ref: 1c9458bd4fb64dcc74c08041c59a5088ccee9dd8
dir: /i_video.c/
/* i_video.c */ #include "h2stdinc.h" #include "h2def.h" #include "i_system.h" extern byte *screens; int DisplayTicker = 0; int UpdateState = 0; #include <draw.h> #include <mouse.h> #include <keyboard.h> static int resized; static int mouseactive; extern int usemouse; static Rectangle grabout; static Point center; static void kbdproc(void); static void mouseproc(void); static uchar cmap[3*256]; static void catch(void *, char *msg) { /* in case we crash, disable mouse grab */ if(strncmp(msg, "sys:", 4) == 0) mouseactive = 0; noted(NDFLT); } void I_InitGraphics(void) { notify(catch); if(initdraw(nil, nil, "hexen") < 0) I_Error("I_InitGraphics failed"); draw(screen, screen->r, display->black, nil, ZP); center = addpt(screen->r.min, Pt(Dx(screen->r)/2, Dy(screen->r)/2)); grabout = insetrect(screen->r, Dx(screen->r)/8); if(rfork(RFPROC|RFMEM) == 0){ kbdproc(); exits(nil); } if(rfork(RFPROC|RFMEM) == 0){ mouseproc(); exits(nil); } I_SetPalette ((byte *)W_CacheLumpName("PLAYPAL", PU_CACHE)); } void I_ShutdownGraphics(void) { closedisplay(display); } void I_SetPalette(byte *palette) { uchar *c; c = cmap; while(c < cmap+3*256) *c++ = gammatable[usegamma][*palette++]; } void I_UpdateNoBlit(void) { // DELETEME? } void I_StartFrame(void) { } void I_Update(void) { Image *rowimg; Rectangle r; int y, scale; uchar *s, *e, *d, *m; uchar buf[SCREENWIDTH*3*12]; if(UpdateState == I_NOUPDATE) return; if(resized){ resized = 0; if(getwindow(display, Refnone) < 0) sysfatal("getwindow: %r"); /* make black background */ draw(screen, screen->r, display->black, nil, ZP); center = addpt(screen->r.min, Pt(Dx(screen->r)/2, Dy(screen->r)/2)); grabout = insetrect(screen->r, Dx(screen->r)/8); } scale = Dx(screen->r)/SCREENWIDTH; if(scale <= 0) scale = 1; else if(scale > 12) scale = 12; if (UpdateState & I_FULLSCRN){ UpdateState = I_NOUPDATE; } /* where to draw the scaled row */ r = rectsubpt(rectaddpt(Rect(0, 0, scale*SCREENWIDTH, scale), center), Pt(scale*SCREENWIDTH/2, scale*SCREENHEIGHT/2)); /* the row image, y-axis gets scaled with repl flag */ rowimg = allocimage(display, Rect(0, 0, scale*SCREENWIDTH, 1), RGB24, scale > 1, DNofill); if(rowimg == nil) sysfatal("allocimage: %r"); s = screens; for(y = 0; y < SCREENHEIGHT; y++){ d = buf; e = s + SCREENWIDTH; for(; s < e; s++){ m = &cmap[*s * 3]; switch(scale){ case 12: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 11: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 10: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 9: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 8: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 7: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 6: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 5: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 4: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 3: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 2: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; case 1: *d++ = m[2]; *d++ = m[1]; *d++ = m[0]; } } loadimage(rowimg, rowimg->r, buf, d - buf); draw(screen, r, rowimg, nil, ZP); r.min.y += scale; r.max.y += scale; } freeimage(rowimg); flushimage(display, 1); } void I_MouseEnable(int on) { static char nocurs[2*4+2*2*16]; static int fd = -1; if(mouseactive == on || !usemouse) return; if(mouseactive = on){ if((fd = open("/dev/cursor", ORDWR|OCEXEC)) < 0) return; write(fd, nocurs, sizeof(nocurs)); }else if(fd >= 0) { close(fd); fd = -1; } } void I_ReadScreen(byte *scr) { memcpy (scr, screens, SCREENWIDTH*SCREENHEIGHT); } void I_BeginRead(void) { I_Error("PORTME i_video.c I_BeginRead"); } void I_EndRead(void) { I_Error("PORTME i_video.c I_EndRead"); } void I_StartTic(void) { } void I_WaitVBL(int) { } static int runetokey(Rune r) { switch(r){ case Kleft: return KEY_LEFTARROW; case Kright: return KEY_RIGHTARROW; case Kup: return KEY_UPARROW; case Kdown: return KEY_DOWNARROW; case Kshift: return KEY_RSHIFT; case Kctl: return KEY_RCTRL; case Kalt: return KEY_LALT; case Kaltgr: return KEY_RALT; case Kbs: return KEY_BACKSPACE; case '\n': return KEY_ENTER; case Kprint: return KEY_PAUSE; case KF|1: case KF|2: case KF|3: case KF|4: case KF|5: case KF|6: case KF|7: case KF|8: case KF|9: case KF|10: case KF|11: case KF|12: return KEY_F1+(r-(KF|1)); default: if(r < 0x80) return r; } return 0; } static void kbdproc(void) { char buf[128], buf2[128], *s; int kfd, n; Rune r; event_t e; if((kfd = open("/dev/kbd", OREAD)) < 0) sysfatal("can't open kbd: %r"); buf2[0] = 0; buf2[1] = 0; buf[0] = 0; procsetname("hexen kbdproc"); for(;;){ if(buf[0] != 0){ n = strlen(buf)+1; memmove(buf, buf+n, sizeof(buf)-n); } if(buf[0] == 0){ n = read(kfd, buf, sizeof(buf)-1); if(n <= 0) break; buf[n-1] = 0; buf[n] = 0; } e.data1 = -1; e.data2 = -1; e.data3 = -1; switch(buf[0]){ case 'c': chartorune(&r, buf+1); if(r){ e.data1 = r; e.type = ev_char; H2_PostEvent(&e); } /* no break */ default: continue; case 'k': s = buf+1; while(*s){ s += chartorune(&r, s); if(utfrune(buf2+1, r) == nil){ if(e.data1 = runetokey(r)){ e.type = ev_keydown; H2_PostEvent(&e); } } } break; case 'K': s = buf2+1; while(*s){ s += chartorune(&r, s); if(utfrune(buf+1, r) == nil){ if(e.data1 = runetokey(r)){ e.type = ev_keyup; H2_PostEvent(&e); } } } break; } strcpy(buf2, buf); } } static void mouseproc(void) { int fd, n, nerr; Mouse m, om; char buf[1+5*12]; event_t e; if((fd = open("/dev/mouse", ORDWR)) < 0) sysfatal("can't open mouse: %r"); memset(&m, 0, sizeof m); memset(&om, 0, sizeof om); nerr = 0; procsetname("hexen mouseproc"); for(;;){ n = read(fd, buf, sizeof buf); if(n != 1+4*12){ fprint(2, "mouse: bad count %d not 49: %r\n", n); if(n<0 || ++nerr>10) break; continue; } nerr = 0; switch(buf[0]){ case 'r': resized = 1; /* fall through */ case 'm': if(!mouseactive) break; m.xy.x = atoi(buf+1+0*12); m.xy.y = atoi(buf+1+1*12); m.buttons = atoi(buf+1+2*12); m.msec = atoi(buf+1+3*12); if(!ptinrect(m.xy, grabout)){ fprint(fd, "m%d %d", center.x, center.y); m.xy = center; om.xy = center; } e.type = ev_mouse; e.data1 = m.buttons; e.data2 = m.xy.x - om.xy.x; e.data3 = om.xy.y - m.xy.y; H2_PostEvent(&e); om = m; break; } } }