/* Federico Benavento */ #include #include #include #include enum { Facesize = 48 }; void memoinit(void); void redraw(void); void eresized(int); void resize(int i); void afaces(void); void allocblocks(void); Image *openface(char *path); Image *face[18]; char buf[100]; ushort winflag, level; Image *back; Image *fore; enum { Eninit, Eshow, Ehide, Edisc, }; struct { Image *face; Rectangle r; int flag; }block[36]; char *buttons[] = { "restart", "easy", "hard", "exit", 0 }; Menu menu = { buttons }; void main(int argc, char *argv[]) { Mouse m; int i, j; ushort ran, score, attempt, prev, br[2]; Image *c[2]; char *fmt; level = 16; fmt = "win in %d attempts!"; ARGBEGIN{ default: goto Usage; case 'h': level=36; break; }ARGEND if(argc){ Usage: fprint(2, "usage: %s [-h]\n", argv0); exits("usage"); } if(initdraw(0,0,"memo") < 0) sysfatal("initdraw failed: %r"); srand(time(0)); memoinit(); einit(Emouse); Start: afaces(); winflag=0; prev=level+1; score=attempt=0; for(i=0;i!=level;i++) block[i].flag = Eninit; for(i=0;i!=level/2;i++){ for(j=0;j!=2;){ ran = rand()%level; if(block[ran].flag == Eninit){ block[ran].face = face[i]; block[ran].flag = Eshow; j++; } } } eresized(0); for(;;m=emouse()) if(m.buttons) break; for(i=0;i!=level;i++) block[i].flag = Ehide; redraw(); j = 0; for(;; m=emouse()){ switch(m.buttons){ case 1: while(m.buttons){ for(i=0;i!=level;i++){ if(i!=prev && ptinrect(m.xy,block[i].r)){ if(block[i].flag==Ehide && j<2){ block[i].flag = Eshow; draw(screen, block[i].r, block[i].face, nil, ZP); c[j] = block[i].face; br[j] = prev = i; j++; } break; } } m=emouse(); } break; case 4: switch(emenuhit(3, &m, &menu)) { case 0: /* restart */ goto Start; break; case 1: level=16; goto Start; break; case 2: level=36; goto Start; break; case 3: exits(0); break; } } if(j==2){ attempt++; prev = level+1; j = 0; if(c[0] == c[1]){ score++; block[br[0]].flag = Edisc; block[br[1]].flag = Edisc; } else{ block[br[0]].flag = Ehide; block[br[1]].flag = Ehide; } redraw(); continue; } if(score == level/2){ winflag = 1; sprint(buf, fmt, attempt); redraw(); for(;;m=emouse()) if(m.buttons&1 || m.buttons&4) break; goto Start; } } } void memoinit(void) { back = allocimagemix(display, DPalebluegreen,DWhite); fore = allocimagemix(display, 0x00DDDDFF, 0x00DDDDFF); } void eresized(int new) { double sq; Point p; if(new && getwindow(display, Refnone) < 0){ fprint(2, "can't reattach to window"); exits("resized"); } sq = sqrt(level); p = Pt(Dx(screen->r)+8, Dy(screen->r)+8); if(!new || !eqpt(p, Pt(Facesize*sq+sq*4+17, Facesize*sq+sq*4+17))) resize(Facesize*sq+sq*4+17); allocblocks(); draw(screen, screen->r, back, nil, ZP); redraw(); } void redraw(void) { int i; Rectangle r; Point p; if(winflag == 1){ p = Pt(Dx(screen->r)/8, Dy(screen->r)/4); r = screen->r; r.min = addpt(r.min, p); r.max = subpt(r.max, p); draw(screen, r, fore, nil, ZP); p=addpt(r.min, Pt(5,5)); string(screen,p,display->black,ZP,font,buf); return; } for(i=0;i!=level;i++){ r = block[i].r; switch(block[i].flag){ case Eshow: draw(screen, r,block[i].face,nil,ZP); break; case Edisc: draw(screen, r, back, nil, ZP); break; case Ehide: draw(screen, r, fore, nil, ZP); break; default: fprint(2, "something went wrong!"); exits("wrong"); break; } } } char *facepaths[] = { /* logos */ "/lib/face/48x48x4/g/glenda.1", "/lib/face/48x48x2/p/pjw+9ball.2", /* /sys/doc/9.ms authors */ "/lib/face/48x48x2/k/ken.1", "/lib/face/48x48x4/b/bobf.1", "/lib/face/48x48x4/p/philw.1", "/lib/face/48x48x4/p/presotto.1", "/lib/face/48x48x4/r/rob.1", "/lib/face/48x48x4/s/sean.1", /* additional authors and luminaries for harder levels */ "/lib/face/48x48x4/b/bwk.1", "/lib/face/48x48x4/c/cyoung.1", "/lib/face/48x48x4/d/dmr.1", "/lib/face/48x48x4/d/doug.1", "/lib/face/48x48x4/h/howard.1", "/lib/face/48x48x4/j/jmk.1", "/lib/face/48x48x4/s/sape.1", "/lib/face/48x48x4/s/seanq.1", "/lib/face/48x48x4/t/td.1", "/lib/face/48x48x8/l/lucent.1", }; void afaces(void) { int i; for(i=0; i<18; i++) face[i] = openface(facepaths[i]); } void resize(int i) { int fd; fd = open("/dev/wctl", OWRITE); if(fd >= 0){ fprint(fd, "resize -dx %d -dy %d", i, i); close(fd); } } Image * openimage(char *path) { Image *i; int fd; fd = open(path, OREAD); if(fd < 0) sysfatal("open %s: %r", path); i = readimage(display, fd, 0); if(i == nil) sysfatal("readimage %s: %r", path); close(fd); return i; } void allocblocks(void) { Rectangle r, b; ushort i, x, y, sq; sq = sqrt(level); r = insetrect(screen->r, 5); r.max.x = r.min.x+Facesize*sq+sq*4-1; r.max.y = r.min.y+Facesize*sq+sq*4-1; b.max.y = r.min.y; for(i=level-1, y=0; y!=sq; y++){ b.min.y = b.max.y; b.max.y = r.min.y+Dy(r)*(y+1)/sq; b.max.x = r.min.x; for(x=0; x!=sq; x++, i--){ b.min.x = b.max.x; b.max.x = r.min.x+Dx(r)*(x+1)/sq; block[i].r = insetrect(b, 2 ); } } } Image* readbit(int fd, ulong chan, char *path) { char buf[4096], hx[4], *p; uchar data[Facesize*Facesize]; /* more than enough */ int nhx, i, n, ndata, nbit; Image *img; n = readn(fd, buf, sizeof buf); if(n <= 0) return nil; if(n >= sizeof buf) n = sizeof(buf)-1; buf[n] = '\0'; n = 0; nhx = 0; nbit = chantodepth(chan); ndata = (Facesize*Facesize*nbit)/8; p = buf; while(n < ndata) { p = strpbrk(p+1, "0123456789abcdefABCDEF"); if(p == nil) break; if(p[0] == '0' && p[1] == 'x') continue; hx[nhx] = *p; if(++nhx == 2) { hx[nhx] = 0; i = strtoul(hx, 0, 16); data[n++] = ~i; nhx = 0; } } if(n < ndata) sysfatal("short face %s", path); img = allocimage(display, Rect(0,0,Facesize,Facesize), chan, 0, 0); if(img == nil) return nil; loadimage(img, img->r, data, ndata); return img; } Image* openface(char *path) { char *p; int fd, n; p = strstr(path, "48x48x"); if(p == nil) return openimage(path); n = atoi(p+6); if(n < 4){ if((fd = open(path, OREAD)) < 0) sysfatal("open %s: %r", path); return readbit(fd, n==1 ? GREY1 : GREY2, path); } return openimage(path); }