ref: ee695eff4329234e20abb68ff3100d3b15929418
dir: /emu/port/win-x11a.c/
/* * This implementation of the screen functions for X11 uses the * portable implementation of the Inferno drawing operations (libmemdraw) * to do the work, then has flushmemscreen copy the result to the X11 display. * Thus it potentially supports all colour depths but with a possible * performance penalty (although it tries to use the X11 shared memory extension * to copy the result to the screen, which might reduce the latter). * * CraigN */ #define _GNU_SOURCE 1 #define XTHREADS #include "dat.h" #include "fns.h" #undef log2 #include <draw.h> #include "cursor.h" #include "keyboard.h" #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #define Colormap XColormap #define Cursor XCursor #define Display XDisplay #define Drawable XDrawable #define Font XFont #define GC XGC #define Point XPoint #define Rectangle XRectangle #define Screen XScreen #define Visual XVisual #define Window XWindow #include <X11/Xlib.h> #include <X11/Xatom.h> #include <X11/Xutil.h> #include <X11/keysym.h> #include <X11/extensions/XShm.h> #include "keysym2ucs.h" #undef Colormap #undef Cursor #undef Display #undef XDrawable #undef Font #undef GC #undef Point #undef Rectangle #undef Screen #undef Visual #undef Window #include <sys/ipc.h> #include <sys/shm.h> static int displaydepth; extern ulong displaychan; enum { DblTime = 300 /* double click time in msec */ }; /* screen data .... */ static uchar* gscreendata; static uchar* xscreendata; XColor map[256]; /* Inferno colormap array */ XColor mapr[256]; /* Inferno red colormap array */ XColor mapg[256]; /* Inferno green colormap array */ XColor mapb[256]; /* Inferno blue colormap array */ XColor map7[128]; /* Inferno colormap array */ uchar map7to8[128][2]; /* for copy/paste, lifted from plan9ports via drawterm */ static Atom clipboard; static Atom utf8string; static Atom textplainutf8; static Atom targets; static Atom text; static Atom compoundtext; static Atom cursorchange; static XColormap xcmap; /* Default shared colormap */ static int infernotox11[256]; /* Values for mapping between */ static int infernortox11[256]; /* Values for mapping between */ static int infernogtox11[256]; /* Values for mapping between */ static int infernobtox11[256]; /* Values for mapping between */ static int triedscreen; static XDrawable xdrawable; static void xexpose(XEvent*); static void xmouse(XEvent*); static void xkeyboard(XEvent*); static void xsetcursor(XEvent*); static void xkbdproc(void*); static void xdestroy(XEvent*); static void xselect(XEvent*, XDisplay*); static void xproc(void*); static void xinitscreen(int, int, ulong, ulong*, int*); static void initxcmap(XWindow); static XGC creategc(XDrawable); static void graphicsgmap(XColor*, int); static void graphicscmap(XColor*); static void graphicsrgbmap(XColor*, XColor*, XColor*); static int xscreendepth; static XDisplay* xdisplay; /* used holding draw lock */ static XDisplay* xmcon; /* used only in xproc */ static XDisplay* xkbdcon; /* used only in xkbdproc */ static XDisplay* xsnarfcon; /* used holding clip.lk */ static XVisual *xvis; static XGC xgc; static XImage *img; static int is_shm; static int putsnarf, assertsnarf; char *gkscanid = "emu_x11"; /* * The documentation for the XSHM extension implies that if the server * supports XSHM but is not the local machine, the XShm calls will * return False; but this turns out not to be the case. Instead, the * server throws a BadAccess error. So, we need to catch X errors * around all of our XSHM calls, sigh. */ static int shm_got_x_error = 0; static XErrorHandler old_handler = 0; static XErrorHandler old_io_handler = 0; static int shm_ehandler(XDisplay *dpy, XErrorEvent *error) { shm_got_x_error = 1; return 0; } static void clean_errhandlers(void) { /* remove X11 error handler(s) */ if(old_handler) XSetErrorHandler(old_handler); old_handler = 0; if(old_io_handler) XSetErrorHandler(old_io_handler); old_io_handler = 0; } static int makesharedfb(void) { XShmSegmentInfo *shminfo; shminfo = malloc(sizeof(XShmSegmentInfo)); if(shminfo == nil) { fprint(2, "emu: cannot allocate XShmSegmentInfo\n"); cleanexit(0); } /* setup to catch X11 error(s) */ XSync(xdisplay, 0); shm_got_x_error = 0; if(old_handler != shm_ehandler) old_handler = XSetErrorHandler(shm_ehandler); if(old_io_handler != shm_ehandler) old_io_handler = XSetErrorHandler(shm_ehandler); img = XShmCreateImage(xdisplay, xvis, xscreendepth, ZPixmap, NULL, shminfo, Xsize, Ysize); XSync(xdisplay, 0); /* did we get an X11 error? if so then try without shm */ if(shm_got_x_error) { free(shminfo); shminfo = NULL; clean_errhandlers(); return 0; } if(img == nil) { fprint(2, "emu: cannot allocate virtual screen buffer\n"); cleanexit(0); } shminfo->shmid = shmget(IPC_PRIVATE, img->bytes_per_line * img->height, IPC_CREAT|0777); shminfo->shmaddr = img->data = shmat(shminfo->shmid, 0, 0); shminfo->readOnly = True; if(!XShmAttach(xdisplay, shminfo)) { fprint(2, "emu: cannot allocate virtual screen buffer\n"); cleanexit(0); } XSync(xdisplay, 0); /* * Delete the shared segment right now; the segment * won't actually go away until both the client and * server have deleted it. The server will delete it * as soon as the client disconnects, so we might as * well delete our side now as later. */ shmctl(shminfo->shmid, IPC_RMID, 0); /* did we get an X11 error? if so then try without shm */ if(shm_got_x_error) { XDestroyImage(img); XSync(xdisplay, 0); free(shminfo); shminfo = NULL; clean_errhandlers(); return 0; } gscreendata = malloc(Xsize * Ysize * (displaydepth >> 3)); if(gscreendata == nil) { fprint(2, "emu: cannot allocate screen buffer (%dx%dx%d)\n", Xsize, Ysize, displaydepth); cleanexit(0); } xscreendata = (uchar*)img->data; clean_errhandlers(); return 1; } uchar* attachscreen(Rectangle *r, ulong *chan, int *d, int *width, int *softscreen) { int depth; Xsize &= ~0x3; /* ensure multiple of 4 */ r->min.x = 0; r->min.y = 0; r->max.x = Xsize; r->max.y = Ysize; if(!triedscreen){ xinitscreen(Xsize, Ysize, displaychan, chan, d); /* * moved xproc from here to end since it could cause an expose event and * hence a flushmemscreen before xscreendata is initialized */ } else{ *chan = displaychan; *d = displaydepth; } *width = (Xsize/4)*(*d/8); *softscreen = 1; displaychan = *chan; displaydepth = *d; /* check for X Shared Memory Extension */ is_shm = XShmQueryExtension(xdisplay); if(!is_shm || !makesharedfb()){ is_shm = 0; depth = xscreendepth; if(depth == 24) depth = 32; /* allocate virtual screen */ gscreendata = malloc(Xsize * Ysize * (displaydepth >> 3)); xscreendata = malloc(Xsize * Ysize * (depth >> 3)); if(gscreendata == nil || xscreendata == nil) { fprint(2, "emu: can not allocate virtual screen buffer (%dx%dx%d[%d])\n", Xsize, Ysize, displaydepth, depth); return 0; } img = XCreateImage(xdisplay, xvis, xscreendepth, ZPixmap, 0, (char*)xscreendata, Xsize, Ysize, 8, Xsize * (depth >> 3)); if(img == nil) { fprint(2, "emu: can not allocate virtual screen buffer (%dx%dx%d)\n", Xsize, Ysize, depth); return 0; } } if(!triedscreen){ triedscreen = 1; kproc("xproc", xproc, xmcon, 0); kproc("xkbdproc", xkbdproc, xkbdcon, KPX11); /* silly stack size for bloated X11 */ } return gscreendata; } static void copy32to32(Rectangle r) { int dx, width; uchar *p, *ep, *cp; u32int v, w, *dp, *wp, *edp, *lp; width = Dx(r); dx = Xsize - width; dp = (u32int*)(gscreendata + (r.min.y * Xsize + r.min.x) * 4); wp = (u32int*)(xscreendata + (r.min.y * Xsize + r.min.x) * 4); edp = (u32int*)(gscreendata + (r.max.y * Xsize + r.max.x) * 4); while(dp < edp) { lp = dp + width; while(dp < lp){ v = *dp++; w = v&(0xff<<24)|infernortox11[(v>>16)&0xff]<<16|infernogtox11[(v>>8)&0xff]<<8|infernobtox11[(v>>0)&0xff]<<0; *wp++ = w; } dp += dx; wp += dx; } } static void copy16to16(Rectangle r) { int dx, width; u16int *dp, *wp, *edp, *lp; width = Dx(r); dx = Xsize - width; dp = (u16int*)(gscreendata + ((r.min.y * Xsize) + r.min.x) * 2); wp = (u16int*)(xscreendata + ((r.min.y * Xsize) + r.min.x) * 2); edp = (u16int*)(gscreendata + ((r.max.y * Xsize) + r.max.x) * 2); /* The pixel format should be the same as the underlying X display (see the xtruevisual function) unless a different channel format is explicitly specified on the command line, so just copy the pixel data without any processing. */ while(dp < edp) { lp = dp + width; while(dp < lp){ *wp++ = *dp++; } dp += dx; wp += dx; } } static void copy16to16(Rectangle r) { int dx, width; u16int *dp, *wp, *edp, *lp; width = Dx(r); dx = Xsize - width; dp = (u16int*)(gscreendata + ((r.min.y * Xsize) + r.min.x) * 2); wp = (u16int*)(xscreendata + ((r.min.y * Xsize) + r.min.x) * 2); edp = (u16int*)(gscreendata + ((r.max.y * Xsize) + r.max.x) * 2); /* The pixel format should be the same as the underlying X display (see the xtruevisual function) unless a different channel format is explicitly specified on the command line, so just copy the pixel data without any processing. */ while(dp < edp) { lp = dp + width; while(dp < lp){ *wp++ = *dp++; } dp += dx; wp += dx; } } static void copy8to32(Rectangle r) { int dx, width; uchar *p, *ep, *lp; u32int *wp; width = Dx(r); dx = Xsize - width; p = gscreendata + r.min.y * Xsize + r.min.x; wp = (u32int *)(xscreendata + (r.min.y * Xsize + r.min.x) * 4); ep = gscreendata + r.max.y * Xsize + r.max.x; while(p < ep) { lp = p + width; while(p < lp) *wp++ = infernotox11[*p++]; p += dx; wp += dx; } } static void copy8to24(Rectangle r) { int dx, width, v; uchar *p, *cp, *ep, *lp; width = Dx(r); dx = Xsize - width; p = gscreendata + r.min.y * Xsize + r.min.x; cp = xscreendata + (r.min.y * Xsize + r.min.x) * 3; ep = gscreendata + r.max.y * Xsize + r.max.x; while(p < ep) { lp = p + width; while(p < lp){ v = infernotox11[*p++]; cp[0] = (v>>16)&0xff; cp[1] = (v>>8)&0xff; cp[2] = (v>>0)&0xff; cp += 3; } p += dx; cp += 3*dx; } } static void copy8to16(Rectangle r) { int dx, width; uchar *p, *ep, *lp; u16int *sp; width = Dx(r); dx = Xsize - width; p = gscreendata + r.min.y * Xsize + r.min.x; sp = (unsigned short *)(xscreendata + (r.min.y * Xsize + r.min.x) * 2); ep = gscreendata + r.max.y * Xsize + r.max.x; while(p < ep) { lp = p + width; while(p < lp) *sp++ = infernotox11[*p++]; p += dx; sp += dx; } } static void copy8to8(Rectangle r) { int dx, width; uchar *p, *cp, *ep, *lp; width = Dx(r); dx = Xsize - width; p = gscreendata + r.min.y * Xsize + r.min.x; cp = xscreendata + r.min.y * Xsize + r.min.x; ep = gscreendata + r.max.y * Xsize + r.max.x; while(p < ep) { lp = p + width; while(p < lp) *cp++ = infernotox11[*p++]; p += dx; cp += dx; } } static void copy8topixel(Rectangle r) { int x, y; uchar *p; /* mainly for 4-bit greyscale */ for (y = r.min.y; y < r.max.y; y++) { x = r.min.x; p = gscreendata + y * Xsize + x; while (x < r.max.x) XPutPixel(img, x++, y, infernotox11[*p++]); } } void flushmemscreen(Rectangle r) { char chanbuf[16]; // Clip to screen if(r.min.x < 0) r.min.x = 0; if(r.min.y < 0) r.min.y = 0; if(r.max.x >= Xsize) r.max.x = Xsize - 1; if(r.max.y >= Ysize) r.max.y = Ysize - 1; if(r.max.x <= r.min.x || r.max.y <= r.min.y) return; switch(displaydepth){ case 32: copy32to32(r); break; case 16: switch(xscreendepth){ case 16: copy16to16(r); break; default: fprint(2, "emu: bad display depth %d chan %s xscreendepth %d\n", displaydepth, chantostr(chanbuf, displaychan), xscreendepth); cleanexit(0); } break; case 8: switch(xscreendepth){ case 24: /* copy8to24(r); */ /* doesn't happen? */ /* break */ case 32: copy8to32(r); break; case 16: copy8to16(r); break; case 8: copy8to8(r); break; default: copy8topixel(r); break; } break; default: fprint(2, "emu: bad display depth %d chan %s xscreendepth %d\n", displaydepth, chantostr(chanbuf, displaychan), xscreendepth); cleanexit(0); } XLockDisplay(xdisplay); /* Display image on X11 */ if(is_shm) XShmPutImage(xdisplay, xdrawable, xgc, img, r.min.x, r.min.y, r.min.x, r.min.y, Dx(r), Dy(r), 0); else XPutImage(xdisplay, xdrawable, xgc, img, r.min.x, r.min.y, r.min.x, r.min.y, Dx(r), Dy(r)); XSync(xdisplay, 0); XUnlockDisplay(xdisplay); } static int revbyte(int b) { int r; r = 0; r |= (b&0x01) << 7; r |= (b&0x02) << 5; r |= (b&0x04) << 3; r |= (b&0x08) << 1; r |= (b&0x10) >> 1; r |= (b&0x20) >> 3; r |= (b&0x40) >> 5; r |= (b&0x80) >> 7; return r; } void setpointer(int x, int y) { drawqlock(); XLockDisplay(xdisplay); XWarpPointer(xdisplay, None, xdrawable, 0, 0, 0, 0, x, y); XFlush(xdisplay); XUnlockDisplay(xdisplay); drawqunlock(); } static void xkbdproc(void *arg) { XEvent event; XDisplay *xd; xd = arg; /* BEWARE: the value of up is not defined for this proc on some systems */ XLockDisplay(xd); /* should be ours alone */ XSelectInput(xd, xdrawable, KeyPressMask | KeyReleaseMask); for(;;){ XNextEvent(xd, &event); xkeyboard(&event); xsetcursor(&event); } } static void xproc(void *arg) { ulong mask; XEvent event; XDisplay *xd; closepgrp(up->env->pgrp); closefgrp(up->env->fgrp); closeegrp(up->env->egrp); closesigs(up->env->sigs); xd = arg; mask = ButtonPressMask| ButtonReleaseMask| PointerMotionMask| Button1MotionMask| Button2MotionMask| Button3MotionMask| Button4MotionMask| Button5MotionMask| ExposureMask| StructureNotifyMask; XLockDisplay(xd); /* should be ours alone */ XSelectInput(xd, xdrawable, mask); for(;;){ XNextEvent(xd, &event); xselect(&event, xd); xmouse(&event); xexpose(&event); xdestroy(&event); } } /* * this crud is here because X11 can put huge amount of data * on the stack during keyboard translation and cursor changing(!). * we do both in a dedicated process with lots of stack, perhaps even enough. */ enum { CursorSize= 32 /* biggest cursor size */ }; typedef struct ICursor ICursor; struct ICursor { int inuse; int modify; int hotx; int hoty; int w; int h; uchar src[(CursorSize/8)*CursorSize]; /* image and mask bitmaps */ uchar mask[(CursorSize/8)*CursorSize]; }; static ICursor icursor; static void xcurslock(void) { while(_tas(&icursor.inuse) != 0) osyield(); } static void xcursunlock(void) { coherence(); icursor.inuse = 0; } static void xcursnotify(void) { XClientMessageEvent e; memset(&e, 0, sizeof e); e.type = ClientMessage; e.window = xdrawable; e.message_type = cursorchange; e.format = 8; XLockDisplay(xdisplay); XSendEvent(xdisplay, xdrawable, True, KeyPressMask, (XEvent*)&e); XFlush(xdisplay); XUnlockDisplay(xdisplay); } void drawcursor(Drawcursor* c) { uchar *bs, *bc, *ps, *pm; int i, j, w, h, bpl; if(c->data == nil){ drawqlock(); if(icursor.h != 0){ xcurslock(); icursor.h = 0; icursor.modify = 1; xcursunlock(); } xcursnotify(); drawqunlock(); return; } drawqlock(); xcurslock(); icursor.modify = 0; /* xsetcursor will now ignore it */ xcursunlock(); h = (c->maxy-c->miny)/2; /* image, then mask */ if(h > CursorSize) h = CursorSize; bpl = bytesperline(Rect(c->minx, c->miny, c->maxx, c->maxy), 1); w = bpl; if(w > CursorSize/8) w = CursorSize/8; ps = icursor.src; pm = icursor.mask; bc = c->data; bs = c->data + h*bpl; for(i = 0; i < h; i++){ for(j = 0; j < bpl && j < w; j++) { *ps++ = revbyte(bs[j]); *pm++ = revbyte(bs[j] | bc[j]); } bs += bpl; bc += bpl; } icursor.h = h; icursor.w = w*8; icursor.hotx = c->hotx; icursor.hoty = c->hoty; icursor.modify = 1; xcursnotify(); drawqunlock(); } static void xsetcursor(XEvent *e) { ICursor ic; XCursor xc; XColor fg, bg; Pixmap xsrc, xmask; static XCursor xcursor; if(e->type != ClientMessage || !e->xclient.send_event || e->xclient.message_type != cursorchange) return; xcurslock(); if(icursor.modify == 0){ xcursunlock(); return; } icursor.modify = 0; if(icursor.h == 0){ xcursunlock(); /* set the default system cursor */ if(xcursor != 0) { XFreeCursor(xkbdcon, xcursor); xcursor = 0; } XUndefineCursor(xkbdcon, xdrawable); XFlush(xkbdcon); return; } ic = icursor; xcursunlock(); xsrc = XCreateBitmapFromData(xkbdcon, xdrawable, (char*)ic.src, ic.w, ic.h); xmask = XCreateBitmapFromData(xkbdcon, xdrawable, (char*)ic.mask, ic.w, ic.h); fg = map[0]; bg = map[255]; fg.pixel = infernotox11[0]; bg.pixel = infernotox11[255]; xc = XCreatePixmapCursor(xkbdcon, xsrc, xmask, &fg, &bg, -ic.hotx, -ic.hoty); if(xc != 0) { XDefineCursor(xkbdcon, xdrawable, xc); if(xcursor != 0) XFreeCursor(xkbdcon, xcursor); xcursor = xc; } XFreePixmap(xkbdcon, xsrc); XFreePixmap(xkbdcon, xmask); XFlush(xkbdcon); } typedef struct Mg Mg; struct Mg { int code; int bit; int len; ulong mask; }; static int maskx(Mg* g, int code, ulong mask) { int i; for(i=0; i<32; i++) if(mask & (1<<i)) break; if(i == 32) return 0; g->code = code; g->bit = i; g->mask = mask; for(g->len = 0; i<32 && (mask & (1<<i))!=0; i++) g->len++; return 1; } /* * for a given depth, we need to check the available formats * to find how many actual bits are used per pixel. */ static int xactualdepth(int screenno, int depth) { XPixmapFormatValues *pfmt; int i, n; pfmt = XListPixmapFormats(xdisplay, &n); for(i=0; i<n; i++) if(pfmt[i].depth == depth) return pfmt[i].bits_per_pixel; return -1; } static int xtruevisual(int screenno, int reqdepth, XVisualInfo *vi, ulong *chan) { XVisual *xv; Mg r, g, b; int pad, d; ulong c; char buf[30]; if(XMatchVisualInfo(xdisplay, screenno, reqdepth, TrueColor, vi) || XMatchVisualInfo(xdisplay, screenno, reqdepth, DirectColor, vi)){ xv = vi->visual; if(maskx(&r, CRed, xv->red_mask) && maskx(&g, CGreen, xv->green_mask) && maskx(&b, CBlue, xv->blue_mask)){ d = xactualdepth(screenno, reqdepth); if(d < 0) return 0; pad = d - (r.len + g.len + b.len); if(0){ fprint(2, "r: %8.8lux %d %d\ng: %8.8lux %d %d\nb: %8.8lux %d %d\n", xv->red_mask, r.bit, r.len, xv->green_mask, g.bit, g.len, xv->blue_mask, b.bit, b.len); } if(r.bit > b.bit) c = CHAN3(CRed, r.len, CGreen, g.len, CBlue, b.len); else c = CHAN3(CBlue, b.len, CGreen, g.len, CRed, r.len); if(pad > 0) c |= CHAN1(CIgnore, pad) << 24; *chan = c; xscreendepth = reqdepth; if(0) fprint(2, "chan=%s reqdepth=%d bits=%d\n", chantostr(buf, c), reqdepth, d); return 1; } } return 0; } static int xmapvisual(int screenno, XVisualInfo *vi, ulong *chan) { if(XMatchVisualInfo(xdisplay, screenno, 8, PseudoColor, vi) || XMatchVisualInfo(xdisplay, screenno, 8, StaticColor, vi)){ *chan = CMAP8; xscreendepth = 8; return 1; } return 0; } static void xinitscreen(int xsize, int ysize, ulong reqchan, ulong *chan, int *d) { char *argv[2]; char *dispname; XWindow rootwin; XWMHints hints; XVisualInfo xvi; XScreen *screen; int rootscreennum; XTextProperty name; XClassHint classhints; XSizeHints normalhints; XSetWindowAttributes attrs; char buf[30]; int i; xdrawable = 0; dispname = getenv("DISPLAY"); if(dispname == nil) dispname = "not set"; XInitThreads(); xdisplay = XOpenDisplay(NULL); if(xdisplay == 0){ fprint(2, "emu: win-x11 open %r, DISPLAY is %s\n", dispname); cleanexit(0); } rootscreennum = DefaultScreen(xdisplay); rootwin = DefaultRootWindow(xdisplay); xscreendepth = DefaultDepth(xdisplay, rootscreennum); xvis = DefaultVisual(xdisplay, rootscreennum); screen = DefaultScreenOfDisplay(xdisplay); xcmap = DefaultColormapOfScreen(screen); if(reqchan == 0){ *chan = 0; if(xscreendepth <= 16){ /* try for better colour */ xtruevisual(rootscreennum, 16, &xvi, chan) || xtruevisual(rootscreennum, 15, &xvi, chan) || xtruevisual(rootscreennum, 24, &xvi, chan) || xmapvisual(rootscreennum, &xvi, chan); }else{ xtruevisual(rootscreennum, xscreendepth, &xvi, chan) || xtruevisual(rootscreennum, 24, &xvi, chan); } if(*chan == 0){ fprint(2, "emu: could not find suitable x11 pixel format for depth %d on this display\n", xscreendepth); cleanexit(0); } reqchan = *chan; *d = chantodepth(reqchan); xvis = xvi.visual; }else{ *chan = reqchan; /* not every channel description will work */ *d = chantodepth(reqchan); if(*d != xactualdepth(rootscreennum, *d)){ fprint(2, "emu: current x11 display configuration does not support %s (depth %d) directly\n", chantostr(buf, reqchan), *d); cleanexit(0); } } if(xvis->class != StaticColor) { if(TYPE(*chan) == CGrey) graphicsgmap(map, NBITS(reqchan)); else{ graphicscmap(map); graphicsrgbmap(mapr, mapg, mapb); } initxcmap(rootwin); } memset(&attrs, 0, sizeof(attrs)); attrs.colormap = xcmap; attrs.background_pixel = 0; attrs.border_pixel = 0; /* attrs.override_redirect = 1;*/ /* WM leave me alone! |CWOverrideRedirect */ xdrawable = XCreateWindow(xdisplay, rootwin, 0, 0, xsize, ysize, 0, xscreendepth, InputOutput, xvis, CWBackPixel|CWBorderPixel|CWColormap, &attrs); /* * set up property as required by ICCCM */ memset(&name, 0, sizeof(name)); name.value = (uchar*)"inferno"; name.encoding = XA_STRING; name.format = 8; name.nitems = strlen((char*)name.value); memset(&normalhints, 0, sizeof(normalhints)); normalhints.flags = USSize|PMaxSize; normalhints.max_width = normalhints.width = xsize; normalhints.max_height = normalhints.height = ysize; hints.flags = InputHint|StateHint; hints.input = 1; hints.initial_state = NormalState; memset(&classhints, 0, sizeof(classhints)); classhints.res_name = "inferno"; classhints.res_class = "Inferno"; argv[0] = "inferno"; argv[1] = nil; XSetWMProperties(xdisplay, xdrawable, &name, /* XA_WM_NAME property for ICCCM */ &name, /* XA_WM_ICON_NAME */ argv, /* XA_WM_COMMAND */ 1, /* argc */ &normalhints, /* XA_WM_NORMAL_HINTS */ &hints, /* XA_WM_HINTS */ &classhints); /* XA_WM_CLASS */ XMapWindow(xdisplay, xdrawable); XFlush(xdisplay); xgc = creategc(xdrawable); xmcon = XOpenDisplay(NULL); xsnarfcon = XOpenDisplay(NULL); xkbdcon = XOpenDisplay(NULL); if(xmcon == 0 || xsnarfcon == 0 || xkbdcon == 0){ fprint(2, "emu: win-x11 open %r, DISPLAY is %s\n", dispname); cleanexit(0); } clipboard = XInternAtom(xmcon, "CLIPBOARD", False); utf8string = XInternAtom(xmcon, "UTF8_STRING", False); textplainutf8 = XInternAtom(xmcon, "text/plain;charset=utf-8", False); /* for GNOME, GTK */ targets = XInternAtom(xmcon, "TARGETS", False); text = XInternAtom(xmcon, "TEXT", False); compoundtext = XInternAtom(xmcon, "COMPOUND_TEXT", False); cursorchange = XInternAtom(xkbdcon, "TheCursorHasChanged", False); } static void graphicsgmap(XColor *map, int d) { int i, j, s, m, p; s = 8-d; m = 1; while(--d >= 0) m *= 2; m = 255/(m-1); for(i=0; i < 256; i++){ j = (i>>s)*m; p = 255-i; map[p].red = map[p].green = map[p].blue = (255-j)*0x0101; map[p].pixel = p; map[p].flags = DoRed|DoGreen|DoBlue; } } static void graphicscmap(XColor *map) { int r, g, b, cr, cg, cb, v, num, den, idx, v7, idx7; for(r=0; r!=4; r++) { for(g = 0; g != 4; g++) { for(b = 0; b!=4; b++) { for(v = 0; v!=4; v++) { den=r; if(g > den) den=g; if(b > den) den=b; /* divide check -- pick grey shades */ if(den==0) cr=cg=cb=v*17; else { num=17*(4*den+v); cr=r*num/den; cg=g*num/den; cb=b*num/den; } idx = r*64 + v*16 + ((g*4 + b + v - r) & 15); /* was idx = 255 - idx; */ map[idx].red = cr*0x0101; map[idx].green = cg*0x0101; map[idx].blue = cb*0x0101; map[idx].pixel = idx; map[idx].flags = DoRed|DoGreen|DoBlue; v7 = v >> 1; idx7 = r*32 + v7*16 + g*4 + b; if((v & 1) == v7){ map7to8[idx7][0] = idx; if(den == 0) { /* divide check -- pick grey shades */ cr = ((255.0/7.0)*v7)+0.5; cg = cr; cb = cr; } else { num=17*15*(4*den+v7*2)/14; cr=r*num/den; cg=g*num/den; cb=b*num/den; } map7[idx7].red = cr*0x0101; map7[idx7].green = cg*0x0101; map7[idx7].blue = cb*0x0101; map7[idx7].pixel = idx7; map7[idx7].flags = DoRed|DoGreen|DoBlue; } else map7to8[idx7][1] = idx; } } } } } static void graphicsrgbmap(XColor *mapr, XColor *mapg, XColor *mapb) { int i; memset(mapr, 0, 256*sizeof(XColor)); memset(mapg, 0, 256*sizeof(XColor)); memset(mapb, 0, 256*sizeof(XColor)); for(i=0; i < 256; i++){ mapr[i].red = mapg[i].green = mapb[i].blue = i*0x0101; mapr[i].pixel = mapg[i].pixel = mapb[i].pixel = i; mapr[i].flags = mapg[i].flags = mapb[i].flags = DoRed|DoGreen|DoBlue; } } /* * Initialize and install the Inferno colormap as a private colormap for this * application. Inferno gets the best colors here when it has the cursor focus. */ static void initxcmap(XWindow w) { XColor c; int i; if(xscreendepth <= 1) return; switch(xvis->class){ case TrueColor: case DirectColor: for(i = 0; i < 256; i++) { c = map[i]; /* find index into colormap for our RGB */ if(!XAllocColor(xdisplay, xcmap, &c)) { fprint(2, "emu: win-x11 can't alloc color\n"); cleanexit(0); } infernotox11[map[i].pixel] = c.pixel; if(xscreendepth >= 24){ c = mapr[i]; XAllocColor(xdisplay, xcmap, &c); infernortox11[i] = (c.pixel>>16)&0xff; c = mapg[i]; XAllocColor(xdisplay, xcmap, &c); infernogtox11[i] = (c.pixel>>8)&0xff; c = mapb[i]; XAllocColor(xdisplay, xcmap, &c); infernobtox11[i] = (c.pixel>>0)&0xff; } } if(0){int i, j; for(i=0;i<256; i+=16){print("%3d", i); for(j=i; j<i+16; j++)print(" %2.2ux/%2.2ux/%2.2ux", infernortox11[j], infernogtox11[j],infernobtox11[j]); print("\n");}} /* TO DO: if the map(s) used give the identity map, don't use the map during copy */ break; case PseudoColor: if(xtblbit == 0){ xcmap = XCreateColormap(xdisplay, w, xvis, AllocAll); XStoreColors(xdisplay, xcmap, map, 256); for(i = 0; i < 256; i++) infernotox11[i] = i; /* TO DO: the map is the identity, so don't need the map in copy */ } else { for(i = 0; i < 128; i++) { c = map7[i]; if(!XAllocColor(xdisplay, xcmap, &c)) { fprint(2, "emu: win-x11 can't alloc colors in default map, don't use -7\n"); cleanexit(0); } infernotox11[map7to8[i][0]] = c.pixel; infernotox11[map7to8[i][1]] = c.pixel; } } break; default: xtblbit = 0; fprint(2, "emu: win-x11 unsupported visual class %d\n", xvis->class); break; } } static void xdestroy(XEvent *e) { XDestroyWindowEvent *xe; if(e->type != DestroyNotify) return; xe = (XDestroyWindowEvent*)e; if(xe->window == xdrawable) cleanexit(0); } /* * Disable generation of GraphicsExpose/NoExpose events in the XGC. */ static XGC creategc(XDrawable d) { XGCValues gcv; gcv.function = GXcopy; gcv.graphics_exposures = False; return XCreateGC(xdisplay, d, GCFunction|GCGraphicsExposures, &gcv); } static void xexpose(XEvent *e) { Rectangle r; XExposeEvent *xe; if(e->type != Expose) return; xe = (XExposeEvent*)e; r.min.x = xe->x; r.min.y = xe->y; r.max.x = xe->x + xe->width; r.max.y = xe->y + xe->height; drawqlock(); flushmemscreen(r); drawqunlock(); } static void xkeyboard(XEvent *e) { int ind, md; KeySym k; if(gkscanq != nil && (e->type == KeyPress || e->type == KeyRelease)){ uchar ch = e->xkey.keycode; if(e->xany.type == KeyRelease) ch |= 0x80; qproduce(gkscanq, &ch, 1); return; } /* * I tried using XtGetActionKeysym, but it didn't seem to * do case conversion properly * (at least, with Xterminal servers and R4 intrinsics) */ if(e->xany.type != KeyPress) return; md = e->xkey.state; ind = 0; if(md & ShiftMask) ind = 1; if(0){ k = XKeycodeToKeysym(e->xany.display, (KeyCode)e->xkey.keycode, ind); /* May have to try unshifted version */ if(k == NoSymbol && ind == 1) k = XKeycodeToKeysym(e->xany.display, (KeyCode)e->xkey.keycode, 0); }else XLookupString((XKeyEvent*)e, NULL, 0, &k, NULL); if(k == XK_Multi_key || k == NoSymbol) return; if(k&0xFF00){ switch(k){ case XK_BackSpace: case XK_Tab: case XK_Escape: case XK_Delete: case XK_KP_0: case XK_KP_1: case XK_KP_2: case XK_KP_3: case XK_KP_4: case XK_KP_5: case XK_KP_6: case XK_KP_7: case XK_KP_8: case XK_KP_9: case XK_KP_Divide: case XK_KP_Multiply: case XK_KP_Subtract: case XK_KP_Add: case XK_KP_Decimal: k &= 0x7F; break; case XK_Linefeed: k = '\r'; break; case XK_KP_Space: k = ' '; break; case XK_Home: case XK_KP_Home: k = Home; break; case XK_Left: case XK_KP_Left: k = Left; break; case XK_Up: case XK_KP_Up: k = Up; break; case XK_Down: case XK_KP_Down: k = Down; break; case XK_Right: case XK_KP_Right: k = Right; break; case XK_Page_Down: case XK_KP_Page_Down: k = Pgdown; break; case XK_End: case XK_KP_End: k = End; break; case XK_Page_Up: case XK_KP_Page_Up: k = Pgup; break; case XK_Insert: case XK_KP_Insert: k = Ins; break; case XK_KP_Enter: case XK_Return: k = '\n'; break; case XK_Alt_L: case XK_Alt_R: k = Latin; break; case XK_Shift_L: case XK_Shift_R: case XK_Control_L: case XK_Control_R: case XK_Caps_Lock: case XK_Shift_Lock: case XK_Meta_L: case XK_Meta_R: case XK_Super_L: case XK_Super_R: case XK_Hyper_L: case XK_Hyper_R: return; default: /* not ISO-1 or tty control */ if(k>0xff){ k = keysym2ucs(k); /* supplied by X */ if(k == -1) return; } break; } } /* Compensate for servers that call a minus a hyphen */ if(k == XK_hyphen) k = XK_minus; /* Do control mapping ourselves if translator doesn't */ if(md & ControlMask) k &= 0x9f; if(0){ if(k == '\t' && ind) k = BackTab; if(md & Mod1Mask) k = APP|(k&0xff); } if(k == NoSymbol) return; gkbdputc(gkbdq, k); } static void xmouse(XEvent *e) { int s, dbl; XButtonEvent *be; XMotionEvent *me; XEvent motion; int x, y, b; static ulong lastb, lastt; if(putsnarf != assertsnarf){ assertsnarf = putsnarf; XSetSelectionOwner(xmcon, XA_PRIMARY, xdrawable, CurrentTime); if(clipboard != None) XSetSelectionOwner(xmcon, clipboard, xdrawable, CurrentTime); XFlush(xmcon); } dbl = 0; switch(e->type){ case ButtonPress: be = (XButtonEvent *)e; /* * Fake message, just sent to make us announce snarf. * Apparently state and button are 16 and 8 bits on * the wire, since they are truncated by the time they * get to us. */ if(be->send_event && (~be->state&0xFFFF)==0 && (~be->button&0xFF)==0) return; x = be->x; y = be->y; s = be->state; if(be->button == lastb && be->time - lastt < DblTime) dbl = 1; lastb = be->button; lastt = be->time; switch(be->button){ case 1: s |= Button1Mask; break; case 2: s |= Button2Mask; break; case 3: s |= Button3Mask; break; case 4: s |= Button4Mask; break; case 5: s |= Button5Mask; break; } break; case ButtonRelease: be = (XButtonEvent *)e; x = be->x; y = be->y; s = be->state; switch(be->button){ case 1: s &= ~Button1Mask; break; case 2: s &= ~Button2Mask; break; case 3: s &= ~Button3Mask; break; case 4: s &= ~Button4Mask; break; case 5: s &= ~Button5Mask; break; } break; case MotionNotify: me = (XMotionEvent *) e; /* remove excess MotionNotify events from queue and keep last one */ while(XCheckTypedWindowEvent(xmcon, xdrawable, MotionNotify, &motion) == True) me = (XMotionEvent *) &motion; s = me->state; x = me->x; y = me->y; break; default: return; } b = 0; if(s & Button1Mask) b |= 1; if(s & Button2Mask) b |= 2; if(s & Button3Mask) b |= 4; if(s & Button4Mask) b |= 8; if(s & Button5Mask) b |= 16; if(dbl) b |= 1<<8; mousetrack(b, x, y, 0); } #include "x11-keysym2ucs.c" /* * Cut and paste. Just couldn't stand to make this simple... */ enum{ SnarfSize= 100*1024 }; typedef struct Clip Clip; struct Clip { char buf[SnarfSize]; QLock lk; }; Clip clip; #undef long /* sic */ #undef ulong static char* _xgetsnarf(XDisplay *xd) { uchar *data, *xdata; Atom clipboard, type, prop; unsigned long len, lastlen, dummy; int fmt, i; XWindow w; qlock(&clip.lk); /* * Have we snarfed recently and the X server hasn't caught up? */ if(putsnarf != assertsnarf) goto mine; /* * Is there a primary selection (highlighted text in an xterm)? */ clipboard = XA_PRIMARY; w = XGetSelectionOwner(xd, XA_PRIMARY); if(w == xdrawable){ mine: data = (uchar*)strdup(clip.buf); goto out; } /* * If not, is there a clipboard selection? */ if(w == None && clipboard != None){ clipboard = clipboard; w = XGetSelectionOwner(xd, clipboard); if(w == xdrawable) goto mine; } /* * If not, give up. */ if(w == None){ data = nil; goto out; } /* * We should be waiting for SelectionNotify here, but it might never * come, and we have no way to time out. Instead, we will clear * local property #1, request our buddy to fill it in for us, and poll * until he's done or we get tired of waiting. * * We should try to go for utf8string instead of XA_STRING, * but that would add to the polling. */ prop = 1; XChangeProperty(xd, xdrawable, prop, XA_STRING, 8, PropModeReplace, (uchar*)"", 0); XConvertSelection(xd, clipboard, XA_STRING, prop, xdrawable, CurrentTime); XFlush(xd); lastlen = 0; for(i=0; i<10 || (lastlen!=0 && i<30); i++){ osmillisleep(100); XGetWindowProperty(xd, xdrawable, prop, 0, 0, 0, AnyPropertyType, &type, &fmt, &dummy, &len, &data); if(lastlen == len && len > 0) break; lastlen = len; } if(i == 10){ data = nil; goto out; } /* get the property */ data = nil; XGetWindowProperty(xd, xdrawable, prop, 0, SnarfSize/sizeof(unsigned long), 0, AnyPropertyType, &type, &fmt, &len, &dummy, &xdata); if((type != XA_STRING && type != utf8string) || len == 0){ if(xdata) XFree(xdata); data = nil; }else{ if(xdata){ data = (uchar*)strdup((char*)xdata); XFree(xdata); }else data = nil; } out: qunlock(&clip.lk); return (char*)data; } static void _xputsnarf(XDisplay *xd, char *data) { XButtonEvent e; if(strlen(data) >= SnarfSize) return; qlock(&clip.lk); strcpy(clip.buf, data); /* leave note for mouse proc to assert selection ownership */ putsnarf++; /* send mouse a fake event so snarf is announced */ memset(&e, 0, sizeof e); e.type = ButtonPress; e.window = xdrawable; e.state = ~0; e.button = ~0; XSendEvent(xd, xdrawable, True, ButtonPressMask, (XEvent*)&e); XFlush(xd); qunlock(&clip.lk); } static void xselect(XEvent *e, XDisplay *xd) { char *name; XEvent r; XSelectionRequestEvent *xe; Atom a[4]; if(e->xany.type != SelectionRequest) return; memset(&r, 0, sizeof r); xe = (XSelectionRequestEvent*)e; if(0) iprint("xselect target=%d requestor=%d property=%d selection=%d\n", xe->target, xe->requestor, xe->property, xe->selection); r.xselection.property = xe->property; if(xe->target == targets){ a[0] = XA_STRING; a[1] = utf8string; a[2] = text; a[3] = compoundtext; XChangeProperty(xd, xe->requestor, xe->property, xe->target, 8, PropModeReplace, (uchar*)a, sizeof a); }else if(xe->target == XA_STRING || xe->target == utf8string || xe->target == textplainutf8 || xe->target == text || xe->target == compoundtext){ /* if the target is STRING we're supposed to reply with Latin1 XXX */ qlock(&clip.lk); XChangeProperty(xd, xe->requestor, xe->property, xe->target, 8, PropModeReplace, (uchar*)clip.buf, strlen(clip.buf)); qunlock(&clip.lk); }else{ iprint("get %d\n", xe->target); name = XGetAtomName(xd, xe->target); if(name == nil) iprint("XGetAtomName failed\n"); else if(strcmp(name, "TIMESTAMP") != 0) iprint("%s: cannot handle selection request for '%s' (%d)\n", argv0, name, (int)xe->target); r.xselection.property = None; } r.xselection.display = xe->display; /* r.xselection.property filled above */ r.xselection.target = xe->target; r.xselection.type = SelectionNotify; r.xselection.requestor = xe->requestor; r.xselection.time = xe->time; r.xselection.send_event = True; r.xselection.selection = xe->selection; XSendEvent(xd, xe->requestor, False, 0, &r); XFlush(xd); } char* clipread(void) { char *p; if(xsnarfcon == nil) return nil; XLockDisplay(xsnarfcon); p = _xgetsnarf(xsnarfcon); XUnlockDisplay(xsnarfcon); return p; } int clipwrite(char *buf) { if(xsnarfcon == nil) return 0; XLockDisplay(xsnarfcon); _xputsnarf(xsnarfcon, buf); XUnlockDisplay(xsnarfcon); return 0; }