#if !defined(NO_CUSTOM_LEVELS) #define ED_DEFINITION #include "editor.h" #include #include #include #include #include #include "DeferCallbacks.h" #include "Entity.h" #include "Enums.h" #include "FileSystemUtils.h" #include "Graphics.h" #include "KeyPoll.h" #include "Map.h" #include "Music.h" #include "Script.h" #include "UtilityClass.h" #include "XMLUtils.h" #ifdef _WIN32 #define SCNx32 "x" #define SCNu32 "u" #else #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #ifndef _POSIX_SOURCE #define _POSIX_SOURCE #endif #include #endif edlevelclass::edlevelclass(void) { tileset=0; tilecol=0; warpdir=0; platx1=0; platy1=0; platx2=320; platy2=240; platv=4; enemyx1=0; enemyy1=0; enemyx2=320; enemyy2=240; enemytype=0; directmode=0; } editorclass::editorclass(void) { //We create a blank map SDL_memset(contents, 0, sizeof(contents)); for (size_t i = 0; i < SDL_arraysize(vmult); i++) { vmult[i] = i * 40 * maxwidth; } reset(); } // comparison, not case sensitive. static bool compare_nocase (std::string first, std::string second) { unsigned int i=0; while ( (iSDL_tolower(second[i])) return false; ++i; } if (first.length()"); //Encode general XML entities size_t start_pos = 0; while ((start_pos = value.find("&#", start_pos)) != std::string::npos) { if (start_pos + 2 >= value.length()) { return ""; } bool hex = value[start_pos + 2] == 'x'; size_t end = value.find(';', start_pos); if (end == std::string::npos) { return ""; } size_t real_start = start_pos + 2 + ((int) hex); std::string number(value.substr(real_start, end - real_start)); if (!is_positive_num(number.c_str(), hex)) { return ""; } uint32_t character = 0; if (hex) { SDL_sscanf(number.c_str(), "%" SCNx32, &character); } else { SDL_sscanf(number.c_str(), "%" SCNu32, &character); } uint32_t utf32[] = {character, 0}; std::string utf8; utf8::unchecked::utf32to8(utf32, utf32 + 1, std::back_inserter(utf8)); value.replace(start_pos, end - start_pos + 1, utf8); } return value; } #define TAG_FINDER(NAME, TAG) \ static std::string NAME(const std::string& buf) \ { \ return find_tag(buf, "<" TAG ">", ""); \ } TAG_FINDER(find_metadata, "MetaData"); //only for checking that it exists TAG_FINDER(find_creator, "Creator"); TAG_FINDER(find_title, "Title"); TAG_FINDER(find_desc1, "Desc1"); TAG_FINDER(find_desc2, "Desc2"); TAG_FINDER(find_desc3, "Desc3"); TAG_FINDER(find_website, "website"); #undef TAG_FINDER static void levelMetaDataCallback(const char* filename) { extern editorclass ed; LevelMetaData temp; std::string filename_ = filename; if (!endsWith(filename, ".vvvvvv") || !FILESYSTEM_isFile(filename) || FILESYSTEM_isMounted(filename)) { return; } if (ed.getLevelMetaData(filename_, temp)) { ed.ListOfMetaData.push_back(temp); } } void editorclass::getDirectoryData(void) { ListOfMetaData.clear(); loadZips(); FILESYSTEM_enumerateLevelDirFileNames(levelMetaDataCallback); for(size_t i = 0; i < ListOfMetaData.size(); i++) { for(size_t k = 0; k < ListOfMetaData.size(); k++) { if(compare_nocase(ListOfMetaData[i].title, ListOfMetaData[k].title )) { std::swap(ListOfMetaData[i] , ListOfMetaData[k]); } } } } bool editorclass::getLevelMetaData(std::string& _path, LevelMetaData& _data ) { unsigned char *uMem = NULL; FILESYSTEM_loadFileToMemory(_path.c_str(), &uMem, NULL, true); if (uMem == NULL) { printf("Level %s not found :(\n", _path.c_str()); return false; } std::string buf((char*) uMem); FILESYSTEM_freeMemory(&uMem); if (find_metadata(buf) == "") { printf("Couldn't load metadata for %s\n", _path.c_str()); return false; } _data.creator = find_creator(buf); _data.title = find_title(buf); _data.Desc1 = find_desc1(buf); _data.Desc2 = find_desc2(buf); _data.Desc3 = find_desc3(buf); _data.website = find_website(buf); _data.filename = _path; return true; } void editorclass::reset(void) { version=2; //New smaller format change is 2 mapwidth=5; mapheight=5; EditorData::GetInstance().title="Untitled Level"; EditorData::GetInstance().creator="Unknown"; Desc1=""; Desc2=""; Desc3=""; website=""; roomnamehide=0; zmod=false; xmod=false; cmod=false; vmod=false; hmod=false; bmod=false; spacemod=false; spacemenu=0; shiftmenu=false; shiftkey=false; saveandquit=false; note=""; notedelay=0; oldnotedelay=0; deletekeyheld=false; textmod = TEXT_NONE; titlemod=false; creatormod=false; desc1mod=false; desc2mod=false; desc3mod=false; websitemod=false; settingsmod=false; warpmod=false; //Two step process warpent=-1; boundarymod=0; boundarytype=0; boundx1=0; boundx2=0; boundy1=0; boundy2=0; textent=0; scripttexttype=0; drawmode=0; dmtile=0; dmtileeditor=0; entcol=0; tilex=0; tiley=0; levx=0; levy=0; keydelay=0; lclickdelay=0; savekey=false; loadkey=false; updatetiles=true; changeroom=true; levmusic=0; entframe=0; entframedelay=0; edentity.clear(); levmusic=0; for (int j = 0; j < maxheight; j++) { for (int i = 0; i < maxwidth; i++) { level[i+(j*maxwidth)].tileset=0; level[i+(j*maxwidth)].tilecol=(i+j)%32; level[i+(j*maxwidth)].roomname=""; level[i+(j*maxwidth)].warpdir=0; level[i+(j*maxwidth)].platx1=0; level[i+(j*maxwidth)].platy1=0; level[i+(j*maxwidth)].platx2=320; level[i+(j*maxwidth)].platy2=240; level[i+(j*maxwidth)].platv=4; level[i+(j*maxwidth)].enemyx1=0; level[i+(j*maxwidth)].enemyy1=0; level[i+(j*maxwidth)].enemyx2=320; level[i+(j*maxwidth)].enemyy2=240; level[i+(j*maxwidth)].enemytype=0; level[i+(j*maxwidth)].directmode=0; kludgewarpdir[i+(j*maxwidth)]=0; } } SDL_zeroa(contents); hooklist.clear(); sb.clear(); clearscriptbuffer(); sbx=0; sby=0; pagey=0; scripteditmod=false; sbscript="null"; scripthelppage=0; scripthelppagedelay=0; hookmenupage=0; hookmenu=0; script.clearcustom(); returneditoralpha = 0; oldreturneditoralpha = 0; ghosts.clear(); currentghosts = 0; onewaycol_override = false; loaded_filepath = ""; } void editorclass::gethooks(void) { //Scan through the script and create a hooks list based on it hooklist.clear(); for (size_t i = 0; i < script.customscripts.size(); i++) { Script& script_ = script.customscripts[i]; hooklist.push_back(script_.name); } } void editorclass::loadhookineditor(std::string t) { //Find hook t in the scriptclass, then load it into the editor clearscriptbuffer(); for(size_t i = 0; i < script.customscripts.size(); i++) { Script& script_ = script.customscripts[i]; if(script_.name == t) { sb = script_.contents; break; } } if(sb.empty()) { //Always have one line or we'll have problems sb.resize(1); } } void editorclass::addhooktoscript(std::string t) { //Adds hook+the scriptbuffer to the end of the scriptclass removehookfromscript(t); Script script_; script_.name = t; script_.contents = sb; script.customscripts.push_back(script_); } void editorclass::removehookfromscript(std::string t) { //Find hook t in the scriptclass, then removes it (and any other code with it) for (size_t i = 0; i < script.customscripts.size(); i++) { Script& script_ = script.customscripts[i]; if (script_.name == t) { script.customscripts.erase(script.customscripts.begin() + i); break; } } } void editorclass::removehook(std::string t) { //Check the hooklist for the hook t. If it's there, remove it from here and the script removehookfromscript(t); hooklist.erase(std::remove(hooklist.begin(), hooklist.end(), t), hooklist.end()); } void editorclass::addhook(std::string t) { //Add an empty function to the list in both editor and script removehook(t); hooklist.push_back(t); addhooktoscript(t); } bool editorclass::checkhook(std::string t) { //returns true if hook t already is in the list for(size_t i=0; i1) { sb.erase(sb.begin() + t); } } void editorclass::insertline(int t) { //insert a blank line into script at line t sb.insert(sb.begin() + t, ""); } void editorclass::getlin(const enum textmode mode, const std::string& prompt, std::string* ptr) { textmod = mode; textptr = ptr; textdesc = prompt; key.enabletextentry(); if (ptr) { key.keybuffer = *ptr; } else { key.keybuffer = ""; textptr = &(key.keybuffer); } oldenttext = key.keybuffer; } const short* editorclass::loadlevel( int rxi, int ryi ) { //Set up our buffer array to be picked up by mapclass rxi -= 100; ryi -= 100; if(rxi<0)rxi+=mapwidth; if(ryi<0)ryi+=mapheight; if(rxi>=mapwidth)rxi-=mapwidth; if(ryi>=mapheight)ryi-=mapheight; static short result[1200]; for (int j = 0; j < 30; j++) { for (int i = 0; i < 40; i++) { result[i + j*40] = gettile(rxi, ryi, i, j); } } return result; } int editorclass::getlevelcol(const int tileset, const int tilecol) { if(tileset==0) //Space Station { return tilecol; } else if(tileset==1) //Outside { return 32+tilecol; } else if(tileset==2) //Lab { return 40+tilecol; } else if(tileset==3) //Warp Zone { return 46+tilecol; } else if(tileset==4) //Ship { return 52+tilecol; } return 0; } int editorclass::getenemycol(int t) { switch(t) { //RED case 3: case 7: case 12: case 23: case 28: case 34: case 42: case 48: case 58: return 6; break; //GREEN case 5: case 9: case 22: case 25: case 29: case 31: case 38: case 46: case 52: case 53: return 7; break; //BLUE case 1: case 6: case 14: case 27: case 33: case 44: case 50: case 57: return 12; break; //YELLOW case 4: case 17: case 24: case 30: case 37: case 45: case 51: case 55: return 9; break; //PURPLE case 2: case 11: case 15: case 19: case 32: case 36: case 49: return 20; break; //CYAN case 8: case 10: case 13: case 18: case 26: case 35: case 41: case 47: case 54: return 11; break; //PINK case 16: case 20: case 39: case 43: case 56: return 8; break; //ORANGE case 21: case 40: return 17; break; default: return 6; break; } } int editorclass::getwarpbackground(int rx, int ry) { const edlevelclass* const room = getroomprop(rx, ry); switch(room->tileset) { case 0: //Space Station switch(room->tilecol) { case 0: return 3; break; case 1: return 2; break; case 2: return 1; break; case 3: return 4; break; case 4: return 5; break; case 5: return 3; break; case 6: return 1; break; case 7: return 0; break; case 8: return 5; break; case 9: return 0; break; case 10: return 2; break; case 11: return 1; break; case 12: return 5; break; case 13: return 0; break; case 14: return 3; break; case 15: return 2; break; case 16: return 4; break; case 17: return 0; break; case 18: return 3; break; case 19: return 1; break; case 20: return 4; break; case 21: return 5; break; case 22: return 1; break; case 23: return 4; break; case 24: return 5; break; case 25: return 0; break; case 26: return 3; break; case 27: return 1; break; case 28: return 5; break; case 29: return 4; break; case 30: return 5; break; case 31: return 2; break; default: return 6; break; } break; case 1: //Outside switch(room->tilecol) { case 0: return 3; break; case 1: return 1; break; case 2: return 0; break; case 3: return 2; break; case 4: return 4; break; case 5: return 5; break; case 6: return 2; break; case 7: return 4; break; default: return 6; break; } break; case 2: //Lab switch(room->tilecol) { case 0: return 0; break; case 1: return 1; break; case 2: return 2; break; case 3: return 3; break; case 4: return 4; break; case 5: return 5; break; case 6: return 6; break; default: return 6; break; } break; case 3: //Warp Zone switch(room->tilecol) { case 0: return 0; break; case 1: return 1; break; case 2: return 2; break; case 3: return 3; break; case 4: return 4; break; case 5: return 5; break; case 6: return 6; break; default: return 6; break; } break; case 4: //Ship switch(room->tilecol) { case 0: return 5; break; case 1: return 0; break; case 2: return 4; break; case 3: return 2; break; case 4: return 3; break; case 5: return 1; break; case 6: return 6; break; default: return 6; break; } break; case 5: //Tower return 6; break; default: return 6; break; } } int editorclass::getenemyframe(int t) { switch(t) { case 0: return 78; break; case 1: return 88; break; case 2: return 36; break; case 3: return 164; break; case 4: return 68; break; case 5: return 48; break; case 6: return 176; break; case 7: return 168; break; case 8: return 112; break; case 9: return 114; break; default: return 78; break; } } int editorclass::gettileidx( const int rx, const int ry, const int x, const int y ) { const int yoff = y + ry*30; int mult; int idx; if (INBOUNDS_ARR(yoff, vmult)) { mult = vmult[yoff]; } else { mult = 0; } idx = x + rx*40 + mult; return idx; } void editorclass::settile( const int rx, const int ry, const int x, const int y, const int t ) { const int idx = gettileidx(rx, ry, x, y); if (!INBOUNDS_ARR(idx, contents)) { return; } contents[idx] = t; } int editorclass::gettile( const int rx, const int ry, const int x, const int y ) { const int idx = gettileidx(rx, ry, x, y); if (!INBOUNDS_ARR(idx, contents)) { return 0; } return contents[idx]; } int editorclass::getabstile(const int x, const int y) { int idx; int yoff; if (INBOUNDS_ARR(y, vmult)) { yoff = vmult[y]; } else { yoff = 0; } idx = x + yoff; if (!INBOUNDS_ARR(idx, contents)) { return 0; } return contents[idx]; } int editorclass::getroompropidx(const int rx, const int ry) { return rx + ry*maxwidth; } const edlevelclass* editorclass::getroomprop(const int rx, const int ry) { const int idx = getroompropidx(rx, ry); if (INBOUNDS_ARR(idx, level)) { return &level[idx]; } static edlevelclass blank; blank.tileset = 1; blank.directmode = 1; blank.roomname.clear(); return ␣ } #define FOREACH_PROP(NAME, TYPE) \ void editorclass::setroom##NAME(const int rx, const int ry, const TYPE NAME) \ { \ const int idx = getroompropidx(rx, ry); \ \ if (!INBOUNDS_ARR(idx, level)) \ { \ return; \ } \ \ level[idx].NAME = NAME; \ } ROOM_PROPERTIES #undef FOREACH_PROP void editorclass::placetilelocal( int x, int y, int t ) { if(x>=0 && y>=0 && x<40 && y<30) { settile(levx, levy, x, y, t); } updatetiles=true; } int editorclass::base( int x, int y ) { //Return the base tile for the given tileset and colour const edlevelclass* const room = getroomprop(x, y); if(room->tileset==0) //Space Station { if(room->tilecol>=22) { return 483 + ((room->tilecol-22)*3); } else if(room->tilecol>=11) { return 283 + ((room->tilecol-11)*3); } else { return 83 + (room->tilecol*3); } } else if(room->tileset==1) //Outside { return 480 + (room->tilecol*3); } else if(room->tileset==2) //Lab { return 280 + (room->tilecol*3); } else if(room->tileset==3) //Warp Zone/Intermission { return 80 + (room->tilecol*3); } else if(room->tileset==4) //SHIP { return 101 + (room->tilecol*3); } return 0; } int editorclass::backbase( int x, int y ) { //Return the base tile for the background of the given tileset and colour const edlevelclass* const room = getroomprop(x, y); if(room->tileset==0) //Space Station { //Pick depending on tilecol switch(room->tilecol) { case 0: case 5: case 26: return 680; //Blue break; case 3: case 16: case 23: return 683; //Yellow break; case 9: case 12: case 21: return 686; //Greeny Cyan break; case 4: case 8: case 24: case 28: case 30: return 689; //Green break; case 20: case 29: return 692; //Orange break; case 2: case 6: case 11: case 22: case 27: return 695; //Red break; case 1: case 10: case 15: case 19: case 31: return 698; //Pink break; case 14: case 18: return 701; //Dark Blue break; case 7: case 13: case 17: case 25: return 704; //Cyan break; default: return 680; break; } } else if(room->tileset==1) //outside { return 680 + (room->tilecol*3); } else if(room->tileset==2) //Lab { return 0; } else if(room->tileset==3) //Warp Zone/Intermission { return 120 + (room->tilecol*3); } else if(room->tileset==4) //SHIP { return 741 + (room->tilecol*3); } return 0; } int editorclass::at( int x, int y ) { if(x<0) return at(0,y); if(y<0) return at(x,0); if(x>=40) return at(39,y); if(y>=30) return at(x,29); if(x>=0 && y>=0 && x<40 && y<30) { return gettile(levx, levy, x, y); } return 0; } int editorclass::freewrap( int x, int y ) { if(x<0) return freewrap(x+(mapwidth*40),y); if(y<0) return freewrap(x,y+(mapheight*30)); if(x>=(mapwidth*40)) return freewrap(x-(mapwidth*40),y); if(y>=(mapheight*30)) return freewrap(x,y-(mapheight*30)); if(x>=0 && y>=0 && x<(mapwidth*40) && y<(mapheight*30)) { if(getabstile(x, y)==0) { return 0; } else { if(getabstile(x, y)>=2 && getabstile(x, y)<80) { return 0; } if(getabstile(x, y)>=680) { return 0; } } } return 1; } int editorclass::backonlyfree( int x, int y ) { //Returns 1 if tile is a background tile, 0 otherwise if(x<0) return backonlyfree(0,y); if(y<0) return backonlyfree(x,0); if(x>=40) return backonlyfree(39,y); if(y>=30) return backonlyfree(x,29); if(x>=0 && y>=0 && x<40 && y<30) { if(gettile(levx, levy, x, y)>=680) { return 1; } } return 0; } int editorclass::backfree( int x, int y ) { //Returns 0 if tile is not a block or background tile, 1 otherwise if(x<0) return backfree(0,y); if(y<0) return backfree(x,0); if(x>=40) return backfree(39,y); if(y>=30) return backfree(x,29); if(x>=0 && y>=0 && x<40 && y<30) { if(gettile(levx, levy, x, y)==0) { return 0; } } return 1; } int editorclass::spikefree( int x, int y ) { //Returns 0 if tile is not a block or spike, 1 otherwise if(x==-1) return free(0,y); if(y==-1) return free(x,0); if(x==40) return free(39,y); if(y==30) return free(x,29); if(x>=0 && y>=0 && x<40 && y<30) { if(gettile(levx, levy, x, y)==0) { return 0; } else { if(gettile(levx, levy, x, y)>=680) { return 0; } } } return 1; } int editorclass::free( int x, int y ) { //Returns 0 if tile is not a block, 1 otherwise if(x==-1) return free(0,y); if(y==-1) return free(x,0); if(x==40) return free(39,y); if(y==30) return free(x,29); if(x>=0 && y>=0 && x<40 && y<30) { if(gettile(levx, levy, x, y)==0) { return 0; } else { if(gettile(levx, levy, x, y)>=2 && gettile(levx, levy, x, y)<80) { return 0; } if(gettile(levx, levy, x, y)>=680) { return 0; } } } return 1; } int editorclass::absfree( int x, int y ) { //Returns 0 if tile is not a block, 1 otherwise, abs on grid if(x>=0 && y>=0 && x=2 && getabstile(x, y)<80) { return 0; } if(getabstile(x, y)>=680) { return 0; } } } return 1; } int editorclass::match( int x, int y ) { if(free(x-1,y)==0 && free(x,y-1)==0 && free(x+1,y)==0 && free(x,y+1)==0) return 0; if(free(x-1,y)==0 && free(x,y-1)==0) return 10; if(free(x+1,y)==0 && free(x,y-1)==0) return 11; if(free(x-1,y)==0 && free(x,y+1)==0) return 12; if(free(x+1,y)==0 && free(x,y+1)==0) return 13; if(free(x,y-1)==0) return 1; if(free(x-1,y)==0) return 2; if(free(x,y+1)==0) return 3; if(free(x+1,y)==0) return 4; if(free(x-1,y-1)==0) return 5; if(free(x+1,y-1)==0) return 6; if(free(x-1,y+1)==0) return 7; if(free(x+1,y+1)==0) return 8; return 0; } int editorclass::outsidematch( int x, int y ) { if(backonlyfree(x-1,y)==0 && backonlyfree(x+1,y)==0) return 2; if(backonlyfree(x,y-1)==0 && backonlyfree(x,y+1)==0) return 1; return 0; } int editorclass::backmatch( int x, int y ) { //Returns the first position match for a border // 5 1 6 // 2 X 4 // 7 3 8 if(backfree(x-1,y)==0 && backfree(x,y-1)==0 && backfree(x+1,y)==0 && backfree(x,y+1)==0) return 0; if(backfree(x-1,y)==0 && backfree(x,y-1)==0) return 10; if(backfree(x+1,y)==0 && backfree(x,y-1)==0) return 11; if(backfree(x-1,y)==0 && backfree(x,y+1)==0) return 12; if(backfree(x+1,y)==0 && backfree(x,y+1)==0) return 13; if(backfree(x,y-1)==0) return 1; if(backfree(x-1,y)==0) return 2; if(backfree(x,y+1)==0) return 3; if(backfree(x+1,y)==0) return 4; if(backfree(x-1,y-1)==0) return 5; if(backfree(x+1,y-1)==0) return 6; if(backfree(x-1,y+1)==0) return 7; if(backfree(x+1,y+1)==0) return 8; return 0; } int editorclass::edgetile( int x, int y ) { switch(match(x,y)) { case 14: return 0; break; case 10: return 80; break; case 11: return 82; break; case 12: return 160; break; case 13: return 162; break; case 1: return 81; break; case 2: return 120; break; case 3: return 161; break; case 4: return 122; break; case 5: return 42; break; case 6: return 41; break; case 7: return 2; break; case 8: return 1; break; case 0: default: return 0; break; } } int editorclass::outsideedgetile( int x, int y ) { switch(outsidematch(x,y)) { case 2: return 0; break; case 1: return 1; break; case 0: default: return 2; break; } } int editorclass::backedgetile( int x, int y ) { switch(backmatch(x,y)) { case 14: return 0; break; case 10: return 80; break; case 11: return 82; break; case 12: return 160; break; case 13: return 162; break; case 1: return 81; break; case 2: return 120; break; case 3: return 161; break; case 4: return 122; break; case 5: return 42; break; case 6: return 41; break; case 7: return 2; break; case 8: return 1; break; case 0: default: return 0; break; } } int editorclass::labspikedir( int x, int y, int t ) { // a slightly more tricky case if(free(x,y+1)==1) return 63 + (t*2); if(free(x,y-1)==1) return 64 + (t*2); if(free(x-1,y)==1) return 51 + (t*2); if(free(x+1,y)==1) return 52 + (t*2); return 63 + (t*2); } int editorclass::spikedir( int x, int y ) { if(free(x,y+1)==1) return 8; if(free(x,y-1)==1) return 9; if(free(x-1,y)==1) return 49; if(free(x+1,y)==1) return 50; return 8; } void editorclass::findstartpoint(void) { //Ok! Scan the room for the closest checkpoint int testeditor=-1; //First up; is there a start point on this screen? for(size_t i=0; itileset; if (reversed) { tiles--; } else { tiles++; } const int modulus = SDL_arraysize(tilesets); tiles = (tiles % modulus + modulus) % modulus; setroomtileset(levx, levy, tiles); clamp_tilecol(levx, levy); char buffer[64]; SDL_snprintf(buffer, sizeof(buffer), "Now using %s Tileset", tilesets[tiles]); note = buffer; notedelay = 45; updatetiles = true; } void editorclass::switch_tilecol(const bool reversed /*= false*/) { int tilecol = getroomprop(levx, levy)->tilecol; if (reversed) { tilecol--; } else { tilecol++; } setroomtilecol(levx, levy, tilecol); clamp_tilecol(levx, levy, true); notedelay = 45; note = "Tileset Colour Changed"; updatetiles = true; } void editorclass::clamp_tilecol(const int rx, const int ry, const bool wrap /*= false*/) { const edlevelclass* const room = getroomprop(rx, ry); const int tileset = room->tileset; int tilecol = room->tilecol; int mincol = -1; int maxcol = 5; // Only Space Station allows tileset -1 if (tileset != 0) { mincol = 0; } switch (tileset) { case 0: maxcol = 31; break; case 1: maxcol = 7; break; case 3: maxcol = 6; break; case 5: maxcol = 29; break; } // If wrap is true, wrap-around, otherwise just cap if (tilecol > maxcol) { tilecol = (wrap ? mincol : maxcol); } if (tilecol < mincol) { tilecol = (wrap ? maxcol : mincol); } setroomtilecol(rx, ry, tilecol); } void editorclass::switch_enemy(const bool reversed /*= false*/) { const edlevelclass* const room = getroomprop(levx, levy); int enemy = room->enemytype; if (reversed) { enemy--; } else { enemy++; } const int modulus = 10; enemy = (enemy % modulus + modulus) % modulus; setroomenemytype(levx, levy, enemy); note = "Enemy Type Changed"; notedelay = 45; } bool editorclass::load(std::string& _path) { reset(); static const char *levelDir = "levels/"; if (_path.compare(0, SDL_strlen(levelDir), levelDir) != 0) { _path = levelDir + _path; } FILESYSTEM_unmountAssets(); if (game.playassets != "") { FILESYSTEM_mountAssets(game.playassets.c_str()); } else { FILESYSTEM_mountAssets(_path.c_str()); } tinyxml2::XMLDocument doc; if (!FILESYSTEM_loadTiXml2Document(_path.c_str(), doc)) { printf("No level %s to load :(\n", _path.c_str()); return false; } loaded_filepath = _path; tinyxml2::XMLHandle hDoc(&doc); tinyxml2::XMLElement* pElem; tinyxml2::XMLHandle hRoot(NULL); version = 0; { pElem=hDoc.FirstChildElement().ToElement(); // should always have a valid root but handle gracefully if it does if (!pElem) { printf("No valid root! Corrupt level file?\n"); } pElem->QueryIntAttribute("version", &version); // save this for later hRoot=tinyxml2::XMLHandle(pElem); } for( pElem = hRoot.FirstChildElement( "Data" ).FirstChild().ToElement(); pElem; pElem=pElem->NextSiblingElement()) { const char* pKey = pElem->Value(); const char* pText = pElem->GetText() ; if(pText == NULL) { pText = ""; } if (SDL_strcmp(pKey, "MetaData") == 0) { for( tinyxml2::XMLElement* subElem = pElem->FirstChildElement(); subElem; subElem= subElem->NextSiblingElement()) { const char* pKey_ = subElem->Value(); const char* pText_ = subElem->GetText() ; if(pText_ == NULL) { pText_ = ""; } if(SDL_strcmp(pKey_, "Creator") == 0) { EditorData::GetInstance().creator = pText_; } if(SDL_strcmp(pKey_, "Title") == 0) { EditorData::GetInstance().title = pText_; } if(SDL_strcmp(pKey_, "Desc1") == 0) { Desc1 = pText_; } if(SDL_strcmp(pKey_, "Desc2") == 0) { Desc2 = pText_; } if(SDL_strcmp(pKey_, "Desc3") == 0) { Desc3 = pText_; } if(SDL_strcmp(pKey_, "website") == 0) { website = pText_; } if(SDL_strcmp(pKey_, "onewaycol_override") == 0) { onewaycol_override = help.Int(pText_); } } } if (SDL_strcmp(pKey, "mapwidth") == 0) { mapwidth = help.Int(pText); } if (SDL_strcmp(pKey, "mapheight") == 0) { mapheight = help.Int(pText); } if (SDL_strcmp(pKey, "levmusic") == 0) { levmusic = help.Int(pText); } if (SDL_strcmp(pKey, "contents") == 0 && pText[0] != '\0') { int x = 0; int y = 0; char buffer[16]; size_t start = 0; while (next_split_s(buffer, sizeof(buffer), &start, pText, ',')) { const int idx = x + maxwidth*40*y; if (INBOUNDS_ARR(idx, contents)) { contents[idx] = help.Int(buffer); } ++x; if (x == mapwidth*40) { x = 0; ++y; } } } if (SDL_strcmp(pKey, "edEntities") == 0) { for( tinyxml2::XMLElement* edEntityEl = pElem->FirstChildElement(); edEntityEl; edEntityEl=edEntityEl->NextSiblingElement()) { edentities entity = edentities(); const char* text = edEntityEl->GetText(); if (text != NULL) { size_t len = SDL_strlen(text); // And now we come to the part where we have to deal with // the terrible decisions of the past. // // For some reason, the closing tag of edentities generated // by 2.2 and below has not only been put on a separate // line, but also indented to match with the opening tag as // well. Like this: // // contents // // // Instead of doing contents. // // This is COMPLETELY terrible. This requires the XML to be // parsed in an extremely specific and quirky way, which // TinyXML-1 just happened to do. // // TinyXML-2 by default interprets the newline and the next // indentation of whitespace literally, so you end up with // tag contents that has a linefeed plus a bunch of extra // spaces. You can't fix this by setting the whitespace // mode to COLLAPSE_WHITESPACE, that does way more than // TinyXML-1 ever did - it removes the leading whitespace // from things like this, and // collapses XML-encoded whitespace like // this, which TinyXML-1 never did. // // Best solution here is to specifically hardcode removing // the linefeed + the extremely specific amount of // whitespace at the end of the contents. if (endsWith(text, "\n ")) // linefeed + exactly 12 spaces { // 12 spaces + 1 linefeed = 13 chars len -= 13; } entity.scriptname = std::string(text, len); } edEntityEl->QueryIntAttribute("x", &entity.x); edEntityEl->QueryIntAttribute("y", &entity.y); edEntityEl->QueryIntAttribute("t", &entity.t); edEntityEl->QueryIntAttribute("p1", &entity.p1); edEntityEl->QueryIntAttribute("p2", &entity.p2); edEntityEl->QueryIntAttribute("p3", &entity.p3); edEntityEl->QueryIntAttribute("p4", &entity.p4); edEntityEl->QueryIntAttribute("p5", &entity.p5); edEntityEl->QueryIntAttribute("p6", &entity.p6); edentity.push_back(entity); } } if (SDL_strcmp(pKey, "levelMetaData") == 0) { int i = 0; for( tinyxml2::XMLElement* edLevelClassElement = pElem->FirstChildElement(); edLevelClassElement; edLevelClassElement=edLevelClassElement->NextSiblingElement()) { if (!INBOUNDS_ARR(i, level)) { continue; } if(edLevelClassElement->GetText() != NULL) { level[i].roomname = std::string(edLevelClassElement->GetText()) ; } edLevelClassElement->QueryIntAttribute("tileset", &level[i].tileset); edLevelClassElement->QueryIntAttribute("tilecol", &level[i].tilecol); edLevelClassElement->QueryIntAttribute("platx1", &level[i].platx1); edLevelClassElement->QueryIntAttribute("platy1", &level[i].platy1); edLevelClassElement->QueryIntAttribute("platx2", &level[i].platx2); edLevelClassElement->QueryIntAttribute("platy2", &level[i].platy2); edLevelClassElement->QueryIntAttribute("platv", &level[i].platv); edLevelClassElement->QueryIntAttribute("enemyx1", &level[i].enemyx1); edLevelClassElement->QueryIntAttribute("enemyy1", &level[i].enemyy1); edLevelClassElement->QueryIntAttribute("enemyx2", &level[i].enemyx2); edLevelClassElement->QueryIntAttribute("enemyy2", &level[i].enemyy2); edLevelClassElement->QueryIntAttribute("enemytype", &level[i].enemytype); edLevelClassElement->QueryIntAttribute("directmode", &level[i].directmode); edLevelClassElement->QueryIntAttribute("warpdir", &level[i].warpdir); i++; } } if (SDL_strcmp(pKey, "script") == 0 && pText[0] != '\0') { Script script_; bool headerfound = false; size_t start = 0; size_t len = 0; size_t prev_start = 0; while (next_split(&start, &len, &pText[start], '|')) { if (len > 0 && pText[prev_start + len - 1] == ':') { if (headerfound) { script.customscripts.push_back(script_); } script_.name = std::string(&pText[prev_start], len - 1); script_.contents.clear(); headerfound = true; goto next; } if (headerfound) { script_.contents.push_back(std::string(&pText[prev_start], len)); } next: prev_start = start; } /* Add the last script */ if (headerfound) { script.customscripts.push_back(script_); } } } gethooks(); version=2; return true; } bool editorclass::save(std::string& _path) { tinyxml2::XMLDocument doc; std::string newpath("levels/" + _path); // Try to preserve the XML of the currently-loaded one bool already_exists = !loaded_filepath.empty() && FILESYSTEM_loadTiXml2Document(loaded_filepath.c_str(), doc); if (!already_exists && !loaded_filepath.empty()) { printf("Currently-loaded %s not found\n", loaded_filepath.c_str()); } loaded_filepath = newpath; tinyxml2::XMLElement* msg; xml::update_declaration(doc); tinyxml2::XMLElement * root = xml::update_element(doc, "MapData"); root->SetAttribute("version",version); xml::update_comment(root, " Save file "); tinyxml2::XMLElement * data = xml::update_element(root, "Data"); msg = xml::update_element(data, "MetaData"); //getUser xml::update_tag(msg, "Creator", EditorData::GetInstance().creator.c_str()); xml::update_tag(msg, "Title", EditorData::GetInstance().title.c_str()); xml::update_tag(msg, "Created", version); xml::update_tag(msg, "Modified", EditorData::GetInstance().modifier.c_str()); xml::update_tag(msg, "Modifiers", version); xml::update_tag(msg, "Desc1", Desc1.c_str()); xml::update_tag(msg, "Desc2", Desc2.c_str()); xml::update_tag(msg, "Desc3", Desc3.c_str()); xml::update_tag(msg, "website", website.c_str()); if (onewaycol_override) { xml::update_tag(msg, "onewaycol_override", onewaycol_override); } else { // Delete the element. I could just delete one, but just to be sure, // I will delete all of them if there are more than one tinyxml2::XMLElement* element; while ((element = msg->FirstChildElement("onewaycol_override")) != NULL) { doc.DeleteNode(element); } } xml::update_tag(data, "mapwidth", mapwidth); xml::update_tag(data, "mapheight", mapheight); xml::update_tag(data, "levmusic", levmusic); //New save format std::string contentsString=""; for(int y = 0; y < mapheight*30; y++ ) { for(int x = 0; x < mapwidth*40; x++ ) { contentsString += help.String(getabstile(x, y)) + ","; } } xml::update_tag(data, "contents", contentsString.c_str()); msg = xml::update_element_delete_contents(data, "edEntities"); for(size_t i = 0; i < edentity.size(); i++) { tinyxml2::XMLElement *edentityElement = doc.NewElement( "edentity" ); edentityElement->SetAttribute( "x", edentity[i].x); edentityElement->SetAttribute( "y", edentity[i].y); edentityElement->SetAttribute( "t", edentity[i].t); edentityElement->SetAttribute( "p1", edentity[i].p1); edentityElement->SetAttribute( "p2", edentity[i].p2); edentityElement->SetAttribute( "p3", edentity[i].p3); edentityElement->SetAttribute( "p4", edentity[i].p4); edentityElement->SetAttribute( "p5", edentity[i].p5); edentityElement->SetAttribute( "p6", edentity[i].p6); edentityElement->LinkEndChild( doc.NewText( edentity[i].scriptname.c_str() )) ; msg->LinkEndChild( edentityElement ); } msg = xml::update_element_delete_contents(data, "levelMetaData"); for(size_t i = 0; i < SDL_arraysize(level); i++) { tinyxml2::XMLElement *edlevelclassElement = doc.NewElement( "edLevelClass" ); edlevelclassElement->SetAttribute( "tileset", level[i].tileset); edlevelclassElement->SetAttribute( "tilecol", level[i].tilecol); edlevelclassElement->SetAttribute( "platx1", level[i].platx1); edlevelclassElement->SetAttribute( "platy1", level[i].platy1); edlevelclassElement->SetAttribute( "platx2", level[i].platx2); edlevelclassElement->SetAttribute( "platy2", level[i].platy2); edlevelclassElement->SetAttribute( "platv", level[i].platv); edlevelclassElement->SetAttribute( "enemyx1", level[i].enemyx1); edlevelclassElement->SetAttribute( "enemyy1", level[i].enemyy1); edlevelclassElement->SetAttribute( "enemyx2", level[i].enemyx2); edlevelclassElement->SetAttribute( "enemyy2", level[i].enemyy2); edlevelclassElement->SetAttribute( "enemytype", level[i].enemytype); edlevelclassElement->SetAttribute( "directmode", level[i].directmode); edlevelclassElement->SetAttribute( "warpdir", level[i].warpdir); edlevelclassElement->LinkEndChild( doc.NewText( level[i].roomname.c_str() )) ; msg->LinkEndChild( edlevelclassElement ); } std::string scriptString; for(size_t i = 0; i < script.customscripts.size(); i++) { Script& script_ = script.customscripts[i]; scriptString += script_.name + ":|"; for (size_t ii = 0; ii < script_.contents.size(); ++ii) { scriptString += script_.contents[ii]; // Inserts a space if the line ends with a : if (script_.contents[ii].length() && *script_.contents[ii].rbegin() == ':') { scriptString += " "; } scriptString += "|"; } } xml::update_tag(data, "script", scriptString.c_str()); return FILESYSTEM_saveTiXml2Document(newpath.c_str(), doc); } static void addedentity( int xp, int yp, int tp, int p1 = 0, int p2 = 0, int p3 = 0, int p4 = 0, int p5 = 320, int p6 = 240) { edentities entity; entity.x=xp; entity.y=yp; entity.t=tp; entity.p1=p1; entity.p2=p2; entity.p3=p3; entity.p4=p4; entity.p5=p5; entity.p6=p6; entity.scriptname=""; edentity.push_back(entity); } static void removeedentity( int t ) { edentity.erase(edentity.begin() + t); } static int edentat( int xp, int yp ) { for(size_t i=0; itileset==1) tm=96; for(int j=0; j<36; j++) { for(int i=0; i<48; i++) { temp=absfree(int(i*0.83) + (i2*40),int(j*0.83)+(j2*30)); if(temp>=1) { //Fill in this pixel FillRect(graphics.images[12], (i2*48)+i, (j2*36)+j, 1, 1, graphics.getRGB(tm, tm, tm)); } } } } } } else if(mapheight<=10 && mapwidth<=10) { //2x map for(int j2=0; j2tileset==1) tm=96; for(int j=0; j<18; j++) { for(int i=0; i<24; i++) { temp=absfree(int(i*1.6) + (i2*40),int(j*1.6)+(j2*30)); if(temp>=1) { //Fill in this pixel FillRect(graphics.images[12], (i2*24)+i, (j2*18)+j, 1, 1, graphics.getRGB(tm, tm, tm)); } } } } } } else { for(int j2=0; j2tileset==1) tm=96; for(int j=0; j<9; j++) { for(int i=0; i<12; i++) { temp=absfree(3+(i*3) + (i2*40),(j*3)+(j2*30)); if(temp>=1) { //Fill in this pixel FillRect(graphics.images[12], (i2*12)+i, (j2*9)+j, 1, 1, graphics.getRGB(tm, tm, tm)); } } } } } } } #if !defined(NO_EDITOR) static void editormenurender(int tr, int tg, int tb) { extern editorclass ed; switch (game.currentmenuname) { case Menu::ed_settings: graphics.bigprint( -1, 75, "Map Settings", tr, tg, tb, true); if (game.currentmenuoption == 3) { if (!game.ghostsenabled) graphics.Print(2, 230, "Editor ghost trail is OFF", tr/2, tg/2, tb/2); else graphics.Print(2, 230, "Editor ghost trail is ON", tr, tg, tb); } break; case Menu::ed_desc: if(ed.titlemod) { if(ed.entframe<2) { graphics.bigprint( -1, 35, key.keybuffer+"_", tr, tg, tb, true); } else { graphics.bigprint( -1, 35, key.keybuffer+" ", tr, tg, tb, true); } } else { graphics.bigprint( -1, 35, EditorData::GetInstance().title, tr, tg, tb, true); } if(ed.creatormod) { if(ed.entframe<2) { graphics.Print( -1, 60, "by " + key.keybuffer+ "_", tr, tg, tb, true); } else { graphics.Print( -1, 60, "by " + key.keybuffer+ " ", tr, tg, tb, true); } } else { graphics.Print( -1, 60, "by " + EditorData::GetInstance().creator, tr, tg, tb, true); } if(ed.websitemod) { if(ed.entframe<2) { graphics.Print( -1, 70, key.keybuffer+"_", tr, tg, tb, true); } else { graphics.Print( -1, 70, key.keybuffer+" ", tr, tg, tb, true); } } else { graphics.Print( -1, 70, ed.website, tr, tg, tb, true); } if(ed.desc1mod) { if(ed.entframe<2) { graphics.Print( -1, 90, key.keybuffer+"_", tr, tg, tb, true); } else { graphics.Print( -1, 90, key.keybuffer+" ", tr, tg, tb, true); } } else { graphics.Print( -1, 90, ed.Desc1, tr, tg, tb, true); } if(ed.desc2mod) { if(ed.entframe<2) { graphics.Print( -1, 100, key.keybuffer+"_", tr, tg, tb, true); } else { graphics.Print( -1, 100, key.keybuffer+" ", tr, tg, tb, true); } } else { graphics.Print( -1, 100, ed.Desc2, tr, tg, tb, true); } if(ed.desc3mod) { if(ed.entframe<2) { graphics.Print( -1, 110, key.keybuffer+"_", tr, tg, tb, true); } else { graphics.Print( -1, 110, key.keybuffer+" ", tr, tg, tb, true); } } else { graphics.Print( -1, 110, ed.Desc3, tr, tg, tb, true); } break; case Menu::ed_music: { graphics.bigprint( -1, 65, "Map Music", tr, tg, tb, true); graphics.Print( -1, 85, "Current map music:", tr, tg, tb, true); std::string songname; switch(ed.levmusic) { case 0: songname = "No background music"; break; case 1: songname = "1: Pushing Onwards"; break; case 2: songname = "2: Positive Force"; break; case 3: songname = "3: Potential for Anything"; break; case 4: songname = "4: Passion for Exploring"; break; case 5: songname = "N/A: Pause"; break; case 6: songname = "5: Presenting VVVVVV"; break; case 7: songname = "N/A: Plenary"; break; case 8: songname = "6: Predestined Fate"; break; case 9: songname = "N/A: ecroF evitisoP"; break; case 10: songname = "7: Popular Potpourri"; break; case 11: songname = "8: Pipe Dream"; break; case 12: songname = "9: Pressure Cooker"; break; case 13: songname = "10: Paced Energy"; break; case 14: songname = "11: Piercing the Sky"; break; case 15: songname = "N/A: Predestined Fate Remix"; break; default: songname = "?: something else"; break; } graphics.Print( -1, 120, songname, tr, tg, tb, true); break; } case Menu::ed_quit: graphics.bigprint( -1, 90, "Save before", tr, tg, tb, true); graphics.bigprint( -1, 110, "quitting?", tr, tg, tb, true); break; default: break; } } void editorrender(void) { extern editorclass ed; const edlevelclass* const room = ed.getroomprop(ed.levx, ed.levy); //Draw grid ClearSurface(graphics.backBuffer); for(int j=0; j<30; j++) { for(int i=0; i<40; i++) { fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(8,8,8)); //a simple grid if(i%4==0) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(16,16,16)); if(j%4==0) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(16,16,16)); //Minor guides if(i==9) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(24,24,24)); if(i==30) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(24,24,24)); if(j==6 || j==7) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(24,24,24)); if(j==21 || j==22) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(24,24,24)); //Major guides if(i==20 || i==19) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(32,32,32)); if(j==14) fillbox(i*8, j*8, (i*8)+7, (j*8)+7, graphics.getRGB(32,32,32)); } } //Or draw background if(!ed.settingsmod) { switch(room->warpdir) { case 1: graphics.rcol=ed.getwarpbackground(ed.levx, ed.levy); graphics.drawbackground(3); break; case 2: graphics.rcol=ed.getwarpbackground(ed.levx, ed.levy); graphics.drawbackground(4); break; case 3: graphics.rcol=ed.getwarpbackground(ed.levx, ed.levy); graphics.drawbackground(5); break; default: break; } } //Draw map, in function int temp; if(room->tileset==0 || room->tileset==10) { for (int j = 0; j < 30; j++) { for (int i = 0; i < 40; i++) { temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>0) graphics.drawtile(i*8,j*8,temp); } } } else { for (int j = 0; j < 30; j++) { for (int i = 0; i < 40; i++) { temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>0) graphics.drawtile2(i*8,j*8,temp); } } } //Edge tile fix //Buffer the sides of the new room with tiles from other rooms, to ensure no gap problems. for(int j=0; j<30; j++) { //left edge if(ed.freewrap((ed.levx*40)-1,j+(ed.levy*30))==1) { FillRect(graphics.backBuffer, 0,j*8, 2,8, graphics.getRGB(255,255,255-help.glow)); } //right edge if(ed.freewrap((ed.levx*40)+40,j+(ed.levy*30))==1) { FillRect(graphics.backBuffer, 318,j*8, 2,8, graphics.getRGB(255,255,255-help.glow)); } } for(int i=0; i<40; i++) { if(ed.freewrap((ed.levx*40)+i,(ed.levy*30)-1)==1) { FillRect(graphics.backBuffer, i*8,0, 8,2, graphics.getRGB(255,255,255-help.glow)); } if(ed.freewrap((ed.levx*40)+i,30+(ed.levy*30))==1) { FillRect(graphics.backBuffer, i*8,238, 8,2, graphics.getRGB(255,255,255-help.glow)); } } //Draw entities obj.customplatformtile=game.customcol*12; int temp2=edentat(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30)); // Special case for drawing gray entities bool custom_gray = room->tileset == 3 && room->tilecol == 6; colourTransform gray_ct; gray_ct.colour = 0xFFFFFFFF; // Draw entities backward to remain accurate with ingame for (int i = edentity.size() - 1; i >= 0; i--) { point tpoint; SDL_Rect drawRect; //if() on screen if(edentity[i].x / 40 == ed.levx && edentity[i].y / 30 == ed.levy) { switch(edentity[i].t) { case 1: //Entities if (custom_gray) { graphics.setcol(18); ed.entcolreal = graphics.ct.colour; } graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),ed.getenemyframe(room->enemytype),ed.entcolreal); if(edentity[i].p1==0) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+4,(edentity[i].y*8)- (ed.levy*30*8)+4, "V", 255, 255, 255 - help.glow, false); if(edentity[i].p1==1) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+4,(edentity[i].y*8)- (ed.levy*30*8)+4, "^", 255, 255, 255 - help.glow, false); if(edentity[i].p1==2) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+4,(edentity[i].y*8)- (ed.levy*30*8)+4, "<", 255, 255, 255 - help.glow, false); if(edentity[i].p1==3) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+4,(edentity[i].y*8)- (ed.levy*30*8)+4, ">", 255, 255, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,16,graphics.getBGR(255,164,255)); break; case 2: //Threadmills & platforms if (!INBOUNDS_VEC(obj.customplatformtile, graphics.entcolours)) { continue; } tpoint.x = (edentity[i].x*8)- (ed.levx*40*8); tpoint.y = (edentity[i].y*8)- (ed.levy*30*8); drawRect = graphics.tiles_rect; drawRect.x += tpoint.x; drawRect.y += tpoint.y; for (int j = 0; j < 4; j++) { if (custom_gray) BlitSurfaceTinted(graphics.entcolours[obj.customplatformtile],NULL, graphics.backBuffer, &drawRect, gray_ct); else BlitSurfaceStandard(graphics.entcolours[obj.customplatformtile],NULL, graphics.backBuffer, &drawRect); drawRect.x += 8; } if(edentity[i].p1<=4) { if(edentity[i].p1==0) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+12,(edentity[i].y*8)- (ed.levy*30*8), "V", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); if(edentity[i].p1==1) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+12,(edentity[i].y*8)- (ed.levy*30*8), "^", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); if(edentity[i].p1==2) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+12,(edentity[i].y*8)- (ed.levy*30*8), "<", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); if(edentity[i].p1==3) graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+12,(edentity[i].y*8)- (ed.levy*30*8), ">", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),32,8,graphics.getBGR(255,255,255)); } if(edentity[i].p1==5) { graphics.Print((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8), ">>>>", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),32,8,graphics.getBGR(255,255,255)); } else if(edentity[i].p1==6) { graphics.Print((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8), "<<<<", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),32,8,graphics.getBGR(255,255,255)); } if(edentity[i].p1>=7) { tpoint.x = (edentity[i].x*8)- (ed.levx*40*8)+32; tpoint.y = (edentity[i].y*8)- (ed.levy*30*8); drawRect = graphics.tiles_rect; drawRect.x += tpoint.x; drawRect.y += tpoint.y; for (int j = 0; j < 4; j++) { if (custom_gray) BlitSurfaceTinted(graphics.entcolours[obj.customplatformtile],NULL, graphics.backBuffer, &drawRect, gray_ct); else BlitSurfaceStandard(graphics.entcolours[obj.customplatformtile],NULL, graphics.backBuffer, &drawRect); drawRect.x += 8; } } if(edentity[i].p1==7) { graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+4,(edentity[i].y*8)- (ed.levy*30*8), "> > > > ", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),64,8,graphics.getBGR(255,255,255)); } else if(edentity[i].p1==8) { graphics.Print((edentity[i].x*8)- (ed.levx*40*8)+4,(edentity[i].y*8)- (ed.levy*30*8), "< < < < ", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),64,8,graphics.getBGR(255,255,255)); } break; case 3: //Disappearing Platform if (!INBOUNDS_VEC(obj.customplatformtile, graphics.entcolours)) { continue; } tpoint.x = (edentity[i].x*8)- (ed.levx*40*8); tpoint.y = (edentity[i].y*8)- (ed.levy*30*8); drawRect = graphics.tiles_rect; drawRect.x += tpoint.x; drawRect.y += tpoint.y; for (int j = 0; j < 4; j++) { if (custom_gray) BlitSurfaceTinted(graphics.entcolours[obj.customplatformtile],NULL, graphics.backBuffer, &drawRect, gray_ct); else BlitSurfaceStandard(graphics.entcolours[obj.customplatformtile],NULL, graphics.backBuffer, &drawRect); drawRect.x += 8; } graphics.Print((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8), "////", 255 - help.glow, 255 - help.glow, 255 - help.glow, false); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),32,8,graphics.getBGR(255,255,255)); break; case 9: //Shiny Trinket graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),22,196,196,196); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,16,graphics.getRGB(164,164,255)); break; case 10: //Checkpoints graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),20 + edentity[i].p1,196,196,196); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,16,graphics.getRGB(164,164,255)); break; case 11: //Gravity lines if(edentity[i].p1==0) //Horizontal { int tx = edentity[i].p2; int tx2 = tx + edentity[i].p3/8; int ty = edentity[i].y % 30; FillRect(graphics.backBuffer, (tx*8),(ty*8)+4, (tx2-tx)*8,1, graphics.getRGB(194,194,194)); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),8,8,graphics.getRGB(164,255,164)); } else //Vertical { int tx = edentity[i].x % 40; int ty = edentity[i].p2; int ty2 = ty + edentity[i].p3/8; FillRect(graphics.backBuffer, (tx*8)+3,(ty*8), 1,(ty2-ty)*8, graphics.getRGB(194,194,194)); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),8,8,graphics.getRGB(164,255,164)); } break; case 13://Warp tokens graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),18+(ed.entframe%2),196,196,196); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,16,graphics.getRGB(164,164,255)); if(temp2==i) { graphics.bprint((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8)-8, "("+help.String(((edentity[i].p1-int(edentity[i].p1%40))/40)+1)+","+help.String(((edentity[i].p2-int(edentity[i].p2%30))/30)+1)+")",210,210,255); } else { graphics.bprint((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8)-8,help.String(ed.findwarptoken(i)),210,210,255); } break; case 15: //Crewmates graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8)-4,(edentity[i].y*8)- (ed.levy*30*8),144,graphics.crewcolourreal(edentity[i].p1)); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,24,graphics.getRGB(164,164,164)); break; case 16: //Start if(edentity[i].p1==0) //Left { graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8)-4,(edentity[i].y*8)- (ed.levy*30*8),0,graphics.col_crewcyan); } else if(edentity[i].p1==1) { graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8)-4,(edentity[i].y*8)- (ed.levy*30*8),3,graphics.col_crewcyan); } fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,24,graphics.getRGB(164,255,255)); if(ed.entframe<2) { graphics.bprint((edentity[i].x*8)- (ed.levx*40*8)-12,(edentity[i].y*8)- (ed.levy*30*8)-8,"START",255,255,255); } else { graphics.bprint((edentity[i].x*8)- (ed.levx*40*8)-12,(edentity[i].y*8)- (ed.levy*30*8)-8,"START",196,196,196); } break; case 17: //Roomtext if(edentity[i].scriptname.length()<1) { fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),8,8,graphics.getRGB(96,96,96)); } else { int length = utf8::unchecked::distance(edentity[i].scriptname.begin(), edentity[i].scriptname.end()); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),length*8,8,graphics.getRGB(96,96,96)); } graphics.Print((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8), edentity[i].scriptname, 196, 196, 255 - help.glow); break; case 18: //Terminals { int usethistile = edentity[i].p1; int usethisy = (edentity[i].y % 30) * 8; // Not a boolean: just swapping 0 and 1, leaving the rest alone if (usethistile == 0) { usethistile = 1; // Unflipped } else if (usethistile == 1) { usethistile = 0; // Flipped; usethisy -= 8; } graphics.drawsprite((edentity[i].x*8)- (ed.levx*40*8), usethisy + 8, usethistile + 16, 96,96,96); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),16,24,graphics.getRGB(164,164,164)); if(temp2==i) { graphics.bprint((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8)-8,edentity[i].scriptname,210,210,255); } break; } case 19: //Script Triggers fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),edentity[i].p1*8,edentity[i].p2*8,graphics.getRGB(255,164,255)); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),8,8,graphics.getRGB(255,255,255)); if(temp2==i) { graphics.bprint((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8)-8,edentity[i].scriptname,210,210,255); } break; case 50: //Warp lines if(edentity[i].p1>=2) //Horizontal { int tx=edentity[i].x-(ed.levx*40); int tx2=edentity[i].x-(ed.levx*40); int ty=edentity[i].y-(ed.levy*30); if (edentity[i].p4 != 1) { // Unlocked while(ed.free(tx,ty)==0) tx--; while(ed.free(tx2,ty)==0) tx2++; tx++; edentity[i].p2=tx; edentity[i].p3=(tx2-tx)*8; } else { // Locked tx = edentity[i].p2; tx2 = tx + edentity[i].p3/8; } fillboxabs((tx*8),(ty*8)+1, (tx2-tx)*8,6, graphics.getRGB(255,255,194)); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),8,8,graphics.getRGB(255,255,164)); } else //Vertical { int tx=edentity[i].x-(ed.levx*40); int ty=edentity[i].y-(ed.levy*30); int ty2=edentity[i].y-(ed.levy*30); if (edentity[i].p4 != 1) { // Unlocked while(ed.free(tx,ty)==0) ty--; while(ed.free(tx,ty2)==0) ty2++; ty++; edentity[i].p2=ty; edentity[i].p3=(ty2-ty)*8; } else { // Locked ty = edentity[i].p2; ty2 = ty + edentity[i].p3/8; } fillboxabs((tx*8)+1,(ty*8), 6,(ty2-ty)*8, graphics.getRGB(255,255,194)); fillboxabs((edentity[i].x*8)- (ed.levx*40*8),(edentity[i].y*8)- (ed.levy*30*8),8,8,graphics.getRGB(255,255,164)); } break; } } //Need to also check warp point destinations if(edentity[i].t==13 && ed.warpent!=i) { if (edentity[i].p1 / 40 == ed.levx && edentity[i].p2 / 30 == ed.levy) { graphics.drawsprite((edentity[i].p1*8)- (ed.levx*40*8),(edentity[i].p2*8)- (ed.levy*30*8),18+(ed.entframe%2),64,64,64); fillboxabs((edentity[i].p1*8)- (ed.levx*40*8),(edentity[i].p2*8)- (ed.levy*30*8),16,16,graphics.getRGB(64,64,96)); if(ed.tilex+(ed.levx*40)==edentity[i].p1 && ed.tiley+(ed.levy*30)==edentity[i].p2) { graphics.bprint((edentity[i].p1*8)- (ed.levx*40*8),(edentity[i].p2*8)- (ed.levy*30*8)-8, "("+help.String(((edentity[i].x-int(edentity[i].x%40))/40)+1)+","+help.String(((edentity[i].y-int(edentity[i].y%30))/30)+1)+")",190,190,225); } else { graphics.bprint((edentity[i].p1*8)- (ed.levx*40*8),(edentity[i].p2*8)- (ed.levy*30*8)-8,help.String(ed.findwarptoken(i)),190,190,225); } } } } if(ed.boundarymod>0) { if(ed.boundarymod==1) { fillboxabs(ed.tilex*8, ed.tiley*8, 8,8,graphics.getRGB(255-(help.glow/2),191+(help.glow),210+(help.glow/2))); fillboxabs((ed.tilex*8)+2, (ed.tiley*8)+2, 4,4,graphics.getRGB(128-(help.glow/4),100+(help.glow/2),105+(help.glow/4))); } else if(ed.boundarymod==2) { if((ed.tilex*8)+8<=ed.boundx1 || (ed.tiley*8)+8<=ed.boundy1) { fillboxabs(ed.boundx1, ed.boundy1, 8, 8,graphics.getRGB(255-(help.glow/2),191+(help.glow),210+(help.glow/2))); fillboxabs(ed.boundx1+2, ed.boundy1+2, 4, 4,graphics.getRGB(128-(help.glow/4),100+(help.glow/2),105+(help.glow/4))); } else { fillboxabs(ed.boundx1, ed.boundy1, (ed.tilex*8)+8-ed.boundx1,(ed.tiley*8)+8-ed.boundy1,graphics.getRGB(255-(help.glow/2),191+(help.glow),210+(help.glow/2))); fillboxabs(ed.boundx1+2, ed.boundy1+2, (ed.tilex*8)+8-ed.boundx1-4,(ed.tiley*8)+8-ed.boundy1-4,graphics.getRGB(128-(help.glow/4),100+(help.glow/2),105+(help.glow/4))); } } } else { //Draw boundaries if(room->enemyx1!=0 && room->enemyy1!=0 && room->enemyx2!=320 && room->enemyy2!=240) { fillboxabs( room->enemyx1, room->enemyy1, room->enemyx2-room->enemyx1, room->enemyy2-room->enemyy1, graphics.getBGR(255-(help.glow/2),64,64)); } if(room->platx1!=0 && room->platy1!=0 && room->platx2!=320 && room->platy2!=240) { fillboxabs( room->platx1, room->platy1, room->platx2-room->platx1, room->platy2-room->platy1, graphics.getBGR(64,64,255-(help.glow/2))); } } //Draw ghosts (spooky!) if (game.ghostsenabled) { ClearSurface(graphics.ghostbuffer); for (int i = 0; i < (int)ed.ghosts.size(); i++) { if (i <= ed.currentghosts) { // We don't want all of them to show up at once :) if (ed.ghosts[i].rx != ed.levx || ed.ghosts[i].ry != ed.levy || !INBOUNDS_VEC(ed.ghosts[i].frame, graphics.sprites)) continue; point tpoint; tpoint.x = ed.ghosts[i].x; tpoint.y = ed.ghosts[i].y; graphics.setcolreal(ed.ghosts[i].realcol); Uint32 alpha = graphics.ct.colour & graphics.backBuffer->format->Amask; Uint32 therest = graphics.ct.colour & 0x00FFFFFF; alpha = (3 * (alpha >> 24) / 4) << 24; graphics.ct.colour = therest | alpha; SDL_Rect drawRect = graphics.sprites_rect; drawRect.x += tpoint.x; drawRect.y += tpoint.y; BlitSurfaceColoured(graphics.sprites[ed.ghosts[i].frame],NULL, graphics.ghostbuffer, &drawRect, graphics.ct); } } SDL_BlitSurface(graphics.ghostbuffer, NULL, graphics.backBuffer, &graphics.bg_rect); } //Draw Cursor switch(ed.drawmode) { case 0: case 1: case 2: case 9: case 10: case 12: //Single point fillboxabs((ed.tilex*8),(ed.tiley*8),8,8, graphics.getRGB(200,32,32)); break; case 3: case 4: case 8: case 13://2x2 fillboxabs((ed.tilex*8),(ed.tiley*8),16,16, graphics.getRGB(200,32,32)); break; case 5: case 6: case 7://Platform fillboxabs((ed.tilex*8),(ed.tiley*8),32,8, graphics.getRGB(200,32,32)); break; case 14: //X if not on edge if(ed.tilex==0 || ed.tilex==39 || ed.tiley==0 || ed.tiley==29) { fillboxabs((ed.tilex*8),(ed.tiley*8),8,8, graphics.getRGB(200,32,32)); } else { graphics.Print((ed.tilex*8),(ed.tiley*8),"X",255,0,0); } break; case 11: case 15: case 16: //2x3 fillboxabs((ed.tilex*8),(ed.tiley*8),16,24, graphics.getRGB(200,32,32)); break; } if(ed.drawmode<3) { if(ed.bmod && ed.drawmode<2) { fillboxabs((ed.tilex*8),0,8,240,graphics.getRGB(200,32,32)); } else if(ed.hmod && ed.drawmode<2) { fillboxabs(0,(ed.tiley*8),320,8,graphics.getRGB(200,32,32)); } else if(ed.vmod && ed.drawmode<2) { fillboxabs((ed.tilex*8)-32,(ed.tiley*8)-32,24+48,24+48, graphics.getRGB(200,32,32)); } else if(ed.cmod && ed.drawmode<2) { fillboxabs((ed.tilex*8)-24,(ed.tiley*8)-24,24+32,24+32, graphics.getRGB(200,32,32)); } else if(ed.xmod && ed.drawmode<2) { fillboxabs((ed.tilex*8)-16,(ed.tiley*8)-16,24+16,24+16, graphics.getRGB(200,32,32)); } else if(ed.zmod && ed.drawmode<2) { fillboxabs((ed.tilex*8)-8,(ed.tiley*8)-8,24,24, graphics.getRGB(200,32,32)); } } //If in directmode, show current directmode tile if(room->directmode==1) { //Tile box for direct mode int t2=0; if(ed.dmtileeditor>0) { if(ed.dmtileeditor<=4) { t2=graphics.lerp((4-ed.dmtileeditor+1)*12, (4-ed.dmtileeditor)*12); } //Draw five lines of the editor temp=ed.dmtile-(ed.dmtile%40); temp-=80; FillRect(graphics.backBuffer, 0,-t2,320,40, graphics.getRGB(0,0,0)); FillRect(graphics.backBuffer, 0,-t2+40,320,2, graphics.getRGB(255,255,255)); if(room->tileset==0) { for(int i=0; i<40; i++) { graphics.drawtile(i*8,0-t2,(temp+1200+i)%1200); graphics.drawtile(i*8,8-t2,(temp+1200+40+i)%1200); graphics.drawtile(i*8,16-t2,(temp+1200+80+i)%1200); graphics.drawtile(i*8,24-t2,(temp+1200+120+i)%1200); graphics.drawtile(i*8,32-t2,(temp+1200+160+i)%1200); } } else { for(int i=0; i<40; i++) { graphics.drawtile2(i*8,0-t2,(temp+1200+i)%1200); graphics.drawtile2(i*8,8-t2,(temp+1200+40+i)%1200); graphics.drawtile2(i*8,16-t2,(temp+1200+80+i)%1200); graphics.drawtile2(i*8,24-t2,(temp+1200+120+i)%1200); graphics.drawtile2(i*8,32-t2,(temp+1200+160+i)%1200); } } //Highlight our little block fillboxabs(((ed.dmtile%40)*8)-2,16-t2-2,12,12,graphics.getRGB(196, 196, 255 - help.glow)); fillboxabs(((ed.dmtile%40)*8)-1,16-t2-1,10,10,graphics.getRGB(0,0,0)); } if(ed.dmtileeditor>0 && t2<=30) { graphics.bprint(2, 45-t2, "Tile:", 196, 196, 255 - help.glow, false); graphics.bprint(58, 45-t2, help.String(ed.dmtile), 196, 196, 255 - help.glow, false); FillRect(graphics.backBuffer, 44,44-t2,10,10, graphics.getRGB(196, 196, 255 - help.glow)); FillRect(graphics.backBuffer, 45,45-t2,8,8, graphics.getRGB(0,0,0)); if(room->tileset==0) { graphics.drawtile(45,45-t2,ed.dmtile); } else { graphics.drawtile2(45,45-t2,ed.dmtile); } } else { graphics.bprint(2, 12, "Tile:", 196, 196, 255 - help.glow, false); graphics.bprint(58, 12, help.String(ed.dmtile), 196, 196, 255 - help.glow, false); FillRect(graphics.backBuffer, 44,11,10,10, graphics.getRGB(196, 196, 255 - help.glow)); FillRect(graphics.backBuffer, 45,12,8,8, graphics.getRGB(0,0,0)); if(room->tileset==0) { graphics.drawtile(45,12,ed.dmtile); } else { graphics.drawtile2(45,12,ed.dmtile); } } } //Draw GUI if(ed.boundarymod>0) { if(ed.boundarymod==1) { FillRect(graphics.backBuffer, 0,230,320,240, graphics.getRGB(32,32,32)); FillRect(graphics.backBuffer, 0,231,320,240, graphics.getRGB(0,0,0)); switch(ed.boundarytype) { case 0: graphics.Print(4, 232, "SCRIPT BOX: Click on top left", 255,255,255, false); break; case 1: graphics.Print(4, 232, "ENEMY BOUNDS: Click on top left", 255,255,255, false); break; case 2: graphics.Print(4, 232, "PLATFORM BOUNDS: Click on top left", 255,255,255, false); break; case 3: graphics.Print(4, 232, "COPY TILES: Click on top left", 255,255,255, false); break; default: graphics.Print(4, 232, "Click on top left", 255,255,255, false); break; } } else if(ed.boundarymod==2) { FillRect(graphics.backBuffer, 0,230,320,240, graphics.getRGB(32,32,32)); FillRect(graphics.backBuffer, 0,231,320,240, graphics.getRGB(0,0,0)); switch(ed.boundarytype) { case 0: graphics.Print(4, 232, "SCRIPT BOX: Click on bottom right", 255,255,255, false); break; case 1: graphics.Print(4, 232, "ENEMY BOUNDS: Click on bottom right", 255,255,255, false); break; case 2: graphics.Print(4, 232, "PLATFORM BOUNDS: Click on bottom right", 255,255,255, false); break; case 3: graphics.Print(4, 232, "COPY TILES: Click on bottom right", 255,255,255, false); break; default: graphics.Print(4, 232, "Click on bottom right", 255,255,255, false); break; } } } else if(ed.scripteditmod) { //Elaborate C64 BASIC menu goes here! FillRect(graphics.backBuffer, 0,0,320,240, graphics.getBGR(123, 111, 218)); FillRect(graphics.backBuffer, 14,16,292,208, graphics.getRGB(162,48,61)); switch(ed.scripthelppage) { case 0: graphics.Print(16,28,"**** VVVVVV SCRIPT EDITOR ****", 123, 111, 218, true); graphics.Print(16,44,"PRESS ESC TO RETURN TO MENU", 123, 111, 218, true); if(!ed.hooklist.empty()) { for(int i=0; i<9; i++) { if(ed.hookmenupage+i<(int)ed.hooklist.size()) { if(ed.hookmenupage+i==ed.hookmenu) { std::string tstring="> " + ed.hooklist[(ed.hooklist.size()-1)-(ed.hookmenupage+i)] + " <"; for (size_t ii = 0; ii < tstring.length(); ii++) { tstring[ii] = SDL_toupper(tstring[ii]); } graphics.Print(16,68+(i*16),tstring,123, 111, 218, true); } else { graphics.Print(16,68+(i*16),ed.hooklist[(ed.hooklist.size()-1)-(ed.hookmenupage+i)],123, 111, 218, true); } } } } else { graphics.Print(16,110,"NO SCRIPT IDS FOUND", 123, 111, 218, true); graphics.Print(16,130,"CREATE A SCRIPT WITH EITHER", 123, 111, 218, true); graphics.Print(16,140,"THE TERMINAL OR SCRIPT BOX TOOLS", 123, 111, 218, true); } break; case 1: //Current scriptname FillRect(graphics.backBuffer, 14,226,292,12, graphics.getRGB(162,48,61)); graphics.Print(16,228,"CURRENT SCRIPT: " + ed.sbscript, 123, 111, 218, true); //Draw text for(int i=0; i<25; i++) { if(i+ed.pagey<(int)ed.sb.size()) { graphics.Print(16,20+(i*8),ed.sb[i+ed.pagey], 123, 111, 218, false); } } //Draw cursor if(ed.entframe<2) { graphics.Print(16+(ed.sbx*8),20+(ed.sby*8),"_",123, 111, 218, false); } break; } } else if(ed.settingsmod) { if(!game.colourblindmode) { graphics.drawtowerbackground(graphics.titlebg); } else { ClearSurface(graphics.backBuffer); } int tr = graphics.titlebg.r - (help.glow / 4) - int(fRandom() * 4); int tg = graphics.titlebg.g - (help.glow / 4) - int(fRandom() * 4); int tb = graphics.titlebg.b - (help.glow / 4) - int(fRandom() * 4); if (tr < 0) tr = 0; if(tr>255) tr=255; if (tg < 0) tg = 0; if(tg>255) tg=255; if (tb < 0) tb = 0; if(tb>255) tb=255; editormenurender(tr, tg, tb); graphics.drawmenu(tr, tg, tb); } else if (ed.textmod) { FillRect(graphics.backBuffer, 0, 221, 320, 240, graphics.getRGB(32, 32, 32)); FillRect(graphics.backBuffer, 0, 222, 320, 240, graphics.getRGB(0, 0, 0)); graphics.Print(4, 224, ed.textdesc, 255, 255, 255, false); std::string input = key.keybuffer; if (ed.entframe < 2) { input += "_"; } else { input += " "; } graphics.Print(4, 232, input, 196, 196, 255 - help.glow, true); } else if(ed.warpmod) { //placing warp token FillRect(graphics.backBuffer, 0,221,320,240, graphics.getRGB(32,32,32)); FillRect(graphics.backBuffer, 0,222,320,240, graphics.getRGB(0,0,0)); graphics.Print(4, 224, "Left click to place warp destination", 196, 196, 255 - help.glow, false); graphics.Print(4, 232, "Right click to cancel", 196, 196, 255 - help.glow, false); } else { if(ed.spacemod) { FillRect(graphics.backBuffer, 0,208,320,240, graphics.getRGB(32,32,32)); FillRect(graphics.backBuffer, 0,209,320,240, graphics.getRGB(0,0,0)); //Draw little icons for each thingy int tx=6, ty=211, tg=32; if(ed.spacemenu==0) { for(int i=0; i<10; i++) { FillRect(graphics.backBuffer, 4+(i*tg), 209,20,20,graphics.getRGB(32,32,32)); } FillRect(graphics.backBuffer, 4+(ed.drawmode*tg), 209,20,20,graphics.getRGB(64,64,64)); //0: graphics.drawtile(tx,ty,83); graphics.drawtile(tx+8,ty,83); graphics.drawtile(tx,ty+8,83); graphics.drawtile(tx+8,ty+8,83); //1: tx+=tg; graphics.drawtile(tx,ty,680); graphics.drawtile(tx+8,ty,680); graphics.drawtile(tx,ty+8,680); graphics.drawtile(tx+8,ty+8,680); //2: tx+=tg; graphics.drawtile(tx+4,ty+4,8); //3: tx+=tg; graphics.drawsprite(tx,ty,22,196,196,196); //4: tx+=tg; graphics.drawsprite(tx,ty,21,196,196,196); //5: tx+=tg; graphics.drawtile(tx,ty+4,3); graphics.drawtile(tx+8,ty+4,4); //6: tx+=tg; graphics.drawtile(tx,ty+4,24); graphics.drawtile(tx+8,ty+4,24); //7: tx+=tg; graphics.drawtile(tx,ty+4,1); graphics.drawtile(tx+8,ty+4,1); //8: tx+=tg; graphics.drawsprite(tx,ty,78+ed.entframe,196,196,196); //9: tx+=tg; FillRect(graphics.backBuffer, tx+2,ty+8,12,1,graphics.getRGB(255,255,255)); for (int i = 0; i < 10; i++) { fillboxabs(4+(i*tg), 209,20,20,graphics.getRGB(96,96,96)); const int col = i == ed.drawmode ? 255 : 164; const std::string glyph = i == 9 ? "0" : help.String(i + 1); graphics.Print(22 + i*tg - 4, 225 - 4, glyph, col, col, col, false); } fillboxabs(4+(ed.drawmode*tg), 209,20,20,graphics.getRGB(200,200,200)); graphics.Print(4, 232, "1/2", 196, 196, 255 - help.glow, false); } else { for(int i=0; i<7; i++) { FillRect(graphics.backBuffer, 4+(i*tg), 209,20,20,graphics.getRGB(32,32,32)); } FillRect(graphics.backBuffer, 4+((ed.drawmode-10)*tg), 209,20,20,graphics.getRGB(64,64,64)); //10: graphics.Print(tx,ty,"A",196, 196, 255 - help.glow, false); graphics.Print(tx+8,ty,"B",196, 196, 255 - help.glow, false); graphics.Print(tx,ty+8,"C",196, 196, 255 - help.glow, false); graphics.Print(tx+8,ty+8,"D",196, 196, 255 - help.glow, false); //11: tx+=tg; graphics.drawsprite(tx,ty,17,196,196,196); //12: tx+=tg; fillboxabs(tx+4,ty+4,8,8,graphics.getRGB(96,96,96)); //13: tx+=tg; graphics.drawsprite(tx,ty,18+(ed.entframe%2),196,196,196); //14: tx+=tg; FillRect(graphics.backBuffer, tx+6,ty+2,4,12,graphics.getRGB(255,255,255)); //15: tx+=tg; graphics.drawsprite(tx,ty,186,graphics.col_crewblue); //16: tx+=tg; graphics.drawsprite(tx,ty,184,graphics.col_crewcyan); for (int i = 0; i < 7; i++) { fillboxabs(4 + i*tg, 209, 20, 20, graphics.getRGB(96, 96, 96)); const int col = i + 10 == ed.drawmode ? 255 : 164; static const char glyphs[] = "RTYUIOP"; graphics.Print(22 + i*tg - 4, 225 - 4, std::string(1, glyphs[i]), col, col, col, false); } fillboxabs(4 + (ed.drawmode - 10) * tg, 209, 20, 20, graphics.getRGB(200, 200, 200)); graphics.Print(4, 232, "2/2", 196, 196, 255 - help.glow, false); } graphics.Print(128, 232, "< and > keys change tool", 196, 196, 255 - help.glow, false); FillRect(graphics.backBuffer, 0,198,120,10, graphics.getRGB(32,32,32)); FillRect(graphics.backBuffer, 0,199,119,9, graphics.getRGB(0,0,0)); switch(ed.drawmode) { case 0: graphics.bprint(2,199, "1: Walls",196, 196, 255 - help.glow); break; case 1: graphics.bprint(2,199, "2: Backing",196, 196, 255 - help.glow); break; case 2: graphics.bprint(2,199, "3: Spikes",196, 196, 255 - help.glow); break; case 3: graphics.bprint(2,199, "4: Trinkets",196, 196, 255 - help.glow); break; case 4: graphics.bprint(2,199, "5: Checkpoint",196, 196, 255 - help.glow); break; case 5: graphics.bprint(2,199, "6: Disappear",196, 196, 255 - help.glow); break; case 6: graphics.bprint(2,199, "7: Conveyors",196, 196, 255 - help.glow); break; case 7: graphics.bprint(2,199, "8: Moving",196, 196, 255 - help.glow); break; case 8: graphics.bprint(2,199, "9: Enemies",196, 196, 255 - help.glow); break; case 9: graphics.bprint(2,199, "0: Grav Line",196, 196, 255 - help.glow); break; case 10: graphics.bprint(2,199, "R: Roomtext",196, 196, 255 - help.glow); break; case 11: graphics.bprint(2,199, "T: Terminal",196, 196, 255 - help.glow); break; case 12: graphics.bprint(2,199, "Y: Script Box",196, 196, 255 - help.glow); break; case 13: graphics.bprint(2,199, "U: Warp Token",196, 196, 255 - help.glow); break; case 14: graphics.bprint(2,199, "I: Warp Lines",196, 196, 255 - help.glow); break; case 15: graphics.bprint(2,199, "O: Crewmate",196, 196, 255 - help.glow); break; case 16: graphics.bprint(2,199, "P: Start Point",196, 196, 255 - help.glow); break; } FillRect(graphics.backBuffer, 260,198,80,10, graphics.getRGB(32,32,32)); FillRect(graphics.backBuffer, 261,199,80,9, graphics.getRGB(0,0,0)); graphics.bprint(268,199, "("+help.String(ed.levx+1)+","+help.String(ed.levy+1)+")",196, 196, 255 - help.glow, false); } else { //FillRect(graphics.backBuffer, 0,230,72,240, graphics.RGB(32,32,32)); //FillRect(graphics.backBuffer, 0,231,71,240, graphics.RGB(0,0,0)); if(room->roomname!="") { if (graphics.translucentroomname) { graphics.footerrect.y = 230+ed.roomnamehide; SDL_BlitSurface(graphics.footerbuffer, NULL, graphics.backBuffer, &graphics.footerrect); } else { FillRect(graphics.backBuffer, 0,230+ed.roomnamehide,320,10, graphics.getRGB(0,0,0)); } graphics.bprint(5,231+ed.roomnamehide,room->roomname, 196, 196, 255 - help.glow, true); graphics.bprint(4, 222, "SPACE ^ SHIFT ^", 196, 196, 255 - help.glow, false); graphics.bprint(268,222, "("+help.String(ed.levx+1)+","+help.String(ed.levy+1)+")",196, 196, 255 - help.glow, false); } else { graphics.bprint(4, 232, "SPACE ^ SHIFT ^", 196, 196, 255 - help.glow, false); graphics.bprint(268,232, "("+help.String(ed.levx+1)+","+help.String(ed.levy+1)+")",196, 196, 255 - help.glow, false); } } if(ed.shiftmenu) { fillboxabs(0, 117,171+8,140,graphics.getRGB(64,64,64)); FillRect(graphics.backBuffer, 0,118,170+8,140, graphics.getRGB(0,0,0)); graphics.Print(4, 120, "F1: Change Tileset",164,164,164,false); graphics.Print(4, 130, "F2: Change Colour",164,164,164,false); graphics.Print(4, 140, "F3: Change Enemies",164,164,164,false); graphics.Print(4, 150, "F4: Enemy Bounds",164,164,164,false); graphics.Print(4, 160, "F5: Platform Bounds",164,164,164,false); graphics.Print(4, 180, "F9: Reload Resources",164,164,164,false); graphics.Print(4, 190, "F10: Direct Mode",164,164,164,false); graphics.Print(4, 210, "W: Change Warp Dir",164,164,164,false); graphics.Print(4, 220, "E: Change Roomname",164,164,164,false); fillboxabs(220, 207,100,60,graphics.getRGB(64,64,64)); FillRect(graphics.backBuffer, 221,208,160,60, graphics.getRGB(0,0,0)); graphics.Print(224, 210, "S: Save Map",164,164,164,false); graphics.Print(224, 220, "L: Load Map",164,164,164,false); } } if(!ed.settingsmod && !ed.scripteditmod) { //Same as above, without borders switch(ed.drawmode) { case 0: graphics.bprint(2,2, "1: Walls",196, 196, 255 - help.glow); break; case 1: graphics.bprint(2,2, "2: Backing",196, 196, 255 - help.glow); break; case 2: graphics.bprint(2,2, "3: Spikes",196, 196, 255 - help.glow); break; case 3: graphics.bprint(2,2, "4: Trinkets",196, 196, 255 - help.glow); break; case 4: graphics.bprint(2,2, "5: Checkpoint",196, 196, 255 - help.glow); break; case 5: graphics.bprint(2,2, "6: Disappear",196, 196, 255 - help.glow); break; case 6: graphics.bprint(2,2, "7: Conveyors",196, 196, 255 - help.glow); break; case 7: graphics.bprint(2,2, "8: Moving",196, 196, 255 - help.glow); break; case 8: graphics.bprint(2,2, "9: Enemies",196, 196, 255 - help.glow); break; case 9: graphics.bprint(2,2, "0: Grav Line",196, 196, 255 - help.glow); break; case 10: graphics.bprint(2,2, "R: Roomtext",196, 196, 255 - help.glow); break; case 11: graphics.bprint(2,2, "T: Terminal",196, 196, 255 - help.glow); break; case 12: graphics.bprint(2,2, "Y: Script Box",196, 196, 255 - help.glow); break; case 13: graphics.bprint(2,2, "U: Warp Token",196, 196, 255 - help.glow); break; case 14: graphics.bprint(2,2, "I: Warp Lines",196, 196, 255 - help.glow); break; case 15: graphics.bprint(2,2, "O: Crewmate",196, 196, 255 - help.glow); break; case 16: graphics.bprint(2,2, "P: Start Point",196, 196, 255 - help.glow); break; } } if(ed.notedelay>0 || ed.oldnotedelay>0) { float alpha = graphics.lerp(ed.oldnotedelay, ed.notedelay); FillRect(graphics.backBuffer, 0,115,320,18, graphics.getRGB(92,92,92)); FillRect(graphics.backBuffer, 0,116,320,16, graphics.getRGB(0,0,0)); graphics.Print(0,121, ed.note,196-((45.0f-alpha)*4), 196-((45.0f-alpha)*4), 196-((45.0f-alpha)*4), true); } graphics.drawfade(); graphics.render(); } void editorrenderfixed(void) { extern editorclass ed; const edlevelclass* const room = ed.getroomprop(ed.levx, ed.levy); graphics.updatetitlecolours(); game.customcol=ed.getlevelcol(room->tileset, room->tilecol)+1; ed.entcol=ed.getenemycol(game.customcol); graphics.setcol(ed.entcol); ed.entcolreal = graphics.ct.colour; if (game.ghostsenabled) { for (size_t i = 0; i < ed.ghosts.size(); i++) { GhostInfo& ghost = ed.ghosts[i]; if ((int) i > ed.currentghosts || ghost.rx != ed.levx || ghost.ry != ed.levy) { continue; } graphics.setcol(ghost.col); ghost.realcol = graphics.ct.colour; } if (ed.currentghosts + 1 < (int)ed.ghosts.size()) { ed.currentghosts++; if (ed.zmod) ed.currentghosts++; } else { ed.currentghosts = (int)ed.ghosts.size() - 1; } } if (!ed.settingsmod) { switch(room->warpdir) { case 1: graphics.rcol=ed.getwarpbackground(ed.levx, ed.levy); graphics.updatebackground(3); break; case 2: graphics.rcol=ed.getwarpbackground(ed.levx, ed.levy); graphics.updatebackground(4); break; case 3: graphics.rcol=ed.getwarpbackground(ed.levx, ed.levy); graphics.updatebackground(5); break; default: break; } } else if (!game.colourblindmode) { graphics.updatetowerbackground(graphics.titlebg); } /* Correct gravity lines */ for (size_t i = 0; i < edentity.size(); ++i) { if (edentity[i].x / 40 != ed.levx || edentity[i].y / 30 != ed.levy || edentity[i].t != 11 /* Is the gravity line locked? */ || edentity[i].p4 == 1) { continue; } if (edentity[i].p1 == 0) { /* Horizontal */ int tx = edentity[i].x % 40; int tx2 = tx; int ty = edentity[i].y % 30; while (!ed.spikefree(tx, ty)) { --tx; } while (!ed.spikefree(tx2, ty)) { ++tx2; } ++tx; edentity[i].p2 = tx; edentity[i].p3 = (tx2 - tx) * 8; } else { /* Vertical */ int tx = edentity[i].x % 40; int ty = edentity[i].y % 30; int ty2 = ty; /* Unlocked */ while (!ed.spikefree(tx, ty)) { --ty; } while (!ed.spikefree(tx, ty2)) { ++ty2; } ++ty; edentity[i].p2 = ty; edentity[i].p3 = (ty2 - ty) * 8; } } if (ed.getroomprop(ed.levx, ed.levy)->directmode == 1) { if (ed.dmtileeditor > 0) { ed.dmtileeditor--; } } else { ed.dmtileeditor = 0; } if (ed.getroomprop(ed.levx, ed.levy)->roomname != "") { if (ed.tiley < 28) { if (ed.roomnamehide > 0) { ed.roomnamehide--; } } else { if (ed.roomnamehide < 12) { ed.roomnamehide++; } } } else { if (ed.tiley < 28) { ed.roomnamehide = 0; } else { ed.roomnamehide = 12; } } } void editorlogic(void) { extern editorclass ed; //Misc help.updateglow(); graphics.titlebg.bypos -= 2; graphics.titlebg.bscroll = -2; ed.entframedelay--; if(ed.entframedelay<=0) { ed.entframe=(ed.entframe+1)%4; ed.entframedelay=8; } ed.oldnotedelay = ed.notedelay; if(ed.notedelay>0) { ed.notedelay--; } if (graphics.fademode == 1) { //Return to game graphics.titlebg.colstate = 10; map.nexttowercolour(); game.quittomenu(); music.play(6); //should be before game.quittomenu() ed.settingsmod=false; } } static void creategameoptions(void) { game.createmenu(Menu::options); } static void nextbgcolor(void) { map.nexttowercolour(); } static void editormenuactionpress(void) { extern editorclass ed; switch (game.currentmenuname) { case Menu::ed_desc: switch (game.currentmenuoption) { case 0: ed.titlemod=true; key.enabletextentry(); key.keybuffer=EditorData::GetInstance().title; break; case 1: ed.creatormod=true; key.enabletextentry(); key.keybuffer=EditorData::GetInstance().creator; break; case 2: ed.desc1mod=true; key.enabletextentry(); key.keybuffer=ed.Desc1; break; case 3: ed.websitemod=true; key.enabletextentry(); key.keybuffer=ed.website; break; case 4: music.playef(11); game.returnmenu(); map.nexttowercolour(); break; } break; case Menu::ed_settings: switch (game.currentmenuoption) { case 0: //Change level description stuff music.playef(11); game.createmenu(Menu::ed_desc); map.nexttowercolour(); break; case 1: //Enter script editormode music.playef(11); ed.scripteditmod=true; ed.clearscriptbuffer(); key.keybuffer=""; ed.hookmenupage=0; ed.hookmenu=0; ed.scripthelppage=0; ed.scripthelppagedelay=0; ed.sby=0; ed.sbx=0, ed.pagey=0; break; case 2: music.playef(11); game.createmenu(Menu::ed_music); map.nexttowercolour(); if(ed.levmusic>0) music.play(ed.levmusic); break; case 3: music.playef(11); game.ghostsenabled = !game.ghostsenabled; break; case 4: //Load level ed.settingsmod=false; graphics.backgrounddrawn=false; map.nexttowercolour(); ed.keydelay = 6; ed.getlin(TEXT_LOAD, "Enter map filename to load:", &(ed.filename)); game.mapheld=true; graphics.backgrounddrawn=false; break; case 5: //Save level ed.settingsmod=false; map.nexttowercolour(); ed.keydelay = 6; ed.getlin(TEXT_SAVE, "Enter map filename to save as:", &(ed.filename)); game.mapheld=true; graphics.backgrounddrawn=false; break; case 6: /* Game options */ music.playef(11); game.gamestate = TITLEMODE; game.ingame_titlemode = true; game.ingame_editormode = true; DEFER_CALLBACK(creategameoptions); DEFER_CALLBACK(nextbgcolor); break; default: music.playef(11); game.createmenu(Menu::ed_quit); map.nexttowercolour(); break; } break; case Menu::ed_music: switch (game.currentmenuoption) { case 0: case 1: switch (game.currentmenuoption) { case 0: ed.levmusic++; break; case 1: ed.levmusic--; break; } ed.levmusic = (ed.levmusic % 16 + 16) % 16; if(ed.levmusic>0) { music.play(ed.levmusic); } else { music.haltdasmusik(); } music.playef(11); break; case 2: music.playef(11); music.fadeout(); game.returnmenu(); map.nexttowercolour(); break; } break; case Menu::ed_quit: switch (game.currentmenuoption) { case 0: //Saving and quit ed.saveandquit=true; ed.settingsmod=false; map.nexttowercolour(); ed.keydelay = 6; ed.getlin(TEXT_SAVE, "Enter map filename to save as:", &(ed.filename)); game.mapheld=true; graphics.backgrounddrawn=false; break; case 1: //Quit without saving music.playef(11); music.fadeout(); graphics.fademode = 2; break; case 2: //Go back to editor music.playef(11); game.returnmenu(); map.nexttowercolour(); break; } break; default: break; } } void editorinput(void) { extern editorclass ed; game.mx = (float) key.mx; game.my = (float) key.my; ed.tilex=(game.mx - (game.mx%8))/8; ed.tiley=(game.my - (game.my%8))/8; if (graphics.screenbuffer->stretchMode == 1) { // In this mode specifically, we have to fix the mouse coordinates int winwidth, winheight; graphics.screenbuffer->GetWindowSize(&winwidth, &winheight); ed.tilex = ed.tilex * 320 / winwidth; ed.tiley = ed.tiley * 240 / winheight; } bool up_pressed = key.isDown(SDLK_UP) || key.isDown(SDL_CONTROLLER_BUTTON_DPAD_UP); bool down_pressed = key.isDown(SDLK_DOWN) || key.isDown(SDL_CONTROLLER_BUTTON_DPAD_DOWN); bool left_pressed = key.isDown(SDLK_LEFT) || key.isDown(SDL_CONTROLLER_BUTTON_DPAD_LEFT); bool right_pressed = key.isDown(SDLK_RIGHT) || key.isDown(SDL_CONTROLLER_BUTTON_DPAD_RIGHT); game.press_left = false; game.press_right = false; game.press_action = false; game.press_map = false; if (key.isDown(KEYBOARD_LEFT) || key.isDown(KEYBOARD_a) || key.controllerWantsLeft(false)) { game.press_left = true; } if (key.isDown(KEYBOARD_RIGHT) || key.isDown(KEYBOARD_d) || key.controllerWantsRight(false)) { game.press_right = true; } if (key.isDown(KEYBOARD_z) || key.isDown(KEYBOARD_SPACE) || key.isDown(KEYBOARD_v) || key.isDown(game.controllerButton_flip)) { game.press_action = true; }; if (key.keymap[SDLK_F9] && (ed.keydelay==0)) { ed.keydelay = 30; ed.note="Reloaded resources"; ed.notedelay=45; graphics.reloadresources(); } if (key.isDown(KEYBOARD_ENTER)) game.press_map = true; if (key.isDown(27) && !ed.settingskey) { ed.settingskey=true; if (ed.textmod) { key.disabletextentry(); if (ed.textmod >= FIRST_ENTTEXT && ed.textmod <= LAST_ENTTEXT) { *ed.textptr = ed.oldenttext; if (ed.oldenttext == "") { removeedentity(ed.textent); } } ed.textmod = TEXT_NONE; ed.shiftmenu = false; ed.shiftkey = false; } else if (key.textentry()) { key.disabletextentry(); ed.titlemod=false; ed.desc1mod=false; ed.desc2mod=false; ed.desc3mod=false; ed.websitemod=false; ed.creatormod=false; ed.shiftmenu=false; ed.shiftkey=false; } else if(ed.boundarymod>0) { ed.boundarymod=0; } else { music.playef(11); if (ed.settingsmod) { if (ed.scripteditmod) { ed.scripteditmod = false; } else if (ed.settingsmod) { if (game.currentmenuname == Menu::ed_settings) { ed.settingsmod = false; } else { game.returnmenu(); map.nexttowercolour(); } } } else { ed.settingsmod = true; } graphics.backgrounddrawn=false; if (ed.settingsmod) { bool edsettings_in_stack = false; for (size_t i = 0; i < game.menustack.size(); i++) { if (game.menustack[i].name == Menu::ed_settings) { edsettings_in_stack = true; break; } } if (edsettings_in_stack) { game.returntomenu(Menu::ed_settings); } else { game.createmenu(Menu::ed_settings); } map.nexttowercolour(); } } } if (!key.isDown(27)) { ed.settingskey=false; } if(key.keymap[SDLK_LCTRL] || key.keymap[SDLK_RCTRL]) { if(key.leftbutton) key.rightbutton=true; } if(ed.scripteditmod) { if(ed.scripthelppage==0) { //hook select menu if(ed.keydelay>0) ed.keydelay--; if(up_pressed && ed.keydelay<=0) { ed.keydelay=6; ed.hookmenu--; } if(down_pressed && ed.keydelay<=0) { ed.keydelay=6; ed.hookmenu++; } if(ed.hookmenu>=(int)ed.hooklist.size()) { ed.hookmenu=ed.hooklist.size()-1; } if(ed.hookmenu<0) ed.hookmenu=0; if(ed.hookmenu=ed.hookmenupage+9) { ed.hookmenupage=ed.hookmenu+8; } if(!key.keymap[SDLK_BACKSPACE]) ed.deletekeyheld=0; if(key.keymap[SDLK_BACKSPACE] && ed.deletekeyheld==0 && !ed.hooklist.empty()) { ed.deletekeyheld=1; music.playef(2); ed.removehook(ed.hooklist[(ed.hooklist.size()-1)-ed.hookmenu]); } if (!game.press_action && !game.press_left && !game.press_right && !up_pressed && !down_pressed && !key.isDown(27)) game.jumpheld = false; if (!game.jumpheld) { if (game.press_action || game.press_left || game.press_right || game.press_map || up_pressed || down_pressed || key.isDown(27)) { game.jumpheld = true; } if ((game.press_action || game.press_map) && !ed.hooklist.empty()) { game.mapheld=true; ed.scripthelppage=1; key.enabletextentry(); key.keybuffer=""; ed.sbscript=ed.hooklist[(ed.hooklist.size()-1)-ed.hookmenu]; ed.loadhookineditor(ed.sbscript); ed.sby=ed.sb.size()-1; ed.pagey=0; while(ed.sby>=20) { ed.pagey++; ed.sby--; } key.keybuffer=ed.sb[ed.pagey+ed.sby]; ed.sbx = utf8::unchecked::distance(ed.sb[ed.pagey+ed.sby].begin(), ed.sb[ed.pagey+ed.sby].end()); } } } else if(ed.scripthelppage==1) { //Script editor! if (key.isDown(27)) { ed.scripthelppage=0; game.jumpheld = true; //save the script for use again! ed.addhook(ed.sbscript); } if(ed.keydelay>0) ed.keydelay--; if(up_pressed && ed.keydelay<=0) { ed.keydelay=6; ed.sby--; if(ed.sby<=5) { if(ed.pagey>0) { ed.pagey--; ed.sby++; } else { if(ed.sby<0) ed.sby=0; } } key.keybuffer=ed.sb[ed.pagey+ed.sby]; } if(down_pressed && ed.keydelay<=0) { ed.keydelay=6; if(ed.sby+ed.pagey<(int)ed.sb.size()-1) { ed.sby++; if(ed.sby>=20) { ed.pagey++; ed.sby--; } } key.keybuffer=ed.sb[ed.pagey+ed.sby]; } if(key.linealreadyemptykludge) { ed.keydelay=6; key.linealreadyemptykludge=false; } if(key.pressedbackspace && ed.sb[ed.pagey+ed.sby]=="" && ed.keydelay<=0) { //Remove this line completely ed.removeline(ed.pagey+ed.sby); ed.sby--; if(ed.sby<=5) { if(ed.pagey>0) { ed.pagey--; ed.sby++; } else { if(ed.sby<0) ed.sby=0; } } key.keybuffer=ed.sb[ed.pagey+ed.sby]; ed.keydelay=6; } // Remove all pipes, they are the line separator in the XML key.keybuffer.erase(std::remove(key.keybuffer.begin(), key.keybuffer.end(), '|'), key.keybuffer.end()); ed.sb[ed.pagey+ed.sby]=key.keybuffer; ed.sbx = utf8::unchecked::distance(ed.sb[ed.pagey+ed.sby].begin(), ed.sb[ed.pagey+ed.sby].end()); if(!game.press_map && !key.isDown(27)) game.mapheld=false; if (!game.mapheld) { if(game.press_map) { game.mapheld=true; //Continue to next line if(ed.sby+ed.pagey>=(int)ed.sb.size()) //we're on the last line { ed.sby++; if(ed.sby>=20) { ed.pagey++; ed.sby--; } key.keybuffer=ed.sb[ed.pagey+ed.sby]; ed.sbx = utf8::unchecked::distance(ed.sb[ed.pagey+ed.sby].begin(), ed.sb[ed.pagey+ed.sby].end()); } else { //We're not, insert a line instead ed.sby++; if(ed.sby>=20) { ed.pagey++; ed.sby--; } ed.insertline(ed.sby+ed.pagey); key.keybuffer=""; ed.sbx = 0; } } } } } else if (ed.textmod) { *ed.textptr = key.keybuffer; if (!game.press_map && !key.isDown(27)) { game.mapheld = false; } if (!game.mapheld && game.press_map) { game.mapheld = true; key.disabletextentry(); switch (ed.textmod) { case TEXT_GOTOROOM: { char coord_x[16]; char coord_y[16]; const char* comma = SDL_strchr(key.keybuffer.c_str(), ','); bool valid_input = comma != NULL; if (valid_input) { SDL_strlcpy( coord_x, key.keybuffer.c_str(), VVV_min(comma - key.keybuffer.c_str() + 1, sizeof(coord_x)) ); SDL_strlcpy(coord_y, &comma[1], sizeof(coord_y)); valid_input = is_number(coord_x) && is_number(coord_y); } if (!valid_input) { ed.note = "[ ERROR: Invalid format ]"; ed.notedelay = 45; break; } ed.levx = clamp(help.Int(coord_x) - 1, 0, ed.mapwidth - 1); ed.levy = clamp(help.Int(coord_y) - 1, 0, ed.mapheight - 1); graphics.backgrounddrawn = false; break; } case TEXT_LOAD: { std::string loadstring = ed.filename + ".vvvvvv"; if (ed.load(loadstring)) { // don't use filename, it has the full path char buffer[64]; SDL_snprintf(buffer, sizeof(buffer), "[ Loaded map: %s.vvvvvv ]", ed.filename.c_str()); ed.note = buffer; } else { ed.note = "[ ERROR: Could not load level ]"; } ed.notedelay = 45; break; } case TEXT_SAVE: { std::string savestring = ed.filename + ".vvvvvv"; if (ed.save(savestring)) { char buffer[64]; SDL_snprintf(buffer, sizeof(buffer), "[ Saved map: %s.vvvvvv ]", ed.filename.c_str()); ed.note = buffer; } else { ed.note = "[ ERROR: Could not save level! ]"; ed.saveandquit = false; } ed.notedelay = 45; if (ed.saveandquit) { graphics.fademode = 2; // quit editor } break; } case TEXT_SCRIPT: ed.clearscriptbuffer(); if (!ed.checkhook(key.keybuffer)) { ed.addhook(key.keybuffer); } break; default: break; } ed.shiftmenu = false; ed.shiftkey = false; ed.textmod = TEXT_NONE; } } else if (key.textentry()) { if(ed.titlemod) { EditorData::GetInstance().title=key.keybuffer; } else if(ed.creatormod) { EditorData::GetInstance().creator=key.keybuffer; } else if(ed.websitemod) { ed.website=key.keybuffer; } else if(ed.desc1mod) { ed.Desc1=key.keybuffer; } else if(ed.desc2mod) { ed.Desc2=key.keybuffer; } else if(ed.desc3mod) { ed.Desc3=key.keybuffer; } if(!game.press_map && !key.isDown(27)) game.mapheld=false; if (!game.mapheld) { if(game.press_map) { game.mapheld=true; if(ed.titlemod) { EditorData::GetInstance().title=key.keybuffer; ed.titlemod=false; } else if(ed.creatormod) { EditorData::GetInstance().creator=key.keybuffer; ed.creatormod=false; } else if(ed.websitemod) { ed.website=key.keybuffer; ed.websitemod=false; } else if(ed.desc1mod) { ed.Desc1=key.keybuffer; } else if(ed.desc2mod) { ed.Desc2=key.keybuffer; } else if(ed.desc3mod) { ed.Desc3=key.keybuffer; ed.desc3mod=false; } key.disabletextentry(); if(ed.desc1mod) { ed.desc1mod=false; ed.desc2mod=true; key.enabletextentry(); key.keybuffer=ed.Desc2; } else if(ed.desc2mod) { ed.desc2mod=false; ed.desc3mod=true; key.enabletextentry(); key.keybuffer=ed.Desc3; } } } } else { if(ed.settingsmod) { if (!game.press_action && !game.press_left && !game.press_right && !up_pressed && !down_pressed) game.jumpheld = false; if (!game.jumpheld) { if (game.press_action || game.press_left || game.press_right || game.press_map || up_pressed || down_pressed) { game.jumpheld = true; } if(game.menustart) { if (game.press_left || up_pressed) { game.currentmenuoption--; } else if (game.press_right || down_pressed) { game.currentmenuoption++; } } if (game.currentmenuoption < 0) game.currentmenuoption = game.menuoptions.size()-1; if (game.currentmenuoption >= (int) game.menuoptions.size() ) game.currentmenuoption = 0; if (game.press_action) { editormenuactionpress(); } } } else if (ed.keydelay > 0) { ed.keydelay--; } else if (key.keymap[SDLK_LCTRL] || key.keymap[SDLK_RCTRL]) { // Ctrl modifiers ed.dmtileeditor=10; if(left_pressed) { ed.dmtile--; ed.keydelay=3; if(ed.dmtile<0) ed.dmtile+=1200; } else if(right_pressed) { ed.dmtile++; ed.keydelay=3; if(ed.dmtile>=1200) ed.dmtile-=1200; } if(up_pressed) { ed.dmtile-=40; ed.keydelay=3; if(ed.dmtile<0) ed.dmtile+=1200; } else if(down_pressed) { ed.dmtile+=40; ed.keydelay=3; if(ed.dmtile>=1200) ed.dmtile-=1200; } } else if (key.keymap[SDLK_LSHIFT] || key.keymap[SDLK_RSHIFT]) { // Shift modifiers if (key.keymap[SDLK_F1]) { ed.switch_tileset(true); graphics.backgrounddrawn = false; ed.keydelay = 6; } if (key.keymap[SDLK_F2]) { ed.switch_tilecol(true); graphics.backgrounddrawn = false; ed.keydelay = 6; } if (key.keymap[SDLK_F3]) { ed.switch_enemy(true); ed.keydelay=6; } if (up_pressed || down_pressed || left_pressed || right_pressed) { ed.keydelay=6; if(up_pressed) { ed.mapheight--; } else if(down_pressed) { ed.mapheight++; } else if(left_pressed) { ed.mapwidth--; } else if(right_pressed) { ed.mapwidth++; } if(ed.mapwidth<1) ed.mapwidth=1; if(ed.mapheight<1) ed.mapheight=1; if(ed.mapwidth>=ed.maxwidth) ed.mapwidth=ed.maxwidth; if(ed.mapheight>=ed.maxheight) ed.mapheight=ed.maxheight; ed.note = "Mapsize is now [" + help.String(ed.mapwidth) + "," + help.String(ed.mapheight) + "]"; ed.notedelay=45; } if(!ed.shiftkey) { if(ed.shiftmenu) { ed.shiftmenu=false; } else { ed.shiftmenu=true; } } ed.shiftkey=true; } else { // No modifiers ed.shiftkey=false; if(key.keymap[SDLK_F1]) { ed.switch_tileset(); graphics.backgrounddrawn = false; ed.keydelay = 6; } if(key.keymap[SDLK_F2]) { ed.switch_tilecol(); graphics.backgrounddrawn = false; ed.keydelay = 6; } if(key.keymap[SDLK_F3]) { ed.switch_enemy(); ed.keydelay=6; } if(key.keymap[SDLK_F4]) { ed.keydelay=6; ed.boundarytype=1; ed.boundarymod=1; } if(key.keymap[SDLK_F5]) { ed.keydelay=6; ed.boundarytype=2; ed.boundarymod=1; } if(key.keymap[SDLK_F10]) { if(ed.getroomprop(ed.levx, ed.levy)->directmode==1) { ed.setroomdirectmode(ed.levx, ed.levy, 0); ed.note="Direct Mode Disabled"; } else { ed.setroomdirectmode(ed.levx, ed.levy, 1); ed.note="Direct Mode Enabled"; } graphics.backgrounddrawn=false; ed.notedelay=45; ed.updatetiles=true; ed.keydelay=6; } if(key.keymap[SDLK_1]) ed.drawmode=0; if(key.keymap[SDLK_2]) ed.drawmode=1; if(key.keymap[SDLK_3]) ed.drawmode=2; if(key.keymap[SDLK_4]) ed.drawmode=3; if(key.keymap[SDLK_5]) ed.drawmode=4; if(key.keymap[SDLK_6]) ed.drawmode=5; if(key.keymap[SDLK_7]) ed.drawmode=6; if(key.keymap[SDLK_8]) ed.drawmode=7; if(key.keymap[SDLK_9]) ed.drawmode=8; if(key.keymap[SDLK_0]) ed.drawmode=9; if(key.keymap[SDLK_r]) ed.drawmode=10; if(key.keymap[SDLK_t]) ed.drawmode=11; if(key.keymap[SDLK_y]) ed.drawmode=12; if(key.keymap[SDLK_u]) ed.drawmode=13; if(key.keymap[SDLK_i]) ed.drawmode=14; if(key.keymap[SDLK_o]) ed.drawmode=15; if(key.keymap[SDLK_p]) ed.drawmode=16; if(key.keymap[SDLK_w]) { ed.setroomwarpdir(ed.levx, ed.levy, (ed.getroomprop(ed.levx, ed.levy)->warpdir+1)%4); if(ed.getroomprop(ed.levx, ed.levy)->warpdir==0) { ed.note="Room warping disabled"; ed.notedelay=45; graphics.backgrounddrawn=false; } else if(ed.getroomprop(ed.levx, ed.levy)->warpdir==1) { ed.note="Room warps horizontally"; ed.notedelay=45; graphics.backgrounddrawn=false; } else if(ed.getroomprop(ed.levx, ed.levy)->warpdir==2) { ed.note="Room warps vertically"; ed.notedelay=45; graphics.backgrounddrawn=false; } else if(ed.getroomprop(ed.levx, ed.levy)->warpdir==3) { ed.note="Room warps in all directions"; ed.notedelay=45; graphics.backgrounddrawn=false; } ed.keydelay=6; } if(key.keymap[SDLK_e]) { ed.keydelay = 6; ed.getlin(TEXT_ROOMNAME, "Enter new room name:", const_cast(&(ed.getroomprop(ed.levx, ed.levy)->roomname))); game.mapheld=true; } if (key.keymap[SDLK_g]) { ed.keydelay = 6; ed.getlin(TEXT_GOTOROOM, "Enter room coordinates x,y:", NULL); game.mapheld=true; } //Save and load if(key.keymap[SDLK_s]) { ed.keydelay = 6; ed.getlin(TEXT_SAVE, "Enter map filename to save map as:", &(ed.filename)); game.mapheld=true; } if(key.keymap[SDLK_l]) { ed.keydelay = 6; ed.getlin(TEXT_LOAD, "Enter map filename to load:", &(ed.filename)); game.mapheld=true; } if(!game.press_map) game.mapheld=false; if (!game.mapheld) { if(game.press_map) { game.mapheld=true; //Ok! Scan the room for the closest checkpoint int testeditor=-1; int startpoint=0; //First up; is there a start point on this screen? for(size_t i=0; i16) ed.drawmode=0; if(ed.drawmode>9) { if(ed.spacemod) ed.spacemenu=1; } else { if(ed.spacemod) ed.spacemenu=0; } if(up_pressed) { ed.keydelay=6; graphics.backgrounddrawn=false; ed.levy--; ed.updatetiles=true; ed.changeroom=true; } else if(down_pressed) { ed.keydelay=6; graphics.backgrounddrawn=false; ed.levy++; ed.updatetiles=true; ed.changeroom=true; } else if(left_pressed) { ed.keydelay=6; graphics.backgrounddrawn=false; ed.levx--; ed.updatetiles=true; ed.changeroom=true; } else if(right_pressed) { ed.keydelay=6; graphics.backgrounddrawn=false; ed.levx++; ed.updatetiles=true; ed.changeroom=true; } if(ed.levx<0) ed.levx+=ed.mapwidth; if(ed.levx>= ed.mapwidth) ed.levx-=ed.mapwidth; if(ed.levy<0) ed.levy+=ed.mapheight; if(ed.levy>=ed.mapheight) ed.levy-=ed.mapheight; if(key.keymap[SDLK_SPACE]) { ed.spacemod = !ed.spacemod; ed.keydelay=6; } } if(!ed.settingsmod) { if(ed.boundarymod>0) { if(key.leftbutton) { if(ed.lclickdelay==0) { if(ed.boundarymod==1) { ed.lclickdelay=1; ed.boundx1=(ed.tilex*8); ed.boundy1=(ed.tiley*8); ed.boundarymod=2; } else if(ed.boundarymod==2) { if((ed.tilex*8)+8>=ed.boundx1 && (ed.tiley*8)+8>=ed.boundy1) { ed.boundx2=(ed.tilex*8)+8; ed.boundy2=(ed.tiley*8)+8; } else { ed.boundx2=ed.boundx1+8; ed.boundy2=ed.boundy1+8; } if(ed.boundarytype==0) { //Script trigger ed.lclickdelay=1; ed.textent=edentity.size(); addedentity((ed.boundx1/8)+(ed.levx*40),(ed.boundy1/8)+ (ed.levy*30),19, (ed.boundx2-ed.boundx1)/8, (ed.boundy2-ed.boundy1)/8); ed.getlin(TEXT_SCRIPT, "Enter script name:", &(edentity[ed.textent].scriptname)); ed.lclickdelay=1; } else if(ed.boundarytype==1) { //Enemy bounds ed.setroomenemyx1(ed.levx, ed.levy, ed.boundx1); ed.setroomenemyy1(ed.levx, ed.levy, ed.boundy1); ed.setroomenemyx2(ed.levx, ed.levy, ed.boundx2); ed.setroomenemyy2(ed.levx, ed.levy, ed.boundy2); } else if(ed.boundarytype==2) { //Platform bounds ed.setroomplatx1(ed.levx, ed.levy, ed.boundx1); ed.setroomplaty1(ed.levx, ed.levy, ed.boundy1); ed.setroomplatx2(ed.levx, ed.levy, ed.boundx2); ed.setroomplaty2(ed.levx, ed.levy, ed.boundy2); } else if(ed.boundarytype==3) { //Copy } ed.boundarymod=0; ed.lclickdelay=1; } } } else { ed.lclickdelay=0; } if(key.rightbutton) { ed.boundarymod=0; } } else if(ed.warpmod) { //Placing warp token if(key.leftbutton) { if(ed.lclickdelay==0) { if(ed.free(ed.tilex, ed.tiley)==0) { edentity[ed.warpent].p1=ed.tilex+(ed.levx*40); edentity[ed.warpent].p2=ed.tiley+(ed.levy*30); ed.warpmod=false; ed.warpent=-1; ed.lclickdelay=1; } } } else { ed.lclickdelay=0; } if(key.rightbutton) { removeedentity(ed.warpent); ed.warpmod=false; ed.warpent=-1; } } else { //Mouse input if(key.leftbutton) { if(ed.lclickdelay==0) { //Depending on current mode, place something if(ed.drawmode==0) { //place tiles //Are we in direct mode? if(ed.getroomprop(ed.levx, ed.levy)->directmode>=1) { if(ed.bmod) { for(int i=0; i<30; i++) { ed.placetilelocal(ed.tilex, i, ed.dmtile); } } else if(ed.hmod) { for(int i=0; i<40; i++) { ed.placetilelocal(i, ed.tiley, ed.dmtile); } } else if(ed.vmod) { for(int j=-4; j<5; j++) { for(int i=-4; i<5; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, ed.dmtile); } } } else if(ed.cmod) { for(int j=-3; j<4; j++) { for(int i=-3; i<4; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, ed.dmtile); } } } else if(ed.xmod) { for(int j=-2; j<3; j++) { for(int i=-2; i<3; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, ed.dmtile); } } } else if(ed.zmod) { for(int j=-1; j<2; j++) { for(int i=-1; i<2; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, ed.dmtile); } } } else { ed.placetilelocal(ed.tilex, ed.tiley, ed.dmtile); } } else { if(ed.bmod) { for(int i=0; i<30; i++) { ed.placetilelocal(ed.tilex, i, 80); } } else if(ed.hmod) { for(int i=0; i<40; i++) { ed.placetilelocal(i, ed.tiley, 80); } } else if(ed.vmod) { for(int j=-4; j<5; j++) { for(int i=-4; i<5; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 80); } } } else if(ed.cmod) { for(int j=-3; j<4; j++) { for(int i=-3; i<4; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 80); } } } else if(ed.xmod) { for(int j=-2; j<3; j++) { for(int i=-2; i<3; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 80); } } } else if(ed.zmod) { for(int j=-1; j<2; j++) { for(int i=-1; i<2; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 80); } } } else { ed.placetilelocal(ed.tilex, ed.tiley, 80); } } } else if(ed.drawmode==1) { //place background tiles if(ed.bmod) { for(int i=0; i<30; i++) { ed.placetilelocal(ed.tilex, i, 2); } } else if(ed.hmod) { for(int i=0; i<40; i++) { ed.placetilelocal(i, ed.tiley, 2); } } else if(ed.vmod) { for(int j=-4; j<5; j++) { for(int i=-4; i<5; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 2); } } } else if(ed.cmod) { for(int j=-3; j<4; j++) { for(int i=-3; i<4; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 2); } } } else if(ed.xmod) { for(int j=-2; j<3; j++) { for(int i=-2; i<3; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 2); } } } else if(ed.zmod) { for(int j=-1; j<2; j++) { for(int i=-1; i<2; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 2); } } } else { ed.placetilelocal(ed.tilex, ed.tiley, 2); } } else if(ed.drawmode==2) { //place spikes ed.placetilelocal(ed.tilex, ed.tiley, 8); } int tmp=edentat(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30)); if(tmp==-1) { //Room text and script triggers can be placed in walls if(ed.drawmode==10) { ed.lclickdelay=1; ed.textent=edentity.size(); addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),17); ed.getlin(TEXT_ROOMTEXT, "Enter roomtext:", &(edentity[ed.textent].scriptname)); } else if(ed.drawmode==12) //Script Trigger { ed.boundarytype=0; ed.boundx1=ed.tilex*8; ed.boundy1=ed.tiley*8; ed.boundarymod=2; ed.lclickdelay=1; } } if(tmp==-1 && ed.free(ed.tilex,ed.tiley)==0) { if(ed.drawmode==3) { if(ed.numtrinkets()<100) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),9); ed.lclickdelay=1; } else { ed.note="ERROR: Max number of trinkets is 100"; ed.notedelay=45; } } else if(ed.drawmode==4) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),10, 1); ed.lclickdelay=1; } else if(ed.drawmode==5) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),3); ed.lclickdelay=1; } else if(ed.drawmode==6) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),2,5); ed.lclickdelay=1; } else if(ed.drawmode==7) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),2,0); ed.lclickdelay=1; } else if(ed.drawmode==8) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),1,0); ed.lclickdelay=1; } else if(ed.drawmode==9) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),11,0); ed.lclickdelay=1; } else if(ed.drawmode==11) { ed.lclickdelay=1; ed.textent=edentity.size(); addedentity(ed.tilex+(ed.levx*40),ed.tiley+ (ed.levy*30),18,0); ed.getlin(TEXT_SCRIPT, "Enter script name", &(edentity[ed.textent].scriptname)); } else if(ed.drawmode==13) { ed.warpmod=true; ed.warpent=edentity.size(); addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),13); ed.lclickdelay=1; } else if(ed.drawmode==14) { //Warp lines if(ed.tilex==0) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),50,0); } else if(ed.tilex==39) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),50,1); } else if(ed.tiley==0) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),50,2); } else if(ed.tiley==29) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),50,3); } else { ed.note="ERROR: Warp lines must be on edges"; ed.notedelay=45; } ed.lclickdelay=1; } else if(ed.drawmode==15) //Crewmate { if(ed.numcrewmates()<100) { addedentity(ed.tilex+ (ed.levx*40),ed.tiley+ (ed.levy*30),15,int(fRandom() * 6)); ed.lclickdelay=1; } else { ed.note="ERROR: Max number of crewmates is 100"; ed.notedelay=45; } } else if(ed.drawmode==16) //Start Point { //If there is another start point, destroy it for(size_t i=0; i=5) { edentity[tmp].p1=(edentity[tmp].p1+1)%9; if(edentity[tmp].p1<5) edentity[tmp].p1=5; } else { edentity[tmp].p1=(edentity[tmp].p1+1)%4; } ed.lclickdelay=1; } else if(edentity[tmp].t==10) { // If it's not textured as a checkpoint, leave it alone if (edentity[tmp].p1 == 0 || edentity[tmp].p1 == 1) { edentity[tmp].p1=(edentity[tmp].p1+1)%2; } ed.lclickdelay=1; } else if(edentity[tmp].t==11) { edentity[tmp].p1=(edentity[tmp].p1+1)%2; ed.lclickdelay=1; } else if(edentity[tmp].t==15) { edentity[tmp].p1=(edentity[tmp].p1+1)%6; ed.lclickdelay=1; } else if(edentity[tmp].t==16) { edentity[tmp].p1=(edentity[tmp].p1+1)%2; ed.lclickdelay=1; } else if(edentity[tmp].t==17) { ed.getlin(TEXT_ROOMTEXT, "Enter roomtext:", &(edentity[tmp].scriptname)); ed.textent=tmp; ed.lclickdelay=1; } else if(edentity[tmp].t==18 || edentity[tmp].t==19) { ed.lclickdelay=1; ed.textent=tmp; ed.getlin(TEXT_SCRIPT, "Enter script name:", &(edentity[ed.textent].scriptname)); if (edentity[tmp].t == 18 && (edentity[tmp].p1 == 0 || edentity[tmp].p1 == 1)) { // Flip the terminal, but if it's not textured as a terminal leave it alone edentity[tmp].p1 = (edentity[tmp].p1 + 1) % 2; } } } } else { ed.lclickdelay=0; } if(key.rightbutton) { //place tiles if(ed.drawmode < 2) { if(ed.bmod) { for(int i=0; i<30; i++) { ed.placetilelocal(ed.tilex, i, 0); } } else if(ed.hmod) { for(int i=0; i<40; i++) { ed.placetilelocal(i, ed.tiley, 0); } } else if(ed.vmod) { for(int j=-4; j<5; j++) { for(int i=-4; i<5; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 0); } } } else if(ed.cmod) { for(int j=-3; j<4; j++) { for(int i=-3; i<4; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 0); } } } else if(ed.xmod) { for(int j=-2; j<3; j++) { for(int i=-2; i<3; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 0); } } } else if(ed.zmod) { for(int j=-1; j<2; j++) { for(int i=-1; i<2; i++) { ed.placetilelocal(ed.tilex+i, ed.tiley+j, 0); } } } else { ed.placetilelocal(ed.tilex, ed.tiley, 0); } } else { ed.placetilelocal(ed.tilex, ed.tiley, 0); } for(size_t i=0; idirectmode==0) { ed.updatetiles=false; //Correctly set the tiles in the current room switch(ed.getroomprop(ed.levx, ed.levy)->tileset) { case 0: //The Space Station for(int j=0; j<30; j++) { for(int i=0; i<40; i++) { int temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>=3 && temp<80) { //Fix spikes ed.settile(ed.levx, ed.levy, i, j, ed.spikedir(i, j)); } else if(temp==2 || temp>=680) { //Fix background ed.settile( ed.levx, ed.levy, i, j, ed.backedgetile(i, j) + ed.backbase(ed.levx, ed.levy) ); } else if(temp>0) { //Fix tiles ed.settile( ed.levx, ed.levy, i, j, ed.edgetile(i, j) + ed.base(ed.levx, ed.levy) ); } } } break; case 1: //Outside for(int j=0; j<30; j++) { for(int i=0; i<40; i++) { int temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>=3 && temp<80) { //Fix spikes ed.settile(ed.levx, ed.levy, i, j, ed.spikedir(i, j)); } else if(temp==2 || temp>=680) { //Fix background ed.settile( ed.levx, ed.levy, i, j, ed.outsideedgetile(i, j) + ed.backbase(ed.levx, ed.levy) ); } else if(temp>0) { //Fix tiles ed.settile( ed.levx, ed.levy, i, j, ed.edgetile(i, j) + ed.base(ed.levx, ed.levy) ); } } } break; case 2: //Lab for(int j=0; j<30; j++) { for(int i=0; i<40; i++) { int temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>=3 && temp<80) { //Fix spikes ed.settile( ed.levx, ed.levy, i, j, ed.labspikedir( i, j, ed.getroomprop(ed.levx, ed.levy)->tilecol ) ); } else if(temp==2 || temp>=680) { //Fix background ed.settile(ed.levx, ed.levy, i, j, 713); } else if(temp>0) { //Fix tiles ed.settile( ed.levx, ed.levy, i, j, ed.edgetile(i, j) + ed.base(ed.levx, ed.levy) ); } } } break; case 3: //Warp Zone/Intermission for(int j=0; j<30; j++) { for(int i=0; i<40; i++) { int temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>=3 && temp<80) { //Fix spikes ed.settile(ed.levx, ed.levy, i, j, ed.spikedir(i, j)); } else if(temp==2 || temp>=680) { //Fix background ed.settile(ed.levx, ed.levy, i, j, 713); } else if(temp>0) { //Fix tiles ed.settile( ed.levx, ed.levy, i, j, ed.edgetile(i, j) + ed.base(ed.levx, ed.levy) ); } } } break; case 4: //The ship for(int j=0; j<30; j++) { for(int i=0; i<40; i++) { int temp=ed.gettile(ed.levx, ed.levy, i, j); if(temp>=3 && temp<80) { //Fix spikes ed.settile(ed.levx, ed.levy, i, j, ed.spikedir(i, j)); } else if(temp==2 || temp>=680) { //Fix background ed.settile( ed.levx, ed.levy, i, j, ed.backedgetile(i, j) + ed.backbase(ed.levx, ed.levy) ); } else if(temp>0) { //Fix tiles ed.settile( ed.levx, ed.levy, i, j, ed.edgetile(i, j) + ed.base(ed.levx, ed.levy) ); } } } break; case 5: //The Tower break; case 6: //Custom Set 1 break; case 7: //Custom Set 2 break; case 8: //Custom Set 3 break; case 9: //Custom Set 4 break; } } } #endif /* NO_EDITOR */ // Return a graphics-ready color based off of the given tileset and tilecol // Much kudos to Dav999 for saving me a lot of work, because I stole these colors from const.lua in Ved! -Info Teddy Uint32 editorclass::getonewaycol(const int rx, const int ry) { const edlevelclass* const room = getroomprop(rx, ry); switch (room->tileset) { case 0: // Space Station switch (room->tilecol) { case -1: return graphics.getRGB(109, 109, 109); case 0: return graphics.getRGB(131, 141, 235); case 1: return graphics.getRGB(227, 140, 227); case 2: return graphics.getRGB(242, 126, 151); case 3: return graphics.getRGB(229, 235, 133); case 4: return graphics.getRGB(148, 238, 130); case 5: return graphics.getRGB(140, 165, 227); case 6: return graphics.getRGB(227, 140, 148); case 7: return graphics.getRGB(140, 173, 228); case 8: return graphics.getRGB(142, 235, 137); case 9: return graphics.getRGB(137, 235, 206); case 10: return graphics.getRGB(235, 139, 223); case 11: return graphics.getRGB(238, 130, 138); case 12: return graphics.getRGB(137, 235, 178); case 13: return graphics.getRGB(125, 205, 247); case 14: return graphics.getRGB(190, 137, 235); case 15: return graphics.getRGB(235, 137, 206); case 16: return graphics.getRGB(229, 247, 127); case 17: return graphics.getRGB(127, 200, 247); case 18: return graphics.getRGB(197, 137, 235); case 19: return graphics.getRGB(235, 131, 175); case 20: return graphics.getRGB(242, 210, 123); case 21: return graphics.getRGB(131, 235, 158); case 22: return graphics.getRGB(242, 126, 151); case 23: return graphics.getRGB(219, 243, 123); case 24: return graphics.getRGB(131, 234, 145); case 25: return graphics.getRGB(131, 199, 234); case 26: return graphics.getRGB(141, 131, 234); case 27: return graphics.getRGB(226, 140, 144); case 28: return graphics.getRGB(129, 236, 144); case 29: return graphics.getRGB(235, 231, 131); case 30: return graphics.getRGB(153, 235, 131); case 31: return graphics.getRGB(207, 131, 235); } break; case 1: // Outside switch (room->tilecol) { case 0: return graphics.getRGB(57, 86, 140); case 1: return graphics.getRGB(156, 42, 42); case 2: return graphics.getRGB(42, 156, 155); case 3: return graphics.getRGB(125, 36, 162); case 4: return graphics.getRGB(191, 198, 0); case 5: return graphics.getRGB(0, 198, 126); case 6: return graphics.getRGB(224, 110, 177); case 7: return graphics.getRGB(255, 142, 87); } break; case 2: // Lab switch (room->tilecol) { case 0: return graphics.getRGB(0, 165, 206); case 1: return graphics.getRGB(206, 5, 0); case 2: return graphics.getRGB(222, 0, 173); case 3: return graphics.getRGB(27, 67, 255); case 4: return graphics.getRGB(194, 206, 0); case 5: return graphics.getRGB(0, 206, 39); case 6: return graphics.getRGB(0, 165, 206); } break; case 3: // Warp Zone switch (room->tilecol) { case 0: return graphics.getRGB(113, 178, 197); case 1: return graphics.getRGB(197, 113, 119); case 2: return graphics.getRGB(196, 113, 197); case 3: return graphics.getRGB(149, 113, 197); case 4: return graphics.getRGB(197, 182, 113); case 5: return graphics.getRGB(141, 197, 113); case 6: return graphics.getRGB(109, 109, 109); } break; case 4: // Ship switch (room->tilecol) { case 0: return graphics.getRGB(0, 206, 39); case 1: return graphics.getRGB(0, 165, 206); case 2: return graphics.getRGB(194, 206, 0); case 3: return graphics.getRGB(206, 0, 160); case 4: return graphics.getRGB(27, 67, 255); case 5: return graphics.getRGB(206, 5, 0); } break; } // Uh, I guess return solid white return graphics.getRGB(255, 255, 255); } // This version detects the room automatically Uint32 editorclass::getonewaycol(void) { if (game.gamestate == EDITORMODE) return getonewaycol(levx, levy); else if (map.custommode) return getonewaycol(game.roomx - 100, game.roomy - 100); // Uh, I guess return solid white return graphics.getRGB(255, 255, 255); } int editorclass::numtrinkets(void) { int temp = 0; for (size_t i = 0; i < edentity.size(); i++) { if (edentity[i].t == 9) { temp++; } } return temp; } int editorclass::numcrewmates(void) { int temp = 0; for (size_t i = 0; i < edentity.size(); i++) { if (edentity[i].t == 15) { temp++; } } return temp; } #endif /* NO_CUSTOM_LEVELS */