/* rdesktop: A Remote Desktop Protocol client. User interface services - X Window System Copyright (C) Matthew Chapman 1999-2001 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #define XK_MISCELLANY #include #include "rdesktop.h" #include "scancodes.h" extern int width; extern int height; extern BOOL sendmotion; extern BOOL fullscreen; extern BOOL grab_keyboard; Display *display = NULL; static int x_socket; static Window wnd; static GC gc; static Visual *visual; static int depth; static int bpp; /* endianness */ static BOOL host_be; static BOOL xserver_be; /* software backing store */ static BOOL ownbackstore; static Pixmap backstore; #define FILL_RECTANGLE(x,y,cx,cy)\ { \ XFillRectangle(display, wnd, gc, x, y, cx, cy); \ if (ownbackstore) \ XFillRectangle(display, backstore, gc, x, y, cx, cy); \ } /* colour maps */ static BOOL owncolmap; static Colormap xcolmap; static uint32 white; static uint32 *colmap; static XIM IM = NULL; static XIC IC = NULL; /* Compose support */ BOOL enable_compose = False; #define TRANSLATE(col) ( owncolmap ? col : translate_colour(colmap[col]) ) #define SET_FOREGROUND(col) XSetForeground(display, gc, TRANSLATE(col)); #define SET_BACKGROUND(col) XSetBackground(display, gc, TRANSLATE(col)); static int rop2_map[] = { GXclear, /* 0 */ GXnor, /* DPon */ GXandInverted, /* DPna */ GXcopyInverted, /* Pn */ GXandReverse, /* PDna */ GXinvert, /* Dn */ GXxor, /* DPx */ GXnand, /* DPan */ GXand, /* DPa */ GXequiv, /* DPxn */ GXnoop, /* D */ GXorInverted, /* DPno */ GXcopy, /* P */ GXorReverse, /* PDno */ GXor, /* DPo */ GXset /* 1 */ }; #define SET_FUNCTION(rop2) { if (rop2 != ROP2_COPY) XSetFunction(display, gc, rop2_map[rop2]); } #define RESET_FUNCTION(rop2) { if (rop2 != ROP2_COPY) XSetFunction(display, gc, GXcopy); } static void translate8(uint8 * data, uint8 * out, uint8 * end) { while (out < end) *(out++) = (uint8) colmap[*(data++)]; } static void translate16(uint8 * data, uint16 * out, uint16 * end) { while (out < end) *(out++) = (uint16) colmap[*(data++)]; } /* little endian - conversion happens when colourmap is built */ static void translate24(uint8 * data, uint8 * out, uint8 * end) { uint32 value; while (out < end) { value = colmap[*(data++)]; *(out++) = value; *(out++) = value >> 8; *(out++) = value >> 16; } } static void translate32(uint8 * data, uint32 * out, uint32 * end) { while (out < end) *(out++) = colmap[*(data++)]; } static uint8 * translate_image(int width, int height, uint8 * data) { int size = width * height * bpp / 8; uint8 *out = xmalloc(size); uint8 *end = out + size; switch (bpp) { case 8: translate8(data, out, end); break; case 16: translate16(data, (uint16 *) out, (uint16 *) end); break; case 24: translate24(data, out, end); break; case 32: translate32(data, (uint32 *) out, (uint32 *) end); break; } return out; } #define BSWAP16(x) { x = (((x & 0xff) << 8) | (x >> 8)); } #define BSWAP24(x) { x = (((x & 0xff) << 16) | (x >> 16) | ((x >> 8) & 0xff00)); } #define BSWAP32(x) { x = (((x & 0xff00ff) << 8) | ((x >> 8) & 0xff00ff)); \ x = (x << 16) | (x >> 16); } static uint32 translate_colour(uint32 colour) { switch (bpp) { case 16: if (host_be != xserver_be) BSWAP16(colour); break; case 24: if (xserver_be) BSWAP24(colour); break; case 32: if (host_be != xserver_be) BSWAP32(colour); break; } return colour; } static unsigned long init_inputmethod(void) { unsigned long filtered_events = 0; IM = XOpenIM(display, NULL, NULL, NULL); if (IM == NULL) { error("Failed to open input method\n"); } if (IM != NULL) { /* Must be done after XCreateWindow */ IC = XCreateIC(IM, XNInputStyle, (XIMPreeditNothing | XIMStatusNothing), XNClientWindow, wnd, XNFocusWindow, wnd, NULL); if (IC == NULL) { error("Failed to create input context\n"); XCloseIM(IM); IM = NULL; } } /* For correct Multi_key/Compose processing, I guess. It seems to work alright anyway, though. */ if (IC != NULL) { if (XGetICValues(IC, XNFilterEvents, &filtered_events, NULL) != NULL) { error("Failed to obtain XNFilterEvents value from IC\n"); filtered_events = 0; } } return filtered_events; } static void close_inputmethod(void) { if (IC != NULL) { XDestroyIC(IC); if (IM != NULL) { XCloseIM(IM); IM = NULL; } } } BOOL ui_init() { Screen *screen; display = XOpenDisplay(NULL); if (display == NULL) { error("Failed to open display\n"); return False; } if (fullscreen) { screen = DefaultScreenOfDisplay(display); width = WidthOfScreen(screen); height = HeightOfScreen(screen); } return True; } BOOL ui_create_window(char *title) { XSetWindowAttributes attribs; XClassHint *classhints; XSizeHints *sizehints; unsigned long input_mask; XPixmapFormatValues *pfm; Screen *screen; uint16 test; int i; XEvent xevent; x_socket = ConnectionNumber(display); screen = DefaultScreenOfDisplay(display); visual = DefaultVisualOfScreen(screen); depth = DefaultDepthOfScreen(screen); pfm = XListPixmapFormats(display, &i); if (pfm != NULL) { /* Use maximum bpp for this depth - this is generally desirable, e.g. 24 bits->32 bits. */ while (i--) { if ((pfm[i].depth == depth) && (pfm[i].bits_per_pixel > bpp)) { bpp = pfm[i].bits_per_pixel; } } XFree(pfm); } if (bpp < 8) { error("Less than 8 bpp not currently supported.\n"); XCloseDisplay(display); return False; } if (depth <= 8) owncolmap = True; else xcolmap = DefaultColormapOfScreen(screen); test = 1; host_be = !(BOOL) (*(uint8 *) (&test)); xserver_be = (ImageByteOrder(display) == MSBFirst); white = WhitePixelOfScreen(screen); attribs.background_pixel = BlackPixelOfScreen(screen); attribs.backing_store = DoesBackingStore(screen); if (attribs.backing_store == NotUseful) ownbackstore = True; if (fullscreen) { attribs.override_redirect = True; width = WidthOfScreen(screen); height = HeightOfScreen(screen); } else { attribs.override_redirect = False; } width = (width + 3) & ~3; /* make width a multiple of 32 bits */ wnd = XCreateWindow(display, RootWindowOfScreen(screen), 0, 0, width, height, 0, CopyFromParent, InputOutput, CopyFromParent, CWBackingStore | CWBackPixel | CWOverrideRedirect, &attribs); XStoreName(display, wnd, title); classhints = XAllocClassHint(); if (classhints != NULL) { classhints->res_name = classhints->res_class = "rdesktop"; XSetClassHint(display, wnd, classhints); XFree(classhints); } sizehints = XAllocSizeHints(); if (sizehints) { sizehints->flags = PMinSize | PMaxSize; sizehints->min_width = sizehints->max_width = width; sizehints->min_height = sizehints->max_height = height; XSetWMNormalHints(display, wnd, sizehints); XFree(sizehints); } xkeymap_init2(); input_mask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | VisibilityChangeMask; if (grab_keyboard) input_mask |= EnterWindowMask | LeaveWindowMask; if (sendmotion) input_mask |= PointerMotionMask; if (ownbackstore) input_mask |= ExposureMask; if (enable_compose) input_mask |= init_inputmethod(); XSelectInput(display, wnd, input_mask); gc = XCreateGC(display, wnd, 0, NULL); if (ownbackstore) backstore = XCreatePixmap(display, wnd, width, height, depth); XMapWindow(display, wnd); /* Wait for VisibilityNotify Event */ for (;;) { XNextEvent(display, &xevent); if (xevent.type == VisibilityNotify) break; } /* clear the window so that cached data is not viewed upon start... */ XSetBackground(display, gc, 0); XSetForeground(display, gc, 0); FILL_RECTANGLE(0, 0, width, height); return True; } void ui_destroy_window() { if (ownbackstore) XFreePixmap(display, backstore); XFreeGC(display, gc); close_inputmethod(); XDestroyWindow(display, wnd); XCloseDisplay(display); display = NULL; } static void xwin_process_events() { XEvent xevent; KeySym keysym; uint16 button, flags; uint32 ev_time; key_translation tr; char *ksname = NULL; char str[256]; Status status; /* Refresh keyboard mapping if it has changed. This is important for Xvnc, since it allocates keycodes dynamically */ if (XCheckTypedEvent(display, MappingNotify, &xevent)) { if (xevent.xmapping.request == MappingKeyboard || xevent.xmapping.request == MappingModifier) XRefreshKeyboardMapping(&xevent.xmapping); } while (XCheckMaskEvent(display, ~0, &xevent)) { if (enable_compose && (XFilterEvent(&xevent, None) == True)) { DEBUG_KBD(("Filtering event\n")); continue; } ev_time = time(NULL); flags = 0; switch (xevent.type) { case KeyPress: if (IC != NULL) /* Multi_key compatible version */ { XmbLookupString(IC, (XKeyPressedEvent *) & xevent, str, sizeof(str), &keysym, &status); if (!((status == XLookupKeySym) || (status == XLookupBoth))) { error("XmbLookupString failed with status 0x%x\n", status); break; } } else { /* Plain old XLookupString */ DEBUG_KBD(("No input context, using XLookupString\n")); XLookupString((XKeyEvent *) & xevent, str, sizeof(str), &keysym, NULL); } ksname = get_ksname(keysym); DEBUG_KBD(("\nKeyPress for (keysym 0x%lx, %s)\n", keysym, ksname)); if (inhibit_key(keysym)) { DEBUG_KBD(("Inhibiting key\n")); break; } tr = xkeymap_translate_key(keysym, xevent.xkey.keycode, xevent.xkey.state); ensure_remote_modifiers(ev_time, tr); if (tr.scancode == 0) break; rdp_send_scancode(ev_time, RDP_KEYPRESS, tr.scancode); break; case KeyRelease: XLookupString((XKeyEvent *) & xevent, str, sizeof(str), &keysym, NULL); ksname = get_ksname(keysym); DEBUG_KBD(("\nKeyRelease for (keysym 0x%lx, %s)\n", keysym, ksname)); if (inhibit_key(keysym)) break; tr = xkeymap_translate_key(keysym, xevent.xkey.keycode, xevent.xkey.state); if (tr.scancode == 0) break; rdp_send_scancode(ev_time, RDP_KEYRELEASE, tr.scancode); break; case ButtonPress: flags = MOUSE_FLAG_DOWN; /* fall through */ case ButtonRelease: button = xkeymap_translate_button(xevent.xbutton.button); if (button == 0) break; rdp_send_input(ev_time, RDP_INPUT_MOUSE, flags | button, xevent.xbutton.x, xevent.xbutton.y); break; case MotionNotify: rdp_send_input(ev_time, RDP_INPUT_MOUSE, MOUSE_FLAG_MOVE, xevent.xmotion.x, xevent.xmotion.y); break; case FocusIn: /* fall through */ case EnterNotify: if (grab_keyboard) XGrabKeyboard(display, wnd, True, GrabModeAsync, GrabModeAsync, CurrentTime); break; case FocusOut: /* reset keys */ rdp_send_input(ev_time, RDP_INPUT_SCANCODE, KBD_FLAG_DOWN | KBD_FLAG_UP, SCANCODE_CHAR_LCTRL, 0); rdp_send_input(ev_time, RDP_INPUT_SCANCODE, KBD_FLAG_DOWN | KBD_FLAG_UP, SCANCODE_CHAR_LALT, 0); /* fall through */ case LeaveNotify: if (grab_keyboard) XUngrabKeyboard(display, CurrentTime); break; case Expose: XCopyArea(display, backstore, wnd, gc, xevent.xexpose.x, xevent.xexpose.y, xevent.xexpose.width, xevent.xexpose.height, xevent.xexpose.x, xevent.xexpose.y); break; } } } void ui_select(int rdp_socket) { int n = (rdp_socket > x_socket) ? rdp_socket + 1 : x_socket + 1; fd_set rfds; FD_ZERO(&rfds); while (True) { FD_ZERO(&rfds); FD_SET(rdp_socket, &rfds); if (display != NULL) { FD_SET(x_socket, &rfds); XFlush(display); } switch (select(n, &rfds, NULL, NULL, NULL)) { case -1: error("select: %s\n", strerror(errno)); case 0: continue; } if (FD_ISSET(x_socket, &rfds)) xwin_process_events(); if (FD_ISSET(rdp_socket, &rfds)) return; } } void ui_move_pointer(int x, int y) { XWarpPointer(display, wnd, wnd, 0, 0, 0, 0, x, y); } HBITMAP ui_create_bitmap(int width, int height, uint8 * data) { XImage *image; Pixmap bitmap; uint8 *tdata; tdata = (owncolmap ? data : translate_image(width, height, data)); bitmap = XCreatePixmap(display, wnd, width, height, depth); image = XCreateImage(display, visual, depth, ZPixmap, 0, (char *) tdata, width, height, 8, 0); XPutImage(display, bitmap, gc, image, 0, 0, 0, 0, width, height); XFree(image); if (!owncolmap) xfree(tdata); return (HBITMAP) bitmap; } void ui_paint_bitmap(int x, int y, int cx, int cy, int width, int height, uint8 * data) { XImage *image; uint8 *tdata; tdata = (owncolmap ? data : translate_image(width, height, data)); image = XCreateImage(display, visual, depth, ZPixmap, 0, (char *) tdata, width, height, 8, 0); if (ownbackstore) { XPutImage(display, backstore, gc, image, 0, 0, x, y, cx, cy); XCopyArea(display, backstore, wnd, gc, x, y, cx, cy, x, y); } else { XPutImage(display, wnd, gc, image, 0, 0, x, y, cx, cy); } XFree(image); if (!owncolmap) xfree(tdata); } void ui_destroy_bitmap(HBITMAP bmp) { XFreePixmap(display, (Pixmap) bmp); } HGLYPH ui_create_glyph(int width, int height, uint8 * data) { XImage *image; Pixmap bitmap; int scanline; GC gc; scanline = (width + 7) / 8; bitmap = XCreatePixmap(display, wnd, width, height, 1); gc = XCreateGC(display, bitmap, 0, NULL); image = XCreateImage(display, visual, 1, ZPixmap, 0, (char *) data, width, height, 8, scanline); image->byte_order = MSBFirst; image->bitmap_bit_order = MSBFirst; XInitImage(image); XPutImage(display, bitmap, gc, image, 0, 0, 0, 0, width, height); XFree(image); XFreeGC(display, gc); return (HGLYPH) bitmap; } void ui_destroy_glyph(HGLYPH glyph) { XFreePixmap(display, (Pixmap) glyph); } HCURSOR ui_create_cursor(unsigned int x, unsigned int y, int width, int height, uint8 * andmask, uint8 * xormask) { HGLYPH maskglyph, cursorglyph; XColor bg, fg; Cursor xcursor; uint8 *cursor, *pcursor; uint8 *mask, *pmask; uint8 nextbit; int scanline, offset; int i, j; scanline = (width + 7) / 8; offset = scanline * height; cursor = xmalloc(offset); memset(cursor, 0, offset); mask = xmalloc(offset); memset(mask, 0, offset); /* approximate AND and XOR masks with a monochrome X pointer */ for (i = 0; i < height; i++) { offset -= scanline; pcursor = &cursor[offset]; pmask = &mask[offset]; for (j = 0; j < scanline; j++) { for (nextbit = 0x80; nextbit != 0; nextbit >>= 1) { if (xormask[0] || xormask[1] || xormask[2]) { *pcursor |= (~(*andmask) & nextbit); *pmask |= nextbit; } else { *pcursor |= ((*andmask) & nextbit); *pmask |= (~(*andmask) & nextbit); } xormask += 3; } andmask++; pcursor++; pmask++; } } fg.red = fg.blue = fg.green = 0xffff; bg.red = bg.blue = bg.green = 0x0000; fg.flags = bg.flags = DoRed | DoBlue | DoGreen; cursorglyph = ui_create_glyph(width, height, cursor); maskglyph = ui_create_glyph(width, height, mask); xcursor = XCreatePixmapCursor(display, (Pixmap) cursorglyph, (Pixmap) maskglyph, &fg, &bg, x, y); ui_destroy_glyph(maskglyph); ui_destroy_glyph(cursorglyph); xfree(mask); xfree(cursor); return (HCURSOR) xcursor; } void ui_set_cursor(HCURSOR cursor) { XDefineCursor(display, wnd, (Cursor) cursor); } void ui_destroy_cursor(HCURSOR cursor) { XFreeCursor(display, (Cursor) cursor); } #define MAKE_XCOLOR(xc,c) \ (xc)->red = ((c)->red << 8) | (c)->red; \ (xc)->green = ((c)->green << 8) | (c)->green; \ (xc)->blue = ((c)->blue << 8) | (c)->blue; \ (xc)->flags = DoRed | DoGreen | DoBlue; HCOLOURMAP ui_create_colourmap(COLOURMAP * colours) { COLOURENTRY *entry; int i, ncolours = colours->ncolours; if (owncolmap) { XColor *xcolours, *xentry; Colormap map; xcolours = xmalloc(sizeof(XColor) * ncolours); for (i = 0; i < ncolours; i++) { entry = &colours->colours[i]; xentry = &xcolours[i]; xentry->pixel = i; MAKE_XCOLOR(xentry, entry); } map = XCreateColormap(display, wnd, visual, AllocAll); XStoreColors(display, map, xcolours, ncolours); xfree(xcolours); return (HCOLOURMAP) map; } else { uint32 *map = xmalloc(sizeof(*colmap) * ncolours); XColor xentry; uint32 colour; for (i = 0; i < ncolours; i++) { entry = &colours->colours[i]; MAKE_XCOLOR(&xentry, entry); if (XAllocColor(display, xcolmap, &xentry) != 0) colour = xentry.pixel; else colour = white; /* byte swap here to make translate_image faster */ map[i] = translate_colour(colour); } return map; } } void ui_destroy_colourmap(HCOLOURMAP map) { if (owncolmap) XFreeColormap(display, (Colormap) map); else xfree(map); } void ui_set_colourmap(HCOLOURMAP map) { if (owncolmap) XSetWindowColormap(display, wnd, (Colormap) map); else colmap = map; } void ui_set_clip(int x, int y, int cx, int cy) { XRectangle rect; rect.x = x; rect.y = y; rect.width = cx; rect.height = cy; XSetClipRectangles(display, gc, 0, 0, &rect, 1, YXBanded); } void ui_reset_clip() { XRectangle rect; rect.x = 0; rect.y = 0; rect.width = width; rect.height = height; XSetClipRectangles(display, gc, 0, 0, &rect, 1, YXBanded); } void ui_bell() { XBell(display, 0); } void ui_destblt(uint8 opcode, /* dest */ int x, int y, int cx, int cy) { SET_FUNCTION(opcode); FILL_RECTANGLE(x, y, cx, cy); RESET_FUNCTION(opcode); } void ui_patblt(uint8 opcode, /* dest */ int x, int y, int cx, int cy, /* brush */ BRUSH * brush, int bgcolour, int fgcolour) { Pixmap fill; uint8 i, ipattern[8]; SET_FUNCTION(opcode); switch (brush->style) { case 0: /* Solid */ SET_FOREGROUND(fgcolour); FILL_RECTANGLE(x, y, cx, cy); break; case 3: /* Pattern */ for (i = 0; i != 8; i++) ipattern[7 - i] = brush->pattern[i]; fill = (Pixmap) ui_create_glyph(8, 8, ipattern); SET_FOREGROUND(bgcolour); SET_BACKGROUND(fgcolour); XSetFillStyle(display, gc, FillOpaqueStippled); XSetStipple(display, gc, fill); XSetTSOrigin(display, gc, brush->xorigin, brush->yorigin); FILL_RECTANGLE(x, y, cx, cy); XSetFillStyle(display, gc, FillSolid); XSetTSOrigin(display, gc, 0, 0); ui_destroy_glyph((HGLYPH) fill); break; default: unimpl("brush %d\n", brush->style); } RESET_FUNCTION(opcode); } void ui_screenblt(uint8 opcode, /* dest */ int x, int y, int cx, int cy, /* src */ int srcx, int srcy) { SET_FUNCTION(opcode); XCopyArea(display, wnd, wnd, gc, srcx, srcy, cx, cy, x, y); if (ownbackstore) XCopyArea(display, backstore, backstore, gc, srcx, srcy, cx, cy, x, y); RESET_FUNCTION(opcode); } void ui_memblt(uint8 opcode, /* dest */ int x, int y, int cx, int cy, /* src */ HBITMAP src, int srcx, int srcy) { SET_FUNCTION(opcode); XCopyArea(display, (Pixmap) src, wnd, gc, srcx, srcy, cx, cy, x, y); if (ownbackstore) XCopyArea(display, (Pixmap) src, backstore, gc, srcx, srcy, cx, cy, x, y); RESET_FUNCTION(opcode); } void ui_triblt(uint8 opcode, /* dest */ int x, int y, int cx, int cy, /* src */ HBITMAP src, int srcx, int srcy, /* brush */ BRUSH * brush, int bgcolour, int fgcolour) { /* This is potentially difficult to do in general. Until someone comes up with a more efficient way of doing it I am using cases. */ switch (opcode) { case 0x69: /* PDSxxn */ ui_memblt(ROP2_XOR, x, y, cx, cy, src, srcx, srcy); ui_patblt(ROP2_NXOR, x, y, cx, cy, brush, bgcolour, fgcolour); break; case 0xb8: /* PSDPxax */ ui_patblt(ROP2_XOR, x, y, cx, cy, brush, bgcolour, fgcolour); ui_memblt(ROP2_AND, x, y, cx, cy, src, srcx, srcy); ui_patblt(ROP2_XOR, x, y, cx, cy, brush, bgcolour, fgcolour); break; case 0xc0: /* PSa */ ui_memblt(ROP2_COPY, x, y, cx, cy, src, srcx, srcy); ui_patblt(ROP2_AND, x, y, cx, cy, brush, bgcolour, fgcolour); break; default: unimpl("triblt 0x%x\n", opcode); ui_memblt(ROP2_COPY, x, y, cx, cy, src, srcx, srcy); } } void ui_line(uint8 opcode, /* dest */ int startx, int starty, int endx, int endy, /* pen */ PEN * pen) { SET_FUNCTION(opcode); SET_FOREGROUND(pen->colour); XDrawLine(display, wnd, gc, startx, starty, endx, endy); if (ownbackstore) XDrawLine(display, backstore, gc, startx, starty, endx, endy); RESET_FUNCTION(opcode); } void ui_rect( /* dest */ int x, int y, int cx, int cy, /* brush */ int colour) { SET_FOREGROUND(colour); FILL_RECTANGLE(x, y, cx, cy); } void ui_draw_glyph(int mixmode, /* dest */ int x, int y, int cx, int cy, /* src */ HGLYPH glyph, int srcx, int srcy, int bgcolour, int fgcolour) { SET_FOREGROUND(fgcolour); SET_BACKGROUND(bgcolour); XSetFillStyle(display, gc, (mixmode == MIX_TRANSPARENT) ? FillStippled : FillOpaqueStippled); XSetStipple(display, gc, (Pixmap) glyph); XSetTSOrigin(display, gc, x, y); FILL_RECTANGLE(x, y, cx, cy); XSetFillStyle(display, gc, FillSolid); } #define DO_GLYPH(ttext,idx) \ {\ glyph = cache_get_font (font, ttext[idx]);\ if (!(flags & TEXT2_IMPLICIT_X))\ {\ xyoffset = ttext[++idx];\ if ((xyoffset & 0x80))\ {\ if (flags & TEXT2_VERTICAL) \ y += ttext[idx+1] | (ttext[idx+2] << 8);\ else\ x += ttext[idx+1] | (ttext[idx+2] << 8);\ idx += 2;\ }\ else\ {\ if (flags & TEXT2_VERTICAL) \ y += xyoffset;\ else\ x += xyoffset;\ }\ }\ if (glyph != NULL)\ {\ ui_draw_glyph (mixmode, x + (short) glyph->offset,\ y + (short) glyph->baseline,\ glyph->width, glyph->height,\ glyph->pixmap, 0, 0, bgcolour, fgcolour);\ if (flags & TEXT2_IMPLICIT_X)\ x += glyph->width;\ }\ } void ui_draw_text(uint8 font, uint8 flags, int mixmode, int x, int y, int clipx, int clipy, int clipcx, int clipcy, int boxx, int boxy, int boxcx, int boxcy, int bgcolour, int fgcolour, uint8 * text, uint8 length) { FONTGLYPH *glyph; int i, j, xyoffset; DATABLOB *entry; SET_FOREGROUND(bgcolour); if (boxcx > 1) { FILL_RECTANGLE(boxx, boxy, boxcx, boxcy); } else if (mixmode == MIX_OPAQUE) { FILL_RECTANGLE(clipx, clipy, clipcx, clipcy); } /* Paint text, character by character */ for (i = 0; i < length;) { switch (text[i]) { case 0xff: if (i + 2 < length) cache_put_text(text[i + 1], text, text[i + 2]); else { error("this shouldn't be happening\n"); break; } /* this will move pointer from start to first character after FF command */ length -= i + 3; text = &(text[i + 3]); i = 0; break; case 0xfe: entry = cache_get_text(text[i + 1]); if (entry != NULL) { if ((((uint8 *) (entry->data))[1] == 0) && (!(flags & TEXT2_IMPLICIT_X))) { if (flags & TEXT2_VERTICAL) y += text[i + 2]; else x += text[i + 2]; } if (i + 2 < length) i += 3; else i += 2; length -= i; /* this will move pointer from start to first character after FE command */ text = &(text[i]); i = 0; for (j = 0; j < entry->size; j++) DO_GLYPH(((uint8 *) (entry->data)), j); } break; default: DO_GLYPH(text, i); i++; break; } } } void ui_desktop_save(uint32 offset, int x, int y, int cx, int cy) { Pixmap pix; XImage *image; if (ownbackstore) { image = XGetImage(display, backstore, x, y, cx, cy, AllPlanes, ZPixmap); } else { pix = XCreatePixmap(display, wnd, cx, cy, depth); XCopyArea(display, wnd, pix, gc, x, y, cx, cy, 0, 0); image = XGetImage(display, pix, 0, 0, cx, cy, AllPlanes, ZPixmap); XFreePixmap(display, pix); } offset *= bpp / 8; cache_put_desktop(offset, cx, cy, image->bytes_per_line, bpp / 8, (uint8 *) image->data); XDestroyImage(image); } void ui_desktop_restore(uint32 offset, int x, int y, int cx, int cy) { XImage *image; uint8 *data; offset *= bpp / 8; data = cache_get_desktop(offset, cx, cy, bpp / 8); if (data == NULL) return; image = XCreateImage(display, visual, depth, ZPixmap, 0, (char *) data, cx, cy, BitmapPad(display), cx * bpp / 8); if (ownbackstore) { XPutImage(display, backstore, gc, image, 0, 0, x, y, cx, cy); XCopyArea(display, backstore, wnd, gc, x, y, cx, cy, x, y); } else { XPutImage(display, wnd, gc, image, 0, 0, x, y, cx, cy); } XFree(image); }