If editor window is small, then the next zoom level // might get so large that even one tile might not fit ! if ((ZoomToThumbSize[s_Zoom+1] <= xdim) && (ZoomToThumbSize[s_Zoom+1] <= ydim)) { // Phew, plenty of room. s_Zoom++; } } else { keystatus[KEYSC_gSTAR] = 0; mouseb &= ~32; bstatus &= ~32; s_Zoom--; } if (iTile >= localartlookupnum)iTile = localartlookupnum-1; // Calculate new num of tiles to display nXTiles = xdim / ZoomToThumbSize[s_Zoom]; nYTiles = ydim / ZoomToThumbSize[s_Zoom]; // Refuse to draw less than half of a row. if (ZoomToThumbSize[s_Zoom]/2 < 12) nYTiles--; nDisplayedTiles = nXTiles * nYTiles; // Determine if the top-left displayed tile needs to // alter in order to display selected tile iTopLeftTile = iTile - (iTile % nXTiles); if (iTopLeftTile < 0) { iTopLeftTile = 0; } else if (iTopLeftTile > MAXTILES - nDisplayedTiles) { iTopLeftTile = MAXTILES - nDisplayedTiles; } // scroll window so mouse points the same tile as it was before zooming iTopLeftTile-=(searchx/ZoomToThumbSize[s_Zoom])+((searchy-moffset)/ZoomToThumbSize[s_Zoom])*nXTiles+iTopLeftTile-iTile; } if (keystatus[KEYSC_LEFT]) { iTile -= (iTile > 0); keystatus[KEYSC_LEFT] = 0; } if (keystatus[KEYSC_RIGHT]) { iTile += (iTile < MAXTILES); keystatus[KEYSC_RIGHT] = 0; } if (keystatus[KEYSC_UP]) { iTile -= nXTiles; keystatus[KEYSC_UP] = 0; } if (keystatus[KEYSC_DOWN]) { iTile += nXTiles; keystatus[KEYSC_DOWN] = 0; } if (keystatus[KEYSC_PGUP]) { iTile -= nDisplayedTiles; keystatus[KEYSC_PGUP] = 0; } if (keystatus[KEYSC_PGDN]) { iTile += nDisplayedTiles; keystatus[KEYSC_PGDN] = 0; } // // Ensure tilenum is within valid range // if (iTile < 0) { iTile = 0; } if (iTile >= MAXTILES) // shouldn't this be the count of num tiles ??? { iTile = MAXTILES-1; } // 'V' KEYPRESS if (keystatus[KEYSC_V]) { keystatus[KEYSC_V] = 0; iTile = SelectAllTiles(iTile); } // 'G' KEYPRESS - Goto frame if (keystatus[KEYSC_G]) { keystatus[KEYSC_G] = 0; iTile = OnGotoTile(iTile); } // 'U' KEYPRESS : go straight to user defined art if (keystatus[KEYSC_U]) { SelectAllTiles(iTile); iTile = FIRST_USER_ART_TILE; keystatus[KEYSC_U] = 0; } // 'A' KEYPRESS : Go straight to start of Atomic edition's art if (keystatus[KEYSC_A]) { SelectAllTiles(iTile); iTile = FIRST_ATOMIC_TILE; keystatus[KEYSC_A] = 0; } // 'T' KEYPRESS = Select from pre-defined tileset if (keystatus[KEYSC_T]) { keystatus[KEYSC_T] = 0; iTile = OnSelectTile(iTile); } // 'E' KEYPRESS : Go straight to start of extended art if (keystatus[KEYSC_E]) { SelectAllTiles(iTile); if (iTile == FIRST_EXTENDED_TILE) iTile = SECOND_EXTENDED_TILE; else iTile = FIRST_EXTENDED_TILE; keystatus[KEYSC_E] = 0; } if (keystatus[KEYSC_Z]) { s_TileZoom = !s_TileZoom; keystatus[KEYSC_Z] = 0; } // // Adjust top-left to ensure tilenum is within displayed range of tiles // while (iTile < iTopLeftTile - (moffset<0)?nXTiles:0) { iTopLeftTile -= nXTiles; } while (iTile >= iTopLeftTile + nDisplayedTiles) { iTopLeftTile += nXTiles; } if (iTopLeftTile < 0) { iTopLeftTile = 0; } if (iTopLeftTile > MAXTILES - nDisplayedTiles) { iTopLeftTile = MAXTILES - nDisplayedTiles; } if ((keystatus[KEYSC_ENTER] || (bstatus&1)) == 0) // uh ? Not escape key ? { idSelectedTile = idInitialTile; } else { if (iTile < localartlookupnum) { // Convert tile num from index to actual tile num idSelectedTile = localartlookup[iTile]; // Check : if invalid tile selected, return original tile num if (!IsValidTile(idSelectedTile)) { idSelectedTile = idInitialTile; } } else { idSelectedTile = idInitialTile; } } if (mtile!=iTile) // if changed by keyboard, update mouse cursor { searchx=((iTile-iTopLeftTile)%nXTiles)*ZoomToThumbSize[s_Zoom]+ZoomToThumbSize[s_Zoom]/2; searchy=((iTile-iTopLeftTile)/nXTiles)*ZoomToThumbSize[s_Zoom]+ZoomToThumbSize[s_Zoom]/2+moffset; } } searchx=omousex; searchy=omousey; keystatus[KEYSC_ESC] = 0; keystatus[KEYSC_ENTER] = 0; return(idSelectedTile); } // Dir = 0 (zoom out) or 1 (zoom in) //void OnZoomInOut( int32_t *pZoom, int32_t Dir /*0*/ ) //{ //} static int32_t OnGotoTile(int32_t iTile) { int32_t iTemp, iNewTile; char ch; char szTemp[128]; //Automatically press 'V' iTile = SelectAllTiles(iTile); bflushchars(); iNewTile = iTemp = 0; //iTile; //PK while (keystatus[KEYSC_ESC] == 0) { if (handleevents()) { if (quitevent) quitevent = 0; } idle(); ch = bgetchar(); Bsprintf(szTemp, "Goto tile: %d_ ", iNewTile); printext256(0, 0, whitecol, 0, szTemp, 0); showframe(1); if (ch >= '0' && ch <= '9') { iTemp = (iNewTile*10) + (ch-'0'); if (iTemp < MAXTILES) { iNewTile = iTemp; } } else if (ch == 8) { iNewTile /= 10; } else if (ch == 13) { iTile = iNewTile; break; } } clearkeys(); return iTile; } static int32_t LoadTileSet(const int32_t idCurrentTile, const int32_t *pIds, const int32_t nIds) { int32_t iNewTile = 0; int32_t i; localartlookupnum = nIds; for (i = 0; i < localartlookupnum; i++) { localartlookup[i] = pIds[i]; // REM : Could we still utilise localartfreq[] to mark // which tiles are currently used in the map ? Set to 0xFFFF perhaps ? localartfreq[i] = 0; if (idCurrentTile == pIds[i]) { iNewTile = i; } } return iNewTile; } static int32_t OnSelectTile(int32_t iTile) { int32_t bDone = 0; int32_t i; char ch; for (i = 0; (unsigned)i < tile_groups; i++) { if (s_TileGroups[i].pIds != NULL) break; } if ((unsigned)i == tile_groups) // no tile groups return (iTile); SelectAllTiles(iTile); bflushchars(); begindrawing(); setpolymost2dview(); clearview(0); // // Await appropriate selection keypress. // bDone = 0; while (keystatus[KEYSC_ESC] == 0 && (!bDone)) { if (handleevents()) { if (quitevent) quitevent = 0; } idle(); // // Display the description strings for each available tile group // for (i = 0; (unsigned)i < tile_groups; i++) { if (s_TileGroups[i].szText != NULL) { if ((i+2)*16 > ydimgame) break; Bsprintf(tempbuf,"(%c) %s",s_TileGroups[i].key1,s_TileGroups[i].szText); printext256(10L, (i+1)*16, whitecol, -1, tempbuf, 0); } } showframe(1); ch = bgetchar(); for (i = 0; (unsigned)i < tile_groups; i++) { if (s_TileGroups[i].pIds != NULL && s_TileGroups[i].key1) if ((ch == s_TileGroups[i].key1) || (ch == s_TileGroups[i].key2)) { iTile = LoadTileSet(iTile, s_TileGroups[i].pIds, s_TileGroups[i].nIds); bDone = 1; } } } enddrawing(); showframe(1); clearkeys(); return iTile; } const char * GetTilePixels(const int32_t idTile) { char *pPixelData = 0; if ((idTile >= 0) && (idTile < MAXTILES)) { if (!waloff[idTile]) { loadtile(idTile); } if (IsValidTile(idTile)) { pPixelData = (char *)waloff[idTile]; } } return pPixelData; } static int32_t DrawTiles(int32_t iTopLeft, int32_t iSelected, int32_t nXTiles, int32_t nYTiles, int32_t TileDim, int32_t offset) { int32_t XTile, YTile; int32_t iTile, idTile; int32_t XBox, YBox; int32_t XPos, YPos; int32_t XOffset, YOffset; int32_t i; const char * pRawPixels; int32_t TileSizeX, TileSizeY; int32_t DivInc,MulInc; char *pScreen; char szT[128]; begindrawing(); setpolymost2dview(); clearview(0); for (YTile = 0-(offset>0); YTile < nYTiles+(offset<0)+1; YTile++) { for (XTile = 0; XTile < nXTiles; XTile++) { iTile = iTopLeft + XTile + (YTile * nXTiles); if (iTile>=0 && iTile < localartlookupnum) { idTile = localartlookup[ iTile ]; // Get pointer to tile's raw pixel data pRawPixels = GetTilePixels(idTile); if (pRawPixels != NULL) { XPos = XTile * TileDim; YPos = YTile * TileDim+offset; if (polymost_drawtilescreen(XPos, YPos, idTile, TileDim, s_TileZoom)) { TileSizeX = tilesizx[ idTile ]; TileSizeY = tilesizy[ idTile ]; DivInc = 1; MulInc = 1; while ((TileSizeX/DivInc > TileDim) || (TileSizeY/DivInc) > TileDim) { DivInc++; } if (DivInc == 1 && s_TileZoom) { while (((TileSizeX*(MulInc+1)) <= TileDim) && ((TileSizeY*(MulInc+1)) <= TileDim)) { MulInc++; } } TileSizeX = (TileSizeX / DivInc) * MulInc; TileSizeY = (TileSizeY / DivInc) * MulInc; for (YOffset = 0; YOffset < TileSizeY; YOffset++) { int32_t y=YPos+YOffset; if (y>=0 && y= 0 && YPos <= ydim-20) { Bsprintf(szT, "%d", localartfreq[iTile]); printext256(XPos, YPos, whitecol, -1, szT, 1); } } } } } // // Draw white box around currently selected tile // XBox = ((iSelected-iTopLeft) % nXTiles) * TileDim; YBox = ((iSelected - ((iSelected-iTopLeft) % nXTiles) - iTopLeft) / nXTiles) * TileDim+offset; if (iSelected-iTopLeft>0) for (i = 0; i < TileDim; i++) { if (YBox>=0 && YBox=0 && YBox+TileDim=0 && YBox+i>2,ydim-10,whitecol,-1,szT,0); // EditArt animation flags. Bsprintf(szT,"%d, %d",(picanm[idTile]>>8)&0xFF,(picanm[idTile]>>16)&0xFF); printext256((xdim>>2)+100,ydim-10,whitecol,-1,szT,0); m32_showmouse(); enddrawing(); showframe(1); return(0); } int32_t spriteonceilingz(int32_t searchwall) { int32_t z=sprite[searchwall].z; z = getceilzofslope(searchsector,sprite[searchwall].x,sprite[searchwall].y); if (sprite[searchwall].cstat&128) z -= ((tilesizy[sprite[searchwall].picnum]*sprite[searchwall].yrepeat)<<1); if ((sprite[searchwall].cstat&48) != 32) z += ((tilesizy[sprite[searchwall].picnum]*sprite[searchwall].yrepeat)<<2); return z; } int32_t spriteongroundz(int32_t searchwall) { int32_t z=sprite[searchwall].z; z = getflorzofslope(searchsector,sprite[searchwall].x,sprite[searchwall].y); if (sprite[searchwall].cstat&128) z -= ((tilesizy[sprite[searchwall].picnum]*sprite[searchwall].yrepeat)<<1); return z; } #define WIND1X 3 #define WIND1Y 150 void drawtileinfo(char *title,int32_t x,int32_t y,int32_t picnum,int32_t shade,int32_t pal,int32_t cstat,int32_t lotag,int32_t hitag,int32_t extra) { char buf[64]; int32_t i,j; int32_t scale=65536; int32_t x1; j = xdimgame>640?0:1; i = ydimgame>>6; x1=x+80; if (j)x1/=2; x1=(int32_t)(x1*(320./xdimgame)); scale=(int32_t)(scale/(max(tilesizx[picnum],tilesizy[picnum])/24.)); rotatesprite((x1+13)<<16,(y+11)<<16,scale,0,picnum,shade,pal,2,0L,0L,xdim-1L,ydim-1L); x=(int32_t)(x*(xdimgame/320.)); y=(int32_t)(y*(ydimgame/200.)); begindrawing(); printext256(x+2,y+2,0,-1,title,j); printext256(x,y,255-13,-1,title,j); Bsprintf(buf,"Pic:%4d",picnum); printext256(x+2,y+2+i*1,0,-1,buf,j); printext256(x,y+i*1,whitecol,-1,buf,j); Bsprintf(buf,"Shd:%4d",shade); printext256(x+2,y+2+i*2,0,-1,buf,j); printext256(x,y+i*2,whitecol,-1,buf,j); Bsprintf(buf,"Pal:%4d",pal); printext256(x+2,y+2+i*3,0,-1,buf,j); printext256(x,y+i*3,whitecol,-1,buf,j); Bsprintf(buf,"Cst:%4d",cstat); printext256(x+2,y+2+i*4,0,-1,buf,j); printext256(x,y+i*4,whitecol,-1,buf,j); Bsprintf(buf,"Lot:%4d",lotag); printext256(x+2,y+2+i*5,0,-1,buf,j); printext256(x,y+i*5,whitecol,-1,buf,j); Bsprintf(buf,"Hit:%4d",hitag); printext256(x+2,y+2+i*6,0,-1,buf,j); printext256(x,y+i*6,whitecol,-1,buf,j); Bsprintf(buf,"Ext:%4d",extra); printext256(x+2,y+2+i*7,0,-1,buf,j); printext256(x,y+i*7,whitecol,-1,buf,j); enddrawing(); } int32_t snap=0; int32_t saveval1,saveval2,saveval3; static inline void getnumber_dochar(char *ptr, int32_t num) { *ptr = (char) num; } static inline void getnumber_doint16_t(int16_t *ptr, int32_t num) { *ptr = (int16_t) num; } static inline void getnumber_doint32(int32 *ptr, int32_t num) { *ptr = (int32) num; } static inline void getnumber_doint64(int64 *ptr, int32_t num) { *ptr = (int64) num; } void getnumberptr256(char *namestart, void *num, int32_t bytes, int32_t maxnumber, char sign, void *(func)(int32_t)) { char buffer[80], ch; int32_t n, danum = 0, oldnum; switch (bytes) { case 1: danum = *(char *)num; break; case 2: danum = *(int16_t *)num; break; case 4: danum = *(int32 *)num; break; case 8: danum = *(int64 *)num; break; } oldnum = danum; bflushchars(); while (keystatus[0x1] == 0) { if (handleevents()) { if (quitevent) quitevent = 0; } drawrooms(pos.x,pos.y,pos.z,ang,horiz,cursectnum); #ifdef SUPERBUILD ExtAnalyzeSprites(); #endif drawmasks(); ch = bgetchar(); if (keystatus[0x1]) break; clearkeys(); mouseb = 0; searchx = osearchx; searchy = osearchy; ExtCheckKeys(); Bsprintf(buffer,"%s%d",namestart,danum); if (totalclock & 32) Bstrcat(buffer,"_ "); printmessage256(0, 0, buffer); if (func != NULL) { Bsprintf(buffer,"%s",(char *)func((int32_t)danum)); printmessage256(0, 9, buffer); } showframe(1); if (ch >= '0' && ch <= '9') { if (danum >= 0) { n = (danum*10)+(ch-'0'); if (n <= maxnumber) danum = n; } else if (sign) { n = (danum*10)-(ch-'0'); if (n >= -maxnumber) danum = n; } } else if (ch == 8 || ch == 127) // backspace { danum /= 10; } else if (ch == 13) { oldnum = danum; asksave = 1; break; } else if (ch == '-' && sign) // negate { danum = -danum; } switch (bytes) { case 1: getnumber_dochar(num, danum); break; case 2: getnumber_doint16_t(num, danum); break; case 4: getnumber_doint32(num, danum); break; case 8: getnumber_doint64(num, danum); break; } } clearkeys(); lockclock = totalclock; //Reset timing switch (bytes) { case 1: getnumber_dochar(num, oldnum); break; case 2: getnumber_doint16_t(num, oldnum); break; case 4: getnumber_doint32(num, oldnum); break; case 8: getnumber_doint64(num, oldnum); break; } } static void DoSpriteOrnament(int32_t i) { int32_t j; hitdata_t hitinfo; hitscan((const vec3_t *)&sprite[i],sprite[i].sectnum, sintable[(sprite[i].ang+2560+1024)&2047], sintable[(sprite[i].ang+2048+1024)&2047], 0, &hitinfo,CLIPMASK1); sprite[i].x = hitinfo.pos.x; sprite[i].y = hitinfo.pos.y; sprite[i].z = hitinfo.pos.z; changespritesect(i,hitinfo.hitsect); if (hitinfo.hitwall >= 0) sprite[i].ang = ((getangle(wall[wall[hitinfo.hitwall].point2].x-wall[hitinfo.hitwall].x, wall[wall[hitinfo.hitwall].point2].y-wall[hitinfo.hitwall].y)+512)&2047); //Make sure sprite's in right sector if (inside(sprite[i].x,sprite[i].y,sprite[i].sectnum) == 0) { j = wall[hitinfo.hitwall].point2; sprite[i].x -= ksgn(wall[j].y-wall[hitinfo.hitwall].y); sprite[i].y += ksgn(wall[j].x-wall[hitinfo.hitwall].x); } } int64 ldistsqr(spritetype *s1,spritetype *s2) { return (((int64)(s2->x - s1->x))*((int64)(s2->x - s1->x)) + ((int64)(s2->y - s1->y))*((int64)(s2->y - s1->y))); } void rendertext(int16_t startspr) { char ch, buffer[80], doingspace=0; int16_t daang = 0, t, alphidx, basetile, linebegspr, curspr, cursor; int32_t i, j, k, dax = 0, day = 0; static uint8_t hgap=0, vgap=4; static uint8_t spcgap[MAX_ALPHABETS], firstrun=1; spritetype *sp; int16_t *spritenums; int32_t stackallocsize=32, numletters=0; if (firstrun) { firstrun=0; for (i=0; i=MAXSPRITES || sprite[startspr].statnum == MAXSTATUS) return; if (numalphabets == 0) { message("Alphabet configuration not read."); return; } if ((sprite[startspr].cstat&16) == 0) { message("Must point at a wall-aligned text sprite."); return; } t = sprite[startspr].picnum; alphidx = -1; for (i=0; i>8)&255); sprite[startspr].yoffset = -(((picanm[t])>>16)&255); spritenums = Bmalloc(stackallocsize * sizeof(int16_t)); if (!spritenums) goto ERROR_NOMEMORY; cursor = insertsprite(sprite[startspr].sectnum,0); if (cursor < 0) goto ERROR_TOOMANYSPRITES; updatenumsprites(); sp = &sprite[cursor]; Bmemcpy(sp, &sprite[startspr], sizeof(spritetype)); sp->yoffset = 0; sp->picnum = SMALLFNTCURSOR; sp->xrepeat = min(max(sp->xrepeat/tilesizx[sp->picnum],2),255); sp->yrepeat = min(max((sp->yrepeat*tilesizy[sprite[startspr].picnum])/tilesizy[sp->picnum],4),255); sp->pal = 0; sp->cstat = 18; bflushchars(); while (keystatus[0x1] == 0) { if (handleevents()) { if (quitevent) quitevent = 0; } if (keystatus[KEYSC_UP]) // vertical gap in pixels (32 x-units) { keystatus[KEYSC_UP]=0; if (vgap<255) vgap++; } if (keystatus[KEYSC_DOWN]) { keystatus[KEYSC_DOWN]=0; if (vgap>0) vgap--; } if (keystatus[KEYSC_RIGHT]) // horizontal gap in half pixels { keystatus[KEYSC_RIGHT]=0; if (hgap<255) hgap++; } if (keystatus[KEYSC_LEFT]) { keystatus[KEYSC_LEFT]=0; if (hgap>0) hgap--; } if (keystatus[KEYSC_INSERT]) // space gap in half pixels { keystatus[KEYSC_INSERT]=0; if (spcgap[alphidx]<255) spcgap[alphidx]++; } if (keystatus[KEYSC_DELETE]) { keystatus[KEYSC_DELETE]=0; if (spcgap[alphidx]>1) spcgap[alphidx]--; } if (keystatus[KEYSC_HOME]) // shade { keystatus[KEYSC_HOME]=0; if (sprite[linebegspr].shade<127) sprite[linebegspr].shade++; } if (keystatus[KEYSC_END]) { keystatus[KEYSC_END]=0; if (sprite[linebegspr].shade>-128) sprite[linebegspr].shade--; } if (keystatus[KEYSC_PGUP]) // pal { keystatus[KEYSC_PGUP]=0; if (sprite[linebegspr].pal<255) sprite[linebegspr].pal++; } if (keystatus[KEYSC_PGDN]) { keystatus[KEYSC_PGDN]=0; if (sprite[linebegspr].pal>0) sprite[linebegspr].pal--; } drawrooms(pos.x,pos.y,pos.z,ang,horiz,cursectnum); #ifdef SUPERBUILD ExtAnalyzeSprites(); #endif drawmasks(); ch = bgetchar(); if (keystatus[0x1]) break; clearkeys(); mouseb = 0; searchx = osearchx; searchy = osearchy; ExtCheckKeys(); printmessage256(0,0,"^251Text entry mode.^31 Navigation keys change vars."); Bsprintf(buffer, "Hgap=%d, Vgap=%d, SPCgap=%d, Shd=%d, Pal=%d", hgap, vgap, spcgap[alphidx], sprite[linebegspr].shade, sprite[linebegspr].pal); printmessage256(0, 9, buffer); showframe(1); // --- sp = &sprite[curspr]; if (!doingspace) { dax = sp->x; day = sp->y; daang = sp->ang; } j = sp->xrepeat*(hgap+tilesizx[sp->picnum]+2); { vec3_t vect; vect.x = dax + ((j*sintable[daang])>>17); vect.y = day - ((j*sintable[(daang+512)&2047])>>17); vect.z = sp->z; setsprite(cursor,&vect); } if (ch>=33 && ch<=126 && alphabets[alphidx].pic[ch-33] >= 0) { int16_t sect; // mapping char->tilenum t = alphabets[alphidx].pic[ch-33]; j = sp->xrepeat*(hgap+tilesizx[sp->picnum]+tilesizx[t]); dax += (j*sintable[daang])>>17; day -= (j*sintable[(daang+512)&2047])>>17; dax += (j*sintable[(sprite[curspr].ang+2560)&2047])>>17; day += (j*sintable[(sprite[curspr].ang+2048)&2047])>>17; sect = sprite[curspr].sectnum; updatesector(dax,day,§); if (numsprites < MAXSPRITES && sect >= 0) { i = insertsprite(sect,0); Bmemcpy(&sprite[i], &sprite[linebegspr], sizeof(spritetype)); sprite[i].x = dax, sprite[i].y = day; sprite[i].picnum = t; sprite[i].ang = daang; sprite[i].xoffset = -(((picanm[sprite[i].picnum])>>8)&255); sprite[i].yoffset = -(((picanm[sprite[i].picnum])>>16)&255); sprite[i].xoffset += alphabets[alphidx].xofs[(int32_t)ch-33]; sprite[i].yoffset += alphabets[alphidx].yofs[(int32_t)ch-33]; DoSpriteOrnament(i); for (k=0; k= stackallocsize) { stackallocsize *= 2; spritenums = Brealloc(spritenums, stackallocsize*sizeof(int16_t)); if (!spritenums) goto ERROR_NOMEMORY; } spritenums[numletters++] = i; } } else if (ch == 32) { dax += ((sp->xrepeat*spcgap[alphidx]*sintable[daang])>>17); day -= ((sp->xrepeat*spcgap[alphidx]*sintable[(daang+512)&2047])>>17); doingspace = 1; } else if (ch == 8) // backspace { if (doingspace) doingspace = 0; else if (numletters > 0) { int16_t last = spritenums[numletters-1]; if (sprite[last].z != sprite[linebegspr].z) // only "delete" line break { sprite[linebegspr].z = sprite[last].z; curspr = last; } else if (numletters > 1) { int16_t sectolast = spritenums[numletters-2]; if (sprite[last].z == sprite[sectolast].z) curspr = sectolast; else // if we delete the first letter on the line curspr = linebegspr; numletters--; deletesprite(last); updatenumsprites(); asksave = 1; } else { numletters--; deletesprite(last); curspr = linebegspr; updatenumsprites(); asksave = 1; } } else { sprite[linebegspr].z -= ((sprite[linebegspr].yrepeat*(vgap+tilesizy[basetile]))<<2); asksave = 1; } } else if (ch == 13) // enter { sprite[linebegspr].z += ((sprite[linebegspr].yrepeat*(vgap+tilesizy[basetile]))<<2); curspr = linebegspr; doingspace = 0; asksave = 1; } } ERROR_TOOMANYSPRITES: if (cursor < 0) message("Too many sprites in map!"); else deletesprite(cursor); updatenumsprites(); ERROR_NOMEMORY: if (spritenums) Bfree(spritenums); else message("Out of memory!"); clearkeys(); lockclock = totalclock; //Reset timing } static void Keys3d(void) { int32_t i,count,nexti,changedir; int32_t j, k, tempint = 0, hiz, loz; int32_t hihit, lohit; char smooshyalign=0, repeatpanalign=0, buffer[80]; int16_t startwall, endwall, dasector, statnum=0; char tempbuf[128]; /* start Mapster32 */ /* if (sidemode != 0) { setviewback(); rotatesprite(320<<15,200<<15,65536,(horiz-100)<<2,4094,0,0,2+4,0,0,0,0); lockbyte4094 = 0; searchx = ydim-1-searchx; searchx ^= searchy; searchy ^= searchx; searchx ^= searchy; // overwritesprite(160L,170L,1153,0,1+2,0); rotatesprite(160<<16,170<<16,65536,(100-horiz+1024)<<3,1153,0,0,2,0,0,0,0); } */ if (usedcount && !helpon) { if (searchstat!=3) { count=0; for (i=0; i 0) { if (sprite[searchwall].picnum==SECTOREFFECTOR) Bsprintf(lines[num++],"^251Sprite %d^31 %s",searchwall,SectorEffectorText(searchwall)); else Bsprintf(lines[num++],"^251Sprite %d^31 %s",searchwall,names[sprite[searchwall].picnum]); } else Bsprintf(lines[num++],"^251Sprite %d^31, picnum %d",searchwall,sprite[searchwall].picnum); Bsprintf(lines[num++],"Elevation:%d",getflorzofslope(searchsector,sprite[searchwall].x,sprite[searchwall].y)-sprite[searchwall].z); break; } } x=WIND1X; y=WIND1Y; x=(int32_t)(x*(xdimgame/320.)); y=(int32_t)(y*(ydimgame/200.)); y+=(ydimgame>>6)*8; if (getmessageleng) { while (num < 4) lines[num++][0] = 0; Bsprintf(lines[num++],"^251%s",getmessage); } begindrawing(); for (i=0; i640?0:1); printext256(x,y,whitecol,-1,lines[i],xdimgame>640?0:1); y+=ydimgame>>6; } enddrawing(); } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_V]) // ' V { keystatus[KEYSC_V] = 0; switch (searchstat) { case 1: case 2: getnumberptr256("Sector visibility: ",§or[searchsector].visibility,sizeof(sector[searchsector].visibility),256L,0,NULL); break; } } if (keystatus[KEYSC_SEMI] && keystatus[KEYSC_V]) // ; V { int16_t currsector; uint8_t visval; keystatus[KEYSC_V] = 0; if (highlightsectorcnt == -1) { message("You didn't select any sectors!"); return; } visval = (uint8_t)getnumber256("Visibility of selected sectors: ",sector[searchsector].visibility,256L,0); if (AskIfSure(0)) return; for (i = 0; i < highlightsectorcnt; i++) { currsector = highlightsector[i]; sector[currsector].visibility = visval; } message("Visibility changed on all selected sectors"); } if (keystatus[KEYSC_V]) //V { int32_t oldtile; if (searchstat == 0) tempint = wall[searchwall].picnum; if (searchstat == 1) tempint = sector[searchsector].ceilingpicnum; if (searchstat == 2) tempint = sector[searchsector].floorpicnum; if (searchstat == 3) tempint = sprite[searchwall].picnum; if (searchstat == 4) tempint = wall[searchwall].overpicnum; oldtile = tempint; tempint = m32gettile(tempint); if (searchstat == 0) wall[searchwall].picnum = tempint; if (searchstat == 1) sector[searchsector].ceilingpicnum = tempint; if (searchstat == 2) sector[searchsector].floorpicnum = tempint; if (searchstat == 3) sprite[searchwall].picnum = tempint; if (searchstat == 4) { wall[searchwall].overpicnum = tempint; if (wall[searchwall].nextwall >= 0) wall[wall[searchwall].nextwall].overpicnum = tempint; } if (oldtile!=tempint)asksave = 1; keystatus[KEYSC_V] = 0; } if (keystatus[KEYSC_3]) /* 3 (toggle floor-over-floor (cduke3d only) */ { floor_over_floor = !floor_over_floor; // if (!floor_over_floor) ResetFOFSize(); message("Floor-over-floor display %s",floor_over_floor?"enabled":"disabled"); keystatus[KEYSC_3] = 0; } if (keystatus[KEYSC_F3]) { mlook = 1-mlook; message("Mouselook: %s",mlook?"enabled":"disabled"); keystatus[KEYSC_F3] = 0; } // PK if (keystatus[KEYSC_F5]) { unrealedlook = 1-unrealedlook; message("UnrealEd mouse navigation: %s",unrealedlook?"enabled":"disabled"); keystatus[KEYSC_F5] = 0; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_BS]) // ' del { keystatus[KEYSC_BS] = 0; switch (searchstat) { case 0: case 4: wall[searchwall].cstat = 0; message("Wall %d cstat = 0",searchwall); break; // case 1: case 2: sector[searchsector].cstat = 0; break; case 3: sprite[searchwall].cstat = 0; message("Sprite %d cstat = 0",searchwall); break; } } // 'P - Will copy palette to all sectors highlighted with R-Alt key if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_P]) // ' P { int16_t w, start_wall, end_wall, currsector; int8_t pal[4]; keystatus[KEYSC_P] = 0; if (highlightsectorcnt == -1) { message("You didn't select any sectors!"); return; } pal[0] = getnumber256("Ceiling palette: ",-1,MAXPALOOKUPS,1); pal[1] = getnumber256("Floor palette: ",-1,MAXPALOOKUPS,1); pal[2] = getnumber256("Wall palette: ",-1,MAXPALOOKUPS,1); pal[3] = getnumber256("Sprite palette: ",-1,MAXPALOOKUPS,1); if (AskIfSure(0)) return; for (i = 0; i < highlightsectorcnt; i++) { currsector = highlightsector[i]; if (pal[0] > -1) sector[currsector].ceilingpal = pal[0]; if (pal[1] > -1) sector[currsector].floorpal = pal[1]; // Do all the walls in the sector start_wall = sector[currsector].wallptr; end_wall = start_wall + sector[currsector].wallnum; if (pal[2] > -1) for (w = start_wall; w < end_wall; w++) { wall[w].pal = pal[2]; } if (pal[3] > -1) for (k=0; k= 0) { j = nextspritesect[w]; sprite[w].pal = pal[3]; w = j; } } } message("Palettes changed"); } // ;P - Will copy palette to all sectors & sprites within highlighted with R-Alt key if (keystatus[KEYSC_SEMI] && keystatus[KEYSC_P]) // ; P { int16_t w, start_wall, end_wall, currsector; uint8_t pal; keystatus[KEYSC_P] = 0; if (highlightsectorcnt == -1) { message("You didn't select any sectors!"); return; } pal = (uint8_t)getnumber256("Global palette: ",0,MAXPALOOKUPS,0); if (AskIfSure(0)) return; for (i = 0; i < highlightsectorcnt; i++) { currsector = highlightsector[i]; sector[currsector].ceilingpal = pal; sector[currsector].floorpal = pal; // Do all the walls in the sector start_wall = sector[currsector].wallptr; end_wall = start_wall + sector[currsector].wallnum; for (w = start_wall; w < end_wall; w++) { wall[w].pal = pal; } for (k=0; k= 0) { j = nextspritesect[w]; sprite[w].pal = pal; w = j; } } } message("Palettes changed"); } if (keystatus[KEYSC_DELETE]) { if (searchstat == 3) { deletesprite(searchwall); updatenumsprites(); message("Sprite %d deleted",searchwall); asksave = 1; } keystatus[KEYSC_DELETE] = 0; } if (keystatus[KEYSC_F6]) //F6 { keystatus[KEYSC_F6] = 0; autospritehelp=!autospritehelp; message("Automatic SECTOREFFECTOR help %s",autospritehelp?"enabled":"disabled"); } if (keystatus[KEYSC_F7]) //F7 { keystatus[KEYSC_F7] = 0; autosecthelp=!autosecthelp; message("Automatic sector tag help %s",autosecthelp?"enabled":"disabled"); } if ((searchstat == 3) && (sprite[searchwall].picnum==SECTOREFFECTOR)) if (autospritehelp && helpon==0) Show3dText("sehelp.hlp"); if (searchstat == 1 || searchstat == 2) if (autosecthelp && helpon==0) Show3dText("sthelp.hlp"); if (keystatus[KEYSC_COMMA]) // , Search & fix panning to the left (3D) { if (searchstat == 3) { i = searchwall; if (eitherSHIFT) sprite[i].ang = ((sprite[i].ang+2048-1)&2047); else { sprite[i].ang = ((sprite[i].ang+2048-128)&2047); keystatus[KEYSC_COMMA] = 0; } message("Sprite %d angle: %d",i,sprite[i].ang); } } if (keystatus[KEYSC_PERIOD]) // . Search & fix panning to the right (3D) { if ((searchstat == 0) || (searchstat == 4)) { AutoAlignWalls((int32_t)searchwall,0L); message("Wall %d autoalign",searchwall); keystatus[KEYSC_PERIOD] = 0; } if (searchstat == 3) { i = searchwall; if (eitherSHIFT) sprite[i].ang = ((sprite[i].ang+2048+1)&2047); else { sprite[i].ang = ((sprite[i].ang+2048+128)&2047); keystatus[KEYSC_PERIOD] = 0; } message("Sprite %d angle: %d",i,sprite[i].ang); } } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_L]) // ' L { i = noclip; noclip = 1; switch (searchstat) { case 1: getnumberptr256("Sector ceilingz: ",§or[searchsector].ceilingz,sizeof(sector[searchsector].ceilingz),8388608,1,NULL); if (!(sector[searchsector].ceilingstat&2)) { sector[searchsector].ceilingstat |= 2; sector[searchsector].ceilingheinum = 0; } getnumberptr256("Sector ceiling slope: ",§or[searchsector].ceilingheinum,sizeof(sector[searchsector].ceilingheinum),65536,1,NULL); break; case 2: getnumberptr256("Sector floorz: ",§or[searchsector].floorz,sizeof(sector[searchsector].floorz),8388608,1,NULL); if (!(sector[searchsector].floorstat&2)) { sector[searchsector].floorheinum = 0; sector[searchsector].floorstat |= 2; } getnumberptr256("Sector floor slope: ",§or[searchsector].floorheinum,sizeof(sector[searchsector].floorheinum),65536,1,NULL); break; case 3: getnumberptr256("Sprite x: ",&sprite[searchwall].x,sizeof(sprite[searchwall].x),131072,1,NULL); getnumberptr256("Sprite y: ",&sprite[searchwall].y,sizeof(sprite[searchwall].y),131072,1,NULL); getnumberptr256("Sprite z: ",&sprite[searchwall].z,sizeof(sprite[searchwall].z),8388608,1,NULL); getnumberptr256("Sprite angle: ",&sprite[searchwall].ang,sizeof(sprite[searchwall].ang),2048L,0,NULL); break; } if (sector[searchsector].ceilingheinum == 0) sector[searchsector].ceilingstat &= ~2; else sector[searchsector].ceilingstat |= 2; if (sector[searchsector].floorheinum == 0) sector[searchsector].floorstat &= ~2; else sector[searchsector].floorstat |= 2; asksave = 1; keystatus[KEYSC_L] = 0; noclip = i; } getzrange(&pos,cursectnum,&hiz,&hihit,&loz,&lohit,128L,CLIPMASK0); if (keystatus[KEYSC_CAPS] || (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_Z])) { zmode++; if (zmode == 3) zmode = 0; else if (zmode == 1) zlock = (loz-pos.z)&0xfffffc00; switch (zmode) { case 0: message("Zmode = Gravity"); break; case 1: message("Zmode = Locked/Sector"); break; case 2: message("Zmode = Locked/Free"); break; } keystatus[KEYSC_CAPS] = keystatus[KEYSC_Z] = 0; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_M]) // M { switch (searchstat) { case 0: case 4: strcpy(buffer,"Wall extra: "); wall[searchwall].extra = getnumber256(buffer,(int32_t)wall[searchwall].extra,65536L,1); break; case 1: case 2: strcpy(buffer,"Sector extra: "); sector[searchsector].extra = getnumber256(buffer,(int32_t)sector[searchsector].extra,65536L,1); break; case 3: strcpy(buffer,"Sprite extra: "); sprite[searchwall].extra = getnumber256(buffer,(int32_t)sprite[searchwall].extra,65536L,1); break; } asksave = 1; keystatus[KEYSC_M] = 0; } if (keystatus[KEYSC_1]) // 1 (make 1-way wall) { if (searchstat != 3) { wall[searchwall].cstat ^= 32; Bsprintf(getmessage,"Wall %d one side masking bit %s",searchwall,wall[searchwall].cstat&32?"ON":"OFF"); message(getmessage); asksave = 1; } else { sprite[searchwall].cstat ^= 64; i = sprite[searchwall].cstat; if ((i&48) == 32) { sprite[searchwall].cstat &= ~8; if ((i&64) > 0) if (pos.z > sprite[searchwall].z) sprite[searchwall].cstat |= 8; } asksave = 1; Bsprintf(getmessage,"Sprite %d one sided bit %s",searchwall,sprite[searchwall].cstat&64?"ON":"OFF"); message(getmessage); } keystatus[KEYSC_1] = 0; } if (keystatus[KEYSC_2]) // 2 (bottom wall swapping) { if (searchstat != 3) { wall[searchwall].cstat ^= 2; Bsprintf(getmessage,"Wall %d bottom texture swap bit %s",searchwall,wall[searchwall].cstat&2?"ON":"OFF"); message(getmessage); asksave = 1; } keystatus[KEYSC_2] = 0; } if (keystatus[KEYSC_O]) // O (top/bottom orientation - for doors) { if ((searchstat == 0) || (searchstat == 4)) { wall[searchwall].cstat ^= 4; Bsprintf(getmessage,"Wall %d %s orientation",searchwall,wall[searchwall].cstat&4?"bottom":"top"); message(getmessage); asksave = 1; } if (searchstat == 3) // O (ornament onto wall) (2D) { asksave = 1; i = searchwall; DoSpriteOrnament(i); Bsprintf(getmessage,"Sprite %d ornament onto wall",i); message(getmessage); } keystatus[KEYSC_O] = 0; } if (keystatus[KEYSC_M]) // M (masking walls) { if (searchstat != 3) { i = wall[searchwall].nextwall; tempint = eitherSHIFT; if (i >= 0) { wall[searchwall].cstat ^= 16; Bsprintf(getmessage,"Wall %d masking bit %s",searchwall,wall[searchwall].cstat&16?"ON":"OFF"); message(getmessage); if ((wall[searchwall].cstat&16) > 0) { wall[searchwall].cstat &= ~8; if (tempint == 0) { wall[i].cstat |= 8; //auto other-side flip wall[i].cstat |= 16; wall[i].overpicnum = wall[searchwall].overpicnum; } } else { wall[searchwall].cstat &= ~8; if (tempint == 0) { wall[i].cstat &= ~8; //auto other-side unflip wall[i].cstat &= ~16; } } wall[searchwall].cstat &= ~32; if (tempint == 0) wall[i].cstat &= ~32; asksave = 1; } } keystatus[KEYSC_M] = 0; } if (keystatus[KEYSC_H]) // H (hitscan sensitivity) { if ((keystatus[KEYSC_QUOTE])) { switch (searchstat) { case 0: case 4: strcpy(buffer,"Wall hitag: "); wall[searchwall].hitag = getnumber256(buffer,(int32_t)wall[searchwall].hitag,65536L,0); break; case 1: strcpy(buffer,"Sector hitag: "); sector[searchsector].hitag = getnumber256(buffer,(int32_t)sector[searchsector].hitag,65536L,0); break; case 2: strcpy(buffer,"Sector hitag: "); sector[searchsector].hitag = getnumber256(buffer,(int32_t)sector[searchsector].hitag,65536L,0); break; case 3: strcpy(buffer,"Sprite hitag: "); sprite[searchwall].hitag = getnumber256(buffer,(int32_t)sprite[searchwall].hitag,65536L,0); break; } } else { if (searchstat == 3) { sprite[searchwall].cstat ^= 256; Bsprintf(getmessage,"Sprite %d hitscan sensitivity bit %s",searchwall,sprite[searchwall].cstat&256?"ON":"OFF"); message(getmessage); asksave = 1; } else { wall[searchwall].cstat ^= 64; if ((wall[searchwall].nextwall >= 0) && (eitherSHIFT == 0)) { wall[wall[searchwall].nextwall].cstat &= ~64; wall[wall[searchwall].nextwall].cstat |= (wall[searchwall].cstat&64); } Bsprintf(getmessage,"Wall %d hitscan sensitivity bit %s",searchwall,wall[searchwall].cstat&64?"ON":"OFF"); message(getmessage); asksave = 1; } } keystatus[KEYSC_H] = 0; } smooshyalign = keystatus[KEYSC_gKP5]; repeatpanalign = eitherSHIFT || (bstatus&2); if (mlook == 2) mlook = 0; if (!unrealedlook && (bstatus&4)) mlook = 2; // if (bstatus&4) if ((bstatus&(16|32) && !(bstatus&(1|2|4))) || keystatus[KEYSC_gMINUS] || keystatus[KEYSC_gPLUS]) // PK: no btn: wheel changes shade { // if (bstatus&1) // { // mlook = 2; // } if (bstatus&32 || keystatus[KEYSC_gMINUS]) // - { keystatus[KEYSC_gMINUS]=0; mouseb &= ~32; bstatus &= ~32; if (eitherALT) //ALT { if (eitherCTRL) //CTRL { if (visibility < 16384) visibility += visibility; Bsprintf(getmessage,"Global visibility %d",visibility); message(getmessage); } else { k=eitherSHIFT?1:16; if (highlightsectorcnt >= 0) for (i=0; i 0) { for (i=0; i 0) { sector[searchsector].visibility++; if (sector[searchsector].visibility == 240) sector[searchsector].visibility = 239; k--; } Bsprintf(getmessage,"Sector %d visibility %d",searchsector,sector[searchsector].visibility); message(getmessage); asksave = 1; } } else { k = 0; if (highlightsectorcnt >= 0) { for (i=0; i 32) visibility >>= 1; Bsprintf(getmessage,"Global visibility %d",visibility); message(getmessage); } else { k=eitherSHIFT?1:16; if (highlightsectorcnt >= 0) for (i=0; i 0) { for (i=0; i 0) { sector[searchsector].visibility--; if (sector[searchsector].visibility == 239) sector[searchsector].visibility = 240; k--; } Bsprintf(getmessage,"Sector %d visibility %d",searchsector,sector[searchsector].visibility); message(getmessage); asksave = 1; } } else { k = 0; if (highlightsectorcnt >= 0) { for (i=0; i 0) // mousewheel, -, and +, cycle picnum if (keystatus[KEYSC_DASH] | keystatus[KEYSC_EQUAL] | (bstatus&(16|32) && (bstatus&1) && !(bstatus&2))) // PK: lmb only & mousewheel, -, and +, cycle picnum { j = i = (keystatus[KEYSC_EQUAL] || (bstatus&16))?1:-1; switch (searchstat) { case 0: while (!tilesizx[wall[searchwall].picnum]||!tilesizy[wall[searchwall].picnum]||j) { if (wall[searchwall].picnum+i >= MAXTILES) wall[searchwall].picnum = 0; else if (wall[searchwall].picnum+i < 0) wall[searchwall].picnum = MAXTILES-1; else wall[searchwall].picnum += i; j = 0; } break; case 1: while (!tilesizx[sector[searchsector].ceilingpicnum]||!tilesizy[sector[searchsector].ceilingpicnum]||j) { if (sector[searchsector].ceilingpicnum+i >= MAXTILES) sector[searchsector].ceilingpicnum = 0; else if (sector[searchsector].ceilingpicnum+i < 0) sector[searchsector].ceilingpicnum = MAXTILES-1; else sector[searchsector].ceilingpicnum += i; j = 0; } break; case 2: while (!tilesizx[sector[searchsector].floorpicnum]||!tilesizy[sector[searchsector].floorpicnum]||j) { if (sector[searchsector].floorpicnum+i >= MAXTILES) sector[searchsector].floorpicnum = 0; else if (sector[searchsector].floorpicnum+i < 0) sector[searchsector].floorpicnum = MAXTILES-1; else sector[searchsector].floorpicnum += i; j = 0; } break; case 3: while (!tilesizx[sprite[searchwall].picnum]||!tilesizy[sprite[searchwall].picnum]||j) { if (sprite[searchwall].picnum+i >= MAXTILES) sprite[searchwall].picnum = 0; else if (sprite[searchwall].picnum+i < 0) sprite[searchwall].picnum = MAXTILES-1; else sprite[searchwall].picnum += i; j = 0; } break; case 4: while (!tilesizx[wall[searchwall].overpicnum]||!tilesizy[wall[searchwall].overpicnum]||j) { if (wall[searchwall].overpicnum+i >= MAXTILES) wall[searchwall].overpicnum = 0; else if (wall[searchwall].overpicnum+i < 0) wall[searchwall].overpicnum = MAXTILES-1; else wall[searchwall].overpicnum += i; j = 0; } break; } asksave = 1; keystatus[KEYSC_DASH] = keystatus[KEYSC_EQUAL] = 0; mouseb &= ~(16|32); } if (keystatus[KEYSC_E]) // E (expand) { if (searchstat == 1) { sector[searchsector].ceilingstat ^= 8; Bsprintf(getmessage,"Sector %d ceiling texture expansion bit %s",searchsector,sector[searchsector].ceilingstat&8?"ON":"OFF"); message(getmessage); asksave = 1; } if (searchstat == 2) { sector[searchsector].floorstat ^= 8; Bsprintf(getmessage,"Sector %d floor texture expansion bit %s",searchsector,sector[searchsector].floorstat&8?"ON":"OFF"); message(getmessage); asksave = 1; } keystatus[KEYSC_E] = 0; } if (keystatus[KEYSC_R]) // R (relative alignment, rotation) { if (keystatus[KEYSC_QUOTE]) // FRAMERATE TOGGLE { framerateon = !framerateon; if (framerateon) message("Show framerate ON"); else message("Show framerate OFF"); } else { if (searchstat == 1) { sector[searchsector].ceilingstat ^= 64; Bsprintf(getmessage,"Sector %d ceiling texture relativity bit %s",searchsector,sector[searchsector].ceilingstat&64?"ON":"OFF"); message(getmessage); asksave = 1; } if (searchstat == 2) { sector[searchsector].floorstat ^= 64; Bsprintf(getmessage,"Sector %d floor texture relativity bit %s",searchsector,sector[searchsector].floorstat&64?"ON":"OFF"); //PK (was ceiling in string) message(getmessage); asksave = 1; } if (searchstat == 3) { i = sprite[searchwall].cstat; if ((i&48) < 32) i += 16; else i &= ~48; sprite[searchwall].cstat = i; if (sprite[searchwall].cstat&16) Bsprintf(getmessage,"Sprite %d now wall aligned",searchwall); else if (sprite[searchwall].cstat&32) Bsprintf(getmessage,"Sprite %d now floor aligned",searchwall); else Bsprintf(getmessage,"Sprite %d now view aligned",searchwall); message(getmessage); asksave = 1; } } keystatus[KEYSC_R] = 0; } if (keystatus[KEYSC_F]) //F (Flip) { keystatus[KEYSC_F] = 0; if (eitherALT) //ALT-F (relative alignmment flip) { if (searchstat != 3) { setfirstwall(searchsector,searchwall); Bsprintf(getmessage,"Sector %d first wall",searchsector); message(getmessage); asksave = 1; } } else { if ((searchstat == 0) || (searchstat == 4)) { i = wall[searchwall].cstat; i = ((i>>3)&1)+((i>>7)&2); //3-x,8-y switch (i) { case 0: i = 1; break; case 1: i = 3; break; case 2: i = 0; break; case 3: i = 2; break; } Bsprintf(getmessage,"Wall %d flip %d",searchwall,i); message(getmessage); i = ((i&1)<<3)+((i&2)<<7); wall[searchwall].cstat &= ~0x0108; wall[searchwall].cstat |= i; asksave = 1; } if (searchstat == 1) //8-way ceiling flipping (bits 2,4,5) { i = sector[searchsector].ceilingstat; i = (i&0x4)+((i>>4)&3); switch (i) { case 0: i = 6; break; case 6: i = 3; break; case 3: i = 5; break; case 5: i = 1; break; case 1: i = 7; break; case 7: i = 2; break; case 2: i = 4; break; case 4: i = 0; break; } Bsprintf(getmessage,"Sector %d flip %d",searchsector,i); message(getmessage); i = (i&0x4)+((i&3)<<4); sector[searchsector].ceilingstat &= ~0x34; sector[searchsector].ceilingstat |= i; asksave = 1; } if (searchstat == 2) //8-way floor flipping (bits 2,4,5) { i = sector[searchsector].floorstat; i = (i&0x4)+((i>>4)&3); switch (i) { case 0: i = 6; break; case 6: i = 3; break; case 3: i = 5; break; case 5: i = 1; break; case 1: i = 7; break; case 7: i = 2; break; case 2: i = 4; break; case 4: i = 0; break; } Bsprintf(getmessage,"Sector %d flip %d",searchsector,i); message(getmessage); i = (i&0x4)+((i&3)<<4); sector[searchsector].floorstat &= ~0x34; sector[searchsector].floorstat |= i; asksave = 1; } if (searchstat == 3) { i = sprite[searchwall].cstat; if (((i&48) == 32) && ((i&64) == 0)) { sprite[searchwall].cstat &= ~0xc; sprite[searchwall].cstat |= ((i&4)^4); Bsprintf(getmessage,"Sprite %d flip bit %s",searchwall,sprite[searchwall].cstat&4?"ON":"OFF"); message(getmessage); } else { i = ((i>>2)&3); switch (i) { case 0: i = 1; break; case 1: i = 3; break; case 2: i = 0; break; case 3: i = 2; break; } Bsprintf(getmessage,"Sprite %d flip %d",searchwall,i); message(getmessage); i <<= 2; sprite[searchwall].cstat &= ~0xc; sprite[searchwall].cstat |= i; } asksave = 1; } } } if (keystatus[KEYSC_HOME]) updownunits = 256; else if (keystatus[KEYSC_END]) updownunits = 512; else updownunits = 1024; mouseaction=0; if (eitherALT && bstatus&1) { mousex=0; mskip=1; if (mousey<0) { updownunits=klabs(mousey*128); mouseaction=1; } } if (keystatus[KEYSC_PGUP] || mouseaction || ((bstatus&2) && (bstatus&16 && !(bstatus&1)))) // PK: PGUP, rmb only & mwheel { k = 0; if (highlightsectorcnt >= 0) { for (i=0; i= 0) for (i=0; i0) { updownunits=klabs(mousey*128); mouseaction=1; } } if (keystatus[KEYSC_PGDN] || mouseaction || ((bstatus&2) && (bstatus&32) && !(bstatus&1))) // PK: PGDN, rmb only & mwheel { k = 0; if (highlightsectorcnt >= 0) { for (i=0; i sector[searchsector].floorz) sector[searchsector].ceilingz = sector[searchsector].floorz; if (searchstat == 3) { if (eitherCTRL) //CTRL - put sprite on ground { sprite[searchwall].z = spriteongroundz(searchwall); } else { k = 0; if (highlightcnt >= 0) for (i=0; i= 0) { int32_t thisSec = ms/1000; int32_t x = (xdim <= 640); int32_t chars = Bsprintf(tempbuf, "%2u ms (%3u fps)", howlong, LastCount); if (!x) { printext256(windowx2-(chars<<3)+1,windowy1+2,0,-1,tempbuf,x); printext256(windowx2-(chars<<3),windowy1+1,COLOR_WHITE,-1,tempbuf,x); } else { printext256(windowx2-(chars<<2)+1,windowy1+2,0,-1,tempbuf,x); printext256(windowx2-(chars<<2),windowy1+1,COLOR_WHITE,-1,tempbuf,x); } if (LastSec < thisSec) { LastCount = FrameCount / (thisSec - LastSec); LastSec = thisSec; FrameCount = 0; } FrameCount++; } LastMS = ms; } tempbuf[0] = 0; if (bstatus&4 && !(bstatus&(1|2)) && !unrealedlook) //PK { Bsprintf(tempbuf,"VIEW"); // else Bsprintf(tempbuf,"SHADE"); } else if (bstatus&2 && !(bstatus&1)) Bsprintf(tempbuf,"Z"); else if (bstatus&1 && !(bstatus&2)) Bsprintf(tempbuf,"LOCK"); if (bstatus&1) { Bsprintf(tempbuf,"LOCK"); switch (searchstat) { case 0: case 4: if (eitherSHIFT) Bsprintf(tempbuf,"PAN"); if (eitherCTRL) Bsprintf(tempbuf,"SCALE"); if (eitherALT) Bsprintf(tempbuf,"Z"); break; case 1: case 2: if (eitherSHIFT) Bsprintf(tempbuf,"PAN"); if (eitherCTRL) Bsprintf(tempbuf,"SLOPE"); if (eitherALT) Bsprintf(tempbuf,"Z"); break; case 3: if (eitherSHIFT) Bsprintf(tempbuf,"MOVE XY"); if (eitherCTRL) Bsprintf(tempbuf,"SIZE"); if (eitherALT) Bsprintf(tempbuf,"MOVE Z"); break; } } if (tempbuf[0] != 0) { i = (Bstrlen(tempbuf)<<3)+6; if ((searchx+i) < (xdim-1)) i = 0; else i = (searchx+i)-(xdim-1); if ((searchy+16) < (ydim-1)) j = 0; else j = (searchy+16)-(ydim-1); // printext16(searchx+6-i,searchy+6-j,11,-1,tempbuf,0); printext256(searchx+4+2-i,searchy+4+2-j,0,-1,tempbuf,!(xdimgame > 640)); printext256(searchx+4-i,searchy+4-j,whitecol,-1,tempbuf,!(xdimgame > 640)); // printext256(searchx+4+2,searchy+4+2,0,-1,tempbuf,!(xdimgame > 640)); // printext256(searchx+4,searchy+4,whitecol,-1,tempbuf,!(xdimgame > 640)); } if (helpon==1) { for (i=0; i 640)))+2,0,-1,Help3d[i],!(xdimgame > 640)); printext256(0*8,8+(i*(8+(xdimgame > 640))),whitecol,-1,Help3d[i],!(xdimgame > 640)); enddrawing(); switch (i) { case 8: Bsprintf(tempbuf,"%d",autosave); break; case 9: Bsprintf(tempbuf,"%s",SKILLMODE[skill]); break; case 10: Bsprintf(tempbuf,"%d",framerateon); break; case 11: Bsprintf(tempbuf,"%s",SPRDSPMODE[nosprites]); break; case 12: Bsprintf(tempbuf,"%d",shadepreview); break; case 13: Bsprintf(tempbuf,"%d",purpleon); break; default : Bsprintf(tempbuf," "); break; } begindrawing(); if (!strcmp(tempbuf,"0")) Bsprintf(tempbuf,"OFF"); else if (!strcmp(tempbuf,"1")) Bsprintf(tempbuf,"ON"); else if (!strcmp(tempbuf,"2")) Bsprintf(tempbuf,"ON (2)"); printext256((20+((xdimgame > 640) * 20))*8+2,8+(i*(8+(xdimgame > 640)))+2,0,-1,tempbuf,!(xdimgame > 640)); printext256((20+((xdimgame > 640) * 20))*8,8+(i*(8+(xdimgame > 640))),whitecol,-1,tempbuf,!(xdimgame > 640)); enddrawing(); } } /* if(purpleon) { begindrawing(); // printext256(1*4,1*8,whitecol,-1,"Purple ON",0); sprintf(getmessage,"Purple ON"); message(getmessage); enddrawing(); } */ if (sector[cursectnum].lotag==2) { if (sector[cursectnum].ceilingpicnum==FLOORSLIME) SetSLIMEPalette(); else SetWATERPalette(); } else SetGAMEPalette(); if (keystatus[buildkeys[BK_MODE2D_3D]]) // Enter SetGAMEPalette(); //Stick this in 3D part of ExtCheckKeys //Also choose your own key scan codes if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_D]) // ' d /* { ShowHelpText("SectorEffector"); } */ { keystatus[KEYSC_D] = 0; skill++; if (skill>MAXSKILL-1) skill=0; message("%s",SKILLMODE[skill]); // printext256(1*4,1*8,11,-1,tempbuf,0); } /* if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_G]) // ' g { keystatus[KEYSC_G] = 0; tabgraphic++; if (tabgraphic > 2) tabgraphic = 0; if (tabgraphic) message("Graphics ON"); else message("Graphics OFF"); }*/ if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_X]) // ' x { keystatus[KEYSC_X] = 0; shadepreview=!shadepreview; if (shadepreview) message("Map shade preview ON"); else message("Map shade preview OFF"); } /* if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_R]) // ' r { keystatus[KEYSC_R] = 0; framerateon=!framerateon; if (framerateon) message("Framerate ON"); else message("Framerate OFF"); }*/ if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_W]) // ' w { keystatus[KEYSC_W] = 0; nosprites++; if (nosprites>3) nosprites=0; message("%s",SPRDSPMODE[nosprites]); // printext256(1*4,1*8,whitecol,-1,tempbuf,0); } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_Y]) // ' y { keystatus[KEYSC_Y] = 0; purpleon=!purpleon; if (nosprites>3) nosprites=0; if (purpleon) message("Purple ON"); else message("Purple OFF"); } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_C]) // ' C { keystatus[KEYSC_C] = 0; switch (searchstat) { case 0: case 4: for (i=0; i= 0) && (eitherSHIFT == 0)) { wall[wall[searchwall].nextwall].cstat &= ~(1+64); wall[wall[searchwall].nextwall].cstat |= (wall[searchwall].cstat&1); } Bsprintf(getmessage,"Wall %d blocking bit %s",searchwall,wall[searchwall].cstat&1?"ON":"OFF"); message(getmessage); asksave = 1; } keystatus[KEYSC_B] = 0; } if (keystatus[KEYSC_T]) // T (transluscence for sprites/masked walls) { if (searchstat == 1) //Set masked/transluscent ceilings/floors { i = (sector[searchsector].ceilingstat&(128+256)); sector[searchsector].ceilingstat &= ~(128+256); switch (i) { case 0: sector[searchsector].ceilingstat |= 128; break; case 128: sector[searchsector].ceilingstat |= 256; break; case 256: sector[searchsector].ceilingstat |= 384; break; case 384: sector[searchsector].ceilingstat |= 0; break; } asksave = 1; } if (searchstat == 2) { i = (sector[searchsector].floorstat&(128+256)); sector[searchsector].floorstat &= ~(128+256); switch (i) { case 0: sector[searchsector].floorstat |= 128; break; case 128: sector[searchsector].floorstat |= 256; break; case 256: sector[searchsector].floorstat |= 384; break; case 384: sector[searchsector].floorstat |= 0; break; } asksave = 1; } if (keystatus[KEYSC_QUOTE]) { switch (searchstat) { case 0: case 4: strcpy(buffer,"Wall lotag: "); wall[searchwall].lotag = getnumber256(buffer,(int32_t)wall[searchwall].lotag,65536L,0); break; case 1: strcpy(buffer,"Sector lotag: "); sector[searchsector].lotag = getnumber256(buffer,(int32_t)sector[searchsector].lotag,65536L,0); break; case 2: strcpy(buffer,"Sector lotag: "); sector[searchsector].lotag = getnumber256(buffer,(int32_t)sector[searchsector].lotag,65536L,0); break; case 3: strcpy(buffer,"Sprite lotag: "); sprite[searchwall].lotag = getnumber256(buffer,(int32_t)sprite[searchwall].lotag,65536L,0); break; } } else if (eitherCTRL) { if (searchstat == 3) rendertext(searchwall); } else { if (searchstat == 3) { if ((sprite[searchwall].cstat&2) == 0) sprite[searchwall].cstat |= 2; else if ((sprite[searchwall].cstat&512) == 0) sprite[searchwall].cstat |= 512; else sprite[searchwall].cstat &= ~(2+512); asksave = 1; } if (searchstat == 4) { if ((wall[searchwall].cstat&128) == 0) wall[searchwall].cstat |= 128; else if ((wall[searchwall].cstat&512) == 0) wall[searchwall].cstat |= 512; else wall[searchwall].cstat &= ~(128+512); if (wall[searchwall].nextwall >= 0) { wall[wall[searchwall].nextwall].cstat &= ~(128+512); wall[wall[searchwall].nextwall].cstat |= (wall[searchwall].cstat&(128+512)); } asksave = 1; } } keystatus[KEYSC_T] = 0; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_ENTER]) // ' ENTER { message("Pasted picnum only"); switch (searchstat) { case 0 : wall[searchwall].picnum = temppicnum; break; case 1 : sector[searchsector].ceilingpicnum = temppicnum; break; case 2 : sector[searchsector].floorpicnum = temppicnum; break; case 3 : sprite[searchwall].picnum = temppicnum; break; case 4 : wall[searchwall].overpicnum = temppicnum; break; } keystatus[KEYSC_ENTER]=0; } i = 512; if (keystatus[KEYSC_RSHIFT]) i = 8; if (keystatus[KEYSC_LSHIFT]) i = 1; mouseaction=0; if (eitherCTRL && bstatus&1 && (searchstat == 1 || searchstat == 2)) { mousex=0; mskip=1; if (mousey<0) { i=klabs(mousey*2); mouseaction=1; } } if (keystatus[KEYSC_LBRACK] || mouseaction) // [ { keystatus[KEYSC_LBRACK] = 0; if (eitherALT) { i = wall[searchwall].nextsector; if (i >= 0) switch (searchstat) { case 0: case 1: case 4: alignceilslope(searchsector,wall[searchwall].x,wall[searchwall].y,getceilzofslope(i,wall[searchwall].x,wall[searchwall].y)); message("Sector %d align ceiling to wall %d",searchsector,searchwall); break; case 2: alignflorslope(searchsector,wall[searchwall].x,wall[searchwall].y,getflorzofslope(i,wall[searchwall].x,wall[searchwall].y)); message("Sector %d align floor to wall %d",searchsector,searchwall); break; } } else { if (searchstat == 1) { if (!(sector[searchsector].ceilingstat&2)) sector[searchsector].ceilingheinum = 0; sector[searchsector].ceilingheinum = max(sector[searchsector].ceilingheinum-i,-32768); message("Sector %d ceiling slope = %d",searchsector,sector[searchsector].ceilingheinum); } if (searchstat == 2) { if (!(sector[searchsector].floorstat&2)) sector[searchsector].floorheinum = 0; sector[searchsector].floorheinum = max(sector[searchsector].floorheinum-i,-32768); message("Sector %d floor slope = %d",searchsector,sector[searchsector].floorheinum); } } if (sector[searchsector].ceilingheinum == 0) sector[searchsector].ceilingstat &= ~2; else sector[searchsector].ceilingstat |= 2; if (sector[searchsector].floorheinum == 0) sector[searchsector].floorstat &= ~2; else sector[searchsector].floorstat |= 2; asksave = 1; } i = 512; if (keystatus[KEYSC_RSHIFT]) i = 8; if (keystatus[KEYSC_LSHIFT]) i = 1; mouseaction=0; if (eitherCTRL && bstatus&1 && (searchstat == 1 || searchstat == 2)) { mousex=0; mskip=1; if (mousey>0) { i=klabs(mousey*2); mouseaction=1; } } if (keystatus[KEYSC_RBRACK] || mouseaction) // ] { keystatus[KEYSC_RBRACK] = 0; if (eitherALT) { i = wall[searchwall].nextsector; if (i >= 0) switch (searchstat) { case 1: alignceilslope(searchsector,wall[searchwall].x,wall[searchwall].y,getceilzofslope(i,wall[searchwall].x,wall[searchwall].y)); message("Sector %d align ceiling to wall %d",searchsector,searchwall); break; case 0: case 2: case 4: alignflorslope(searchsector,wall[searchwall].x,wall[searchwall].y,getflorzofslope(i,wall[searchwall].x,wall[searchwall].y)); message("Sector %d align floor to wall %d",searchsector,searchwall); break; } } else { if (searchstat == 1) { if (!(sector[searchsector].ceilingstat&2)) sector[searchsector].ceilingheinum = 0; sector[searchsector].ceilingheinum = min(sector[searchsector].ceilingheinum+i,32767); message("Sector %d ceiling slope = %d",searchsector,sector[searchsector].ceilingheinum); } if (searchstat == 2) { if (!(sector[searchsector].floorstat&2)) sector[searchsector].floorheinum = 0; sector[searchsector].floorheinum = min(sector[searchsector].floorheinum+i,32767); message("Sector %d floor slope = %d",searchsector,sector[searchsector].floorheinum); } } if (sector[searchsector].ceilingheinum == 0) sector[searchsector].ceilingstat &= ~2; else sector[searchsector].ceilingstat |= 2; if (sector[searchsector].floorheinum == 0) sector[searchsector].floorstat &= ~2; else sector[searchsector].floorstat |= 2; asksave = 1; } if (bstatus&1 && eitherSHIFT) mskip=1; if (bstatus&1 && eitherSHIFT && (searchstat == 1 || searchstat == 2) && (mousex|mousey)) { int32_t fw,x1,y1,x2,y2,stat,ma,a=0; stat=(searchstat==2)?sector[searchsector].floorstat:sector[searchsector].ceilingstat; if (stat&64) // align to first wall { fw=sector[searchsector].wallptr; x1=wall[fw].x,y1=wall[fw].y; x2=wall[wall[fw].point2].x,y2=wall[wall[fw].point2].y; a=getangle(x1-x2,y1-y2); } mouseax+=mousex; mouseay+=mousey; ma=getangle(mouseax,mouseay); ma+=ang-a; i = stat; i = (i&0x4)+((i>>4)&3); if (stat&64) // align to first wall switch (i) { case 0:break; case 1:ma=-ma; break; case 2:ma=1024-ma; break; case 3:ma+=1024; break; case 4:ma=-512-ma; break; case 5:ma+=512; break; case 6:ma-=512; break; case 7:ma=512-ma; break; } else switch (i) { case 0:ma=-ma; break; case 1:break; case 2:ma+=1024; break; case 3:ma=1024-ma; break; case 4:ma-=512; break; case 5:ma=512-ma; break; case 6:ma=-512-ma; break; case 7:ma+=512; break; } a=ksqrt(mouseax*mouseax+mouseay*mouseay); if (a) { int32_t mult=(stat&8)?8192:8192*2; x1=-a*sintable[(ma+2048)&2047]/mult; y1=-a*sintable[(ma+1536)&2047]/mult; if (x1||y1) { mouseax=0; mouseay=0; if (searchstat==1) { changedir=1; if (x1<0) {changedir=-1; x1*=-1;} while (x1--)sector[searchsector].ceilingxpanning = changechar(sector[searchsector].ceilingxpanning,changedir,0,0); changedir=1; if (y1<0) {changedir=-1; y1*=-1;} while (y1--)sector[searchsector].ceilingypanning = changechar(sector[searchsector].ceilingypanning,changedir,0,0); message("Sector %d ceiling panning: %d, %d",searchsector,sector[searchsector].ceilingxpanning,sector[searchsector].ceilingypanning); } else { changedir=1; if (x1<0) {changedir=-1; x1*=-1;} while (x1--)sector[searchsector].floorxpanning = changechar(sector[searchsector].floorxpanning,changedir,0,0); changedir=1; if (y1<0) {changedir=-1; y1*=-1;} while (y1--)sector[searchsector].floorypanning = changechar(sector[searchsector].floorypanning,changedir,0,0); message("Sector %d floor panning: %d, %d",searchsector,sector[searchsector].floorxpanning,sector[searchsector].floorypanning); } asksave=1; } } mousex=0; mousey=0; } if (!mouseb) {mouseax=0; mouseay=0;} smooshyalign = keystatus[KEYSC_gKP5]; repeatpanalign = eitherSHIFT; updownunits=1; mouseaction=0; if (bstatus&1 && searchstat != 1 && searchstat != 2) { if (eitherSHIFT) { mskip=1; if (mousex!=0) { mouseaction=1; mouseax+=mousex; updownunits=klabs((int32_t)(mouseax/2.)); if (updownunits) {mouseax=0;} } } else if (eitherCTRL) { mskip=1; if (mousex!=0) { mouseaction=2; repeatpanalign=0; if (searchstat==3) { updownunits=klabs(mouseax+=mousex)/4; if (updownunits)mouseax=0; } else { updownunits=klabs(mouseax+=mousex)/16; if (updownunits)mouseax=0; } } } } if (keystatus[KEYSC_gLEFT] || keystatus[KEYSC_gRIGHT] || mouseaction) // 4 & 6 (keypad) { if ((repeatcountx == 0) || (repeatcountx > 32) || mouseaction) { changedir = 0; if (keystatus[KEYSC_gLEFT] || mousex>0) changedir = -1; if (keystatus[KEYSC_gRIGHT] || mousex<0) changedir = 1; if ((searchstat == 0) || (searchstat == 4)) { if (repeatpanalign == 0) { while (updownunits--)wall[searchwall].xrepeat = changechar(wall[searchwall].xrepeat,changedir,smooshyalign,1); message("Wall %d repeat: %d, %d",searchwall,wall[searchwall].xrepeat,wall[searchwall].yrepeat); } else { if (mouseaction) { i=wall[searchwall].cstat; i=((i>>3)&1)+((i>>7)&2); if (i==1||i==3)changedir*=-1; } while (updownunits--)wall[searchwall].xpanning = changechar(wall[searchwall].xpanning,changedir,smooshyalign,0); message("Wall %d panning: %d, %d",searchwall,wall[searchwall].xpanning,wall[searchwall].ypanning); } } if ((searchstat == 1) || (searchstat == 2)) { if (searchstat == 1) { while (updownunits--)sector[searchsector].ceilingxpanning = changechar(sector[searchsector].ceilingxpanning,changedir,smooshyalign,0); message("Sector %d ceiling panning: %d, %d",searchsector,sector[searchsector].ceilingxpanning,sector[searchsector].ceilingypanning); } else { while (updownunits--)sector[searchsector].floorxpanning = changechar(sector[searchsector].floorxpanning,changedir,smooshyalign,0); message("Sector %d floor panning: %d, %d",searchsector,sector[searchsector].floorxpanning,sector[searchsector].floorypanning); } } if (searchstat == 3) { if (mouseaction==1) { int32_t xvect,yvect; int16_t cursectnum=sprite[searchwall].sectnum; xvect = -((mousex*(int32_t)sintable[(ang+2048)&2047])<<3); yvect = -((mousex*(int32_t)sintable[(ang+1536)&2047])<<3); clipmove((vec3_t *)&sprite[searchwall], &cursectnum,xvect,yvect,128L,4L<<8,4L<<8,spnoclip?1:CLIPMASK0); setsprite(searchwall,(vec3_t *)&sprite[searchwall]); } else { if (mouseaction==2)changedir*=-1; while (updownunits--)sprite[searchwall].xrepeat = changechar(sprite[searchwall].xrepeat,changedir,smooshyalign,1); if (sprite[searchwall].xrepeat < 4) sprite[searchwall].xrepeat = 4; message("Sprite %d repeat: %d, %d",searchwall,sprite[searchwall].xrepeat,sprite[searchwall].yrepeat); } } asksave = 1; repeatcountx = max(1,repeatcountx-2); } repeatcountx += synctics; } else repeatcountx = 0; updownunits=1; mouseaction=0; if (bstatus&1 && searchstat != 1 && searchstat != 2) { if (eitherSHIFT) { mskip=1; if (mousey!=0) { mouseaction=1; updownunits=klabs(mousey); if (searchstat != 3) { updownunits=klabs((int32_t)(mousey*128./tilesizy[wall[searchwall].picnum])); } } } else if (eitherCTRL) { mskip=1; if (mousey!=0) { mouseaction=2; repeatpanalign=0; if (searchstat==3) { updownunits=klabs(mouseay+=mousey)/4; if (updownunits)mouseay=0; } else { updownunits=klabs(mouseay+=mousey)/32; if (updownunits)mouseay=0; } } } } if (!mouseb) {mouseax=0; mouseay=0;} if (keystatus[KEYSC_gUP] || keystatus[KEYSC_gDOWN] || mouseaction) // 2 & 8 (keypad) { if ((repeatcounty == 0) || (repeatcounty > 32) || mouseaction) { changedir = 0; if (keystatus[KEYSC_gUP] || mousey>0) changedir = -1; if (keystatus[KEYSC_gDOWN] || mousey<0) changedir = 1; if ((searchstat == 0) || (searchstat == 4)) { if (repeatpanalign == 0) { while (updownunits--) wall[searchwall].yrepeat = changechar(wall[searchwall].yrepeat,changedir,smooshyalign,1); message("Wall %d repeat: %d, %d",searchwall,wall[searchwall].xrepeat,wall[searchwall].yrepeat); } else { while (updownunits--) wall[searchwall].ypanning = changechar(wall[searchwall].ypanning,changedir,smooshyalign,0); message("Wall %d panning: %d, %d",searchwall,wall[searchwall].xpanning,wall[searchwall].ypanning); } } if ((searchstat == 1) || (searchstat == 2)) { if (searchstat == 1) { while (updownunits--) sector[searchsector].ceilingypanning = changechar(sector[searchsector].ceilingypanning,changedir,smooshyalign,0); message("Sector %d ceiling panning: %d, %d",searchsector,sector[searchsector].ceilingxpanning,sector[searchsector].ceilingypanning); } else { while (updownunits--) sector[searchsector].floorypanning = changechar(sector[searchsector].floorypanning,changedir,smooshyalign,0); message("Sector %d floor panning: %d, %d",searchsector,sector[searchsector].floorxpanning,sector[searchsector].floorypanning); } } if (searchstat == 3) { if (mouseaction==1) { int32_t xvect,yvect; int16_t cursectnum=sprite[searchwall].sectnum; xvect = -((mousey*(int32_t)sintable[(ang+2560)&2047])<<3); yvect = -((mousey*(int32_t)sintable[(ang+2048)&2047])<<3); clipmove((vec3_t *)&sprite[searchwall], &cursectnum,xvect,yvect,128L,4L<<8,4L<<8,spnoclip?1:CLIPMASK0); setsprite(searchwall,(vec3_t *)&sprite[searchwall]); } else { while (updownunits--)sprite[searchwall].yrepeat = changechar(sprite[searchwall].yrepeat,changedir,smooshyalign,1); if (sprite[searchwall].yrepeat < 4) sprite[searchwall].yrepeat = 4; message("Sprite %d repeat: %d, %d",searchwall,sprite[searchwall].xrepeat,sprite[searchwall].yrepeat); } } asksave = 1; repeatcounty = max(1,repeatcounty-2); } repeatcounty += synctics; } else repeatcounty = 0; if (keystatus[KEYSC_F11]) //F11 - brightness { extern int16_t brightness; keystatus[KEYSC_F11] = 0; if (eitherSHIFT) { brightness--; if (brightness < 0) brightness = 15; } else { brightness++; if (brightness >= 16) brightness = 0; } vid_gamma = 1.0 + ((float)brightness / 10.0); setbrightness(brightness,palette,0); message("Brightness: %d/16",brightness+1); } if (keystatus[KEYSC_TAB]) //TAB { if (searchstat == 0) { temppicnum = wall[searchwall].picnum; tempshade = wall[searchwall].shade; temppal = wall[searchwall].pal; tempxrepeat = wall[searchwall].xrepeat; tempyrepeat = wall[searchwall].yrepeat; tempcstat = wall[searchwall].cstat; templotag = wall[searchwall].lotag; temphitag = wall[searchwall].hitag; tempextra = wall[searchwall].extra; } if (searchstat == 1) { temppicnum = sector[searchsector].ceilingpicnum; tempshade = sector[searchsector].ceilingshade; temppal = sector[searchsector].ceilingpal; tempvis = sector[searchsector].visibility; tempxrepeat = sector[searchsector].ceilingxpanning; tempyrepeat = sector[searchsector].ceilingypanning; tempcstat = sector[searchsector].ceilingstat; templotag = sector[searchsector].lotag; temphitag = sector[searchsector].hitag; tempextra = sector[searchsector].extra; } if (searchstat == 2) { temppicnum = sector[searchsector].floorpicnum; tempshade = sector[searchsector].floorshade; temppal = sector[searchsector].floorpal; tempvis = sector[searchsector].visibility; tempxrepeat = sector[searchsector].floorxpanning; tempyrepeat = sector[searchsector].floorypanning; tempcstat = sector[searchsector].floorstat; templotag = sector[searchsector].lotag; temphitag = sector[searchsector].hitag; tempextra = sector[searchsector].extra; } if (searchstat == 3) { temppicnum = sprite[searchwall].picnum; tempshade = sprite[searchwall].shade; temppal = sprite[searchwall].pal; tempxrepeat = sprite[searchwall].xrepeat; tempyrepeat = sprite[searchwall].yrepeat; tempcstat = sprite[searchwall].cstat; templotag = sprite[searchwall].lotag; temphitag = sprite[searchwall].hitag; tempextra = sprite[searchwall].extra; tempxvel = sprite[searchwall].xvel; tempyvel = sprite[searchwall].xvel; tempzvel = sprite[searchwall].xvel; } if (searchstat == 4) { temppicnum = wall[searchwall].overpicnum; tempshade = wall[searchwall].shade; temppal = wall[searchwall].pal; tempxrepeat = wall[searchwall].xrepeat; tempyrepeat = wall[searchwall].yrepeat; tempcstat = wall[searchwall].cstat; templotag = wall[searchwall].lotag; temphitag = wall[searchwall].hitag; tempextra = wall[searchwall].extra; } somethingintab = searchstat; keystatus[KEYSC_TAB] = 0; } if (keystatus[KEYSC_ENTER]) { extern char pskysearch[MAXSECTORS]; int16_t daang; int32_t dashade[2]; if (eitherSHIFT) { if (((searchstat == 0) || (searchstat == 4)) && eitherCTRL) //Ctrl-shift Enter (auto-shade) { dashade[0] = 127; dashade[1] = -128; i = searchwall; do { if ((int32_t)wall[i].shade < dashade[0]) dashade[0] = wall[i].shade; if ((int32_t)wall[i].shade > dashade[1]) dashade[1] = wall[i].shade; i = wall[i].point2; } while (i != searchwall); daang = getangle(wall[wall[searchwall].point2].x-wall[searchwall].x,wall[wall[searchwall].point2].y-wall[searchwall].y); i = searchwall; do { j = getangle(wall[wall[i].point2].x-wall[i].x,wall[wall[i].point2].y-wall[i].y); k = ((j+2048-daang)&2047); if (k > 1024) k = 2048-k; wall[i].shade = dashade[0]+mulscale10(k,dashade[1]-dashade[0]); i = wall[i].point2; } while (i != searchwall); message("Wall %d auto-shaded",searchwall); } else if (somethingintab < 255) { if (searchstat == 0) wall[searchwall].shade = tempshade, wall[searchwall].pal = temppal; if (searchstat == 1) { sector[searchsector].ceilingshade = tempshade, sector[searchsector].ceilingpal = temppal; if ((somethingintab == 1) || (somethingintab == 2)) sector[searchsector].visibility = tempvis; } if (searchstat == 2) { sector[searchsector].floorshade = tempshade, sector[searchsector].floorpal = temppal; if ((somethingintab == 1) || (somethingintab == 2)) sector[searchsector].visibility = tempvis; } if (searchstat == 3) sprite[searchwall].shade = tempshade, sprite[searchwall].pal = temppal; if (searchstat == 4) wall[searchwall].shade = tempshade, wall[searchwall].pal = temppal; message("Pasted shading+pal"); } } else if (((searchstat == 0) || (searchstat == 4)) && eitherCTRL && (somethingintab < 255)) //Either ctrl key { i = searchwall; do { wall[i].picnum = temppicnum; wall[i].shade = tempshade; wall[i].pal = temppal; if ((somethingintab == 0) || (somethingintab == 4)) { wall[i].xrepeat = tempxrepeat; wall[i].yrepeat = tempyrepeat; wall[i].cstat = tempcstat; } fixrepeats((int16_t)i); i = wall[i].point2; } while (i != searchwall); message("Pasted picnum+shading+pal"); } else if (((searchstat == 1) || (searchstat == 2)) && eitherCTRL && (somethingintab < 255)) //Either ctrl key { clearbuf(&pskysearch[0],(int32_t)((numsectors+3)>>2),0L); if (searchstat == 1) { i = searchsector; if ((sector[i].ceilingstat&1) > 0) pskysearch[i] = 1; while (pskysearch[i] == 1) { sector[i].ceilingpicnum = temppicnum; sector[i].ceilingshade = tempshade; sector[i].ceilingpal = temppal; if ((somethingintab == 1) || (somethingintab == 2)) { sector[i].ceilingxpanning = tempxrepeat; sector[i].ceilingypanning = tempyrepeat; sector[i].ceilingstat = tempcstat; } pskysearch[i] = 2; startwall = sector[i].wallptr; endwall = startwall + sector[i].wallnum - 1; for (j=startwall; j<=endwall; j++) { k = wall[j].nextsector; if (k >= 0) if ((sector[k].ceilingstat&1) > 0) if (pskysearch[k] == 0) pskysearch[k] = 1; } for (j=0; j 0) pskysearch[i] = 1; while (pskysearch[i] == 1) { sector[i].floorpicnum = temppicnum; sector[i].floorshade = tempshade; sector[i].floorpal = temppal; if ((somethingintab == 1) || (somethingintab == 2)) { sector[i].floorxpanning = tempxrepeat; sector[i].floorypanning = tempyrepeat; sector[i].floorstat = tempcstat; } pskysearch[i] = 2; startwall = sector[i].wallptr; endwall = startwall + sector[i].wallnum - 1; for (j=startwall; j<=endwall; j++) { k = wall[j].nextsector; if (k >= 0) if ((sector[k].floorstat&1) > 0) if (pskysearch[k] == 0) pskysearch[k] = 1; } for (j=0; j 0) && (tilesizy[k] > 0)) { j = k; break; } sprite[searchwall].picnum = j; } sprite[searchwall].shade = tempshade; sprite[searchwall].pal = temppal; if (somethingintab == 3) { sprite[searchwall].xrepeat = tempxrepeat; sprite[searchwall].yrepeat = tempyrepeat; if (sprite[searchwall].xrepeat < 1) sprite[searchwall].xrepeat = 1; if (sprite[searchwall].yrepeat < 1) sprite[searchwall].yrepeat = 1; sprite[searchwall].cstat = tempcstat; sprite[searchwall].lotag = templotag; sprite[searchwall].hitag = temphitag; sprite[searchwall].extra = tempextra; sprite[searchwall].xvel = tempxvel; sprite[searchwall].yvel = tempyvel; sprite[searchwall].zvel = tempzvel; } } if (searchstat == 4) { wall[searchwall].overpicnum = temppicnum; if (wall[searchwall].nextwall >= 0) wall[wall[searchwall].nextwall].overpicnum = temppicnum; wall[searchwall].shade = tempshade; wall[searchwall].pal = temppal; if (somethingintab == 4) { wall[searchwall].xrepeat = tempxrepeat; wall[searchwall].yrepeat = tempyrepeat; wall[searchwall].cstat = tempcstat; wall[searchwall].lotag = templotag; wall[searchwall].hitag = temphitag; wall[searchwall].extra = tempextra; } fixrepeats(searchwall); } message("Pasted clipboard"); } asksave = 1; keystatus[KEYSC_ENTER] = 0; } if (keystatus[KEYSC_C]) { keystatus[KEYSC_C] = 0; if (eitherALT) { if (somethingintab < 255) { switch (searchstat) { case 0: j = wall[searchwall].picnum; for (i=0; i=0: forwards { char did_wrap = 0; int32_t i, j, k = 0; for (dir<0 ? gs_cursprite-- : gs_cursprite++;; dir<0 ? gs_cursprite-- : gs_cursprite++) { if (gs_cursprite < 0) { if (!did_wrap) { did_wrap = 1; gs_cursprite = MAXSPRITES-1; } else break; } if (gs_cursprite >= MAXSPRITES) { if (!did_wrap) { did_wrap = 1; gs_cursprite = 0; } else break; } if (sprite[gs_cursprite].statnum == MAXSTATUS) continue; for (i=0; i<3; i++) for (j=0; i==1 ? j<6 : j<7; j++) { if (!gs_spritewhat[i][j]) continue; if (i==0) { switch (j) { case 0: k = sprite[gs_cursprite].x; break; case 1: k = sprite[gs_cursprite].y; break; case 2: k = sprite[gs_cursprite].z; break; case 3: k = sprite[gs_cursprite].sectnum; break; case 4: k = sprite[gs_cursprite].statnum; break; case 5: k = sprite[gs_cursprite].hitag; break; case 6: k = sprite[gs_cursprite].lotag; break; } } if (i==1) { switch (j) { case 0: k = sprite[gs_cursprite].cstat; k &= gs_sprite[1][0]; break; case 1: k = sprite[gs_cursprite].shade; break; case 2: k = sprite[gs_cursprite].pal; break; case 3: k = gs_sprite[1][3]; if (k != sprite[gs_cursprite].xrepeat && k != sprite[gs_cursprite].yrepeat) goto NEXTSPRITE; break; case 4: k = gs_sprite[1][4]; if (k != sprite[gs_cursprite].xoffset && k != sprite[gs_cursprite].yoffset) goto NEXTSPRITE; break; case 5: k = sprite[gs_cursprite].picnum; break; } } if (i==2) { switch (j) { case 0: k = sprite[gs_cursprite].ang; break; case 1: k = sprite[gs_cursprite].xvel; break; case 2: k = sprite[gs_cursprite].yvel; break; case 3: k = sprite[gs_cursprite].zvel; break; case 4: k = sprite[gs_cursprite].owner; break; case 5: k = sprite[gs_cursprite].clipdist; break; case 6: k = sprite[gs_cursprite].extra; break; } } if (k != gs_sprite[i][j]) goto NEXTSPRITE; } // found matching sprite pos.x = sprite[gs_cursprite].x; pos.y = sprite[gs_cursprite].y; ang = sprite[gs_cursprite].ang; printmessage16("%s Sprite seach%s: found sprite %d", dir<0 ? "<" : ">", did_wrap ? " (wrap)" : "", gs_cursprite); did_wrap = 0; return; NEXTSPRITE: ; } printmessage16("%s Sprite search: none found", dir<0 ? "<" : ">"); } static void Keys2d(void) { int16_t temp=0; int32_t i=0, j,k; int32_t repeatcountx=0,repeatcounty=0,smooshyalign,changedir; static int32_t opointhighlight=-1, olinehighlight=-1, ocursectornum=-1; /* for(i=0;i<0x50;i++) {if(keystatus[i]==1) {Bsprintf(tempbuf,"key %d",i); printmessage16(tempbuf); }} */ Bsprintf(tempbuf, "Mapster32" VERSION); printext16(9L,ydim2d-STATUS2DSIZ+9L,editorcolors[4],-1,tempbuf,0); printext16(8L,ydim2d-STATUS2DSIZ+8L,editorcolors[12],-1,tempbuf,0); updatesector(mousxplc,mousyplc,&cursectornum); searchsector=cursectornum; if ((totalclock > getmessagetimeoff) && (totalclock > (lastpm16time + 120*3))) { if (pointhighlight >= 16384) { char tmpbuf[2048]; i = pointhighlight-16384; if (strlen(names[sprite[i].picnum]) > 0) { if (sprite[i].picnum==SECTOREFFECTOR) Bsprintf(tmpbuf,"Sprite %d %s, hi:%d ex:%d",i,SectorEffectorText(i),sprite[i].hitag,sprite[i].extra); else Bsprintf(tmpbuf,"Sprite %d %s: lo:%d hi:%d ex:%d",i,names[sprite[i].picnum],sprite[i].lotag,sprite[i].hitag,sprite[i].extra); } else Bsprintf(tmpbuf,"Sprite %d picnum %d: lo:%d hi:%d ex:%d",i,sprite[i].picnum,sprite[i].lotag,sprite[i].hitag,sprite[i].extra); _printmessage16(tmpbuf); } else if ((linehighlight >= 0) && (sectorofwall(linehighlight) == cursectornum)) { int32_t dax, day, dist; dax = wall[linehighlight].x-wall[wall[linehighlight].point2].x; day = wall[linehighlight].y-wall[wall[linehighlight].point2].y; dist = ksqrt(dax*dax+day*day); Bsprintf(tempbuf,"Wall %d: length:%d lo:%d hi:%d ex:%d",linehighlight,dist,wall[linehighlight].lotag,wall[linehighlight].hitag,wall[linehighlight].extra); _printmessage16(tempbuf); } else if (cursectornum >= 0) { Bsprintf(tempbuf,"Sector %d: lo:%d hi:%d ex:%d",cursectornum,sector[cursectornum].lotag,sector[cursectornum].hitag,sector[cursectornum].extra); _printmessage16(tempbuf); } else _printmessage16(""); } if (bstatus&1 || opointhighlight != pointhighlight || olinehighlight != linehighlight || ocursectornum != cursectornum) { if (pointhighlight >= 16384) { i = pointhighlight-16384; clearmidstatbar16(); showspritedata((int16_t)i); } else if ((linehighlight >= 0) && (bstatus&1 || sectorofwall(linehighlight) == cursectornum)) { clearmidstatbar16(); showwalldata((int16_t)linehighlight); } else if (cursectornum >= 0) { clearmidstatbar16(); showsectordata((int16_t)cursectornum); } else clearmidstatbar16(); opointhighlight = pointhighlight; olinehighlight = linehighlight; ocursectornum = cursectornum; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_Z]) // ' z { keystatus[KEYSC_Z] = 0; editorzrange[0]=getnumber16("Upper Z range: ",editorzrange[0],INT32_MAX,1); editorzrange[1]=getnumber16("Lower Z range: ",editorzrange[1],INT32_MAX,1); printmessage16(""); } if (keystatus[0x14]) // T (tag) { char buffer[80]; keystatus[0x14] = 0; if (keystatus[0x1d]|keystatus[0x9d]) //Ctrl-T { extern int16_t showtags; showtags ^= 1; if (showtags == 0) printmessage16("Show tags OFF"); else printmessage16("Show tags ON"); } else if (keystatus[0x38]|keystatus[0xb8]) //ALT { if (pointhighlight >= 16384) { i = pointhighlight-16384; Bsprintf(buffer,"Sprite (%d) Lo-tag: ",i); if (sprite[i].picnum == SECTOREFFECTOR) sprite[i].lotag = _getnumber16(buffer,sprite[i].lotag,65536L,0,(void *)SectorEffectorTagText); else sprite[i].lotag = getnumber16(buffer,sprite[i].lotag,65536L,0); clearmidstatbar16(); showspritedata((int16_t)i); } else if (linehighlight >= 0) { i = linehighlight; Bsprintf(buffer,"Wall (%d) Lo-tag: ",i); wall[i].lotag = getnumber16(buffer,wall[i].lotag,65536L,0); clearmidstatbar16(); showwalldata((int16_t)i); } printmessage16(""); } else { for (i=0; i0) IntegratedHelp(); else { begindrawing(); for (i=0; i 9) { j = 256; k = 90; } printext16(j,ydim16+32+(i*9)-k,editorcolors[11],-1,Help2d[i],0); } enddrawing(); } } getpoint(searchx,searchy,&mousxplc,&mousyplc); ppointhighlight = getpointhighlight(mousxplc,mousyplc, ppointhighlight); if ((ppointhighlight&0xc000) == 16384) { // sprite[ppointhighlight&16383].cstat ^= 1; cursprite=(ppointhighlight&16383); } if (keystatus[KEYSC_F9]) // F9 f1=3b { keystatus[KEYSC_F9] = 0; Show2dText("sthelp.hlp"); } /* start Mapster32 */ if (keystatus[KEYSC_F4]) { showfirstwall = !showfirstwall; message("Sector firstwall highlight %s",showfirstwall?"enabled":"disabled"); keystatus[KEYSC_F4] = 0; } if (keystatus[KEYSC_M]) // M (tag) { keystatus[KEYSC_M] = 0; if (eitherALT) //ALT { if (pointhighlight >= 16384) { i = pointhighlight-16384; Bsprintf(tempbuf,"Sprite %d Extra: ",i); sprite[i].extra = getnumber16(tempbuf,sprite[i].extra,65536L,1); clearmidstatbar16(); showspritedata((int16_t)i); } else if (linehighlight >= 0) { i = linehighlight; Bsprintf(tempbuf,"Wall %d Extra: ",i); wall[i].extra = getnumber16(tempbuf,wall[i].extra,65536L,1); clearmidstatbar16(); showwalldata((int16_t)i); } printmessage16(""); } else { for (i=0; i 32)) { changedir = 0; if (keystatus[KEYSC_gLEFT]) changedir = -1; if (keystatus[KEYSC_gRIGHT]) changedir = 1; if ((ppointhighlight&0xc000) == 16384 && (sprite[cursprite].cstat & 48)) { sprite[cursprite].xrepeat = changechar(sprite[cursprite].xrepeat,changedir,smooshyalign,1); if (sprite[cursprite].xrepeat < 4) sprite[cursprite].xrepeat = 4; } else { for (i=0; i 32)) { changedir = 0; if (keystatus[KEYSC_gUP]) changedir = -1; if (keystatus[KEYSC_gDOWN]) changedir = 1; if ((ppointhighlight&0xc000) == 16384 && (sprite[cursprite].cstat & 48)) { sprite[cursprite].yrepeat = changechar(sprite[cursprite].yrepeat,changedir,smooshyalign,1); if (sprite[cursprite].yrepeat < 4) sprite[cursprite].yrepeat = 4; } else { for (i=0; i= 16384) { i = sprite[cursprite].cstat; if ((i&48) < 32) i += 16; else i &= ~48; sprite[cursprite].cstat = i; if (sprite[cursprite].cstat&16) Bsprintf(getmessage,"Sprite %d now wall aligned",cursprite); else if (sprite[cursprite].cstat&32) Bsprintf(getmessage,"Sprite %d now floor aligned",cursprite); else Bsprintf(getmessage,"Sprite %d now view aligned",cursprite); message(getmessage); asksave = 1; } keystatus[KEYSC_R] = 0; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_S]) // ' S { if (pointhighlight >= 16384) { keystatus[KEYSC_S] = 0; Bsprintf(tempbuf,"Sprite %d xrepeat: ",cursprite); sprite[cursprite].xrepeat=getnumber16(tempbuf, sprite[cursprite].xrepeat, 256,0); Bsprintf(tempbuf,"Sprite %d yrepeat: ",cursprite); sprite[cursprite].yrepeat=getnumber16(tempbuf, sprite[cursprite].yrepeat, 256,0); Bsprintf(tempbuf,"Sprite %d updated",i); printmessage16(tempbuf); } } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_F]) // ' F { keystatus[KEYSC_F] = 0; FuncMenu(); } if (keystatus[KEYSC_LBRACK]) // [ search backward { keystatus[KEYSC_LBRACK]=0; if (wallsprite==0) { SearchSectorsBackward(); } else if (wallsprite==1) { if (curwallnum>0) curwallnum--; for (i=curwallnum; i>=0; i--) { if ( (wall[i].picnum==wall[curwall].picnum) &&((search_lotag==0)|| (search_lotag!=0 && search_lotag==wall[i].lotag)) &&((search_hitag==0)|| (search_hitag!=0 && search_hitag==wall[i].hitag)) ) { pos.x=(wall[i].x)-(((wall[i].x)-(wall[wall[i].point2].x))/2); pos.y=(wall[i].y)-(((wall[i].y)-(wall[wall[i].point2].y))/2); printmessage16("< Wall search: found"); // curwallnum--; keystatus[KEYSC_LBRACK]=0; return; } curwallnum--; } printmessage16("< Wall search: none found"); } else if (wallsprite==2) DoSpriteSearch(-1); #if 0 { if (cursearchspritenum>0) cursearchspritenum--; for (i=cursearchspritenum; i>=0; i--) { if ( (sprite[i].picnum==sprite[cursearchsprite].picnum && sprite[i].statnum==0) &&((search_lotag==0)|| (search_lotag!=0 && search_lotag==sprite[i].lotag)) &&((search_hitag==0)|| (search_hitag!=0 && search_hitag==sprite[i].hitag)) ) { pos.x=sprite[i].x; pos.y=sprite[i].y; ang= sprite[i].ang; printmessage16("< Sprite search: found"); // curspritenum--; keystatus[KEYSC_LBRACK]=0; return; } cursearchspritenum--; } printmessage16("< Sprite search: none found"); } #endif } if (keystatus[KEYSC_RBRACK]) // ] search forward { keystatus[KEYSC_RBRACK]=0; if (wallsprite==0) { SearchSectorsForward(); } else if (wallsprite==1) { if (curwallnum Wall search: found"); // curwallnum++; keystatus[KEYSC_RBRACK]=0; return; } curwallnum++; } printmessage16("> Wall search: none found"); } else if (wallsprite==2) DoSpriteSearch(1); #if 0 { if (cursearchspritenum Sprite search: found"); // curspritenum++; keystatus[KEYSC_RBRACK]=0; return; } cursearchspritenum++; } printmessage16("> Sprite search: none found"); } #endif } { static int32_t autogrid = 0; if (keystatus[KEYSC_G]) // G (grid on/off) { if (autogrid) { grid = 0; if (eitherSHIFT) grid = 8; autogrid = 0; } else { grid += eitherSHIFT?-1:1; if (grid == -1 || grid == 9) { switch (grid) { case -1: autogrid = 1; grid = 8; break; case 9: autogrid = 1; grid = 0; break; } } } if (autogrid) Bsprintf(tempbuf,"Grid size: 9 (autosize)"); else if (!grid) Bsprintf(tempbuf,"Grid off"); else Bsprintf(tempbuf,"Grid size: %d (%d units)",grid,2048>>grid); printmessage16(tempbuf); keystatus[KEYSC_G] = 0; } if (autogrid) { grid = zoom+512; if (grid > 16384) grid = 16384; grid = scale(grid,6,6144); if (grid > 7) grid = 7; if (grid < 0) grid = 0; } } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_L]) // ' L { if (pointhighlight >= 16384) { i = pointhighlight - 16384; Bsprintf(tempbuf,"Sprite %d x: ",i); sprite[i].x = getnumber16(tempbuf,sprite[i].x,131072,1); Bsprintf(tempbuf,"Sprite %d y: ",i); sprite[i].y = getnumber16(tempbuf,sprite[i].y,131072,1); Bsprintf(tempbuf,"Sprite %d z: ",i); sprite[i].z = getnumber16(tempbuf,sprite[i].z,8388608,1); Bsprintf(tempbuf,"Sprite %d angle: ",i); sprite[i].ang = getnumber16(tempbuf,sprite[i].ang,2048L,0); Bsprintf(tempbuf,"Sprite %d updated",i); printmessage16(tempbuf); } else if (pointhighlight >= 0 /*<= 16383*/) { i = linehighlight; j = wall[i].x; k = wall[i].y; Bsprintf(tempbuf,"Wall %d x: ",i); j = getnumber16(tempbuf,j,editorgridextent,1); Bsprintf(tempbuf,"Wall %d y: ",i); k = getnumber16(tempbuf,k,editorgridextent,1); dragpoint(i, j, k); Bsprintf(tempbuf,"Wall %d updated",i); printmessage16(tempbuf); } keystatus[KEYSC_L] = 0; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_3]) // ' 3 { onnames++; if (onnames>8) onnames=0; keystatus[KEYSC_3]=0; Bsprintf(tempbuf,"Mode %d %s",onnames,SpriteMode[onnames]); printmessage16(tempbuf); // clearmidstatbar16(); // for(i=0;i=20 && sprite[i].picnum<=59) { sprite[i].xrepeat = 32; sprite[i].yrepeat = 32; } } } */ // What the fuck is this supposed to do? /* Motorcycle ha ha ha if(keystatus[KEYSC_QUOTE] && keystatus[KEYSC_5]) // ' 5 { keystatus[KEYSC_5]=0; sidemode++; if (sidemode > 2) sidemode = 0; if (sidemode == 1) { editstatus = 0; zmode = 2; pos.z = ((sector[cursectnum].ceilingz+sector[cursectnum].floorz)>>1); } else { editstatus = 1; zmode = 1; } } */ if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_7]) // ' 7 : swap hilo { keystatus[KEYSC_7]=0; if (pointhighlight >= 16384) { temp=sprite[cursprite].lotag; sprite[cursprite].lotag=sprite[cursprite].hitag; sprite[cursprite].hitag=temp; Bsprintf(tempbuf,"Sprite %d tags swapped",cursprite); printmessage16(tempbuf); } else if (linehighlight >= 0) { temp=wall[linehighlight].lotag; wall[linehighlight].lotag=wall[linehighlight].hitag; wall[linehighlight].hitag=temp; Bsprintf(tempbuf,"Wall %d tags swapped",linehighlight); printmessage16(tempbuf); } } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_J]) // ' J { pos.x=getnumber16("X-coordinate: ",pos.x,131072L,1); pos.y=getnumber16("Y-coordinate: ",pos.y,131072L,1); Bsprintf(tempbuf,"Current pos now (%d, %d)",pos.x,pos.y); printmessage16(tempbuf); keystatus[KEYSC_J]=0; } }// end key2d static void InitCustomColors(void) { /* blue */ /* vgapal16[9*4+0] = 63; vgapal16[9*4+1] = 31; vgapal16[9*4+2] = 7; */ int32_t i; palette_t *edcol; /* char vgapal16[4*256] = { 00,00,00,00, 42,00,00,00, 00,42,00,00, 42,42,00,00, 00,00,42,00, 42,00,42,00, 00,21,42,00, 42,42,42,00, 21,21,21,00, 63,21,21,00, 21,63,21,00, 63,63,21,00, 21,21,63,00, 63,21,63,00, 21,63,63,00, 63,63,63,00 }; */ /* editorcolors[0] = getclosestcol(0,0,0); editorcolors[1] = getclosestcol(0,0,42); editorcolors[2] = getclosestcol(0,42,0); editorcolors[3] = getclosestcol(0,42,42); editorcolors[4] = getclosestcol(42,0,0); editorcolors[5] = getclosestcol(0,0,0); */ vgapal16[9*4+0] = 63; vgapal16[9*4+1] = 31; vgapal16[9*4+2] = 7; /* orange */ vgapal16[31*4+0] = 20; // blue vgapal16[31*4+1] = 45; // green vgapal16[31*4+2] = 60; // red vgapal16[39*4+0] = 36; vgapal16[39*4+1] = 53; vgapal16[39*4+2] = 63; /* light yellow */ vgapal16[22*4+0] = 51; vgapal16[22*4+1] = 63; vgapal16[22*4+2] = 63; /* grey */ vgapal16[23*4+0] = 45; vgapal16[23*4+1] = 45; vgapal16[23*4+2] = 45; /* blue */ vgapal16[24*4+0] = 51; vgapal16[24*4+1] = 41; vgapal16[24*4+2] = 12; vgapal16[32*4+0] = 60; vgapal16[32*4+1] = 50; vgapal16[32*4+2] = 21; // grid color vgapal16[25*4+0] = 19; vgapal16[25*4+1] = 17; vgapal16[25*4+2] = 17; vgapal16[26*4+0] = 24; vgapal16[26*4+1] = 24; vgapal16[26*4+2] = 24; vgapal16[33*4+0] = 0;//15; // blue vgapal16[33*4+1] = 0;//30; // green vgapal16[33*4+2] = 48;//45; // red vgapal16[41*4+0] = 0;//24; vgapal16[41*4+1] = 0;//40; vgapal16[41*4+2] = 63;//48; for (i = 0; i<256; i++) { edcol = (palette_t *)&vgapal16[4*i]; editorcolors[i] = getclosestcol(edcol->b,edcol->g,edcol->r); } } void ExtPreSaveMap(void) { if (fixmapbeforesaving) { int32_t i, startwall, j, endwall; for (i=0; i=0; i--) sector[i].wallnum = sector[i+1].wallptr-sector[i].wallptr; sector[numsectors-1].wallnum = numwalls-sector[numsectors-1].wallptr; for (i=0; istr = strdup(buffer); if (CommandPaths) { struct strllist *t; for (t = CommandPaths; t->next; t=t->next) ; t->next = s; return; } CommandPaths = s; } static void G_AddGroup(const char *buffer) { struct strllist *s; s = (struct strllist *)Bcalloc(1,sizeof(struct strllist)); s->str = Bstrdup(buffer); if (Bstrchr(s->str,'.') == 0) Bstrcat(s->str,".grp"); if (CommandGrps) { struct strllist *t; for (t = CommandGrps; t->next; t=t->next) ; t->next = s; return; } CommandGrps = s; } #define COPYARG(i) \ Bmemcpy(&testplay_addparam[j], argv[i], lengths[i]); \ j += lengths[i]; \ testplay_addparam[j++] = ' '; #if defined(RENDERTYPEWIN) && defined(USE_OPENGL) extern char forcegl; #endif static void G_CheckCommandLine(int32_t argc, const char **argv) { int32_t i = 1, j, maxlen=0, *lengths; char *c, *k; mapster32_fullpath = (char*)argv[0]; if (argc > 1) { lengths = Bmalloc(argc*sizeof(int32_t)); for (j=1; j i+1) { G_AddGroup(argv[i+1]); COPYARG(i); COPYARG(i+1); i++; } i++; continue; } if (!Bstrcasecmp(c+1,"game_dir")) { if (argc > i+1) { #if defined(POLYMOST) && defined(USE_OPENGL) extern char TEXCACHEFILE[BMAX_PATH]; Bsprintf(tempbuf,"%s/%s",argv[i+1],TEXCACHEFILE); Bstrcpy(TEXCACHEFILE,tempbuf); #endif AddGamePath(argv[i+1]); COPYARG(i); COPYARG(i+1); i++; } i++; continue; } if (!Bstrcasecmp(c+1,"cfg")) { if (argc > i+1) { Bstrcpy(setupfilename,argv[i+1]); i++; } i++; continue; } if (!Bstrcasecmp(c+1,"gamegrp")) { if (argc > i+1) { Bstrcpy(defaultduke3dgrp,argv[i+1]); COPYARG(i); COPYARG(i+1); i++; } i++; continue; } if (!Bstrcasecmp(c+1,"nam")) { strcpy(duke3dgrp, "nam.grp"); COPYARG(i); i++; continue; } if (!Bstrcasecmp(c+1,"ww2gi")) { strcpy(duke3dgrp, "ww2gi.grp"); COPYARG(i); i++; continue; } if (!Bstrcasecmp(c+1,"nocheck")) { initprintf("Map pointer checking disabled\n"); fixmapbeforesaving = 0; i++; continue; } if (!Bstrcasecmp(c+1,"noautoload")) { initprintf("Autoload disabled\n"); NoAutoLoad = 1; COPYARG(i); i++; continue; } #if !defined(_WIN32) if (!Bstrcasecmp(c+1,"usecwd")) { usecwd = 1; COPYARG(i); i++; continue; } #endif #if defined(RENDERTYPEWIN) && defined(USE_OPENGL) if (!Bstrcasecmp(c+1,"forcegl")) { forcegl = 1; i++; continue; } #endif } if ((*c == '/') || (*c == '-')) { c++; switch (*c) { case 'h': case 'H': c++; if (*c) { defsfilename = c; COPYARG(i); initprintf("Using DEF file: %s.\n",defsfilename); } break; case 'j': case 'J': c++; if (!*c) break; AddGamePath(c); COPYARG(i); break; case 'g': case 'G': c++; if (!*c) break; G_AddGroup(c); COPYARG(i); break; } } else { k = Bstrchr(c,'.'); if (k) { if (!Bstrcasecmp(k,".grp") || !Bstrcasecmp(k,".zip")) { G_AddGroup(argv[i++]); COPYARG(i); continue; } if (!Bstrcasecmp(k,".def")) { defsfilename = (char *)argv[i++]; COPYARG(i); initprintf("Using DEF file: %s.\n",defsfilename); continue; } } } i++; } Bfree(lengths); if (j > 0) { testplay_addparam[j-1] = 0; testplay_addparam = Brealloc(testplay_addparam, j*sizeof(char)); } else { Bfree(testplay_addparam); testplay_addparam = NULL; } } } #undef COPYARG int32_t ExtPreInit(int32_t argc,const char **argv) { wm_setapptitle("Mapster32"VERSION BUILDDATE); #ifdef _WIN32 tempbuf[GetModuleFileName(NULL,tempbuf,BMAX_PATH)] = 0; Bcorrectfilename(tempbuf,1); chdir(tempbuf); #endif OSD_SetLogFile("mapster32.log"); OSD_SetVersionString("Mapster32"VERSION,0,2); initprintf("Mapster32"VERSION BUILDDATE"\n"); // initprintf("Copyright (c) 2008 EDuke32 team\n"); G_CheckCommandLine(argc,argv); return 0; } static int32_t osdcmd_quit(const osdfuncparm_t *parm) { UNREFERENCED_PARAMETER(parm); clearfilenames(); ExtUnInit(); uninitengine(); exit(0); return OSDCMD_OK; } static int32_t osdcmd_editorgridextent(const osdfuncparm_t *parm) { int32_t i; extern int32_t editorgridextent; if (parm->numparms == 0) { OSD_Printf("\"editorgridextent\" is \"%d\"\n", editorgridextent); return OSDCMD_SHOWHELP; } else if (parm->numparms != 1) return OSDCMD_SHOWHELP; i = Batol(parm->parms[0]); if (i >= 65536 && i <= 524288) { editorgridextent = i; OSD_Printf("editorgridextent %d\n", editorgridextent); } else OSD_Printf("editorgridextent: value out of range\n"); return OSDCMD_OK; } static int32_t osdcmd_addpath(const osdfuncparm_t *parm) { char pathname[BMAX_PATH]; if (parm->numparms != 1) return OSDCMD_SHOWHELP; strcpy(pathname,parm->parms[0]); addsearchpath(pathname); return OSDCMD_OK; } static int32_t osdcmd_initgroupfile(const osdfuncparm_t *parm) { char file[BMAX_PATH]; if (parm->numparms != 1) return OSDCMD_SHOWHELP; strcpy(file,parm->parms[0]); initgroupfile(file); return OSDCMD_OK; } static int32_t osdcmd_echo(const osdfuncparm_t *parm) { int32_t i; for (i = 0; i < parm->numparms; i++) { if (i > 0) OSD_Printf(" "); OSD_Printf("%s", parm->parms[i]); } OSD_Printf("\n"); return OSDCMD_OK; } static int32_t osdcmd_fileinfo(const osdfuncparm_t *parm) { uint32_t crc, length; int32_t i,j; char buf[256]; if (parm->numparms != 1) return OSDCMD_SHOWHELP; if ((i = kopen4load((char *)parm->parms[0],0)) < 0) { OSD_Printf("fileinfo: File \"%s\" not found.\n", parm->parms[0]); return OSDCMD_OK; } length = kfilelength(i); crc32init(&crc); do { j = kread(i,buf,256); crc32block(&crc,(uint8_t *)buf,j); } while (j == 256); crc32finish(&crc); kclose(i); OSD_Printf("fileinfo: %s\n" " File size: %d\n" " CRC-32: %08X\n", parm->parms[0], length, crc); return OSDCMD_OK; } static int32_t osdcmd_sensitivity(const osdfuncparm_t *parm) { if (parm->numparms != 1) { OSD_Printf("\"sensitivity\" is \"%.2f\"\n",msens); return OSDCMD_SHOWHELP; } msens = atof(parm->parms[0]); OSD_Printf("sensitivity %.2f\n",msens); return OSDCMD_OK; } static int32_t osdcmd_gamma(const osdfuncparm_t *parm) { extern int16_t brightness; if (parm->numparms != 1) { OSD_Printf("\"gamma\" \"%d\"\n",brightness); return OSDCMD_SHOWHELP; } brightness = atoi(parm->parms[0]); setbrightness(brightness,palette,0); OSD_Printf("gamma %d\n",brightness); return OSDCMD_OK; } static int32_t osdcmd_noclip(const osdfuncparm_t *parm) { UNREFERENCED_PARAMETER(parm); noclip = !noclip; return OSDCMD_OK; } static int32_t osdcmd_testplay_addparam(const osdfuncparm_t *parm) { int32_t slen; if (parm->numparms != 1) { OSD_Printf("additional parameters for test playing: %s%s%s\n", testplay_addparam ? "\"" : "", testplay_addparam ? testplay_addparam : "", testplay_addparam ? "\"" : ""); return OSDCMD_OK; } slen = Bstrlen(parm->parms[0]); if (slen > 0) { if (!testplay_addparam) testplay_addparam = Bmalloc(slen+1); else testplay_addparam = Brealloc(testplay_addparam, slen+1); Bmemcpy(testplay_addparam, parm->parms[0], slen); testplay_addparam[slen] = 0; } else { if (testplay_addparam) { Bfree(testplay_addparam); testplay_addparam = NULL; } } return OSDCMD_OK; } static int32_t osdcmd_showheightindicators(const osdfuncparm_t *parm) { extern int32_t showheightindicators; if (parm->numparms == 1) showheightindicators = min(max(atoi(parm->parms[0]),0),2); OSD_Printf("height indicators: %s\n", showheightindicators==0 ? "none" : (showheightindicators==1 ? "two-sided walls only" : "all")); return OSDCMD_OK; } //PK vvv ------------ static int32_t osdcmd_vars_pk(const osdfuncparm_t *parm) { int32_t showval = (parm->numparms < 1); // this is something of a misnomer, since it's actually accel+decel if (!Bstrcasecmp(parm->name, "pk_turnaccel")) { if (showval) { OSD_Printf("Turning acceleration+declaration is %d\n", pk_turnaccel); } else { pk_turnaccel = atoi(parm->parms[0]); pk_turnaccel = pk_turnaccel<=pk_turndecel ? (pk_turndecel+1):pk_turnaccel; pk_turnaccel = pk_turnaccel>256 ? 256:pk_turnaccel; } } else if (!Bstrcasecmp(parm->name, "pk_turndecel")) { if (showval) { OSD_Printf("Turning deceleration is %d\n", pk_turndecel); } else { pk_turndecel = atoi(parm->parms[0]); pk_turndecel = pk_turndecel<=0 ? 1:pk_turndecel; pk_turndecel = pk_turndecel>=pk_turnaccel ? (pk_turnaccel-1):pk_turndecel; pk_turndecel = pk_turndecel>128 ? 128:pk_turndecel; } } else if (!Bstrcasecmp(parm->name, "pk_quickmapcycling")) { OSD_Printf("Quick map cycling ((LShift-)Ctrl-X): %s\n", (quickmapcycling = !quickmapcycling) ? "enabled":"disabled"); } else if (!Bstrcasecmp(parm->name, "pk_uedaccel")) { if (showval) { OSD_Printf("UnrealEd mouse navigation acceleration is %d\n", pk_uedaccel); } else { pk_uedaccel = atoi(parm->parms[0]); pk_uedaccel = pk_uedaccel<0 ? 0:pk_uedaccel; pk_uedaccel = pk_uedaccel>5 ? 5:pk_uedaccel; } } return OSDCMD_OK; } static int32_t registerosdcommands(void) { OSD_RegisterFunction("addpath","addpath : adds path to game filesystem", osdcmd_addpath); OSD_RegisterFunction("echo","echo [text]: echoes text to the console", osdcmd_echo); OSD_RegisterFunction("editorgridextent","editorgridextent: sets the size of the 2D mode editing grid",osdcmd_editorgridextent); OSD_RegisterFunction("fileinfo","fileinfo : gets a file's information", osdcmd_fileinfo); OSD_RegisterFunction("gamma","gamma : changes brightness", osdcmd_gamma); OSD_RegisterFunction("initgroupfile","initgroupfile : adds a grp file into the game filesystem", osdcmd_initgroupfile); OSD_RegisterFunction("noclip","noclip: toggles clipping mode", osdcmd_noclip); OSD_RegisterFunction("quit","quit: exits the game immediately", osdcmd_quit); OSD_RegisterFunction("exit","exit: exits the game immediately", osdcmd_quit); OSD_RegisterFunction("sensitivity","sensitivity : changes the mouse sensitivity", osdcmd_sensitivity); //PK OSD_RegisterFunction("pk_turnaccel", "pk_turnaccel: sets turning acceleration", osdcmd_vars_pk); OSD_RegisterFunction("pk_turndecel", "pk_turndecel: sets turning deceleration", osdcmd_vars_pk); OSD_RegisterFunction("pk_uedaccel", "pk_uedaccel: sets UnrealEd movement speed factor (0-5, exponentially)", osdcmd_vars_pk); OSD_RegisterFunction("pk_quickmapcycling", "pk_quickmapcycling: allows cycling of maps with (Shift-)Ctrl-X", osdcmd_vars_pk); OSD_RegisterFunction("testplay_addparam", "testplay_addparam \"string\": set additional parameters for test playing", osdcmd_testplay_addparam); OSD_RegisterFunction("showheightindicators", "showheightindicators [012]: toggles height indicators in 2D mode", osdcmd_showheightindicators); return 0; } #define DUKEOSD #ifdef DUKEOSD void GAME_drawosdchar(int32_t x, int32_t y, char ch, int32_t shade, int32_t pal) { int32_t ac; if (ch == 32) return; ac = ch-'!'+STARTALPHANUM; if (ac < STARTALPHANUM || ac > ENDALPHANUM) return; rotatesprite(((x<<3)+x)<<16, (y<<3)<<16, 65536l, 0, ac, shade, pal, 8|16, 0, 0, xdim-1, ydim-1); } void GAME_drawosdstr(int32_t x, int32_t y, char *ch, int32_t len, int32_t shade, int32_t pal) { int32_t ac; for (x = (x<<3)+x; len>0; len--, ch++, x++) { if (*ch == 32) { x+=5; continue; } ac = *ch-'!'+STARTALPHANUM; if (ac < STARTALPHANUM || ac > ENDALPHANUM) return; rotatesprite(x<<16, (y<<3)<<16, 65536l, 0, ac, shade, pal, 8|16, 0, 0, xdim-1, ydim-1); if (*ch >= '0' && *ch <= '9') x+=8; else x += tilesizx[ac]; } } static int32_t GetTime(void) { return totalclock; } void GAME_drawosdcursor(int32_t x, int32_t y, int32_t type, int32_t lastkeypress) { int32_t ac; if (type) ac = SMALLFNTCURSOR; else ac = '_'-'!'+STARTALPHANUM; if (!((GetTime()-lastkeypress) & 0x40l)) rotatesprite(((x<<3)+x)<<16, ((y<<3)+(type?-1:2))<<16, 65536l, 0, ac, 0, 8, 8|16, 0, 0, xdim-1, ydim-1); } int32_t GAME_getcolumnwidth(int32_t w) { return w/9; } int32_t GAME_getrowheight(int32_t w) { return w>>3; } //#define BGTILE 311 //#define BGTILE 1156 #define BGTILE 1141 // BIGHOLE #define BORDTILE 3250 // VIEWBORDER #define BITSTH 1+32+8+16 // high translucency #define BITSTL 1+8+16 // low translucency #define BITS 8+16+64 // solid #define SHADE 16 #define PALETTE 4 void GAME_clearbackground(int32_t c, int32_t r) { int32_t x, y, xsiz, ysiz, tx2, ty2; int32_t daydim, bits; UNREFERENCED_PARAMETER(c); /* #ifdef _WIN32 if (qsetmode != 200) { OSD_SetFunctions( NULL, NULL, NULL, NULL, NULL, NULL, (int32_t(*)(void))GetTime, NULL ); return; } #endif */ if (getrendermode() < 3) bits = BITS; else bits = BITSTL; daydim = r<<3; xsiz = tilesizx[BGTILE]; tx2 = xdim/xsiz; ysiz = tilesizy[BGTILE]; ty2 = daydim/ysiz; for (x=0; x<=tx2; x++) for (y=0; y<=ty2; y++) rotatesprite(x*xsiz<<16,y*ysiz<<16,65536L,0,BGTILE,SHADE,PALETTE,bits,0,0,xdim,daydim); xsiz = tilesizy[BORDTILE]; tx2 = xdim/xsiz; ysiz = tilesizx[BORDTILE]; for (x=0; x<=tx2; x++) rotatesprite(x*xsiz<<16,(daydim+ysiz+1)<<16,65536L,1536,BORDTILE,SHADE-12,PALETTE,BITS,0,0,xdim,daydim+ysiz+1); } #endif enum { T_EOF = -2, T_ERROR = -1, T_INCLUDE = 0, T_DEFINE = 1, T_LOADGRP, T_TILEGROUP, T_TILE, T_TILERANGE, T_HOTKEY, T_TILES, T_NOAUTOLOAD, T_COLORS, T_ALPHABET, T_MAP, T_MAPA, T_MAPRANGE, T_MAPRANGEA, T_OFFSET, T_OFFSETA, }; typedef struct { char *text; int32_t tokenid; } tokenlist; static int32_t getatoken(scriptfile *sf, tokenlist *tl, int32_t ntokens) { char *tok; int32_t i; if (!sf) return T_ERROR; tok = scriptfile_gettoken(sf); if (!tok) return T_EOF; for (i=0; iname); initprintf("Using group file '%s'.\n",tempbuf); initgroupfile(tempbuf); findfiles = findfiles->next; } Bsprintf(tempbuf,"autoload/%s",fn); getfilenames(tempbuf,"*.zip"); while (findfiles) { Bsprintf(tempbuf,"autoload/%s/%s",fn,findfiles->name); initprintf("Using group file '%s'.\n",tempbuf); initgroupfile(tempbuf); findfiles = findfiles->next; } Bsprintf(tempbuf,"autoload/%s",fn); getfilenames(tempbuf,"*.pk3"); while (findfiles) { Bsprintf(tempbuf,"autoload/%s/%s",fn,findfiles->name); initprintf("Using group file '%s'.\n",tempbuf); initgroupfile(tempbuf); findfiles = findfiles->next; } } int32_t parsegroupfiles(scriptfile *script) { int32_t tokn; char *cmdtokptr; tokenlist grptokens[] = { { "include", T_INCLUDE }, { "#include", T_INCLUDE }, { "loadgrp", T_LOADGRP }, { "noautoload", T_NOAUTOLOAD } }; while (1) { tokn = getatoken(script,grptokens,sizeof(grptokens)/sizeof(tokenlist)); cmdtokptr = script->ltextptr; switch (tokn) { case T_LOADGRP: { char *fn; pathsearchmode = 1; if (!scriptfile_getstring(script,&fn)) { int32_t j = initgroupfile(fn); if (j == -1) initprintf("Could not find group file '%s'.\n",fn); else { initprintf("Using group file '%s'.\n",fn); if (!NoAutoLoad) DoAutoload(fn); } } pathsearchmode = 0; } break; case T_INCLUDE: { char *fn; if (!scriptfile_getstring(script,&fn)) { scriptfile *included; included = scriptfile_fromfile(fn); if (!included) { initprintf("Warning: Failed including %s on line %s:%d\n", fn, script->filename,scriptfile_getlinum(script,cmdtokptr)); } else { parsegroupfiles(included); scriptfile_close(included); } } break; } break; case T_NOAUTOLOAD: NoAutoLoad = 1; break; case T_EOF: return(0); default: break; } } return 0; } int32_t loadgroupfiles(char *fn) { scriptfile *script; script = scriptfile_fromfile(fn); if (!script) return -1; parsegroupfiles(script); scriptfile_close(script); scriptfile_clearsymbols(); return 0; } int32_t parsetilegroups(scriptfile *script) { int32_t tokn; char *cmdtokptr; tokenlist tgtokens[] = { { "include", T_INCLUDE }, { "#include", T_INCLUDE }, { "define", T_DEFINE }, { "#define", T_DEFINE }, { "tilegroup", T_TILEGROUP }, { "spritehotkey", T_HOTKEY }, { "alphabet", T_ALPHABET }, }; while (1) { tokn = getatoken(script,tgtokens,sizeof(tgtokens)/sizeof(tokenlist)); cmdtokptr = script->ltextptr; switch (tokn) { case T_HOTKEY: { int32_t i, j; if (scriptfile_getsymbol(script,&i)) break; if (scriptfile_getsymbol(script,&j)) break; if (i < 0 || i > 9 || j < 0 || j >= MAXTILES) break; prefixtiles[i] = j; break; } case T_INCLUDE: { char *fn; if (!scriptfile_getstring(script,&fn)) { scriptfile *included; included = scriptfile_fromfile(fn); if (!included) { initprintf("Warning: Failed including %s on line %s:%d\n", fn, script->filename,scriptfile_getlinum(script,cmdtokptr)); } else { parsetilegroups(included); scriptfile_close(included); } } break; } case T_DEFINE: { char *name; int32_t number; if (scriptfile_getstring(script,&name)) break; if (scriptfile_getsymbol(script,&number)) break; if (scriptfile_addsymbolvalue(name,number) < 0) initprintf("Warning: Symbol %s was NOT redefined to %d on line %s:%d\n", name,number,script->filename,scriptfile_getlinum(script,cmdtokptr)); break; } case T_TILEGROUP: { char *end, *name; int32_t i; if (tile_groups >= MAX_TILE_GROUPS) break; if (scriptfile_getstring(script,&name)) break; if (scriptfile_getbraces(script,&end)) break; s_TileGroups[tile_groups].pIds = Bcalloc(MAX_TILE_GROUP_ENTRIES,sizeof(int32_t)); s_TileGroups[tile_groups].szText = Bstrdup(name); while (script->textptr < end) { tokenlist tgtokens2[] = { { "tilegroup", T_TILEGROUP }, { "tile", T_TILE }, { "tilerange", T_TILERANGE }, { "hotkey", T_HOTKEY }, { "tiles", T_TILES }, { "colors", T_COLORS }, }; int32_t token = getatoken(script,tgtokens2,sizeof(tgtokens2)/sizeof(tokenlist)); switch (token) { case T_TILE: { if (scriptfile_getsymbol(script,&i)) break; if (i >= 0 && i < MAXTILES && s_TileGroups[tile_groups].nIds < MAX_TILE_GROUP_ENTRIES) s_TileGroups[tile_groups].pIds[s_TileGroups[tile_groups].nIds++] = i; // OSD_Printf("added tile %d to group %d\n",i,g); break; } case T_TILERANGE: { int32_t j; if (scriptfile_getsymbol(script,&i)) break; if (scriptfile_getsymbol(script,&j)) break; if (i < 0 || i >= MAXTILES || j < 0 || j >= MAXTILES) break; while (s_TileGroups[tile_groups].nIds < MAX_TILE_GROUP_ENTRIES && i <= j) { s_TileGroups[tile_groups].pIds[s_TileGroups[tile_groups].nIds++] = i++; // OSD_Printf("added tile %d to group %d\n",i,g); } break; } case T_COLORS: { int32_t j; if (scriptfile_getsymbol(script, &i)) break; if (scriptfile_getsymbol(script, &j)) break; if (i < 0 || i >= 256 || j < 0 || j >= 256) break; s_TileGroups[tile_groups].color1 = i; s_TileGroups[tile_groups].color2 = j; break; } case T_HOTKEY: { char *c; if (scriptfile_getstring(script,&c)) break; s_TileGroups[tile_groups].key1 = Btoupper(c[0]); s_TileGroups[tile_groups].key2 = Btolower(c[0]); break; } case T_TILES: { char *end2; if (scriptfile_getbraces(script,&end2)) break; while (script->textptr < end2-1) { if (!scriptfile_getsymbol(script,&i)) { if (i >= 0 && i < MAXTILES && s_TileGroups[tile_groups].nIds < MAX_TILE_GROUP_ENTRIES) s_TileGroups[tile_groups].pIds[s_TileGroups[tile_groups].nIds++] = i; // OSD_Printf("added tile %d to group %d\n",i,g); } } break; } } } s_TileGroups[tile_groups].pIds = Brealloc(s_TileGroups[tile_groups].pIds,s_TileGroups[tile_groups].nIds*sizeof(int32_t)); tile_groups++; break; } case T_ALPHABET: { char *end; int32_t i, j, k; if (numalphabets >= MAX_ALPHABETS) break; if (scriptfile_getbraces(script,&end)) break; for (i=0; itextptr < end) { tokenlist alphtokens2[] = { { "map", T_MAP }, { "mapa", T_MAPA }, { "maprange", T_MAPRANGE }, { "maprangea", T_MAPRANGEA }, { "offset", T_OFFSET }, { "offseta", T_OFFSETA }, }; int32_t token = getatoken(script,alphtokens2,sizeof(alphtokens2)/sizeof(tokenlist)); switch (token) { case T_MAP: // map , e.g. map 46 3002 { if (scriptfile_getnumber(script,&i)) break; if (scriptfile_getsymbol(script,&j)) break; if (i>=33 && i<=126 && j>= 0 && j , e.g. map ".,!?" 3002 { char *s; if (scriptfile_getstring(script,&s)) break; if (scriptfile_getsymbol(script,&i)) break; for (; *s; s++, i++) { if (*s>=33 && *s<=126 && i>= 0 && i , e.g. map 33 126 STARTALPHANUM // maprangea , e.g. map "!" "~" STARTALPHANUM case T_MAPRANGE: case T_MAPRANGEA: { if (token==T_MAPRANGE) { if (scriptfile_getnumber(script,&i)) break; if (scriptfile_getnumber(script,&j)) break; } else { char *c1, *c2; if (scriptfile_getstring(script,&c1)) break; if (scriptfile_getstring(script,&c2)) break; i=*c1; j=*c2; } if (scriptfile_getsymbol(script,&k)) break; if (i>126 || j<33) break; for (; i<=j && k=33 && i<=126) alphabets[numalphabets].pic[i-33] = k; } break; } case T_OFFSET: // offset { if (scriptfile_getnumber(script, &i)) break; if (scriptfile_getnumber(script, &j)) break; if (scriptfile_getnumber(script, &k)) break; if (i >= 33 && i <= 126) { alphabets[numalphabets].xofs[i-33] = j; alphabets[numalphabets].yofs[i-33] = k; } break; } case T_OFFSETA: // offseta { char *s; if (scriptfile_getstring(script, &s)) break; if (scriptfile_getnumber(script, &i)) break; if (scriptfile_getnumber(script, &j)) break; for (; *s; s++) if (*s >= 33 && *s <= 126) { alphabets[numalphabets].xofs[(*s)-33] = i; alphabets[numalphabets].yofs[(*s)-33] = j; } break; } } } numalphabets++; break; } case T_EOF: return(0); default: break; } } return 0; } int32_t loadtilegroups(char *fn) { int32_t i, j; scriptfile *script; TileGroup blank = { NULL, 0, NULL, 0, 0, 0, 0}; script = scriptfile_fromfile(fn); if (!script) return -1; for (i = MAX_TILE_GROUPS-1; i >= 0; i--) { Bmemcpy(&s_TileGroups[i],&blank,sizeof(blank)); } parsetilegroups(script); scriptfile_close(script); scriptfile_clearsymbols(); tilegroupItems = getTileGroup("Items"); tilegroupActors = getTileGroup("Actors"); // Apply 2d sprite colors as specified in tiles.cfg. for (i = 0; i < MAX_TILE_GROUPS; i++) { if (s_TileGroups[i].szText == NULL) break; // If the colors were specified... if (s_TileGroups[i].color1 && s_TileGroups[i].color2) { for (j = s_TileGroups[i].nIds-1; j >= 0 ; j--) { // Apply the colors to all tiles in the group. spritecol2d[s_TileGroups[i].pIds[j]][0] = s_TileGroups[i].color1; spritecol2d[s_TileGroups[i].pIds[j]][1] = s_TileGroups[i].color2; } } } return 0; } int32_t ExtInit(void) { int32_t rv = 0; int32_t i; char cwd[BMAX_PATH]; #if defined(__linux__) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) addsearchpath("/usr/share/games/jfduke3d"); addsearchpath("/usr/local/share/games/jfduke3d"); addsearchpath("/usr/share/games/eduke32"); addsearchpath("/usr/local/share/games/eduke32"); #elif defined(__APPLE__) addsearchpath("/Library/Application Support/JFDuke3D"); addsearchpath("/Library/Application Support/EDuke32"); #endif if (getcwd(cwd,BMAX_PATH)) { #if defined(__APPLE__) /* Dirty hack on OS X to also look for gamedata inside the application bundle - rhoenie 08/08 */ char seekinappcontainer[BMAX_PATH]; Bsnprintf(seekinappcontainer,sizeof(seekinappcontainer),"%s/EDuke32.app/", cwd); addsearchpath(seekinappcontainer); #endif addsearchpath(cwd); Bstrcpy(program_origcwd, cwd); } else program_origcwd[0] = '\0'; if (CommandPaths) { struct strllist *s; while (CommandPaths) { s = CommandPaths->next; addsearchpath(CommandPaths->str); free(CommandPaths->str); free(CommandPaths); CommandPaths = s; } } #if defined(_WIN32) if (!access("user_profiles_enabled", F_OK)) #else if (usecwd == 0 && access("user_profiles_disabled", F_OK)) #endif { char *homedir; int32_t asperr; if ((homedir = Bgethomedir())) { Bsnprintf(cwd,sizeof(cwd),"%s/" #if defined(_WIN32) "EDuke32 Settings" #elif defined(__APPLE__) "Library/Application Support/EDuke32" #else ".eduke32" #endif ,homedir); asperr = addsearchpath(cwd); if (asperr == -2) { if (Bmkdir(cwd,S_IRWXU) == 0) asperr = addsearchpath(cwd); else asperr = -1; } if (asperr == 0) chdir(cwd); Bfree(homedir); } } // JBF 20031220: Because it's annoying renaming GRP files whenever I want to test different game data if (getenv("DUKE3DGRP")) { duke3dgrp = getenv("DUKE3DGRP"); initprintf("Using %s as main GRP file\n", duke3dgrp); } i = initgroupfile(duke3dgrp); if (!NoAutoLoad) { getfilenames("autoload","*.grp"); while (findfiles) { Bsprintf(tempbuf,"autoload/%s",findfiles->name); initprintf("Using group file '%s'.\n",tempbuf); initgroupfile(tempbuf); findfiles = findfiles->next; } getfilenames("autoload","*.zip"); while (findfiles) { Bsprintf(tempbuf,"autoload/%s",findfiles->name); initprintf("Using group file '%s'.\n",tempbuf); initgroupfile(tempbuf); findfiles = findfiles->next; } getfilenames("autoload","*.pk3"); while (findfiles) { Bsprintf(tempbuf,"autoload/%s",findfiles->name); initprintf("Using group file '%s'.\n",tempbuf); initgroupfile(tempbuf); findfiles = findfiles->next; } if (i != -1) DoAutoload(duke3dgrp); } if (getenv("DUKE3DDEF")) { defsfilename = getenv("DUKE3DDEF"); initprintf("Using '%s' as definitions file\n", defsfilename); } loadgroupfiles(defsfilename); { struct strllist *s; int32_t j; pathsearchmode = 1; while (CommandGrps) { s = CommandGrps->next; j = initgroupfile(CommandGrps->str); if (j == -1) initprintf("Could not find group file '%s'.\n",CommandGrps->str); else { initprintf("Using group file '%s'.\n",CommandGrps->str); if (!NoAutoLoad) DoAutoload(CommandGrps->str); } free(CommandGrps->str); free(CommandGrps); CommandGrps = s; } pathsearchmode = 0; } bpp = 32; #if defined(POLYMOST) && defined(USE_OPENGL) glusetexcache = glusetexcachecompression = -1; initprintf("Using config file '%s'.\n",setupfilename); if (loadsetup(setupfilename) < 0) initprintf("Configuration file not found, using defaults.\n"), rv = 1; if (glusetexcache == -1 || glusetexcachecompression == -1) { int32_t i; #if 1 i=wm_ynbox("Texture Cache", "Would you like to enable the on-disk texture cache?\n\n" "You generally want to say 'yes' here, especially if using the HRP."); #else i = 1; #endif if (i) glusetexcompr = glusetexcache = glusetexcachecompression = 1; else glusetexcache = glusetexcachecompression = 0; } #endif Bmemcpy((void *)buildkeys,(void *)keys,NUMBUILDKEYS); //Trick to make build use setup.dat keys if (initengine()) { initprintf("There was a problem initializing the engine.\n"); return -1; } kensplayerheight = 40; //32 zmode = 2; zlock = kensplayerheight<<8; defaultspritecstat = 0; ReadGamePalette(); // InitWater(); InitCustomColors(); getmessageleng = 0; getmessagetimeoff = 0; Bstrcpy(apptitle, "Mapster32"VERSION BUILDDATE); autosavetimer = totalclock+120*autosave; #if defined(_WIN32) && defined(DUKEOSD) OSD_SetFunctions( /* GAME_drawosdchar, GAME_drawosdstr, GAME_drawosdcursor, GAME_getcolumnwidth, GAME_getrowheight,*/ 0,0,0,0,0, GAME_clearbackground, (int32_t(*)(void))GetTime, NULL ); #endif OSD_SetParameters(0,2, 0,0, 4,0); registerosdcommands(); loadtilegroups("tiles.cfg"); ReadHelpFile("m32help.hlp"); return rv; } #ifdef RENDERTYPEWIN void app_crashhandler(void) { if (levelname[0]) { char *f; fixspritesectors(); //Do this before saving! updatesector(startposx,startposy,&startsectnum); if (pathsearchmode) f = levelname; else { // virtual filesystem mode can't save to directories so drop the file into // the current directory f = strrchr(levelname, '/'); if (!f) f = levelname; else f++; } f=strstr(levelname,".map"); if (f) Bstrcpy(f,"_crash.map"); else Bstrcat(f,"_crash.map"); ExtPreSaveMap(); saveboard(levelname,&startposx,&startposy,&startposz,&startang,&startsectnum); ExtSaveMap(levelname); } } #endif void ExtUnInit(void) { int32_t i; // setvmode(0x03); uninitgroupfile(); writesetup(setupfilename); for (i = MAX_TILE_GROUPS-1; i >= 0; i--) { if (s_TileGroups[i].pIds != NULL) Bfree(s_TileGroups[i].pIds); if (s_TileGroups[i].szText != NULL) Bfree(s_TileGroups[i].szText); } for (i = numhelppages-1; i >= 0; i--) free(helppage[i]); if (helppage) free(helppage); } static char wallshades[MAXWALLS]; static char sectorshades[MAXSECTORS][2]; static char spriteshades[MAXSPRITES]; static char wallpals[MAXWALLS]; static char sectorpals[MAXSECTORS][2]; static char spritepals[MAXSPRITES]; static char wallflag[MAXWALLS]; extern int32_t graphicsmode; void ExtPreCheckKeys(void) // just before drawrooms { int32_t i = 0; int32_t radius, xp1, yp1; int32_t col; int32_t picnum, frames; int32_t ang = 0, flags, shade; if (qsetmode == 200) //In 3D mode { if (shadepreview) { int32_t i = 0; for (i=numsprites-1; i>=0; i--) if (sprite[i].picnum == SECTOREFFECTOR && (sprite[i].lotag == 12 || sprite[i].lotag == 3)) { int32_t w; int32_t start_wall = sector[sprite[i].sectnum].wallptr; int32_t end_wall = start_wall + sector[sprite[i].sectnum].wallnum; for (w = start_wall; w < end_wall; w++) { if (!wallflag[w]) { wallshades[w] = wall[w].shade; wall[w].shade = sprite[i].shade; wallpals[w] = wall[w].pal; wall[w].pal = sprite[i].pal; wallflag[w] = 1; } /* if (wall[w].nextwall >= 0) { if (!wallflag[wall[w].nextwall]) { wallshades[wall[w].nextwall] = wall[wall[w].nextwall].shade; wall[wall[w].nextwall].shade = sprite[i].shade; wallpals[wall[w].nextwall] = wall[wall[w].nextwall].pal; wall[wall[w].nextwall].pal = sprite[i].pal; wallflag[wall[w].nextwall] = 1; } } */ } sectorshades[sprite[i].sectnum][0] = sector[sprite[i].sectnum].floorshade; sectorshades[sprite[i].sectnum][1] = sector[sprite[i].sectnum].ceilingshade; sector[sprite[i].sectnum].floorshade = sprite[i].shade; sector[sprite[i].sectnum].ceilingshade = sprite[i].shade; sectorpals[sprite[i].sectnum][0] = sector[sprite[i].sectnum].floorpal; sectorpals[sprite[i].sectnum][1] = sector[sprite[i].sectnum].ceilingpal; sector[sprite[i].sectnum].floorpal = sprite[i].pal; sector[sprite[i].sectnum].ceilingpal = sprite[i].pal; w = headspritesect[sprite[i].sectnum]; while (w >= 0) { if (w == i) { w = nextspritesect[w]; continue; } spriteshades[w] = sprite[w].shade; sprite[w].shade = sprite[i].shade; spritepals[w] = sprite[w].pal; sprite[w].pal = sprite[i].pal; w = nextspritesect[w]; } } } if (floor_over_floor) SE40Code(pos.x,pos.y,pos.z,ang,horiz); if (purpleon) clearview(255); if (sidemode != 0) { lockbyte4094 = 1; if (waloff[4094] == 0) allocache(&waloff[4094],320L*200L,&lockbyte4094); setviewtotile(4094,320L,200L); searchx ^= searchy; searchy ^= searchx; searchx ^= searchy; searchx = ydim-1-searchx; } return; } begindrawing(); // if (cursectornum >= 0) // fillsector(cursectornum, 31); if (graphicsmode && zoom >= 256) { for (i=0; ix-pos.x,tspr->y-pos.y); k = (((sprite[i].ang+3072+128-k)&2047)>>8)&7; //This guy has only 5 pictures for 8 angles (3 are x-flipped) if (k <= 4) { picnum += k; ang = 0; flags &= ~4; } else { picnum += 8-k; ang = 1024; flags |= 4; } } if (graphicsmode == 2) { if (frames==2) picnum+=((((4-(totalclock>>5)))&1)*5); if (frames==4) picnum+=((((4-(totalclock>>5)))&3)*5); if (frames==5) picnum+=(((totalclock>>5)%5))*5; } if (tilesizx[picnum] == 0) picnum -= 5; //Hack, for actors } break; default: break; } xp1 = mulscale14(sprite[i].x-pos.x,zoom); yp1 = mulscale14(sprite[i].y-pos.y-(tilesizy[picnum]<<2),zoom); if (i+16384 != pointhighlight || !(totalclock&32)) { shade = sprite[i].shade; if (shade < 6) shade = 6; } xp1 += halfxdim16; yp1 += midydim16; if (xp1 < 4 || xp1 > xdim-6 || yp1 < 4 || yp1 > ydim16-6) continue; rotatesprite(xp1<<16,yp1<<16,zoom<<5,ang,picnum, shade,sprite[i].pal,flags,0,0,xdim-1,ydim16-1); } } for (i=0; i= 256*/ && sprite[i].sectnum != MAXSECTORS) { xp1 = mulscale14(sprite[i].x-pos.x,zoom); yp1 = mulscale14(sprite[i].y-pos.y,zoom); radius = mulscale14(sprite[i].hitag,zoom); col = 6; if (i+16384 == pointhighlight) if (totalclock & 32) col += (2<<2); drawlinepat = 0xf0f0f0f0; drawcircle16(halfxdim16+xp1, midydim16+yp1, radius, editorcolors[(int32_t)col]); drawlinepat = 0xffffffff; // radius = mulscale15(sprite[i].hitag,zoom); // drawcircle16(halfxdim16+xp1, midydim16+yp1, radius, col); } enddrawing(); } void ExtAnalyzeSprites(void) { int32_t i, k; spritetype *tspr; int32_t frames=0, l; for (i=0,tspr=&tsprite[0]; ipicnum<11) tspr->xrepeat=0; if (nosprites==1||nosprites==3) switch (tspr->picnum) { case SEENINE : tspr->xrepeat=0; } if (shadepreview && !(tspr->cstat & 16)) { if (sector[tspr->sectnum].ceilingstat&1) l = sector[tspr->sectnum].ceilingshade; else { l = sector[tspr->sectnum].floorshade; if (sector[tspr->sectnum].floorpal != 0 && sector[tspr->sectnum].floorpal < num_tables) tspr->pal=sector[tspr->sectnum].floorpal; } if (l < -127) l = -127; if (l > 126) l = 127; tspr->shade = l; } switch (tspr->picnum) { // 5-frame walk case 1550 : // Shark frames=5; // 2-frame walk case 1445 : // duke kick case LIZTROOPDUCKING : case 2030 : // pig shot case OCTABRAIN : case PIGCOPDIVE : case 2190 : // liz capt shot case BOSS1SHOOT : case BOSS1LOB : case LIZTROOPSHOOT : if (frames==0) frames=2; // 4-frame walk case 1491 : // duke crawl case LIZTROOP : case LIZTROOPRUNNING : case PIGCOP : case LIZMAN : case BOSS1 : case BOSS2 : case BOSS3 : case BOSS4 : case NEWBEAST: if (frames==0) frames=4; case LIZTROOPJETPACK : case DRONE : case COMMANDER : case TANK : case RECON : if (frames==0) frames = 10; case CAMERA1: case APLAYER : if (frames==0) frames=1; case GREENSLIME : case EGG : case PIGCOPSTAYPUT : case LIZMANSTAYPUT: case LIZTROOPSTAYPUT : case LIZMANSPITTING : case LIZMANFEEDING : case LIZMANJUMP : if (skill!=4) { if (tspr->lotag>skill+1) { tspr->xrepeat=0; tspr->cstat=32768; break; } } if (nosprites==2||nosprites==3) { tspr->xrepeat=0; tspr->cstat=32768; } // else tspr->cstat&=32767; #if defined(USE_OPENGL) && defined(POLYMOST) if (!usemodels || md_tilehasmodel(tspr->picnum,tspr->pal) < 0) #endif { if (frames!=0) { if (frames==10) frames=0; k = getangle(tspr->x-pos.x,tspr->y-pos.y); k = (((tspr->ang+3072+128-k)&2047)>>8)&7; //This guy has only 5 pictures for 8 angles (3 are x-flipped) if (k <= 4) { tspr->picnum += k; tspr->cstat &= ~4; //clear x-flipping bit } else { tspr->picnum += 8-k; tspr->cstat |= 4; //set x-flipping bit } } if (frames==2) tspr->picnum+=((((4-(totalclock>>5)))&1)*5); if (frames==4) tspr->picnum+=((((4-(totalclock>>5)))&3)*5); if (frames==5) tspr->picnum+=(((totalclock>>5)%5))*5; if (tilesizx[tspr->picnum] == 0) tspr->picnum -= 5; //Hack, for actors } break; default: break; } } } #define MESSAGEX 3 // (xdimgame>>1) #define MESSAGEY 3 // ((i/charsperline)<<3)+(ydimgame-(ydimgame>>3))-(((getmessageleng-1)/charsperline)<<3) static void Keys2d3d(void) { int32_t i; if (keystatus[KEYSC_F12]) //F12 { screencapture("captxxxx.tga",keystatus[KEYSC_LSHIFT]|keystatus[KEYSC_RSHIFT]); message("Saved screenshot %04d",capturecount-1); keystatus[KEYSC_F12] = 0; } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_A]) // ' a { keystatus[KEYSC_A] = 0; if (qsetmode == 200) autosave=autosave?0:getnumber256("Autosave interval, in seconds: ",180,3600,0); else autosave=autosave?0:getnumber16("Autosave interval, in seconds: ",180,3600,0); if (autosave) message("Autosave enabled, interval: %d seconds",autosave); else message("Autosave disabled"); } if (keystatus[KEYSC_QUOTE] && keystatus[KEYSC_N]) // ' n { keystatus[KEYSC_N] = 0; noclip=!noclip; if (noclip) message("Clipping disabled"); else message("Clipping enabled"); } if (eitherCTRL && keystatus[KEYSC_N]) // CTRL+N { keystatus[KEYSC_N] = 0; spnoclip=!spnoclip; if (spnoclip) message("Sprite clipping disabled"); else message("Sprite clipping enabled"); } if ((totalclock > autosavetimer) && (autosave)) { if (asksave == 1) { fixspritesectors(); //Do this before saving! // updatesector(startposx,startposy,&startsectnum); ExtPreSaveMap(); saveboard("autosave.map",&startposx,&startposy,&startposz,&startang,&startsectnum); ExtSaveMap("autosave.map"); message("Board autosaved to AUTOSAVE.MAP"); asksave = 2; } autosavetimer = totalclock+120*autosave; } if (eitherCTRL) //CTRL { char *f; if (pathsearchmode) f = levelname; else { // virtual filesystem mode can't save to directories so drop the file into // the current directory f = strrchr(levelname, '/'); if (!f) f = levelname; else f++; } if (keystatus[KEYSC_P]) // Ctrl-P: Map playtesting { keystatus[KEYSC_P] = 0; if (!eitherALT) updatesector(pos.x, pos.y, &cursectnum); else updatesector(startposx, startposy, &startsectnum); if ((!eitherALT && cursectnum >= 0) || (eitherALT && startsectnum >= 0)) { char *param = " -map autosave.map -noinstancechecking"; char *fullparam; char current_cwd[BMAX_PATH]; int32_t slen = 0; BFILE *fp; if ((program_origcwd[0] == '\0') || !getcwd(current_cwd, BMAX_PATH)) current_cwd[0] = '\0'; else // Before we check if file exists, for the case there's no absolute path. chdir(program_origcwd); fp = fopen(game_executable, "rb"); // File exists? if (fp != NULL) fclose(fp); else { #ifdef _WIN32 fullparam = Bstrrchr(mapster32_fullpath, '\\'); #else fullparam = Bstrrchr(mapster32_fullpath, '/'); #endif if (fullparam) { slen = fullparam-mapster32_fullpath+1; Bstrncpy(game_executable, mapster32_fullpath, slen); // game_executable is now expected to not be NULL-terminated! Bstrcpy(game_executable+slen, DEFAULT_GAME_EXEC); } else Bstrcpy(game_executable, DEFAULT_GAME_LOCAL_EXEC); } if (current_cwd[0] != '\0') // Temporarily changing back, chdir(current_cwd); // after checking if file exists. if (testplay_addparam) slen = Bstrlen(testplay_addparam); // Considering the NULL character, quatation marks // and a possible extra space not in testplay_addparam, // the length should be Bstrlen(game_executable)+Bstrlen(param)+(slen+1)+2+1. fullparam = Bmalloc(Bstrlen(game_executable)+Bstrlen(param)+slen+4); Bsprintf(fullparam,"\"%s\"",game_executable); if (testplay_addparam) { Bstrcat(fullparam, " "); Bstrcat(fullparam, testplay_addparam); } Bstrcat(fullparam, param); fixspritesectors(); //Do this before saving! ExtPreSaveMap(); if (eitherALT) saveboard("autosave.map",&startposx,&startposy,&startposz,&startang,&startsectnum); else saveboard("autosave.map",&pos.x,&pos.y,&pos.z,&ang,&cursectnum); message("Board saved to AUTOSAVE.MAP. Starting the game..."); uninitmouse(); #ifdef _WIN32 { STARTUPINFO si; PROCESS_INFORMATION pi; ZeroMemory(&si,sizeof(si)); ZeroMemory(&pi,sizeof(pi)); si.cb = sizeof(si); if (!CreateProcess(NULL,fullparam,NULL,NULL,0,0,NULL,NULL,&si,&pi)) message("Error launching the game!"); else WaitForSingleObject(pi.hProcess,INFINITE); } #else if (current_cwd[0] != '\0') { chdir(program_origcwd); system(fullparam); // message("Error launching the game!"); chdir(current_cwd); } else system(fullparam); #endif // message("Error launching the game!"); message("Game process exited"); initmouse(); Bfree(fullparam); } else message("Position must be in valid player space to test map!"); } if (keystatus[KEYSC_S]) // S { if (levelname[0]) { fixspritesectors(); //Do this before saving! updatesector(startposx,startposy,&startsectnum); ExtPreSaveMap(); saveboard(f,&startposx,&startposy,&startposz,&startang,&startsectnum); ExtSaveMap(f); message("Board saved"); asksave = 0; keystatus[KEYSC_S] = 0; lastsave=totalclock; } } if (keystatus[KEYSC_L]) // L { extern int32_t grponlymode; extern void loadmhk(); if (totalclock < (lastsave + 120*10) || !AskIfSure("Are you sure you want to load the last saved map?")) { int32_t sposx=pos.x,sposy=pos.y,sposz=pos.z,sang=ang; lastsave=totalclock; highlightcnt = -1; // sectorhighlightstat = -1; // newnumwalls = -1; // joinsector[0] = -1; // circlewall = -1; // circlepoints = 7; for (i=MAXSECTORS-1; i>=0; i--) sector[i].extra = -1; for (i=MAXWALLS-1; i>=0; i--) wall[i].extra = -1; for (i=MAXSPRITES-1; i>=0; i--) sprite[i].extra = -1; ExtPreLoadMap(); i = loadboard(f,(!pathsearchmode&&grponlymode?2:0),&pos.x,&pos.y,&pos.z,&ang,&cursectnum); loadmhk(); if (i == -2) i = loadoldboard(f,(!pathsearchmode&&grponlymode?2:0),&pos.x,&pos.y,&pos.z,&ang,&cursectnum); if (i < 0) printmessage16("Invalid map format."); else { ExtLoadMap(f); if (mapversion < 7) message("Map %s loaded successfully and autoconverted to V7!",f); else message("Map %s loaded successfully",f); } updatenumsprites(); startposx = pos.x; startposy = pos.y; startposz = pos.z; startang = ang; startsectnum = cursectnum; pos.x=sposx; pos.y=sposy; pos.z=sposz; ang=sang; keystatus[KEYSC_L]=0; } } } if (keystatus[buildkeys[BK_MODE2D_3D]]) // Enter { getmessageleng = 0; getmessagetimeoff = 0; #if defined(_WIN32) && defined(DUKEOSD) if (qsetmode == 200) { OSD_SetFunctions( NULL, NULL, NULL, NULL, NULL, NULL, (int32_t(*)(void))GetTime, NULL ); } else { OSD_SetFunctions( /* GAME_drawosdchar, GAME_drawosdstr, GAME_drawosdcursor, GAME_getcolumnwidth, GAME_getrowheight,*/ 0,0,0,0,0, GAME_clearbackground, (int32_t(*)(void))GetTime, NULL ); } #endif } if (getmessageleng > 0) { // charsperline = 64; //if (dimensionmode[snum] == 2) charsperline = 80; /* if (qsetmode == 200) { for (i=0;i<=getmessageleng;i+=charsperline) { for (j=0;j640?0:1); printext256(MESSAGEX*(xdimgame/320.),MESSAGEY*(ydimgame/200.), (totalclock > (lastmessagetime + 120*5))?whitecol:256-5,-1,tempbuf,xdimgame>640?0:1); } enddrawing(); } } else */ if (qsetmode != 200) printmessage16(getmessage); if (totalclock > getmessagetimeoff) getmessageleng = 0; } } #undef EDUKE32_EXEC #undef EDUKE32_LOCALEXEC void ExtCheckKeys(void) { if (qsetmode == 200) { if (shadepreview) { int32_t i = 0; for (i=numsprites-1; i>=0; i--) if (sprite[i].picnum == SECTOREFFECTOR && (sprite[i].lotag == 12 || sprite[i].lotag == 3)) { int32_t w; int32_t start_wall = sector[sprite[i].sectnum].wallptr; int32_t end_wall = start_wall + sector[sprite[i].sectnum].wallnum; for (w = start_wall; w < end_wall; w++) { if (wallflag[w]) { wall[w].shade = wallshades[w]; wall[w].pal = wallpals[w]; wallflag[w] = 0; } /* if (wall[w].nextwall >= 0) { if (wallflag[wall[w].nextwall]) { wall[wall[w].nextwall].shade = wallshades[wall[w].nextwall]; wall[wall[w].nextwall].pal = wallpals[wall[w].nextwall]; wallflag[wall[w].nextwall] = 0; } } */ } sector[sprite[i].sectnum].floorshade = sectorshades[sprite[i].sectnum][0]; sector[sprite[i].sectnum].ceilingshade = sectorshades[sprite[i].sectnum][1]; sector[sprite[i].sectnum].floorpal = sectorpals[sprite[i].sectnum][0]; sector[sprite[i].sectnum].ceilingpal = sectorpals[sprite[i].sectnum][1]; w = headspritesect[sprite[i].sectnum]; while (w >= 0) { if (w == i) { w = nextspritesect[w]; continue; } sprite[w].shade = spriteshades[w]; sprite[w].pal = spritepals[w]; w = nextspritesect[w]; } } } } readmousebstatus(&bstatus); Keys2d3d(); if (qsetmode == 200) //In 3D mode { Keys3d(); if (sidemode != 1) { editinput(); if (infobox&2)m32_showmouse(); } return; } Keys2d(); } void faketimerhandler(void) { int32_t i, dist; int32_t hiz, hihit, loz, lohit, oposx, oposy; int16_t hitwall, daang; counter++; if (counter>=5) counter=0; sampletimer(); if (totalclock < ototalclock+TICSPERFRAME || qsetmode != 200 || sidemode != 1) return; ototalclock = totalclock; oposx = pos.x; oposy = pos.y; hitwall = clipmove(&pos,&cursectnum,xvel,yvel,128L,4L<<8,4L<<8,0); xvel = ((pos.x-oposx)<<14); yvel = ((pos.y-oposy)<<14); yvel += 80000; if ((hitwall&0xc000) == 32768) { hitwall &= (MAXWALLS-1); i = wall[hitwall].point2; daang = getangle(wall[i].x-wall[hitwall].x,wall[i].y-wall[hitwall].y); xvel -= (xvel>>4); if (xvel < 0) xvel++; if (xvel > 0) xvel--; yvel -= (yvel>>4); if (yvel < 0) yvel++; if (yvel > 0) yvel--; i = 4-keystatus[buildkeys[BK_RUN]]; xvel += mulscale(vel,(int32_t)sintable[(ang+512)&2047],i); yvel += mulscale(vel,(int32_t)sintable[ang&2047],i); if (((daang-ang)&2047) < 1024) ang = ((ang+((((daang-ang)&2047)+24)>>4))&2047); else ang = ((ang-((((ang-daang)&2047)+24)>>4))&2047); timoff = ototalclock; } else { if (ototalclock > timoff+32) ang = ((ang+((timoff+32-ototalclock)>>4))&2047); } getzrange(&pos,cursectnum,&hiz,&hihit,&loz,&lohit,128L,0); oposx -= pos.x; oposy -= pos.y; dist = ksqrt(oposx*oposx+oposy*oposy); if (ototalclock > timoff+32) dist = 0; daang = mulscale(dist,angvel,9); pos.z += (daang<<6); if (pos.z > loz-(4<<8)) pos.z = loz-(4<<8), hvel = 0; if (pos.z < hiz+(4<<8)) pos.z = hiz+(4<<8), hvel = 0; horiz = ((horiz*7+(100-(daang>>1)))>>3); if (horiz < 100) horiz++; if (horiz > 100) horiz--; } extern int16_t brightness; static inline void SetBOSS1Palette() { if (acurpalette==3) return; acurpalette=3; setbrightness(brightness,BOSS1palette,0); } static inline void SetSLIMEPalette() { if (acurpalette==2) return; acurpalette=2; setbrightness(brightness,SLIMEpalette,0); } static inline void SetWATERPalette() { if (acurpalette==1) return; acurpalette=1; setbrightness(brightness,WATERpalette,0); } static inline void SetGAMEPalette() { if (acurpalette==0) return; acurpalette=0; setbrightness(brightness,GAMEpalette,0); } static void SearchSectorsForward() { int32_t ii=0; if (cursector_lotag!=0) { if (cursectornum Sector search: found"); // cursectornum++; keystatus[KEYSC_RBRACK]=0; // ] return; } cursectornum++; } } printmessage16("> Sector search: none found"); } static void SearchSectorsBackward() { int32_t ii=0; if (cursector_lotag!=0) { if (cursectornum>0) cursectornum--; for (ii=cursectornum; ii>=0; ii--) { if (sector[ii].lotag==cursector_lotag) { pos.x=wall[sector[ii].wallptr].x; pos.y=wall[sector[ii].wallptr].y; printmessage16("< Sector search: found"); // cursectornum--; keystatus[KEYSC_LBRACK]=0; // [ return; } cursectornum--; } } printmessage16("< Sector search: none found"); } // Build edit originally by Ed Coolidge static void EditSectorData(int16_t sectnum) { char disptext[80]; char edittext[80]; int32_t col=1, row=0, rowmax = 6, dispwidth = 24, editval = 0, i = -1; int32_t xpos = 200, ypos = ydim-STATUS2DSIZ+48; disptext[dispwidth] = 0; clearmidstatbar16(); showsectordata(sectnum); begindrawing(); while (keystatus[KEYSC_ESC] == 0) { if (handleevents()) { if (quitevent) quitevent = 0; } idle(); printmessage16("Edit mode, press to exit"); if (keystatus[KEYSC_DOWN]) { if (row < rowmax) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row++; } keystatus[KEYSC_DOWN] = 0; } if (keystatus[KEYSC_UP]) { if (row > 0) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row--; } keystatus[KEYSC_UP] = 0; } if (keystatus[KEYSC_LEFT]) { if (col == 2) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col = 1; xpos = 200; rowmax = 6; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } keystatus[KEYSC_LEFT] = 0; } if (keystatus[KEYSC_RIGHT]) { if (col == 1) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col = 2; xpos = 400; rowmax = 6; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } keystatus[KEYSC_RIGHT] = 0; } if (keystatus[KEYSC_ENTER]) { keystatus[KEYSC_ENTER] = 0; editval = 1; } if (col == 1) { switch (row) { case 0: for (i=Bsprintf(disptext,"Flags (hex): %x",sector[sectnum].ceilingstat); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Ceiling Flags: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].ceilingstat = (int16_t)getnumber16(edittext,(int32_t)sector[sectnum].ceilingstat,65536L,0); } break; case 1: for (i=Bsprintf(disptext,"(X,Y)pan: %d, %d",sector[sectnum].ceilingxpanning,sector[sectnum].ceilingypanning); i < dispwidth; i++) disptext[i] = ' '; if (editval) { Bsprintf(edittext,"Sector %d Ceiling X Pan: ",sectnum); printmessage16(edittext); sector[sectnum].ceilingxpanning = (char)getnumber16(edittext,(int32_t)sector[sectnum].ceilingxpanning,256L,0); Bsprintf(edittext,"Sector %d Ceiling Y Pan: ",sectnum); printmessage16(edittext); sector[sectnum].ceilingypanning = (char)getnumber16(edittext,(int32_t)sector[sectnum].ceilingypanning,256L,0); } break; case 2: for (i=Bsprintf(disptext,"Shade byte: %d",sector[sectnum].ceilingshade); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Ceiling Shade: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].ceilingshade = (char)getnumber16(edittext,(int32_t)sector[sectnum].ceilingshade,128L,1); } break; case 3: for (i=Bsprintf(disptext,"Z-coordinate: %d",sector[sectnum].ceilingz); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Ceiling Z-coordinate: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].ceilingz = getnumber16(edittext,sector[sectnum].ceilingz,8388608,1); //2147483647L,-2147483648L } break; case 4: for (i=Bsprintf(disptext,"Tile number: %d",sector[sectnum].ceilingpicnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Ceiling Tile Number: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].ceilingpicnum = (int16_t)getnumber16(edittext,(int32_t)sector[sectnum].ceilingpicnum,MAXTILES,0); } break; case 5: for (i=Bsprintf(disptext,"Ceiling heinum: %d",sector[sectnum].ceilingheinum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Ceiling Heinum: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].ceilingheinum = (int16_t)getnumber16(edittext,(int32_t)sector[sectnum].ceilingheinum,65536L,1); } break; case 6: for (i=Bsprintf(disptext,"Palookup number: %d",sector[sectnum].ceilingpal); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Ceiling Palookup Number: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].ceilingpal = (char)getnumber16(edittext,(int32_t)sector[sectnum].ceilingpal,MAXPALOOKUPS,0); } break; } } if (col == 2) { switch (row) { case 0: for (i=Bsprintf(disptext,"Flags (hex): %x",sector[sectnum].floorstat); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Floor Flags: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].floorstat = (int16_t)getnumber16(edittext,(int32_t)sector[sectnum].floorstat,65536L,0); } break; case 1: for (i=Bsprintf(disptext,"(X,Y)pan: %d, %d",sector[sectnum].floorxpanning,sector[sectnum].floorypanning); i < dispwidth; i++) disptext[i] = ' '; if (editval) { Bsprintf(edittext,"Sector %d Floor X Pan: ",sectnum); printmessage16(edittext); sector[sectnum].floorxpanning = (char)getnumber16(edittext,(int32_t)sector[sectnum].floorxpanning,256L,0); Bsprintf(edittext,"Sector %d Floor Y Pan: ",sectnum); printmessage16(edittext); sector[sectnum].floorypanning = (char)getnumber16(edittext,(int32_t)sector[sectnum].floorypanning,256L,0); } break; case 2: for (i=Bsprintf(disptext,"Shade byte: %d",sector[sectnum].floorshade); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Floor Shade: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].floorshade = (char)getnumber16(edittext,(int32_t)sector[sectnum].floorshade,128L,1L); } break; case 3: for (i=Bsprintf(disptext,"Z-coordinate: %d",sector[sectnum].floorz); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Floor Z-coordinate: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].floorz = getnumber16(edittext,sector[sectnum].floorz,8388608L,1); //2147483647L,-2147483648L } break; case 4: for (i=Bsprintf(disptext,"Tile number: %d",sector[sectnum].floorpicnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Floor Tile Number: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].floorpicnum = (int16_t)getnumber16(edittext,(int32_t)sector[sectnum].floorpicnum,MAXTILES,0); } break; case 5: for (i=Bsprintf(disptext,"Floor heinum: %d",sector[sectnum].floorheinum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Flooring Heinum: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].floorheinum = (int16_t)getnumber16(edittext,(int32_t)sector[sectnum].floorheinum,65536L,1); } break; case 6: for (i=Bsprintf(disptext,"Palookup number: %d",sector[sectnum].floorpal); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sector %d Floor Palookup Number: ",sectnum); if (editval) { printmessage16(edittext); sector[sectnum].floorpal = (char)getnumber16(edittext,(int32_t)sector[sectnum].floorpal,MAXPALOOKUPS,0); } break; } } printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[1],disptext,0); if (editval) { editval = 0; } showframe(1); } printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); printmessage16(""); enddrawing(); showframe(1); keystatus[KEYSC_ESC] = 0; } static void EditWallData(int16_t wallnum) { char disptext[80]; char edittext[80]; int32_t row=0, dispwidth = 24, editval = 0, i = -1; int32_t xpos = 200, ypos = ydim-STATUS2DSIZ+48; disptext[dispwidth] = 0; clearmidstatbar16(); showwalldata(wallnum); begindrawing(); while (keystatus[KEYSC_ESC] == 0) { if (handleevents()) { if (quitevent) quitevent = 0; } idle(); printmessage16("Edit mode, press to exit"); if (keystatus[KEYSC_DOWN]) { if (row < 6) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row++; } keystatus[KEYSC_DOWN] = 0; } if (keystatus[KEYSC_UP]) { if (row > 0) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row--; } keystatus[KEYSC_UP] = 0; } if (keystatus[KEYSC_ENTER]) { keystatus[KEYSC_ENTER] = 0; editval = 1; } switch (row) { case 0: for (i=Bsprintf(disptext,"Flags (hex): %x",wall[wallnum].cstat); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Wall %d Flags: ",wallnum); if (editval) { printmessage16(edittext); wall[wallnum].cstat = (int16_t)getnumber16(edittext,(int32_t)wall[wallnum].cstat,65536L,0); } break; case 1: for (i=Bsprintf(disptext,"Shade: %d",wall[wallnum].shade); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Wall %d Shade: ",wallnum); if (editval) { printmessage16(edittext); wall[wallnum].shade = (char)getnumber16(edittext,(int32_t)wall[wallnum].shade,128,1); } break; case 2: for (i=Bsprintf(disptext,"Pal: %d",wall[wallnum].pal); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Wall %d Pal: ",wallnum); if (editval) { printmessage16(edittext); wall[wallnum].pal = (char)getnumber16(edittext,(int32_t)wall[wallnum].pal,MAXPALOOKUPS,0); } break; case 3: for (i=Bsprintf(disptext,"(X,Y)repeat: %d, %d",wall[wallnum].xrepeat,wall[wallnum].yrepeat); i < dispwidth; i++) disptext[i] = ' '; if (editval) { Bsprintf(edittext,"Wall %d X Repeat: ",wallnum); printmessage16(edittext); wall[wallnum].xrepeat = (char)getnumber16(edittext,(int32_t)wall[wallnum].xrepeat,256L,0); Bsprintf(edittext,"Wall %d Y Repeat: ",wallnum); printmessage16(edittext); wall[wallnum].yrepeat = (char)getnumber16(edittext,(int32_t)wall[wallnum].yrepeat,256L,0); } break; case 4: for (i=Bsprintf(disptext,"(X,Y)pan: %d, %d",wall[wallnum].xpanning,wall[wallnum].ypanning); i < dispwidth; i++) disptext[i] = ' '; if (editval) { Bsprintf(edittext,"Wall %d X Pan: ",wallnum); printmessage16(edittext); wall[wallnum].xpanning = (char)getnumber16(edittext,(int32_t)wall[wallnum].xpanning,256L,0); Bsprintf(edittext,"Wall %d Y Pan: ",wallnum); printmessage16(edittext); wall[wallnum].ypanning = (char)getnumber16(edittext,(int32_t)wall[wallnum].ypanning,256L,0); } break; case 5: for (i=Bsprintf(disptext,"Tile number: %d",wall[wallnum].picnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Wall %d Tile number: ",wallnum); if (editval) { printmessage16(edittext); wall[wallnum].picnum = (int16_t)getnumber16(edittext,(int32_t)wall[wallnum].picnum,MAXTILES,0); } break; case 6: for (i=Bsprintf(disptext,"OverTile number: %d",wall[wallnum].overpicnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Wall %d OverTile number: ",wallnum); if (editval) { printmessage16(edittext); wall[wallnum].overpicnum = (int16_t)getnumber16(edittext,(int32_t)wall[wallnum].overpicnum,MAXTILES,0); } break; } printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[1],disptext,0); if (editval) { editval = 0; //showwalldata(wallnum); //printmessage16(""); } //enddrawing(); showframe(1); } //begindrawing(); printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); printmessage16(""); enddrawing(); showframe(1); keystatus[KEYSC_ESC] = 0; } static void EditSpriteData(int16_t spritenum) { char disptext[80]; char edittext[80]; int32_t col=0, row=0, rowmax=4, dispwidth = 24, editval = 0, i = -1; int32_t xpos = 8, ypos = ydim-STATUS2DSIZ+48; disptext[dispwidth] = 0; clearmidstatbar16(); showspritedata(spritenum); while (keystatus[KEYSC_ESC] == 0) { begindrawing(); if (handleevents()) { if (quitevent) quitevent = 0; } idle(); printmessage16("Edit mode, press to exit"); if (keystatus[KEYSC_DOWN]) { if (row < rowmax) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row++; } keystatus[KEYSC_DOWN] = 0; } if (keystatus[KEYSC_UP]) { if (row > 0) { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row--; } keystatus[KEYSC_UP] = 0; } if (keystatus[KEYSC_LEFT]) { switch (col) { case 1: { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col = 0; xpos = 8; rowmax = 4; dispwidth = 23; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } break; case 2: { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col = 1; xpos = 200; rowmax = 5; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } break; } keystatus[KEYSC_LEFT] = 0; } if (keystatus[KEYSC_RIGHT]) { switch (col) { case 0: { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col = 1; xpos = 200; rowmax = 5; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } break; case 1: { printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col = 2; xpos = 400; rowmax = 6; dispwidth = 26; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } break; } keystatus[KEYSC_RIGHT] = 0; } if (keystatus[KEYSC_ENTER]) { keystatus[KEYSC_ENTER] = 0; editval = 1; } switch (col) { case 0: { switch (row) { case 0: { for (i=Bsprintf(disptext,"X-coordinate: %d",sprite[spritenum].x); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d X-coordinate: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].x = getnumber16(edittext,sprite[spritenum].x,131072,1); } } break; case 1: { for (i=Bsprintf(disptext,"Y-coordinate: %d",sprite[spritenum].y); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Y-coordinate: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].y = getnumber16(edittext,sprite[spritenum].y,131072,1); } } break; case 2: { for (i=Bsprintf(disptext,"Z-coordinate: %d",sprite[spritenum].z); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Z-coordinate: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].z = getnumber16(edittext,sprite[spritenum].z,8388608,1); //2147483647L,-2147483648L } } break; case 3: { for (i=Bsprintf(disptext,"Sectnum: %d",sprite[spritenum].sectnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Sectnum: ",spritenum); if (editval) { printmessage16(edittext); i = getnumber16(edittext,sprite[spritenum].sectnum,MAXSECTORS-1,0); if (i != sprite[spritenum].sectnum) changespritesect(spritenum,i); } } break; case 4: { for (i=Bsprintf(disptext,"Statnum: %d",sprite[spritenum].statnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Statnum: ",spritenum); if (editval) { printmessage16(edittext); i = getnumber16(edittext,sprite[spritenum].statnum,MAXSTATUS-1,0); if (i != sprite[spritenum].statnum) changespritestat(spritenum,i); } } break; } } break; case 1: { switch (row) { case 0: { for (i=Bsprintf(disptext,"Flags (hex): %x",sprite[spritenum].cstat); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Flags: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].cstat = (int16_t)getnumber16(edittext,(int32_t)sprite[spritenum].cstat,65536L,0); } } break; case 1: { for (i=Bsprintf(disptext,"Shade: %d",sprite[spritenum].shade); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Shade: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].shade = (char)getnumber16(edittext,(int32_t)sprite[spritenum].shade,128,1); } } break; case 2: { for (i=Bsprintf(disptext,"Pal: %d",sprite[spritenum].pal); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Pal: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].pal = (char)getnumber16(edittext,(int32_t)sprite[spritenum].pal,MAXPALOOKUPS,0); } } break; case 3: { for (i=Bsprintf(disptext,"(X,Y)repeat: %d, %d",sprite[spritenum].xrepeat,sprite[spritenum].yrepeat); i < dispwidth; i++) disptext[i] = ' '; if (editval) { Bsprintf(edittext,"Sprite %d X Repeat: ",spritenum); printmessage16(edittext); sprite[spritenum].xrepeat = (char)getnumber16(edittext,(int32_t)sprite[spritenum].xrepeat,256L,0); Bsprintf(edittext,"Sprite %d Y Repeat: ",spritenum); printmessage16(edittext); sprite[spritenum].yrepeat = (char)getnumber16(edittext,(int32_t)sprite[spritenum].yrepeat,256L,0); } } break; case 4: { for (i=Bsprintf(disptext,"(X,Y)offset: %d, %d",sprite[spritenum].xoffset,sprite[spritenum].yoffset); i < dispwidth; i++) disptext[i] = ' '; if (editval) { Bsprintf(edittext,"Sprite %d X Offset: ",spritenum); printmessage16(edittext); sprite[spritenum].xoffset = (char)getnumber16(edittext,(int32_t)sprite[spritenum].xoffset,128L,1); Bsprintf(edittext,"Sprite %d Y Offset: ",spritenum); printmessage16(edittext); sprite[spritenum].yoffset = (char)getnumber16(edittext,(int32_t)sprite[spritenum].yoffset,128L,1); } } break; case 5: { for (i=Bsprintf(disptext,"Tile number: %d",sprite[spritenum].picnum); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Tile number: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].picnum = (int16_t)getnumber16(edittext,(int32_t)sprite[spritenum].picnum,MAXTILES,0); } } break; } } break; case 2: { switch (row) { case 0: { for (i=Bsprintf(disptext,"Angle (2048 degrees): %d",sprite[spritenum].ang); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Angle: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].ang = (int16_t)getnumber16(edittext,(int32_t)sprite[spritenum].ang,2048L,0); } } break; case 1: { for (i=Bsprintf(disptext,"X-Velocity: %d",sprite[spritenum].xvel); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d X-Velocity: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].xvel = getnumber16(edittext,(int32_t)sprite[spritenum].xvel,65536,1); } } break; case 2: { for (i=Bsprintf(disptext,"Y-Velocity: %d",sprite[spritenum].yvel); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Y-Velocity: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].yvel = getnumber16(edittext,(int32_t)sprite[spritenum].yvel,65536,1); } } break; case 3: { for (i=Bsprintf(disptext,"Z-Velocity: %d",sprite[spritenum].zvel); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Z-Velocity: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].zvel = getnumber16(edittext,(int32_t)sprite[spritenum].zvel,65536,1); } } break; case 4: { for (i=Bsprintf(disptext,"Owner: %d",sprite[spritenum].owner); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Owner: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].owner = getnumber16(edittext,(int32_t)sprite[spritenum].owner,MAXSPRITES,0); } } break; case 5: { for (i=Bsprintf(disptext,"Clipdist: %d",sprite[spritenum].clipdist); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Clipdist: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].clipdist = (char)getnumber16(edittext,(int32_t)sprite[spritenum].clipdist,256,0); } } break; case 6: { for (i=Bsprintf(disptext,"Extra: %d",sprite[spritenum].extra); i < dispwidth; i++) disptext[i] = ' '; Bsprintf(edittext,"Sprite %d Extra: ",spritenum); if (editval) { printmessage16(edittext); sprite[spritenum].extra = getnumber16(edittext,(int32_t)sprite[spritenum].extra,65536,1); } } break; } } break; } printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[1],disptext,0); if (editval) { editval = 0; } enddrawing(); showframe(1); } begindrawing(); printext16(xpos,ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); printmessage16(""); enddrawing(); showframe(1); keystatus[KEYSC_ESC] = 0; } static void GenSearchSprite() { char disptext[80]; char edittext[80]; static int32_t col=0, row=0; int32_t i, j, k; int32_t rowmax[3]={6,5,6}, dispwidth[3] = {24,24,28}; int32_t xpos[3] = {8,200,400}, ypos = ydim-STATUS2DSIZ+48; static char *labels[7][3] = { {"X-coordinate", "Flags (hex)", "Angle (2048 degrees)"}, {"Y-coordinate", "Shade", "X-Velocity"}, {"Z-coordinate", "Pal", "Y-Velocity"}, {"Sectnum", "(X/Y)repeat", "Z-Velocity"}, {"Statnum", "(X/Y)offset", "Owner"}, {"Hitag", "Tile number", "Clipdist"}, {"Lotag", "", "Extra"} }; static int32_t maxval[7][3] = { { 524288 , 65536 , 2048 }, { 524288 , 128 , 65536 }, { 8388608 , MAXPALOOKUPS, 65536 }, { MAXSECTORS-1, 128 , 65536 }, { MAXSTATUS-1 , 128 , MAXSPRITES-1 }, { 65536 , MAXTILES , 256 }, { 65536 , 0 , 65536 } }; static char sign[7][3] = { {1,0,1}, {1,1,1}, {1,0,1}, {0,0,1}, {0,1,0}, {0,0,0}, {0,0,1} }; static char firstrun=1; if (firstrun) { firstrun = 0; Bmemset(&gs_spritewhat, 0, sizeof(gs_spritewhat)); } clearmidstatbar16(); printext16(xpos[0], ypos-2*8, editorcolors[10], editorcolors[0], "Sprite search", 0); for (i=0; i<3; i++) for (j=0; j<=rowmax[i]; j++) { if (gs_spritewhat[i][j]) k=Bsprintf(disptext, "%s: ^O%d", labels[j][i], gs_sprite[i][j]); else k=Bsprintf(disptext, "%s: ^7any", labels[j][i]); for (; k to exit"); if (keystatus[KEYSC_DOWN]) { keystatus[KEYSC_DOWN] = 0; if (row < rowmax[col]) { printext16(xpos[col],ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row++; } } if (keystatus[KEYSC_UP]) { keystatus[KEYSC_UP] = 0; if (row > 0) { printext16(xpos[col],ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); row--; } } if (keystatus[KEYSC_LEFT]) { keystatus[KEYSC_LEFT] = 0; if (col > 0) { printext16(xpos[col],ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col--; disptext[dispwidth[col]] = 0; if (row > rowmax[col]) row = rowmax[col]; } } if (keystatus[KEYSC_RIGHT]) { keystatus[KEYSC_RIGHT] = 0; if (col < 2) { printext16(xpos[col],ypos+row*8,editorcolors[11],editorcolors[0],disptext,0); col++; disptext[dispwidth[col]] = 0; if (row > rowmax[col]) row = rowmax[col]; } } if (keystatus[KEYSC_ENTER]) { keystatus[KEYSC_ENTER] = 0; Bsprintf(edittext, "%s: ", labels[row][col]); enddrawing(); printmessage16(edittext); i = getnumber16(edittext, gs_spritewhat[col][row] ? gs_sprite[col][row] : 0, maxval[row][col], sign[row][col]); if (col == 2 && row == 0) i = (i+2048)&2047; // angle gs_sprite[col][row] = i; begindrawing(); gs_spritewhat[col][row] = 1; if (col == 1 && row == 5) // picnum printext16(xpos[1], ypos-2*8, editorcolors[14], editorcolors[0], names[i], 0); } if (keystatus[KEYSC_BS] || keystatus[KEYSC_DELETE]) { keystatus[KEYSC_BS] = keystatus[KEYSC_DELETE] = 0; gs_spritewhat[col][row] = 0; if (col == 1 && row == 5) // picnum printext16(xpos[1], ypos-2*8, editorcolors[14], editorcolors[0], " ", 0); } if (gs_spritewhat[col][row]) { if (col == 1 && row == 0) // flags k = Bsprintf(disptext, "%s: ^O%x", labels[row][col], gs_sprite[col][row]); else k = Bsprintf(disptext, "%s: ^O%d", labels[row][col], gs_sprite[col][row]); } else k = Bsprintf(disptext, "%s: ^7any", labels[row][col]); for (; k x2_max) x2_max = x2; y += MENU_Y_SPACING; } while (++i < numopts); // drawline16(x-1,y,x2_max+1,y,1); // drawline16(x-1,MENU_BASE_Y-4,x-1,y,1); // x2 = printext16(x,MENU_BASE_Y,editorcolors[11],editorcolors[0],"Special functions",0); // drawline16(x-1,MENU_BASE_Y-4,x2+1,MENU_BASE_Y-4,1); // drawline16(x2_max+1,MENU_BASE_Y+16-4,x2_max+1,y-1,1); //drawline16(x2+1,MENU_BASE_Y+16-1,x2_max+1,MENU_BASE_Y+16-1,1); } static void FuncMenu(void) { char disptext[80]; int32_t col=0, row=0, rowmax=7, dispwidth = 24, editval = 0, i = -1, j; int32_t xpos = 8, ypos = MENU_BASE_Y+16; disptext[dispwidth] = 0; clearmidstatbar16(); FuncMenuOpts(); while (!editval && keystatus[KEYSC_ESC] == 0) { begindrawing(); if (handleevents()) { if (quitevent) quitevent = 0; } idle(); printmessage16("Select an option, press to exit"); if (keystatus[KEYSC_DOWN]) { if (row < rowmax) { printext16(xpos,ypos+row*MENU_Y_SPACING,editorcolors[11],editorcolors[0],disptext,0); row++; } keystatus[KEYSC_DOWN] = 0; } if (keystatus[KEYSC_UP]) { if (row > 0) { printext16(xpos,ypos+row*MENU_Y_SPACING,editorcolors[11],editorcolors[0],disptext,0); row--; } keystatus[KEYSC_UP] = 0; } #if 0 if (keystatus[KEYSC_LEFT]) { /* if (col == 2) { printext16(xpos,ypos+row*8,editorcolors[11],0,disptext,0); col = 1; xpos = 200; rowmax = 6; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } else */ if (col == 1) { printext16(xpos,ypos+row*8,editorcolors[11],0,disptext,0); col = 0; xpos = 8; rowmax = 7; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } keystatus[KEYSC_LEFT] = 0; } if (keystatus[KEYSC_RIGHT]) { if (col == 0) { printext16(xpos,ypos+row*8,editorcolors[11],0,disptext,0); col = 1; xpos = 200; rowmax = 0; dispwidth = 24; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } /* else if (col == 1) { printext16(xpos,ypos+row*8,editorcolors[11],0,disptext,0); col = 2; xpos = 400; rowmax = 6; dispwidth = 26; disptext[dispwidth] = 0; if (row > rowmax) row = rowmax; } */ keystatus[KEYSC_RIGHT] = 0; } #endif if (keystatus[KEYSC_ENTER]) { keystatus[KEYSC_ENTER] = 0; editval = 1; } switch (col) { case 0: switch (row) { case 0: { for (i=Bsprintf(disptext,"%s",FuncMenuStrings[row]); i < dispwidth; i++) disptext[i] = ' '; if (editval) { j = 0; for (i=0; i= 0) { int32_t k = 0; for (j=0; j= 0) { sprite[w].x = (int32_t)(sprite[w].x*size); sprite[w].y = (int32_t)(sprite[w].y*size); sprite[w].z = (int32_t)(sprite[w].z*size); sprite[w].xrepeat = min(max((int32_t)(sprite[w].xrepeat*size),1),255); sprite[w].yrepeat = min(max((int32_t)(sprite[w].yrepeat*size),1),255); w = nextspritesect[w]; } } printmessage16("Map scaled"); } else printmessage16("Aborted"); } } break; case 6: { for (i=Bsprintf(disptext,"%s",FuncMenuStrings[row]); i < dispwidth; i++) disptext[i] = ' '; if (editval) { j=getnumber16("Shade divisor: ",1,128,1); if (j!=1) { for (i=0; i>4)/j; } printmessage16("Visibility adjusted"); } else printmessage16("Aborted"); } } break; } break; } printext16(xpos,ypos+row*MENU_Y_SPACING,editorcolors[11],editorcolors[1],disptext,0); enddrawing(); showframe(1); } begindrawing(); printext16(xpos,ypos+row*MENU_Y_SPACING,editorcolors[11],editorcolors[0],disptext,0); enddrawing(); clearmidstatbar16(); showframe(1); keystatus[KEYSC_ESC] = 0; } /* #define UNDODEPTH 96 typedef struct _mapundo { int32_t numsectors; int32_t numwalls; int32_t numsprites; sectortype *sectors; walltype *walls; spritetype *sprites; int16_t *headspritesect; int16_t *prevspritesect; int16_t *nextspritesect; int16_t *headspritestat; int16_t *prevspritestat; int16_t *nextspritestat; int32_t revision; struct _mapundo *next; // 'redo' loads this struct _mapundo *prev; // 'undo' loads this } mapundo_t; mapundo_t *undopos = NULL; mapundo_t undoredo[UNDODEPTH]; int32_t map_revision = 0; */