/* $XTermId: util.c,v 1.681 2015/04/10 08:31:02 tom Exp $ */ /* * Copyright 1999-2014,2015 by Thomas E. Dickey * * All Rights Reserved * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE ABOVE LISTED COPYRIGHT HOLDER(S) BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name(s) of the above copyright * holders shall not be used in advertising or otherwise to promote the * sale, use or other dealings in this Software without prior written * authorization. * * * Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. * * All Rights Reserved * * Permission to use, copy, modify, and distribute this software and its * documentation for any purpose and without fee is hereby granted, * provided that the above copyright notice appear in all copies and that * both that copyright notice and this permission notice appear in * supporting documentation, and that the name of Digital Equipment * Corporation not be used in advertising or publicity pertaining to * distribution of the software without specific, written prior permission. * * * DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING * ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL * DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR * ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, * ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. */ /* util.c */ #include #include #include #include #include #include #include #include #include #include #if OPT_WIDE_CHARS #if defined(HAVE_WCHAR_H) && defined(HAVE_WCWIDTH) #include #endif #include #endif #ifdef HAVE_X11_EXTENSIONS_XINERAMA_H #include #endif /* HAVE_X11_EXTENSIONS_XINERAMA_H */ #include static int handle_translated_exposure(XtermWidget xw, int rect_x, int rect_y, int rect_width, int rect_height); static void ClearLeft(XtermWidget xw); static void CopyWait(XtermWidget xw); static void horizontal_copy_area(XtermWidget xw, int firstchar, int nchars, int amount); static void vertical_copy_area(XtermWidget xw, int firstline, int nlines, int amount, int left, int right); #if OPT_WIDE_CHARS unsigned first_widechar; int (*my_wcwidth) (wchar_t); #endif #if OPT_WIDE_CHARS /* * We will modify the 'n' cells beginning at the current position. * Some of those cells may be part of multi-column characters, including * carryover from the left. Find the limits of the multi-column characters * that we should fill with blanks, return true if filling is needed. */ int DamagedCells(TScreen *screen, unsigned n, int *klp, int *krp, int row, int col) { CLineData *ld = getLineData(screen, row); int result = False; assert(ld); if (col < (int) ld->lineSize) { int nn = (int) n; int kl = col; int kr = col + nn; if (kr >= (int) ld->lineSize) { nn = (ld->lineSize - col - 1); kr = col + nn; } if (nn > 0) { assert(kl < (int) ld->lineSize); if (ld->charData[kl] == HIDDEN_CHAR) { while (kl > 0) { if (ld->charData[--kl] != HIDDEN_CHAR) { break; } } } else { kl = col + 1; } assert(kr < (int) ld->lineSize); if (ld->charData[kr] == HIDDEN_CHAR) { while (kr < screen->max_col) { assert((kr + 1) < (int) ld->lineSize); if (ld->charData[++kr] != HIDDEN_CHAR) { --kr; break; } } } else { kr = col - 1; } if (klp) *klp = kl; if (krp) *krp = kr; result = (kr >= kl); } } return result; } int DamagedCurCells(TScreen *screen, unsigned n, int *klp, int *krp) { return DamagedCells(screen, n, klp, krp, screen->cur_row, screen->cur_col); } #endif /* OPT_WIDE_CHARS */ /* * These routines are used for the jump scroll feature */ void FlushScroll(XtermWidget xw) { TScreen *screen = TScreenOf(xw); int i; int shift = INX2ROW(screen, 0); int bot = screen->max_row - shift; int refreshtop; int refreshheight; int scrolltop; int scrollheight; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); Boolean full_lines = (Boolean) ((left == 0) && (right == screen->max_col)); if (screen->cursor_state) HideCursor(); TRACE(("FlushScroll %s-lines scroll:%d refresh %d\n", full_lines ? "full" : "partial", screen->scroll_amt, screen->refresh_amt)); if (screen->scroll_amt > 0) { /* * Lines will be scrolled "up". */ refreshheight = screen->refresh_amt; scrollheight = screen->bot_marg - screen->top_marg - refreshheight + 1; refreshtop = screen->bot_marg - refreshheight + 1 + shift; i = screen->max_row - screen->scroll_amt + 1; if (refreshtop > i) { refreshtop = i; } /* * If this is the normal (not alternate) screen, and the top margin is * at the top of the screen, then we will shift full lines scrolled out * of the scrolling region into the saved-lines. */ if (screen->scrollWidget && !screen->whichBuf && full_lines && screen->top_marg == 0) { scrolltop = 0; scrollheight += shift; if (scrollheight > i) scrollheight = i; i = screen->bot_marg - bot; if (i > 0) { refreshheight -= i; if (refreshheight < screen->scroll_amt) { refreshheight = screen->scroll_amt; } } i = screen->savedlines; if (i < screen->savelines) { i += screen->scroll_amt; if (i > screen->savelines) { i = screen->savelines; } screen->savedlines = i; ScrollBarDrawThumb(screen->scrollWidget); } } else { scrolltop = screen->top_marg + shift; i = bot - (screen->bot_marg - screen->refresh_amt + screen->scroll_amt); if (i > 0) { if (bot < screen->bot_marg) { refreshheight = screen->scroll_amt + i; } } else { scrollheight += i; refreshheight = screen->scroll_amt; i = screen->top_marg + screen->scroll_amt - 1 - bot; if (i > 0) { refreshtop += i; refreshheight -= i; } } } } else { /* * Lines will be scrolled "down". */ refreshheight = -screen->refresh_amt; scrollheight = screen->bot_marg - screen->top_marg - refreshheight + 1; refreshtop = screen->top_marg + shift; scrolltop = refreshtop + refreshheight; i = screen->bot_marg - bot; if (i > 0) { scrollheight -= i; } i = screen->top_marg + refreshheight - 1 - bot; if (i > 0) { refreshheight -= i; } } vertical_copy_area(xw, scrolltop + screen->scroll_amt, scrollheight, screen->scroll_amt, left, right); ScrollSelection(screen, -(screen->scroll_amt), False); screen->scroll_amt = 0; screen->refresh_amt = 0; if (refreshheight > 0) { ClearCurBackground(xw, refreshtop, left, (unsigned) refreshheight, (unsigned) (right + 1 - left), (unsigned) FontWidth(screen)); ScrnRefresh(xw, refreshtop, 0, refreshheight, MaxCols(screen), False); } return; } /* * Returns true if there are lines off-screen due to scrolling which should * include the current line. If false, the line is visible and we should * paint it now rather than waiting for the line to become visible. */ static Bool AddToRefresh(XtermWidget xw) { TScreen *screen = TScreenOf(xw); int amount = screen->refresh_amt; int row = screen->cur_row; Bool result; if (amount == 0) { result = False; } else if (amount > 0) { int bottom; if (row == (bottom = screen->bot_marg) - amount) { screen->refresh_amt++; result = True; } else { result = (row >= bottom - amount + 1 && row <= bottom); } } else { int top; amount = -amount; if (row == (top = screen->top_marg) + amount) { screen->refresh_amt--; result = True; } else { result = (row <= top + amount - 1 && row >= top); } } /* * If this line is visible, and there are scrolled-off lines, flush out * those which are now visible. */ if (!result && screen->scroll_amt) FlushScroll(xw); return result; } /* * Returns true if the current row is in the visible area (it should be for * screen operations) and incidentally flush the scrolled-in lines which * have newly become visible. */ static Bool AddToVisible(XtermWidget xw) { TScreen *screen = TScreenOf(xw); Bool result = False; if (INX2ROW(screen, screen->cur_row) <= screen->max_row) { if (!AddToRefresh(xw)) { result = True; } } return result; } /* * If we're scrolling, leave the selection intact if possible. * If it will bump into one of the extremes of the saved-lines, truncate that. * If the selection is not entirely contained within the margins and not * entirely outside the margins, clear it. */ static void adjustHiliteOnFwdScroll(XtermWidget xw, int amount, Bool all_lines) { TScreen *screen = TScreenOf(xw); int lo_row = (all_lines ? (screen->bot_marg - screen->savelines) : screen->top_marg); int hi_row = screen->bot_marg; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); TRACE2(("adjustSelection FWD %s by %d (%s)\n", screen->whichBuf ? "alternate" : "normal", amount, all_lines ? "all" : "visible")); TRACE2((" before highlite %d.%d .. %d.%d\n", screen->startH.row, screen->startH.col, screen->endH.row, screen->endH.col)); TRACE2((" margins %d..%d\n", screen->top_marg, screen->bot_marg)); TRACE2((" limits %d..%d\n", lo_row, hi_row)); if ((left > 0 || right < screen->max_col) && ((screen->startH.row >= lo_row && screen->startH.row - amount <= hi_row) || (screen->endH.row >= lo_row && screen->endH.row - amount <= hi_row))) { /* * This could be improved slightly by excluding the special case where * the selection is on a single line outside left/right margins. */ TRACE2(("deselect because selection overlaps with scrolled partial-line\n")); ScrnDisownSelection(xw); } else if (screen->startH.row >= lo_row && screen->startH.row - amount < lo_row) { /* truncate the selection because its start would move out of region */ if (lo_row + amount <= screen->endH.row) { TRACE2(("truncate selection by changing start %d.%d to %d.%d\n", screen->startH.row, screen->startH.col, lo_row + amount, 0)); screen->startH.row = lo_row + amount; screen->startH.col = 0; } else { TRACE2(("deselect because %d.%d .. %d.%d shifted %d is outside margins %d..%d\n", screen->startH.row, screen->startH.col, screen->endH.row, screen->endH.col, -amount, lo_row, hi_row)); ScrnDisownSelection(xw); } } else if (screen->startH.row <= hi_row && screen->endH.row > hi_row) { TRACE2(("deselect because selection straddles top-margin\n")); ScrnDisownSelection(xw); } else if (screen->startH.row < lo_row && screen->endH.row > lo_row) { TRACE2(("deselect because selection straddles bottom-margin\n")); ScrnDisownSelection(xw); } TRACE2((" after highlite %d.%d .. %d.%d\n", screen->startH.row, screen->startH.col, screen->endH.row, screen->endH.col)); } /* * This is the same as adjustHiliteOnFwdScroll(), but reversed. In this case, * only the visible lines are affected. */ static void adjustHiliteOnBakScroll(XtermWidget xw, int amount) { TScreen *screen = TScreenOf(xw); int lo_row = screen->top_marg; int hi_row = screen->bot_marg; TRACE2(("adjustSelection BAK %s by %d (%s)\n", screen->whichBuf ? "alternate" : "normal", amount, "visible")); TRACE2((" before highlite %d.%d .. %d.%d\n", screen->startH.row, screen->startH.col, screen->endH.row, screen->endH.col)); TRACE2((" margins %d..%d\n", screen->top_marg, screen->bot_marg)); if (screen->endH.row >= hi_row && screen->endH.row + amount > hi_row) { /* truncate the selection because its start would move out of region */ if (hi_row - amount >= screen->startH.row) { TRACE2(("truncate selection by changing start %d.%d to %d.%d\n", screen->startH.row, screen->startH.col, hi_row - amount, 0)); screen->endH.row = hi_row - amount; screen->endH.col = 0; } else { TRACE2(("deselect because %d.%d .. %d.%d shifted %d is outside margins %d..%d\n", screen->startH.row, screen->startH.col, screen->endH.row, screen->endH.col, amount, lo_row, hi_row)); ScrnDisownSelection(xw); } } else if (screen->endH.row >= lo_row && screen->startH.row < lo_row) { ScrnDisownSelection(xw); } else if (screen->endH.row > hi_row && screen->startH.row > hi_row) { ScrnDisownSelection(xw); } TRACE2((" after highlite %d.%d .. %d.%d\n", screen->startH.row, screen->startH.col, screen->endH.row, screen->endH.col)); } /* * Move cells in LineData's on the current screen to simulate scrolling by the * given amount of lines. */ static void scrollInMargins(XtermWidget xw, int amount, int top) { TScreen *screen = TScreenOf(xw); LineData *src; LineData *dst; int row; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); int length = right + 1 - left; if (amount > 0) { for (row = top; row <= screen->bot_marg - amount; ++row) { if ((src = getLineData(screen, row + amount)) != 0 && (dst = getLineData(screen, row)) != 0) { CopyCells(screen, src, dst, left, length); } } while (row <= screen->bot_marg) { ClearCells(xw, 0, (unsigned) length, row, left); ++row; } } else if (amount < 0) { for (row = screen->bot_marg; row >= top - amount; --row) { if ((src = getLineData(screen, row + amount)) != 0 && (dst = getLineData(screen, row)) != 0) { CopyCells(screen, src, dst, left, length); } } while (row >= top) { ClearCells(xw, 0, (unsigned) length, row, left); --row; } } } /* * scrolls the screen by amount lines, erases bottom, doesn't alter * cursor position (i.e. cursor moves down amount relative to text). * All done within the scrolling region, of course. * requires: amount > 0 */ void xtermScroll(XtermWidget xw, int amount) { TScreen *screen = TScreenOf(xw); int i; int shift; int bot; int refreshtop = 0; int refreshheight; int scrolltop; int scrollheight; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); Boolean scroll_all_lines = (Boolean) (screen->scrollWidget && !screen->whichBuf && screen->top_marg == 0); TRACE(("xtermScroll count=%d\n", amount)); screen->cursor_busy += 1; screen->cursor_moved = True; if (screen->cursor_state) HideCursor(); i = screen->bot_marg - screen->top_marg + 1; if (amount > i) amount = i; #if OPT_SCROLL_LOCK if (screen->allowScrollLock && screen->scroll_lock) { refreshheight = 0; screen->scroll_amt = 0; screen->refresh_amt = 0; if (--(screen->topline) < -screen->savelines) { screen->topline = -screen->savelines; screen->scroll_dirty = True; } if (++(screen->savedlines) > screen->savelines) { screen->savedlines = screen->savelines; } } else #endif { if (ScrnHaveSelection(screen)) adjustHiliteOnFwdScroll(xw, amount, scroll_all_lines); if (screen->jumpscroll) { if (screen->scroll_amt > 0) { if (!screen->fastscroll) { if (screen->refresh_amt + amount > i) FlushScroll(xw); } screen->scroll_amt += amount; screen->refresh_amt += amount; } else { if (!screen->fastscroll) { if (screen->scroll_amt < 0) FlushScroll(xw); } screen->scroll_amt = amount; screen->refresh_amt = amount; } refreshheight = 0; } else { ScrollSelection(screen, -(amount), False); if (amount == i) { ClearScreen(xw); screen->cursor_busy -= 1; return; } shift = INX2ROW(screen, 0); bot = screen->max_row - shift; scrollheight = i - amount; refreshheight = amount; if ((refreshtop = screen->bot_marg - refreshheight + 1 + shift) > (i = screen->max_row - refreshheight + 1)) refreshtop = i; if (scroll_all_lines) { scrolltop = 0; if ((scrollheight += shift) > i) scrollheight = i; if ((i = screen->savedlines) < screen->savelines) { if ((i += amount) > screen->savelines) i = screen->savelines; screen->savedlines = i; ScrollBarDrawThumb(screen->scrollWidget); } } else { scrolltop = screen->top_marg + shift; if ((i = screen->bot_marg - bot) > 0) { scrollheight -= i; if ((i = screen->top_marg + amount - 1 - bot) >= 0) { refreshtop += i; refreshheight -= i; } } } if (screen->multiscroll && amount == 1 && screen->topline == 0 && screen->top_marg == 0 && screen->bot_marg == screen->max_row) { if (screen->incopy < 0 && screen->scrolls == 0) CopyWait(xw); screen->scrolls++; } vertical_copy_area(xw, scrolltop + amount, scrollheight, amount, left, right); if (refreshheight > 0) { ClearCurBackground(xw, refreshtop, left, (unsigned) refreshheight, (unsigned) (right + 1 - left), (unsigned) FontWidth(screen)); if (refreshheight > shift) refreshheight = shift; } } } if (amount > 0) { if (left > 0 || right < screen->max_col) { scrollInMargins(xw, amount, screen->top_marg); } else if (scroll_all_lines) { ScrnDeleteLine(xw, screen->saveBuf_index, screen->bot_marg + screen->savelines, 0, (unsigned) amount); } else { ScrnDeleteLine(xw, screen->visbuf, screen->bot_marg, screen->top_marg, (unsigned) amount); } } scroll_displayed_graphics(xw, amount); if (refreshheight > 0) { ScrnRefresh(xw, refreshtop, left, refreshheight, right + 1 - left, False); } screen->cursor_busy -= 1; return; } /* * This is from ISO 6429, not found in any of DEC's terminals. */ void xtermScrollLR(XtermWidget xw, int amount, Bool toLeft) { if (amount > 0) { xtermColScroll(xw, amount, toLeft, 0); } } /* * Implement DECBI/DECFI (back/forward column index) */ void xtermColIndex(XtermWidget xw, Bool toLeft) { TScreen *screen = TScreenOf(xw); int margin; if (toLeft) { margin = ScrnLeftMargin(xw); if (screen->cur_col > margin) { CursorBack(xw, 1); } else if (screen->cur_col == margin) { xtermColScroll(xw, 1, False, screen->cur_col); } } else { margin = ScrnRightMargin(xw); if (screen->cur_col < margin) { CursorForward(xw, 1); } else if (screen->cur_col == margin) { xtermColScroll(xw, 1, True, ScrnLeftMargin(xw)); } } } /* * Implement DECDC/DECIC (delete/insert column) */ void xtermColScroll(XtermWidget xw, int amount, Bool toLeft, int at_col) { TScreen *screen = TScreenOf(xw); if (amount > 0) { int min_row; int max_row; if (ScrnHaveRowMargins(screen)) { min_row = screen->top_marg; max_row = screen->bot_marg; } else { min_row = 0; max_row = screen->max_row; } if (screen->cur_row >= min_row && screen->cur_row <= max_row && screen->cur_col >= screen->lft_marg && screen->cur_col <= screen->rgt_marg) { int save_row = screen->cur_row; int save_col = screen->cur_col; int row; screen->cur_col = at_col; if (toLeft) { for (row = min_row; row <= max_row; row++) { screen->cur_row = row; ScrnDeleteChar(xw, (unsigned) amount); } } else { for (row = min_row; row <= max_row; row++) { screen->cur_row = row; ScrnInsertChar(xw, (unsigned) amount); } } screen->cur_row = save_row; screen->cur_col = save_col; xtermRepaint(xw); } } } /* * Reverse scrolls the screen by amount lines, erases top, doesn't alter * cursor position (i.e. cursor moves up amount relative to text). * All done within the scrolling region, of course. * Requires: amount > 0 */ void RevScroll(XtermWidget xw, int amount) { TScreen *screen = TScreenOf(xw); int i = screen->bot_marg - screen->top_marg + 1; int shift; int bot; int refreshtop; int refreshheight; int scrolltop; int scrollheight; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); TRACE(("RevScroll count=%d\n", amount)); screen->cursor_busy += 1; screen->cursor_moved = True; if (screen->cursor_state) HideCursor(); if (amount > i) amount = i; if (ScrnHaveSelection(screen)) adjustHiliteOnBakScroll(xw, amount); if (screen->jumpscroll) { if (screen->scroll_amt < 0) { if (-screen->refresh_amt + amount > i) FlushScroll(xw); screen->scroll_amt -= amount; screen->refresh_amt -= amount; } else { if (screen->scroll_amt > 0) FlushScroll(xw); screen->scroll_amt = -amount; screen->refresh_amt = -amount; } } else { shift = INX2ROW(screen, 0); bot = screen->max_row - shift; refreshheight = amount; scrollheight = screen->bot_marg - screen->top_marg - refreshheight + 1; refreshtop = screen->top_marg + shift; scrolltop = refreshtop + refreshheight; if ((i = screen->bot_marg - bot) > 0) scrollheight -= i; if ((i = screen->top_marg + refreshheight - 1 - bot) > 0) refreshheight -= i; if (screen->multiscroll && amount == 1 && screen->topline == 0 && screen->top_marg == 0 && screen->bot_marg == screen->max_row) { if (screen->incopy < 0 && screen->scrolls == 0) CopyWait(xw); screen->scrolls++; } vertical_copy_area(xw, scrolltop - amount, scrollheight, -amount, left, right); if (refreshheight > 0) { ClearCurBackground(xw, refreshtop, left, (unsigned) refreshheight, (unsigned) (right + 1 - left), (unsigned) FontWidth(screen)); } } if (amount > 0) { if (left > 0 || right < screen->max_col) { scrollInMargins(xw, -amount, screen->top_marg); } else { ScrnInsertLine(xw, screen->visbuf, screen->bot_marg, screen->top_marg, (unsigned) amount); } } screen->cursor_busy -= 1; return; } #if OPT_ZICONBEEP void initZIconBeep(void) { if (resource.zIconBeep > 100 || resource.zIconBeep < -100) { resource.zIconBeep = 0; /* was 100, but I prefer to defaulting off. */ xtermWarning("a number between -100 and 100 is required for zIconBeep. 0 used by default\n"); } } static char * getIconName(void) { static char *icon_name; static Arg args[] = { {XtNiconName, (XtArgVal) & icon_name} }; icon_name = NULL; XtGetValues(toplevel, args, XtNumber(args)); return icon_name; } static void setZIconBeep(XtermWidget xw) { TScreen *screen = TScreenOf(xw); /* Flag icon name with "***" on window output when iconified. */ if (resource.zIconBeep && mapstate == IsUnmapped && !screen->zIconBeep_flagged) { char *icon_name = getIconName(); if (icon_name != NULL) { screen->zIconBeep_flagged = True; ChangeIconName(xw, icon_name); } xtermBell(xw, XkbBI_Info, 0); } mapstate = -1; } /* * If warning should be given then give it */ Boolean showZIconBeep(XtermWidget xw, char *name) { Boolean code = False; if (resource.zIconBeep && TScreenOf(xw)->zIconBeep_flagged) { char *format = resource.zIconFormat; char *newname = CastMallocN(char, strlen(name) + strlen(format) + 1); if (!newname) { xtermWarning("malloc failed in showZIconBeep\n"); } else { char *marker = strstr(format, "%s"); char *result = newname; if (marker != 0) { size_t skip = (size_t) (marker - format); if (skip) { strncpy(result, format, skip); result += skip; } strcpy(result, name); strcat(result, marker + 2); } else { strcpy(result, format); strcat(result, name); } ChangeGroup(xw, XtNiconName, newname); free(newname); } code = True; } return code; } /* * Restore the icon name, resetting the state for zIconBeep. */ void resetZIconBeep(XtermWidget xw) { char *icon_name; TScreen *screen = TScreenOf(xw); if (screen->zIconBeep_flagged) { screen->zIconBeep_flagged = False; icon_name = getIconName(); if (icon_name != NULL) { char *buf = CastMallocN(char, strlen(icon_name)); if (buf == NULL) { screen->zIconBeep_flagged = True; } else { char *format = resource.zIconFormat; char *marker = strstr(format, "%s"); Boolean found = False; if (marker != 0) { if (marker == format || !strncmp(icon_name, format, (size_t) (marker - format))) { found = True; strcpy(buf, icon_name + (marker - format)); marker += 2; if (*marker != '\0') { size_t len_m = strlen(marker); size_t len_b = strlen(buf); if (len_m < len_b && !strcmp(buf + len_b - len_m, marker)) { buf[len_b - len_m] = '\0'; } } } } else if (!strncmp(icon_name, format, strlen(format))) { strcpy(buf, icon_name + strlen(format)); found = True; } if (found) ChangeIconName(xw, buf); free(buf); } } } } #else #define setZIconBeep(xw) /* nothing */ #endif /* OPT_ZICONBEEP */ /* * write a string str of length len onto the screen at * the current cursor position. update cursor position. */ void WriteText(XtermWidget xw, IChar *str, Cardinal len) { TScreen *screen = TScreenOf(xw); CLineData *ld = 0; int fg; unsigned test; unsigned attr_flags = xw->flags; CellColor fg_bg = makeColorPair(xw->cur_foreground, xw->cur_background); unsigned cells = visual_width(str, len); GC currentGC; TRACE(("WriteText %d (%2d,%2d) %3d:%s\n", screen->topline, screen->cur_row, screen->cur_col, len, visibleIChars(str, len))); if (cells + (unsigned) screen->cur_col > (unsigned) MaxCols(screen)) { cells = (unsigned) (MaxCols(screen) - screen->cur_col); } if (ScrnHaveSelection(screen) && ScrnIsRowInSelection(screen, INX2ROW(screen, screen->cur_row))) { ScrnDisownSelection(xw); } /* if we are in insert-mode, reserve space for the new cells */ if (attr_flags & INSERT) { InsertChar(xw, cells); } if (AddToVisible(xw) && ((ld = getLineData(screen, screen->cur_row))) != 0) { if (screen->cursor_state) HideCursor(); /* * If we overwrite part of a multi-column character, fill the rest * of it with blanks. */ if_OPT_WIDE_CHARS(screen, { int kl; int kr; if (DamagedCurCells(screen, cells, &kl, &kr)) ClearInLine(xw, screen->cur_row, kl, (unsigned) (kr - kl + 1)); }); if (attr_flags & INVISIBLE) { Cardinal n; for (n = 0; n < cells; ++n) str[n] = ' '; } TRACE(("WriteText calling drawXtermText (%d) (%d,%d)\n", LineCharSet(screen, ld), screen->cur_col, screen->cur_row)); test = attr_flags; #if OPT_ISO_COLORS if (screen->colorAttrMode) { fg = MapToColorMode(xw->cur_foreground, screen, attr_flags); } else { fg = xw->cur_foreground; } checkVeryBoldColors(test, fg); #endif /* make sure that the correct GC is current */ currentGC = updatedXtermGC(xw, attr_flags, fg_bg, False); drawXtermText(xw, test & DRAWX_MASK, 0, currentGC, LineCursorX(screen, ld, screen->cur_col), CursorY(screen, screen->cur_row), LineCharSet(screen, ld), str, len, 0); resetXtermGC(xw, attr_flags, False); } ScrnWriteText(xw, str, attr_flags, fg_bg, len); CursorForward(xw, (int) cells); setZIconBeep(xw); return; } /* * If cursor not in scrolling region, returns. Else, * inserts n blank lines at the cursor's position. Lines above the * bottom margin are lost. */ void InsertLine(XtermWidget xw, int n) { TScreen *screen = TScreenOf(xw); int i; int shift; int bot; int refreshtop; int refreshheight; int scrolltop; int scrollheight; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); if (!ScrnIsRowInMargins(screen, screen->cur_row) || screen->cur_col < left || screen->cur_col > right) return; TRACE(("InsertLine count=%d\n", n)); if (screen->cursor_state) HideCursor(); if (ScrnHaveSelection(screen) && ScrnAreRowsInSelection(screen, INX2ROW(screen, screen->top_marg), INX2ROW(screen, screen->cur_row - 1)) && ScrnAreRowsInSelection(screen, INX2ROW(screen, screen->cur_row), INX2ROW(screen, screen->bot_marg))) { ScrnDisownSelection(xw); } ResetWrap(screen); if (n > (i = screen->bot_marg - screen->cur_row + 1)) n = i; if (screen->jumpscroll) { if (screen->scroll_amt <= 0 && screen->cur_row <= -screen->refresh_amt) { if (-screen->refresh_amt + n > MaxRows(screen)) FlushScroll(xw); screen->scroll_amt -= n; screen->refresh_amt -= n; } else { if (screen->scroll_amt) FlushScroll(xw); } } if (!screen->scroll_amt) { shift = INX2ROW(screen, 0); bot = screen->max_row - shift; refreshheight = n; scrollheight = screen->bot_marg - screen->cur_row - refreshheight + 1; refreshtop = screen->cur_row + shift; scrolltop = refreshtop + refreshheight; if ((i = screen->bot_marg - bot) > 0) scrollheight -= i; if ((i = screen->cur_row + refreshheight - 1 - bot) > 0) refreshheight -= i; vertical_copy_area(xw, scrolltop - n, scrollheight, -n, left, right); if (refreshheight > 0) { ClearCurBackground(xw, refreshtop, left, (unsigned) refreshheight, (unsigned) (right + 1 - left), (unsigned) FontWidth(screen)); } } if (n > 0) { if (left > 0 || right < screen->max_col) { scrollInMargins(xw, -n, screen->cur_row); } else { ScrnInsertLine(xw, screen->visbuf, screen->bot_marg, screen->cur_row, (unsigned) n); } } } /* * If cursor not in scrolling region, returns. Else, deletes n lines * at the cursor's position, lines added at bottom margin are blank. */ void DeleteLine(XtermWidget xw, int n) { TScreen *screen = TScreenOf(xw); int i; int shift; int bot; int refreshtop; int refreshheight; int scrolltop; int scrollheight; int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); Boolean scroll_all_lines = (Boolean) (screen->scrollWidget && !screen->whichBuf && screen->cur_row == 0); if (!ScrnIsRowInMargins(screen, screen->cur_row) || !ScrnIsColInMargins(screen, screen->cur_col)) return; TRACE(("DeleteLine count=%d\n", n)); if (screen->cursor_state) HideCursor(); if (n > (i = screen->bot_marg - screen->cur_row + 1)) { n = i; } if (ScrnHaveSelection(screen) && ScrnAreRowsInSelection(screen, INX2ROW(screen, screen->cur_row), INX2ROW(screen, screen->cur_row + n - 1))) { ScrnDisownSelection(xw); } ResetWrap(screen); if (screen->jumpscroll) { if (screen->scroll_amt >= 0 && screen->cur_row == screen->top_marg) { if (screen->refresh_amt + n > MaxRows(screen)) FlushScroll(xw); screen->scroll_amt += n; screen->refresh_amt += n; } else { if (screen->scroll_amt) FlushScroll(xw); } } /* adjust screen->buf */ if (n > 0) { if (left > 0 || right < screen->max_col) { scrollInMargins(xw, n, screen->cur_row); } else if (scroll_all_lines) { ScrnDeleteLine(xw, screen->saveBuf_index, screen->bot_marg + screen->savelines, 0, (unsigned) n); } else { ScrnDeleteLine(xw, screen->visbuf, screen->bot_marg, screen->cur_row, (unsigned) n); } } /* repaint the screen, as needed */ if (!screen->scroll_amt) { shift = INX2ROW(screen, 0); bot = screen->max_row - shift; scrollheight = i - n; refreshheight = n; if ((refreshtop = screen->bot_marg - refreshheight + 1 + shift) > (i = screen->max_row - refreshheight + 1)) refreshtop = i; if (scroll_all_lines) { scrolltop = 0; if ((scrollheight += shift) > i) scrollheight = i; if ((i = screen->savedlines) < screen->savelines) { if ((i += n) > screen->savelines) i = screen->savelines; screen->savedlines = i; ScrollBarDrawThumb(screen->scrollWidget); } } else { scrolltop = screen->cur_row + shift; if ((i = screen->bot_marg - bot) > 0) { scrollheight -= i; if ((i = screen->cur_row + n - 1 - bot) >= 0) { refreshheight -= i; } } } vertical_copy_area(xw, scrolltop + n, scrollheight, n, left, right); if (shift > 0 && refreshheight > 0) { int rows = refreshheight; if (rows > shift) rows = shift; ScrnUpdate(xw, refreshtop, 0, rows, MaxCols(screen), True); refreshtop += shift; refreshheight -= shift; } if (refreshheight > 0) { ClearCurBackground(xw, refreshtop, left, (unsigned) refreshheight, (unsigned) (right + 1 - left), (unsigned) FontWidth(screen)); } } } /* * Insert n blanks at the cursor's position, no wraparound */ void InsertChar(XtermWidget xw, unsigned n) { TScreen *screen = TScreenOf(xw); CLineData *ld; unsigned limit; int row = INX2ROW(screen, screen->cur_row); int left = ScrnLeftMargin(xw); int right = ScrnRightMargin(xw); if (screen->cursor_state) HideCursor(); TRACE(("InsertChar count=%d\n", n)); if (ScrnHaveSelection(screen) && ScrnIsRowInSelection(screen, row)) { ScrnDisownSelection(xw); } ResetWrap(screen); limit = (unsigned) (right + 1 - screen->cur_col); if (n > limit) n = limit; if (screen->cur_col < left || screen->cur_col > right) { n = 0; } else if (AddToVisible(xw) && (ld = getLineData(screen, screen->cur_row)) != 0) { int col = right + 1 - (int) n; /* * If we shift part of a multi-column character, fill the rest * of it with blanks. Do similar repair for the text which will * be shifted into the right-margin. */ if_OPT_WIDE_CHARS(screen, { int kl; int kr = screen->cur_col; if (DamagedCurCells(screen, n, &kl, (int *) 0) && kr > kl) { ClearInLine(xw, screen->cur_row, kl, (unsigned) (kr - kl + 1)); } kr = screen->max_col - (int) n + 1; if (DamagedCells(screen, n, &kl, (int *) 0, screen->cur_row, kr) && kr > kl) { ClearInLine(xw, screen->cur_row, kl, (unsigned) (kr - kl + 1)); } }); #if OPT_DEC_CHRSET if (CSET_DOUBLE(GetLineDblCS(ld))) { col = MaxCols(screen) / 2 - (int) n; } #endif /* * prevent InsertChar from shifting the end of a line over * if it is being appended to */ if (non_blank_line(screen, screen->cur_row, screen->cur_col, MaxCols(screen))) { horizontal_copy_area(xw, screen->cur_col, col - screen->cur_col, (int) n); } ClearCurBackground(xw, INX2ROW(screen, screen->cur_row), screen->cur_col, 1U, n, (unsigned) LineFontWidth(screen, ld)); } if (n != 0) { /* adjust screen->buf */ ScrnInsertChar(xw, n); } } /* * Deletes n chars at the cursor's position, no wraparound. */ void DeleteChar(XtermWidget xw, unsigned n) { TScreen *screen = TScreenOf(xw); CLineData *ld; unsigned limit; int row = INX2ROW(screen, screen->cur_row); int right = ScrnRightMargin(xw); if (screen->cursor_state) HideCursor(); if (!ScrnIsColInMargins(screen, screen->cur_col)) return; TRACE(("DeleteChar count=%d\n", n)); if (ScrnHaveSelection(screen) && ScrnIsRowInSelection(screen, row)) { ScrnDisownSelection(xw); } ResetWrap(screen); limit = (unsigned) (right + 1 - screen->cur_col); if (n > limit) n = limit; if (AddToVisible(xw) && (ld = getLineData(screen, screen->cur_row)) != 0) { int col = right + 1 - (int) n; /* * If we delete part of a multi-column character, fill the rest * of it with blanks. */ if_OPT_WIDE_CHARS(screen, { int kl; int kr; if (DamagedCurCells(screen, n, &kl, &kr)) ClearInLine(xw, screen->cur_row, kl, (unsigned) (kr - kl + 1)); }); #if OPT_DEC_CHRSET if (CSET_DOUBLE(GetLineDblCS(ld))) { col = MaxCols(screen) / 2 - (int) n; } #endif horizontal_copy_area(xw, (screen->cur_col + (int) n), col - screen->cur_col, -((int) n)); ClearCurBackground(xw, INX2ROW(screen, screen->cur_row), col, 1U, n, (unsigned) LineFontWidth(screen, ld)); } if (n != 0) { /* adjust screen->buf */ ScrnDeleteChar(xw, n); } } /* * Clear from cursor position to beginning of display, inclusive. */ static void ClearAbove(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (screen->protected_mode != OFF_PROTECT) { int row; unsigned len = (unsigned) MaxCols(screen); assert(screen->max_col >= 0); for (row = 0; row < screen->cur_row; row++) ClearInLine(xw, row, 0, len); ClearInLine(xw, screen->cur_row, 0, (unsigned) screen->cur_col); } else { int top, height; if (screen->cursor_state) HideCursor(); if ((top = INX2ROW(screen, 0)) <= screen->max_row) { if (screen->scroll_amt) FlushScroll(xw); if ((height = screen->cur_row + top) > screen->max_row) height = screen->max_row + 1; if ((height -= top) > 0) { chararea_clear_displayed_graphics(screen, 0, top, MaxCols(screen), height); ClearCurBackground(xw, top, 0, (unsigned) height, (unsigned) MaxCols(screen), (unsigned) FontWidth(screen)); } } ClearBufRows(xw, 0, screen->cur_row - 1); } ClearLeft(xw); } /* * Clear from cursor position to end of display, inclusive. */ static void ClearBelow(XtermWidget xw) { TScreen *screen = TScreenOf(xw); ClearRight(xw, -1); if (screen->protected_mode != OFF_PROTECT) { int row; unsigned len = (unsigned) MaxCols(screen); assert(screen->max_col >= 0); for (row = screen->cur_row + 1; row <= screen->max_row; row++) ClearInLine(xw, row, 0, len); } else { int top; if ((top = INX2ROW(screen, screen->cur_row)) <= screen->max_row) { if (screen->scroll_amt) FlushScroll(xw); if (++top <= screen->max_row) { chararea_clear_displayed_graphics(screen, 0, top, MaxCols(screen), (screen->max_row - top + 1)); ClearCurBackground(xw, top, 0, (unsigned) (screen->max_row - top + 1), (unsigned) MaxCols(screen), (unsigned) FontWidth(screen)); } } ClearBufRows(xw, screen->cur_row + 1, screen->max_row); } } /* * Clear the given row, for the given range of columns, returning 1 if no * protected characters were found, 0 otherwise. */ static int ClearInLine2(XtermWidget xw, int flags, int row, int col, unsigned len) { TScreen *screen = TScreenOf(xw); CLineData *ld; int rc = 1; TRACE(("ClearInLine(row=%d, col=%d, len=%d) vs %d..%d\n", row, col, len, screen->startH.row, screen->startH.col)); if (ScrnHaveSelection(screen) && ScrnIsRowInSelection(screen, row)) { ScrnDisownSelection(xw); } if (col + (int) len >= MaxCols(screen)) { len = (unsigned) (MaxCols(screen) - col); } /* If we've marked protected text on the screen, we'll have to * check each time we do an erase. */ if (screen->protected_mode != OFF_PROTECT) { unsigned n; IAttr *attrs = getLineData(screen, row)->attribs + col; int saved_mode = screen->protected_mode; Bool done; /* disable this branch during recursion */ screen->protected_mode = OFF_PROTECT; do { done = True; for (n = 0; n < len; n++) { if (attrs[n] & PROTECTED) { rc = 0; /* found a protected segment */ if (n != 0) { ClearInLine(xw, row, col, n); } while ((n < len) && (attrs[n] & PROTECTED)) { n++; } done = False; break; } } /* setup for another segment, past the protected text */ if (!done) { attrs += n; col += (int) n; len -= n; } } while (!done); screen->protected_mode = saved_mode; if ((int) len <= 0) { return 0; } } /* fall through to the final non-protected segment */ if (screen->cursor_state) HideCursor(); ResetWrap(screen); if (AddToVisible(xw) && (ld = getLineData(screen, row)) != 0) { ClearCurBackground(xw, INX2ROW(screen, row), col, 1U, len, (unsigned) LineFontWidth(screen, ld)); } if (len != 0) { ClearCells(xw, flags, len, row, col); } return rc; } int ClearInLine(XtermWidget xw, int row, int col, unsigned len) { TScreen *screen = TScreenOf(xw); int flags = 0; /* * If we're clearing to the end of the line, we won't count this as * "drawn" characters. We'll only do cut/paste on "drawn" characters, * so this has the effect of suppressing trailing blanks from a * selection. */ if (col + (int) len < MaxCols(screen)) { flags |= CHARDRAWN; } return ClearInLine2(xw, flags, row, col, len); } /* * Clear the next n characters on the cursor's line, including the cursor's * position. */ void ClearRight(XtermWidget xw, int n) { TScreen *screen = TScreenOf(xw); LineData *ld; unsigned len = (unsigned) (MaxCols(screen) - screen->cur_col); assert(screen->max_col >= 0); assert(screen->max_col >= screen->cur_col); if (n < 0) /* the remainder of the line */ n = MaxCols(screen); if (n == 0) /* default for 'ECH' */ n = 1; if (len > (unsigned) n) len = (unsigned) n; ld = getLineData(screen, screen->cur_row); if (AddToVisible(xw)) { if_OPT_WIDE_CHARS(screen, { int col = screen->cur_col; int row = screen->cur_row; int kl; int kr; int xx; if (DamagedCurCells(screen, len, &kl, &kr) && kr >= kl) { xx = col; if (kl < xx) { ClearInLine2(xw, 0, row, kl, (unsigned) (xx - kl)); } xx = col + (int) len - 1; if (kr > xx) { ClearInLine2(xw, 0, row, xx + 1, (unsigned) (kr - xx)); } } }); (void) ClearInLine(xw, screen->cur_row, screen->cur_col, len); } else { ScrnClearCells(xw, screen->cur_row, screen->cur_col, len); } /* with the right part cleared, we can't be wrapping */ LineClrWrapped(ld); if (screen->show_wrap_marks) { ShowWrapMarks(xw, screen->cur_row, ld); } ResetWrap(screen); } /* * Clear first part of cursor's line, inclusive. */ static void ClearLeft(XtermWidget xw) { TScreen *screen = TScreenOf(xw); unsigned len = (unsigned) screen->cur_col + 1; assert(screen->cur_col >= 0); if (AddToVisible(xw)) { if_OPT_WIDE_CHARS(screen, { int row = screen->cur_row; int kl; int kr; if (DamagedCurCells(screen, 1, &kl, &kr) && kr >= kl) { ClearInLine2(xw, 0, row, kl, (unsigned) (kr - kl + 1)); } }); (void) ClearInLine(xw, screen->cur_row, 0, len); } else { ScrnClearCells(xw, screen->cur_row, 0, len); } } /* * Erase the cursor's line. */ static void ClearLine(XtermWidget xw) { TScreen *screen = TScreenOf(xw); unsigned len = (unsigned) MaxCols(screen); assert(screen->max_col >= 0); (void) ClearInLine(xw, screen->cur_row, 0, len); } void ClearScreen(XtermWidget xw) { TScreen *screen = TScreenOf(xw); int top; TRACE(("ClearScreen\n")); if (screen->cursor_state) HideCursor(); ScrnDisownSelection(xw); ResetWrap(screen); if ((top = INX2ROW(screen, 0)) <= screen->max_row) { if (screen->scroll_amt) FlushScroll(xw); chararea_clear_displayed_graphics(screen, 0, top, MaxCols(screen), (screen->max_row - top + 1)); ClearCurBackground(xw, top, 0, (unsigned) (screen->max_row - top + 1), (unsigned) MaxCols(screen), (unsigned) FontWidth(screen)); } ClearBufRows(xw, 0, screen->max_row); } /* * If we've written protected text DEC-style, and are issuing a non-DEC * erase, temporarily reset the protected_mode flag so that the erase will * ignore the protected flags. */ void do_erase_line(XtermWidget xw, int param, int mode) { TScreen *screen = TScreenOf(xw); int saved_mode = screen->protected_mode; if (saved_mode == DEC_PROTECT && saved_mode != mode) { screen->protected_mode = OFF_PROTECT; } switch (param) { case -1: /* DEFAULT */ case 0: ClearRight(xw, -1); break; case 1: ClearLeft(xw); break; case 2: ClearLine(xw); break; } screen->protected_mode = saved_mode; } /* * Just like 'do_erase_line()', except that this intercepts ED controls. If we * clear the whole screen, we'll get the return-value from ClearInLine, and * find if there were any protected characters left. If not, reset the * protected mode flag in the screen data (it's slower). */ void do_erase_display(XtermWidget xw, int param, int mode) { TScreen *screen = TScreenOf(xw); int saved_mode = screen->protected_mode; if (saved_mode == DEC_PROTECT && saved_mode != mode) screen->protected_mode = OFF_PROTECT; switch (param) { case -1: /* DEFAULT */ case 0: if (screen->cur_row == 0 && screen->cur_col == 0) { screen->protected_mode = saved_mode; do_erase_display(xw, 2, mode); saved_mode = screen->protected_mode; } else ClearBelow(xw); break; case 1: if (screen->cur_row == screen->max_row && screen->cur_col == screen->max_col) { screen->protected_mode = saved_mode; do_erase_display(xw, 2, mode); saved_mode = screen->protected_mode; } else ClearAbove(xw); break; case 2: /* * We use 'ClearScreen()' throughout the remainder of the * program for places where we don't care if the characters are * protected or not. So we modify the logic around this call * on 'ClearScreen()' to handle protected characters. */ if (screen->protected_mode != OFF_PROTECT) { int row; int rc = 1; unsigned len = (unsigned) MaxCols(screen); assert(screen->max_col >= 0); for (row = 0; row <= screen->max_row; row++) rc &= ClearInLine(xw, row, 0, len); if (rc != 0) saved_mode = OFF_PROTECT; } else { ClearScreen(xw); } break; case 3: /* xterm addition - erase saved lines. */ screen->savedlines = 0; ScrollBarDrawThumb(screen->scrollWidget); break; } screen->protected_mode = saved_mode; } static Boolean screen_has_data(XtermWidget xw) { TScreen *screen = TScreenOf(xw); Boolean result = False; CLineData *ld; int row, col; for (row = 0; row < screen->max_row; ++row) { if ((ld = getLineData(screen, row)) != 0) { for (col = 0; col < screen->max_col; ++col) { if (ld->attribs[col] & CHARDRAWN) { result = True; break; } } } if (result) break; } return result; } /* * Like tiXtraScroll, perform a scroll up of the page contents. In this case, * it happens for the special case when erasing the whole display starting from * the upper-left corner of the screen. */ void do_cd_xtra_scroll(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (xw->misc.cdXtraScroll && screen->cur_col == 0 && screen->cur_row == 0 && screen_has_data(xw)) { xtermScroll(xw, screen->max_row); } } /* * Scroll the page up (saving it). This is called when doing terminal * initialization (ti) or exiting from that (te). */ void do_ti_xtra_scroll(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (xw->misc.tiXtraScroll) { xtermScroll(xw, screen->max_row); } } static void CopyWait(XtermWidget xw) { #if OPT_DOUBLE_BUFFER (void) xw; #else /* !OPT_DOUBLE_BUFFER */ TScreen *screen = TScreenOf(xw); XEvent reply; XEvent *rep = &reply; for (;;) { XWindowEvent(screen->display, VWindow(screen), ExposureMask, &reply); switch (reply.type) { case Expose: HandleExposure(xw, &reply); break; case NoExpose: case GraphicsExpose: if (screen->incopy <= 0) { screen->incopy = 1; if (screen->scrolls > 0) screen->scrolls--; } if (reply.type == GraphicsExpose) HandleExposure(xw, &reply); if ((reply.type == NoExpose) || ((XExposeEvent *) rep)->count == 0) { if (screen->incopy <= 0 && screen->scrolls > 0) screen->scrolls--; if (screen->scrolls == 0) { screen->incopy = 0; return; } screen->incopy = -1; } break; } } #endif /* OPT_DOUBLE_BUFFER */ } /* * used by vertical_copy_area and and horizontal_copy_area */ static void copy_area(XtermWidget xw, int src_x, int src_y, unsigned width, unsigned height, int dest_x, int dest_y) { TScreen *screen = TScreenOf(xw); if (width != 0 && height != 0) { /* wait for previous CopyArea to complete unless multiscroll is enabled and active */ if (screen->incopy && screen->scrolls == 0) CopyWait(xw); screen->incopy = -1; /* save for translating Expose events */ screen->copy_src_x = src_x; screen->copy_src_y = src_y; screen->copy_width = width; screen->copy_height = height; screen->copy_dest_x = dest_x; screen->copy_dest_y = dest_y; XCopyArea(screen->display, VDrawable(screen), VDrawable(screen), NormalGC(xw, screen), src_x, src_y, width, height, dest_x, dest_y); } } /* * use when inserting or deleting characters on the current line */ static void horizontal_copy_area(XtermWidget xw, int firstchar, /* char pos on screen to start copying at */ int nchars, int amount) /* number of characters to move right */ { TScreen *screen = TScreenOf(xw); CLineData *ld; if ((ld = getLineData(screen, screen->cur_row)) != 0) { int src_x = LineCursorX(screen, ld, firstchar); int src_y = CursorY(screen, screen->cur_row); copy_area(xw, src_x, src_y, (unsigned) (nchars * LineFontWidth(screen, ld)), (unsigned) FontHeight(screen), src_x + amount * LineFontWidth(screen, ld), src_y); } } /* * use when inserting or deleting lines from the screen */ static void vertical_copy_area(XtermWidget xw, int firstline, /* line on screen to start copying at */ int nlines, int amount, /* number of lines to move up (neg=down) */ int left, int right) { TScreen *screen = TScreenOf(xw); TRACE(("vertical_copy_area - firstline=%d nlines=%d left=%d right=%d amount=%d\n", firstline, nlines, left, right, amount)); if (nlines > 0) { int src_x = CursorX(screen, left); int src_y = firstline * FontHeight(screen) + screen->border; unsigned int w = (unsigned) ((right + 1 - left) * FontWidth(screen)); unsigned int h = (unsigned) (nlines * FontHeight(screen)); int dst_x = src_x; int dst_y = src_y - amount * FontHeight(screen); copy_area(xw, src_x, src_y, w, h, dst_x, dst_y); if (screen->show_wrap_marks) { CLineData *ld; int row; for (row = firstline; row < firstline + nlines; ++row) { if ((ld = getLineData(screen, row)) != 0) { ShowWrapMarks(xw, row, ld); } } } } } /* * use when scrolling the entire screen */ void scrolling_copy_area(XtermWidget xw, int firstline, /* line on screen to start copying at */ int nlines, int amount) /* number of lines to move up (neg=down) */ { if (nlines > 0) { vertical_copy_area(xw, firstline, nlines, amount, 0, TScreenOf(xw)->max_col); } } /* * Handler for Expose events on the VT widget. * Returns 1 iff the area where the cursor was got refreshed. */ int HandleExposure(XtermWidget xw, XEvent *event) { TScreen *screen = TScreenOf(xw); XExposeEvent *reply = (XExposeEvent *) event; #ifndef NO_ACTIVE_ICON if (reply->window == screen->iconVwin.window) { WhichVWin(screen) = &screen->iconVwin; TRACE(("HandleExposure - icon\n")); } else { WhichVWin(screen) = &screen->fullVwin; TRACE(("HandleExposure - normal\n")); } TRACE((" event %d,%d %dx%d\n", reply->y, reply->x, reply->height, reply->width)); #endif /* NO_ACTIVE_ICON */ /* if not doing CopyArea or if this is a GraphicsExpose, don't translate */ if (!screen->incopy || event->type != Expose) return handle_translated_exposure(xw, reply->x, reply->y, reply->width, reply->height); else { /* compute intersection of area being copied with area being exposed. */ int both_x1 = Max(screen->copy_src_x, reply->x); int both_y1 = Max(screen->copy_src_y, reply->y); int both_x2 = Min(screen->copy_src_x + (int) screen->copy_width, (reply->x + (int) reply->width)); int both_y2 = Min(screen->copy_src_y + (int) screen->copy_height, (reply->y + (int) reply->height)); int value = 0; /* was anything copied affected? */ if (both_x2 > both_x1 && both_y2 > both_y1) { /* do the copied area */ value = handle_translated_exposure (xw, reply->x + screen->copy_dest_x - screen->copy_src_x, reply->y + screen->copy_dest_y - screen->copy_src_y, reply->width, reply->height); } /* was anything not copied affected? */ if (reply->x < both_x1 || reply->y < both_y1 || reply->x + reply->width > both_x2 || reply->y + reply->height > both_y2) value = handle_translated_exposure(xw, reply->x, reply->y, reply->width, reply->height); return value; } } static void set_background(XtermWidget xw, int color GCC_UNUSED) { TScreen *screen = TScreenOf(xw); Pixel c = getXtermBackground(xw, xw->flags, color); TRACE(("set_background(%d) %#lx\n", color, c)); XSetWindowBackground(screen->display, VShellWindow(xw), c); XSetWindowBackground(screen->display, VWindow(screen), c); } /* * Called by the ExposeHandler to do the actual repaint after the coordinates * have been translated to allow for any CopyArea in progress. * The rectangle passed in is pixel coordinates. */ static int handle_translated_exposure(XtermWidget xw, int rect_x, int rect_y, int rect_width, int rect_height) { TScreen *screen = TScreenOf(xw); int toprow, leftcol, nrows, ncols; int x0, x1; int y0, y1; int result = 0; TRACE(("handle_translated_exposure at %d,%d size %dx%d\n", rect_y, rect_x, rect_height, rect_width)); x0 = (rect_x - OriginX(screen)); x1 = (x0 + rect_width); y0 = (rect_y - OriginY(screen)); y1 = (y0 + rect_height); if ((x0 < 0 || y0 < 0 || x1 > Width(screen) || y1 > Height(screen))) { set_background(xw, -1); #if OPT_DOUBLE_BUFFER XFillRectangle(screen->display, VDrawable(screen), ReverseGC(xw, screen), rect_x, rect_y, (unsigned) rect_width, (unsigned) rect_height); #else XClearArea(screen->display, VWindow(screen), rect_x, rect_y, (unsigned) rect_width, (unsigned) rect_height, False); #endif } toprow = y0 / FontHeight(screen); if (toprow < 0) toprow = 0; leftcol = x0 / FontWidth(screen); if (leftcol < 0) leftcol = 0; nrows = (y1 - 1) / FontHeight(screen) - toprow + 1; ncols = (x1 - 1) / FontWidth(screen) - leftcol + 1; toprow -= screen->scrolls; if (toprow < 0) { nrows += toprow; toprow = 0; } if (toprow + nrows > MaxRows(screen)) nrows = MaxRows(screen) - toprow; if (leftcol + ncols > MaxCols(screen)) ncols = MaxCols(screen) - leftcol; if (nrows > 0 && ncols > 0) { ScrnRefresh(xw, toprow, leftcol, nrows, ncols, True); first_map_occurred(); if (screen->cur_row >= toprow && screen->cur_row < toprow + nrows && screen->cur_col >= leftcol && screen->cur_col < leftcol + ncols) { result = 1; } } TRACE(("...handle_translated_exposure %d\n", result)); return (result); } /***====================================================================***/ void GetColors(XtermWidget xw, ScrnColors * pColors) { TScreen *screen = TScreenOf(xw); int n; pColors->which = 0; for (n = 0; n < NCOLORS; ++n) { SET_COLOR_VALUE(pColors, n, T_COLOR(screen, n)); } } void ChangeColors(XtermWidget xw, ScrnColors * pNew) { Bool repaint = False; TScreen *screen = TScreenOf(xw); VTwin *win = WhichVWin(screen); TRACE(("ChangeColors\n")); if (COLOR_DEFINED(pNew, TEXT_CURSOR)) { T_COLOR(screen, TEXT_CURSOR) = COLOR_VALUE(pNew, TEXT_CURSOR); TRACE(("... TEXT_CURSOR: %#lx\n", T_COLOR(screen, TEXT_CURSOR))); /* no repaint needed */ } else if ((T_COLOR(screen, TEXT_CURSOR) == T_COLOR(screen, TEXT_FG)) && (COLOR_DEFINED(pNew, TEXT_FG))) { if (T_COLOR(screen, TEXT_CURSOR) != COLOR_VALUE(pNew, TEXT_FG)) { T_COLOR(screen, TEXT_CURSOR) = COLOR_VALUE(pNew, TEXT_FG); TRACE(("... TEXT_CURSOR: %#lx\n", T_COLOR(screen, TEXT_CURSOR))); if (screen->Vshow) repaint = True; } } if (COLOR_DEFINED(pNew, TEXT_FG)) { Pixel fg = COLOR_VALUE(pNew, TEXT_FG); T_COLOR(screen, TEXT_FG) = fg; TRACE(("... TEXT_FG: %#lx\n", T_COLOR(screen, TEXT_FG))); if (screen->Vshow) { setCgsFore(xw, win, gcNorm, fg); setCgsBack(xw, win, gcNormReverse, fg); setCgsFore(xw, win, gcBold, fg); setCgsBack(xw, win, gcBoldReverse, fg); repaint = True; } } if (COLOR_DEFINED(pNew, TEXT_BG)) { Pixel bg = COLOR_VALUE(pNew, TEXT_BG); T_COLOR(screen, TEXT_BG) = bg; TRACE(("... TEXT_BG: %#lx\n", T_COLOR(screen, TEXT_BG))); if (screen->Vshow) { setCgsBack(xw, win, gcNorm, bg); setCgsFore(xw, win, gcNormReverse, bg); setCgsBack(xw, win, gcBold, bg); setCgsFore(xw, win, gcBoldReverse, bg); set_background(xw, -1); repaint = True; } } #if OPT_HIGHLIGHT_COLOR if (COLOR_DEFINED(pNew, HIGHLIGHT_BG)) { if (T_COLOR(screen, HIGHLIGHT_BG) != COLOR_VALUE(pNew, HIGHLIGHT_BG)) { T_COLOR(screen, HIGHLIGHT_BG) = COLOR_VALUE(pNew, HIGHLIGHT_BG); TRACE(("... HIGHLIGHT_BG: %#lx\n", T_COLOR(screen, HIGHLIGHT_BG))); if (screen->Vshow) repaint = True; } } if (COLOR_DEFINED(pNew, HIGHLIGHT_FG)) { if (T_COLOR(screen, HIGHLIGHT_FG) != COLOR_VALUE(pNew, HIGHLIGHT_FG)) { T_COLOR(screen, HIGHLIGHT_FG) = COLOR_VALUE(pNew, HIGHLIGHT_FG); TRACE(("... HIGHLIGHT_FG: %#lx\n", T_COLOR(screen, HIGHLIGHT_FG))); if (screen->Vshow) repaint = True; } } #endif if (COLOR_DEFINED(pNew, MOUSE_FG) || (COLOR_DEFINED(pNew, MOUSE_BG))) { if (COLOR_DEFINED(pNew, MOUSE_FG)) { T_COLOR(screen, MOUSE_FG) = COLOR_VALUE(pNew, MOUSE_FG); TRACE(("... MOUSE_FG: %#lx\n", T_COLOR(screen, MOUSE_FG))); } if (COLOR_DEFINED(pNew, MOUSE_BG)) { T_COLOR(screen, MOUSE_BG) = COLOR_VALUE(pNew, MOUSE_BG); TRACE(("... MOUSE_BG: %#lx\n", T_COLOR(screen, MOUSE_BG))); } if (screen->Vshow) { recolor_cursor(screen, screen->pointer_cursor, T_COLOR(screen, MOUSE_FG), T_COLOR(screen, MOUSE_BG)); XDefineCursor(screen->display, VWindow(screen), screen->pointer_cursor); } #if OPT_TEK4014 if (TEK4014_SHOWN(xw)) { TekScreen *tekscr = TekScreenOf(tekWidget); Window tekwin = TWindow(tekscr); if (tekwin) { recolor_cursor(screen, tekscr->arrow, T_COLOR(screen, MOUSE_FG), T_COLOR(screen, MOUSE_BG)); XDefineCursor(screen->display, tekwin, tekscr->arrow); } } #endif /* no repaint needed */ } if (COLOR_DEFINED(pNew, TEXT_FG) || COLOR_DEFINED(pNew, TEXT_BG) || COLOR_DEFINED(pNew, TEXT_CURSOR)) { if (set_cursor_gcs(xw) && screen->Vshow) { repaint = True; } } #if OPT_TEK4014 if (COLOR_DEFINED(pNew, TEK_FG) || COLOR_DEFINED(pNew, TEK_BG)) { ChangeTekColors(tekWidget, screen, pNew); if (TEK4014_SHOWN(xw)) { TekRepaint(tekWidget); } } else if (COLOR_DEFINED(pNew, TEK_CURSOR)) { ChangeTekColors(tekWidget, screen, pNew); } #endif if (repaint) xtermRepaint(xw); } void xtermClear(XtermWidget xw) { TScreen *screen = TScreenOf(xw); TRACE(("xtermClear\n")); #if OPT_DOUBLE_BUFFER XFillRectangle(screen->display, VDrawable(screen), ReverseGC(xw, screen), 0, 0, FullWidth(screen), FullHeight(screen)); #else XClearWindow(screen->display, VWindow(screen)); #endif } void xtermRepaint(XtermWidget xw) { TScreen *screen = TScreenOf(xw); TRACE(("xtermRepaint\n")); xtermClear(xw); ScrnRefresh(xw, 0, 0, MaxRows(screen), MaxCols(screen), True); } /***====================================================================***/ Boolean isDefaultForeground(const char *name) { return (Boolean) !x_strcasecmp(name, XtDefaultForeground); } Boolean isDefaultBackground(const char *name) { return (Boolean) !x_strcasecmp(name, XtDefaultBackground); } #if OPT_WIDE_CHARS /* * Check for Unicode BIDI control characters, which may be miscategorized via * wcwidth() and iswprint() as zero-width printable characters. */ Boolean isWideControl(unsigned ch) { Boolean result; switch (ch) { case 0x200E: case 0x200F: case 0x202A: case 0x202B: case 0x202C: case 0x202D: case 0x202E: result = True; break; default: result = False; break; } return result; } #endif /***====================================================================***/ typedef struct { Pixel fg; Pixel bg; } ToSwap; #if OPT_HIGHLIGHT_COLOR #define hc_param ,Bool hilite_color #define hc_value ,screen->hilite_color #else #define hc_param /* nothing */ #define hc_value /* nothing */ #endif /* * Use this to swap the foreground/background color values in the resource * data, and to build up a list of the pairs which must be swapped in the * GC cache. */ static void swapLocally(ToSwap * list, int *count, ColorRes * fg, ColorRes * bg hc_param) { ColorRes tmp; int n; Boolean found = False; #if OPT_COLOR_RES Pixel fg_color = fg->value; Pixel bg_color = bg->value; #else Pixel fg_color = *fg; Pixel bg_color = *bg; #endif #if OPT_HIGHLIGHT_COLOR if ((fg_color != bg_color) || !hilite_color) #endif { EXCHANGE(*fg, *bg, tmp); for (n = 0; n < *count; ++n) { if ((list[n].fg == fg_color && list[n].bg == bg_color) || (list[n].fg == bg_color && list[n].bg == fg_color)) { found = True; break; } } if (!found) { list[*count].fg = fg_color; list[*count].bg = bg_color; *count = *count + 1; TRACE(("swapLocally fg %#lx, bg %#lx ->%d\n", fg_color, bg_color, *count)); } } } static void reallySwapColors(XtermWidget xw, ToSwap * list, int count) { int j, k; TRACE(("reallySwapColors\n")); for (j = 0; j < count; ++j) { for_each_text_gc(k) { redoCgs(xw, list[j].fg, list[j].bg, (CgsEnum) k); } } } static void swapVTwinGCs(XtermWidget xw, VTwin *win) { swapCgs(xw, win, gcNorm, gcNormReverse); swapCgs(xw, win, gcBold, gcBoldReverse); } void ReverseVideo(XtermWidget xw) { TScreen *screen = TScreenOf(xw); ToSwap listToSwap[5]; int numToSwap = 0; TRACE(("ReverseVideo\n")); /* * Swap SGR foreground and background colors. By convention, these are * the colors assigned to "black" (SGR #0) and "white" (SGR #7). Also, * SGR #8 and SGR #15 are the bold (or bright) versions of SGR #0 and * #7, respectively. * * We don't swap colors that happen to match the screen's foreground * and background because that tends to produce bizarre effects. */ #define swapAnyColor(name,a,b) swapLocally(listToSwap, &numToSwap, &(screen->name[a]), &(screen->name[b]) hc_value) #define swapAColor(a,b) swapAnyColor(Acolors, a, b) if_OPT_ISO_COLORS(screen, { swapAColor(0, 7); swapAColor(8, 15); }); if (T_COLOR(screen, TEXT_CURSOR) == T_COLOR(screen, TEXT_FG)) T_COLOR(screen, TEXT_CURSOR) = T_COLOR(screen, TEXT_BG); #define swapTColor(a,b) swapAnyColor(Tcolors, a, b) swapTColor(TEXT_FG, TEXT_BG); swapTColor(MOUSE_FG, MOUSE_BG); reallySwapColors(xw, listToSwap, numToSwap); swapVTwinGCs(xw, &(screen->fullVwin)); #ifndef NO_ACTIVE_ICON swapVTwinGCs(xw, &(screen->iconVwin)); #endif /* NO_ACTIVE_ICON */ xw->misc.re_verse = (Boolean) !xw->misc.re_verse; if (XtIsRealized((Widget) xw)) { xtermDisplayCursor(xw); } #if OPT_TEK4014 if (TEK4014_SHOWN(xw)) { TekScreen *tekscr = TekScreenOf(tekWidget); Window tekwin = TWindow(tekscr); recolor_cursor(screen, tekscr->arrow, T_COLOR(screen, MOUSE_FG), T_COLOR(screen, MOUSE_BG)); XDefineCursor(screen->display, tekwin, tekscr->arrow); } #endif if (screen->scrollWidget) ScrollBarReverseVideo(screen->scrollWidget); if (XtIsRealized((Widget) xw)) { set_background(xw, -1); } #if OPT_TEK4014 TekReverseVideo(tekWidget); #endif if (XtIsRealized((Widget) xw)) { xtermRepaint(xw); } #if OPT_TEK4014 if (TEK4014_SHOWN(xw)) { TekRepaint(tekWidget); } #endif ReverseOldColors(xw); set_cursor_gcs(xw); update_reversevideo(); TRACE(("...ReverseVideo\n")); } void recolor_cursor(TScreen *screen, Cursor cursor, /* X cursor ID to set */ unsigned long fg, /* pixel indexes to look up */ unsigned long bg) /* pixel indexes to look up */ { Display *dpy = screen->display; XColor colordefs[2]; /* 0 is foreground, 1 is background */ colordefs[0].pixel = fg; colordefs[1].pixel = bg; XQueryColors(dpy, DefaultColormap(dpy, DefaultScreen(dpy)), colordefs, 2); XRecolorCursor(dpy, cursor, colordefs, colordefs + 1); cleanup_colored_cursor(); return; } #if OPT_RENDERFONT #define XFT_CACHE_LIMIT ((unsigned)(~0) >> 1) #define XFT_CACHE_SIZE 16 typedef struct { XftColor color; unsigned use; } XftColorCache; static int compare_xft_color_cache(const void *a, const void *b) { return (int) (((const XftColorCache *) a)->use - ((const XftColorCache *) b)->use); } static XftColor * getXftColor(XtermWidget xw, Pixel pixel) { static XftColorCache cache[XFT_CACHE_SIZE]; static unsigned latest_use; int i; int oldest; unsigned oldest_use; XColor color; Boolean found = False; oldest_use = XFT_CACHE_LIMIT; oldest = 0; if (latest_use == XFT_CACHE_LIMIT) { latest_use = 0; qsort(cache, (size_t) XFT_CACHE_SIZE, sizeof(XftColorCache), compare_xft_color_cache); for (i = 0; i < XFT_CACHE_SIZE; i++) { if (cache[i].use) { cache[i].use = ++latest_use; } } } for (i = 0; i < XFT_CACHE_SIZE; i++) { if (cache[i].use) { if (cache[i].color.pixel == pixel) { found = True; break; } } if (cache[i].use < oldest_use) { oldest_use = cache[i].use; oldest = i; } } if (!found) { i = oldest; color.pixel = pixel; XQueryColor(TScreenOf(xw)->display, xw->core.colormap, &color); cache[i].color.color.red = color.red; cache[i].color.color.green = color.green; cache[i].color.color.blue = color.blue; cache[i].color.color.alpha = 0xffff; cache[i].color.pixel = pixel; } cache[i].use = ++latest_use; return &cache[i].color; } /* * The cell-width is related to, but not the same as the wide-character width. * We will only get useful values from wcwidth() for codes above 255. * Otherwise, interpret according to internal data. */ #if OPT_RENDERWIDE #if OPT_C1_PRINT #define XtermCellWidth(xw, ch) \ (((ch) == 0 || (ch) == 127) \ ? 0 \ : (((ch) < 256) \ ? (((ch) >= 128 && (ch) < 160) \ ? (TScreenOf(xw)->c1_printable ? 1 : 0) \ : 1) \ : my_wcwidth(ch))) #else #define XtermCellWidth(xw, ch) \ (((ch) == 0 || (ch) == 127) \ ? 0 \ : (((ch) < 256) \ ? 1 \ : my_wcwidth(ch))) #endif #endif /* OPT_RENDERWIDE */ #define XFT_FONT(name) screen->name.font #if OPT_ISO_COLORS #define UseBoldFont(screen) (!(screen)->colorBDMode || ((screen)->veryBoldColors & BOLD)) #else #define UseBoldFont(screen) 1 #endif #if OPT_RENDERWIDE static XftFont * getWideXftFont(XtermWidget xw, unsigned attr_flags) { TScreen *screen = TScreenOf(xw); int fontnum = screen->menu_font_number; XftFont *wfont; #if OPT_WIDE_ATTRS if ((attr_flags & ATR_ITALIC) #if OPT_ISO_COLORS && !screen->colorITMode #endif && XFT_FONT(renderWideItal[fontnum])) { wfont = XFT_FONT(renderWideItal[fontnum]); } else #endif #if OPT_ISO_COLORS if ((attr_flags & UNDERLINE) && !screen->colorULMode && screen->italicULMode && XFT_FONT(renderWideItal[fontnum])) { wfont = XFT_FONT(renderWideItal[fontnum]); } else #endif if ((attr_flags & BOLDATTR(screen)) && UseBoldFont(screen) && XFT_FONT(renderWideBold[fontnum])) { wfont = XFT_FONT(renderWideBold[fontnum]); } else { wfont = XFT_FONT(renderWideNorm[fontnum]); } return wfont; } #endif /* OPT_RENDERWIDE */ static XftFont * getNormXftFont(XtermWidget xw, unsigned attr_flags, Bool *did_ul) { TScreen *screen = TScreenOf(xw); int fontnum = screen->menu_font_number; XftFont *font; #if OPT_WIDE_ATTRS if ((attr_flags & ATR_ITALIC) #if OPT_ISO_COLORS && !screen->colorITMode #endif && XFT_FONT(renderFontItal[fontnum])) { font = XFT_FONT(renderFontItal[fontnum]); } else #endif #if OPT_ISO_COLORS if ((attr_flags & UNDERLINE) && !screen->colorULMode && screen->italicULMode && XFT_FONT(renderFontItal[fontnum])) { font = XFT_FONT(renderFontItal[fontnum]); *did_ul = True; } else #endif if ((attr_flags & BOLDATTR(screen)) && UseBoldFont(screen) && XFT_FONT(renderFontBold[fontnum])) { font = XFT_FONT(renderFontBold[fontnum]); } else { font = XFT_FONT(renderFontNorm[fontnum]); } return font; } #if OPT_RENDERWIDE #define pickXftFont(width, nf, wf) ((width == 2 && wf != 0) ? wf : nf) #else #define pickXftFont(width, nf, wf) (nf) #endif /* * fontconfig/Xft combination prior to 2.2 has a problem with * CJK truetype 'double-width' (bi-width/monospace) fonts leading * to the 's p a c e d o u t' rendering. Consequently, we can't * rely on XftDrawString8/16 when one of those fonts is used. * Instead, we need to roll out our own using XftDrawCharSpec. * A patch in the same spirit (but in a rather different form) * was applied to gnome vte and gtk2 port of vim. * See http://bugzilla.mozilla.org/show_bug.cgi?id=196312 */ static int xtermXftDrawString(XtermWidget xw, unsigned attr_flags GCC_UNUSED, XftColor *color, XftFont *font, int x, int y, const IChar *text, Cardinal len, Bool really) { TScreen *screen = TScreenOf(xw); int ncells = 0; if (len != 0) { #if OPT_RENDERWIDE XftCharSpec *sbuf; XftFont *wfont = getWideXftFont(xw, attr_flags); Cardinal src, dst; XftFont *lastFont = 0; XftFont *currFont = 0; Cardinal start = 0; int charWidth; int fwidth = FontWidth(screen); BumpTypedBuffer(XftCharSpec, len); sbuf = BfBuf(XftCharSpec); for (src = dst = 0; src < len; src++) { FcChar32 wc = *text++; charWidth = XtermCellWidth(xw, (wchar_t) wc); if (charWidth < 0) continue; sbuf[dst].ucs4 = wc; sbuf[dst].x = (short) (x + fwidth * ncells); sbuf[dst].y = (short) (y); currFont = pickXftFont(charWidth, font, wfont); ncells += charWidth; if (lastFont != currFont) { if ((lastFont != 0) && really) { XftDrawCharSpec(screen->renderDraw, color, lastFont, sbuf + start, (int) (dst - start)); } start = dst; lastFont = currFont; } ++dst; } if ((dst != start) && really) { XftDrawCharSpec(screen->renderDraw, color, lastFont, sbuf + start, (int) (dst - start)); } #else /* !OPT_RENDERWIDE */ if (really) { XftChar8 *buffer; int dst; BumpTypedBuffer(XftChar8, len); buffer = BfBuf(XftChar8); for (dst = 0; dst < (int) len; ++dst) buffer[dst] = CharOf(text[dst]); XftDrawString8(screen->renderDraw, color, font, x, y, buffer, (int) len); } ncells = (int) len; #endif } return ncells; } #define xtermXftWidth(xw, attr_flags, color, font, x, y, chars, len) \ xtermXftDrawString(xw, attr_flags, color, font, x, y, chars, len, False) #endif /* OPT_RENDERFONT */ #if OPT_WIDE_CHARS /* * Map characters commonly "fixed" by groff back to their ASCII equivalents. * Also map other useful equivalents. */ unsigned AsciiEquivs(unsigned ch) { switch (ch) { case 0x2010: /* groff "-" */ case 0x2011: case 0x2012: case 0x2013: case 0x2014: case 0x2015: case 0x2212: /* groff "\-" */ ch = '-'; break; case 0x2018: /* groff "`" */ ch = '`'; break; case 0x2019: /* groff ' */ ch = '\''; break; case 0x201C: /* groff lq */ case 0x201D: /* groff rq */ ch = '"'; break; case 0x2329: /* groff ".URL" */ ch = '<'; break; case 0x232a: /* groff ".URL" */ ch = '>'; break; default: if (ch >= 0xff01 && ch <= 0xff5e) { /* "Fullwidth" codes (actually double-width) */ ch -= 0xff00; ch += ANSI_SPA; break; } } return ch; } /* * Actually this should be called "groff_workaround()" - for the places where * groff stomps on compatibility. Still, if enough people get used to it, * this might someday become a quasi-standard. */ #if OPT_BOX_CHARS static int ucs_workaround(XtermWidget xw, unsigned ch, unsigned attr_flags, unsigned draw_flags, GC gc, int x, int y, int chrset, int on_wide) { TScreen *screen = TScreenOf(xw); int fixed = False; if (screen->wide_chars && screen->utf8_mode && ch > 256) { IChar eqv = (IChar) AsciiEquivs(ch); if (eqv != (IChar) ch) { int width = my_wcwidth((wchar_t) ch); do { drawXtermText(xw, attr_flags, draw_flags, gc, x, y, chrset, &eqv, 1, on_wide); x += FontWidth(screen); eqv = '?'; } while (width-- > 1); fixed = True; } else if (ch == HIDDEN_CHAR) { fixed = True; } } return fixed; } #endif /* OPT_BOX_CHARS */ #endif /* OPT_WIDE_CHARS */ /* * Use this when the characters will not fill the cell area properly. Fill the * area where we'll write the characters, otherwise we'll get gaps between * them, e.g., in the original background color. * * The cursor is a special case, because the XFillRectangle call only uses the * foreground, while we've set the cursor color in the background. So we need * a special GC for that. */ static void xtermFillCells(XtermWidget xw, unsigned draw_flags, GC gc, int x, int y, Cardinal len) { TScreen *screen = TScreenOf(xw); VTwin *currentWin = WhichVWin(screen); if (!(draw_flags & NOBACKGROUND)) { CgsEnum srcId = getCgsId(xw, currentWin, gc); CgsEnum dstId = gcMAX; Pixel fg = getCgsFore(xw, currentWin, gc); Pixel bg = getCgsBack(xw, currentWin, gc); switch (srcId) { case gcVTcursNormal: case gcVTcursReverse: dstId = gcVTcursOutline; break; case gcVTcursFilled: case gcVTcursOutline: /* FIXME */ break; case gcNorm: dstId = gcNormReverse; break; case gcNormReverse: dstId = gcNorm; break; case gcBold: dstId = gcBoldReverse; break; case gcBoldReverse: dstId = gcBold; break; #if OPT_BOX_CHARS case gcLine: case gcDots: /* FIXME */ break; #endif #if OPT_DEC_CHRSET case gcCNorm: case gcCBold: /* FIXME */ break; #endif #if OPT_WIDE_CHARS case gcWide: dstId = gcWideReverse; break; case gcWBold: dstId = gcBoldReverse; break; case gcWideReverse: case gcWBoldReverse: /* FIXME */ break; #endif #if OPT_TEK4014 case gcTKcurs: /* FIXME */ break; #endif case gcMAX: break; } if (dstId != gcMAX) { setCgsFore(xw, currentWin, dstId, bg); setCgsBack(xw, currentWin, dstId, fg); XFillRectangle(screen->display, VDrawable(screen), getCgsGC(xw, currentWin, dstId), x, y, len * (Cardinal) FontWidth(screen), (unsigned) FontHeight(screen)); } } } #if OPT_TRACE static void xtermSetClipRectangles(Display *dpy, GC gc, int x, int y, XRectangle * rp, Cardinal nr, int order) { #if 0 TScreen *screen = TScreenOf(term); Drawable draw = VDrawable(screen); XSetClipMask(dpy, gc, None); XDrawRectangle(screen->display, draw, gc, x + rp->x - 1, y + rp->y - 1, rp->width, rp->height); #endif XSetClipRectangles(dpy, gc, x, y, rp, (int) nr, order); TRACE(("clipping @(%3d,%3d) (%3d,%3d)..(%3d,%3d)\n", y, x, rp->y, rp->x, rp->height, rp->width)); } #else #define xtermSetClipRectangles(dpy, gc, x, y, rp, nr, order) \ XSetClipRectangles(dpy, gc, x, y, rp, (int) nr, order) #endif #if OPT_CLIP_BOLD /* * This special case is a couple of percent slower, but avoids a lot of pixel * trash in rxcurses' hanoi.cmd demo (e.g., 10x20 font). */ #define beginClipping(screen,gc,pwidth,plength) \ if (screen->use_clipping && (pwidth > 2)) { \ XRectangle clip; \ int clip_x = x; \ int clip_y = y - FontHeight(screen) + FontDescent(screen); \ clip.x = 0; \ clip.y = 0; \ clip.height = (unsigned short) FontHeight(screen); \ clip.width = (unsigned short) (pwidth * plength); \ xtermSetClipRectangles(screen->display, gc, \ clip_x, clip_y, \ &clip, 1, Unsorted); \ } #define endClipping(screen,gc) \ XSetClipMask(screen->display, gc, None) #else #define beginClipping(screen,gc,pwidth,plength) /* nothing */ #define endClipping(screen,gc) /* nothing */ #endif /* OPT_CLIP_BOLD */ #if OPT_CLIP_BOLD && OPT_RENDERFONT && defined(HAVE_XFTDRAWSETCLIP) && defined(HAVE_XFTDRAWSETCLIPRECTANGLES) #define beginXftClipping(screen,px,py,plength) \ if (screen->use_clipping && (FontWidth(screen) > 2)) { \ XRectangle clip; \ double adds = (screen->scale_height - 1.0) * FontHeight(screen); \ int height = dimRound(adds + FontHeight(screen)); \ int descnt = dimRound(adds / 2.0) + FontDescent(screen); \ int clip_x = px; \ int clip_y = py - height + descnt; \ clip.x = 0; \ clip.y = 0; \ clip.height = (unsigned short) height; \ clip.width = (unsigned short) (FontWidth(screen) * plength); \ XftDrawSetClipRectangles (screen->renderDraw, \ clip_x, clip_y, \ &clip, 1); \ } #define endXftClipping(screen) \ XftDrawSetClip (screen->renderDraw, 0) #else #define beginXftClipping(screen,px,py,plength) /* nothing */ #define endXftClipping(screen) /* nothing */ #endif /* OPT_CLIP_BOLD */ #if OPT_RENDERFONT static int drawClippedXftString(XtermWidget xw, unsigned attr_flags, XftFont *font, XftColor *fg_color, int x, int y, const IChar *text, Cardinal len) { int ncells = xtermXftWidth(xw, attr_flags, fg_color, font, x, y, text, len); TScreen *screen = TScreenOf(xw); beginXftClipping(screen, x, y, ncells); xtermXftDrawString(xw, attr_flags, fg_color, font, x, y, text, len, True); endXftClipping(screen); return ncells; } #endif #ifndef NO_ACTIVE_ICON #define WhichVFontData(screen,name) \ (IsIcon(screen) ? &((screen)->fnt_icon) \ : &((screen)->name)) #else #define WhichVFontData(screen,name) \ (&((screen)->name)) #endif static int drawUnderline(XtermWidget xw, GC gc, unsigned attr_flags, unsigned underline_len, int font_width, int x, int y, Bool did_ul) { TScreen *screen = TScreenOf(xw); if (screen->underline && !did_ul) { int repeat = 0; int descent = FontDescent(screen); int length = x + (int) underline_len * font_width - 1; #if OPT_WIDE_ATTRS if ((attr_flags & ATR_STRIKEOUT)) { int where = y - ((3 * FontAscent(screen)) / 8); XDrawLine(screen->display, VDrawable(screen), gc, x, where, length, where); } if ((attr_flags & ATR_DBL_UNDER)) { repeat = 2; } else #endif if ((attr_flags & UNDERLINE)) { repeat = 1; } while (repeat-- > 0) { if (descent-- > 1) y++; XDrawLine(screen->display, VDrawable(screen), gc, x, y, length, y); } } return y; } #if OPT_WIDE_ATTRS /* * As a special case, we are currently allowing italic fonts to be inexact * matches for the normal font's size. That introduces a problem: either the * ascent or descent may be shorter, leaving a gap that has to be filled in. * Or they may be larger, requiring clipping. Check for both cases. */ static int fixupItalics(XtermWidget xw, unsigned draw_flags, GC gc, XTermFonts * curFont, int y, int x, int font_width, Cardinal len) { TScreen *screen = TScreenOf(xw); VTwin *cgsWin = WhichVWin(screen); XFontStruct *realFp = curFont->fs; XFontStruct *thisFp = getCgsFont(xw, cgsWin, gc)->fs; int need_clipping = 0; int need_filling = 0; if (thisFp->ascent > realFp->ascent) need_clipping = 1; else if (thisFp->ascent < realFp->ascent) need_filling = 1; if (thisFp->descent > realFp->descent) need_clipping = 1; else if (thisFp->descent < realFp->descent) need_filling = 1; if (need_clipping) { beginClipping(screen, gc, font_width, (int) len); } if (need_filling) { xtermFillCells(xw, draw_flags, gc, x, y - realFp->ascent, len); } return need_clipping; } #endif /* * Draws text with the specified combination of bold/underline. The return * value is the updated x position. */ int drawXtermText(XtermWidget xw, unsigned attr_flags, unsigned draw_flags, GC gc, int start_x, int start_y, int chrset, const IChar *text, Cardinal len, int on_wide) { int x = start_x, y = start_y; TScreen *screen = TScreenOf(xw); Cardinal real_length = len; Cardinal underline_len = 0; /* Intended width of the font to draw (as opposed to the actual width of the X font, and the width of the default font) */ int font_width = ((draw_flags & DOUBLEWFONT) ? 2 : 1) * screen->fnt_wide; Bool did_ul = False; XTermFonts *curFont; #if OPT_WIDE_ATTRS || OPT_WIDE_CHARS int need_clipping = 0; int ascent_adjust = 0; #endif #if OPT_WIDE_CHARS if (text == 0) return 0; #endif #if OPT_DEC_CHRSET if (CSET_DOUBLE(chrset)) { /* We could try drawing double-size characters in the icon, but * given that the icon font is usually nil or nil2, there * doesn't seem to be much point. */ int inx = 0; GC gc2 = ((!IsIcon(screen) && screen->font_doublesize) ? xterm_DoubleGC(xw, (unsigned) chrset, attr_flags, draw_flags, gc, &inx) : 0); TRACE(("DRAWTEXT%c[%4d,%4d] (%d)%3d:%s\n", screen->cursor_state == OFF ? ' ' : '*', y, x, chrset, len, visibleIChars(text, len))); if (gc2 != 0) { /* draw actual double-sized characters */ XFontStruct *fs = screen->double_fonts[inx].fs; #if OPT_RENDERFONT if (!UsingRenderFont(xw)) #endif { XRectangle rect, *rp = ▭ Cardinal nr = 1; font_width *= 2; draw_flags |= DOUBLEWFONT; rect.x = 0; rect.y = 0; rect.width = (unsigned short) ((int) len * font_width); rect.height = (unsigned short) (FontHeight(screen)); TRACE(("drawing %s\n", visibleDblChrset((unsigned) chrset))); switch (chrset) { case CSET_DHL_TOP: rect.y = (short) -(fs->ascent / 2); y -= rect.y; draw_flags |= DOUBLEHFONT; break; case CSET_DHL_BOT: rect.y = (short) (rect.height - (fs->ascent / 2)); y -= rect.y; draw_flags |= DOUBLEHFONT; break; default: nr = 0; break; } if (nr) { xtermSetClipRectangles(screen->display, gc2, x, y, rp, nr, YXBanded); xtermFillCells(xw, draw_flags, gc, x, y + rect.y, len * 2); } else { XSetClipMask(screen->display, gc2, None); } } /* Call ourselves recursively with the new gc */ /* * If we're trying to use proportional font, or if the * font server didn't give us what we asked for wrt * width, position each character independently. */ if (screen->fnt_prop || (fs->min_bounds.width != fs->max_bounds.width) || (fs->min_bounds.width != 2 * FontWidth(screen))) { /* It is hard to fall-through to the main branch: in a lot of places the check for the cached font info is for normal/bold fonts only. */ while (len--) { x = drawXtermText(xw, attr_flags, draw_flags, gc2, x, y, 0, text++, 1, on_wide); x += FontWidth(screen); } } else { x = drawXtermText(xw, attr_flags, draw_flags, gc2, x, y, 0, text, len, on_wide); x += (int) len *FontWidth(screen); } TRACE(("drawtext [%4d,%4d]\n", y, x)); } else { /* simulate double-sized characters */ unsigned need = 2 * len; IChar *temp = TypeMallocN(IChar, need); if (temp != 0) { unsigned n = 0; while (len--) { temp[n++] = *text++; temp[n++] = ' '; } x = drawXtermText(xw, attr_flags, draw_flags, gc, x, y, 0, temp, n, on_wide); free(temp); } } return x; } #endif #if OPT_RENDERFONT if (UsingRenderFont(xw)) { VTwin *currentWin = WhichVWin(screen); Display *dpy = screen->display; XftFont *font, *font0; XGCValues values; int ncells; #if OPT_RENDERWIDE XftFont *wfont, *wfont0; #endif if (!screen->renderDraw) { int scr; Drawable draw = VDrawable(screen); Visual *visual; scr = DefaultScreen(dpy); visual = DefaultVisual(dpy, scr); screen->renderDraw = XftDrawCreate(dpy, draw, visual, DefaultColormap(dpy, scr)); } #define IS_BOLD (attr_flags & BOLDATTR(screen)) #define NOT_BOLD (attr_flags & ~BOLDATTR(screen)) font = getNormXftFont(xw, attr_flags, &did_ul); font0 = IS_BOLD ? getNormXftFont(xw, NOT_BOLD, &did_ul) : font; #if OPT_RENDERWIDE wfont = getWideXftFont(xw, attr_flags); wfont0 = IS_BOLD ? getWideXftFont(xw, NOT_BOLD) : wfont; #endif values.foreground = getCgsFore(xw, currentWin, gc); values.background = getCgsBack(xw, currentWin, gc); if (!(draw_flags & NOBACKGROUND)) { XftColor *bg_color = getXftColor(xw, values.background); ncells = xtermXftWidth(xw, attr_flags, bg_color, font, x, y, text, len); XftDrawRect(screen->renderDraw, bg_color, x, y, (unsigned) (ncells * FontWidth(screen)), (unsigned) FontHeight(screen)); } y += font->ascent; #if OPT_BOX_CHARS { /* adding code to substitute simulated line-drawing characters */ int last, first = 0; Dimension old_wide, old_high = 0; int curX = x; for (last = 0; last < (int) len; last++) { Boolean replace = False; Boolean missing = False; unsigned ch = (unsigned) text[last]; int filler = 0; int nc; #if OPT_WIDE_CHARS int needed = my_wcwidth((wchar_t) ch); XftFont *currFont = pickXftFont(needed, font, wfont); if (xtermIsDecGraphic(ch)) { /* * Xft generally does not have the line-drawing characters * in cells 1-31. Assume this (we cannot inspect the * picture easily...), and attempt to fill in from real * line-drawing character in the font at the Unicode * position. Failing that, use our own box-characters. */ if (screen->force_box_chars || xtermXftMissing(xw, currFont, dec2ucs(ch))) { missing = 1; } else { ch = dec2ucs(ch); replace = True; } } else if (ch >= 256) { /* * If we're reading UTF-8 from the client, we may have a * line-drawing character. Translate it back to our * box-code if Xft tells us that the glyph is missing. */ if_OPT_WIDE_CHARS(screen, { unsigned part = ucs2dec(ch); if (xtermIsDecGraphic(part)) { if (screen->force_box_chars || xtermXftMissing(xw, currFont, ch)) { ch = part; missing = True; } } else if (xtermXftMissing(xw, currFont, ch)) { XftFont *test = pickXftFont(needed, font0, wfont0); if (!xtermXftMissing(xw, test, ch)) { currFont = test; replace = True; filler = needed - 1; } else if ((part = AsciiEquivs(ch)) != ch) { filler = needed - 1; ch = part; replace = True; } } }); } #else XftFont *currFont = font; if (xtermIsDecGraphic(ch)) { /* * Xft generally does not have the line-drawing characters * in cells 1-31. Check for this, and attempt to fill in * from real line-drawing character in the font at the * Unicode position. Failing that, use our own * box-characters. */ if (xtermXftMissing(xw, currFont, ch)) { missing = 1; } } #endif /* * If we now have one of our box-codes, draw it directly. */ if (missing || replace) { /* line drawing character time */ if (last > first) { nc = drawClippedXftString(xw, attr_flags, currFont, getXftColor(xw, values.foreground), curX, y, text + first, (Cardinal) (last - first)); curX += nc * FontWidth(screen); underline_len += (Cardinal) nc; } if (missing) { old_wide = screen->fnt_wide; old_high = screen->fnt_high; screen->fnt_wide = (Dimension) FontWidth(screen); screen->fnt_high = (Dimension) FontHeight(screen); xtermDrawBoxChar(xw, ch, attr_flags, draw_flags, gc, curX, y - FontAscent(screen), 1); curX += FontWidth(screen); underline_len += 1; screen->fnt_wide = old_wide; screen->fnt_high = old_high; } else { IChar ch2 = (IChar) ch; nc = drawClippedXftString(xw, attr_flags, currFont, getXftColor(xw, values.foreground), curX, y, &ch2, 1); curX += nc * FontWidth(screen); underline_len += (Cardinal) nc; if (filler) { ch2 = ' '; nc = drawClippedXftString(xw, attr_flags, currFont, getXftColor(xw, values.foreground), curX, y, &ch2, 1); curX += nc * FontWidth(screen); underline_len += (Cardinal) nc; } } first = last + 1; } } if (last > first) { underline_len += (Cardinal) drawClippedXftString(xw, attr_flags, font, getXftColor(xw, values.foreground), curX, y, text + first, (Cardinal) (last - first)); } } #else { underline_len += (Cardinal) drawClippedXftString(xw, attr_flags, font, getXftColor(xw, values.foreground), x, y, text, len); } #endif /* OPT_BOX_CHARS */ (void) drawUnderline(xw, gc, attr_flags, underline_len, FontWidth(screen), x, y, did_ul); x += (int) len *FontWidth(screen); return x; } #endif /* OPT_RENDERFONT */ curFont = ((attr_flags & BOLDATTR(screen)) ? WhichVFontData(screen, fnts[fBold]) : WhichVFontData(screen, fnts[fNorm])); /* * If we're asked to display a proportional font, do this with a fixed * pitch. Yes, it's ugly. But we cannot distinguish the use of xterm * as a dumb terminal vs its use as in fullscreen programs such as vi. * Hint: do not try to use a proportional font in the icon. */ if (!IsIcon(screen) && !(draw_flags & CHARBYCHAR) && screen->fnt_prop) { int adj, width; while (len--) { int cells = WideCells(*text); #if OPT_BOX_CHARS #if OPT_WIDE_CHARS if (*text == HIDDEN_CHAR) { ++text; continue; } else #endif if (IsXtermMissingChar(screen, *text, curFont)) { adj = 0; } else #endif { if_WIDE_OR_NARROW(screen, { XChar2b temp[1]; temp[0].byte2 = LO_BYTE(*text); temp[0].byte1 = HI_BYTE(*text); width = XTextWidth16(curFont->fs, temp, 1); } , { char temp[1]; temp[0] = (char) LO_BYTE(*text); width = XTextWidth(curFont->fs, temp, 1); }); adj = (FontWidth(screen) - width) / 2; if (adj < 0) adj = 0; } xtermFillCells(xw, draw_flags, gc, x, y, (Cardinal) cells); x = drawXtermText(xw, attr_flags, draw_flags | NOBACKGROUND | CHARBYCHAR, gc, x + adj, y, chrset, text++, 1, on_wide) - adj; } return x; } #if OPT_BOX_CHARS /* * Draw some substitutions, if needed. The font may not include the * line-drawing set, or it may be incomplete (in which case we'll draw an * empty space via xtermDrawBoxChar), or we may be told to force our * line-drawing. * * The empty space is a special case which can be overridden with the * showMissingGlyphs resource to produce an outline. Not all fonts in * "modern" (sic) X provide an empty space; some use a thick outline or * something like the replacement character. If you would rather not see * that, you can set assumeAllChars. */ if (!IsIcon(screen) && !(draw_flags & NOTRANSLATION) && (!screen->fnt_boxes || (FontIsIncomplete(curFont) && !screen->assume_all_chars) || screen->force_box_chars)) { /* Fill in missing box-characters. Find regions without missing characters, and draw them calling ourselves recursively. Draw missing characters via xtermDrawBoxChar(). */ int last, first = 0; Bool drewBoxes = False; for (last = 0; last < (int) len; last++) { unsigned ch = (unsigned) text[last]; Bool isMissing; int ch_width; #if OPT_WIDE_CHARS if (ch == HIDDEN_CHAR) { if (last > first) { x = drawXtermText(xw, attr_flags, draw_flags | NOTRANSLATION, gc, x, y, chrset, text + first, (unsigned) (last - first), on_wide); } first = last + 1; drewBoxes = True; continue; } ch_width = my_wcwidth((wchar_t) ch); isMissing = IsXtermMissingChar(screen, ch, ((on_wide || ch_width > 1) && okFont(NormalWFont(screen))) ? WhichVFontData(screen, fnts[fWide]) : curFont); #else isMissing = IsXtermMissingChar(screen, ch, curFont); ch_width = 1; #endif /* * If the character is not missing, but we're in wide-character * mode and the character happens to be a wide-character that * corresponds to the line-drawing set, allow the forceBoxChars * resource (or menu entry) to force it to display using our * tables. */ if_OPT_WIDE_CHARS(screen, { if (!isMissing && TScreenOf(xw)->force_box_chars) { if (ch > 255 && ucs2dec(ch) < 32) { ch = ucs2dec(ch); isMissing = True; } else if (ch < 32) { isMissing = True; } } }); if (isMissing) { if (last > first) { x = drawXtermText(xw, attr_flags, draw_flags | NOTRANSLATION, gc, x, y, chrset, text + first, (unsigned) (last - first), on_wide); } #if OPT_WIDE_CHARS /* * One way or another, we will draw at least one cell. */ if (ch_width <= 0) ch_width = 1; if (!ucs_workaround(xw, ch, attr_flags, draw_flags, gc, x, y, chrset, on_wide)) { xtermDrawBoxChar(xw, ch, attr_flags, draw_flags, gc, x, y, ch_width); } #else xtermDrawBoxChar(xw, ch, attr_flags, draw_flags, gc, x, y, ch_width); #endif x += (ch_width * FontWidth(screen)); first = last + 1; drewBoxes = True; } } if (last <= first) { return x; } text += first; len = (Cardinal) (last - first); draw_flags |= NOTRANSLATION; if (drewBoxes) { return drawXtermText(xw, attr_flags, draw_flags, gc, x, y, chrset, text, len, on_wide); } } #endif /* OPT_BOX_CHARS */ /* * Behave as if the font has (maybe Unicode-replacements for) drawing * characters in the range 1-31 (either we were not asked to ignore them, * or the caller made sure that there is none). */ #if OPT_WIDE_ATTRS #define AttrFlags() attr_flags #define DrawFlags() draw_flags #else #define AttrFlags() (attr_flags & DRAWX_MASK) #define DrawFlags() (draw_flags & ~DRAWX_MASK) #endif TRACE(("drawtext%c[%4d,%4d] {%#x,%#x} (%d) %d:%s\n", screen->cursor_state == OFF ? ' ' : '*', y, x, AttrFlags(), DrawFlags(), chrset, len, visibleIChars(text, len))); if (screen->scale_height != 1.0) { xtermFillCells(xw, draw_flags, gc, x, y, (Cardinal) len); } y += FontAscent(screen); #if OPT_WIDE_CHARS if (screen->wide_chars || screen->unicode_font) { XChar2b *buffer; Bool needWide = False; int src, dst; Bool useBoldFont; BumpTypedBuffer(XChar2b, len); buffer = BfBuf(XChar2b); for (src = dst = 0; src < (int) len; src++) { IChar ch = text[src]; if (ch == HIDDEN_CHAR) continue; if (!needWide && !IsIcon(screen) && ((on_wide || my_wcwidth((wchar_t) ch) > 1) && okFont(NormalWFont(screen)))) { needWide = True; } /* * bitmap-fonts are limited to 16-bits. */ #if OPT_WIDER_ICHAR if (ch > 0xffff) { ch = UCS_REPL; } #endif buffer[dst].byte2 = LO_BYTE(ch); buffer[dst].byte1 = HI_BYTE(ch); #if OPT_MINI_LUIT #define UCS2SBUF(value) buffer[dst].byte2 = LO_BYTE(value);\ buffer[dst].byte1 = HI_BYTE(value) #define Map2Sbuf(from,to) (text[src] == from) { UCS2SBUF(to); } if (screen->latin9_mode && !screen->utf8_mode && text[src] < 256) { /* see http://www.cs.tut.fi/~jkorpela/latin9.html */ /* *INDENT-OFF* */ if Map2Sbuf(0xa4, 0x20ac) else if Map2Sbuf(0xa6, 0x0160) else if Map2Sbuf(0xa8, 0x0161) else if Map2Sbuf(0xb4, 0x017d) else if Map2Sbuf(0xb8, 0x017e) else if Map2Sbuf(0xbc, 0x0152) else if Map2Sbuf(0xbd, 0x0153) else if Map2Sbuf(0xbe, 0x0178) /* *INDENT-ON* */ } if (screen->unicode_font && (text[src] == ANSI_DEL || text[src] < ANSI_SPA)) { unsigned ni = dec2ucs((unsigned) ((text[src] == ANSI_DEL) ? 0 : text[src])); UCS2SBUF(ni); } #endif /* OPT_MINI_LUIT */ ++dst; } /* * Check for special case where the bold font lacks glyphs found in the * normal font, and drop down to normal fonts with overstriking to help * show the actual characters. */ useBoldFont = ((attr_flags & BOLDATTR(screen)) != 0); if (useBoldFont) { XTermFonts *norm = 0; XTermFonts *bold = 0; Bool noBold, noNorm; if (needWide && okFont(BoldWFont(screen))) { norm = WhichVFontData(screen, fnts[fWide]); bold = WhichVFontData(screen, fnts[fWBold]); } else if (okFont(BoldFont(screen))) { norm = WhichVFontData(screen, fnts[fNorm]); bold = WhichVFontData(screen, fnts[fBold]); } else { useBoldFont = False; } if (useBoldFont && FontIsIncomplete(bold)) { for (src = 0; src < (int) len; src++) { IChar ch = text[src]; if (ch == HIDDEN_CHAR) continue; noBold = IsXtermMissingChar(screen, ch, bold); if (noBold) { noNorm = IsXtermMissingChar(screen, ch, norm); if (!noNorm) { useBoldFont = False; break; } } } } } /* FIXME This is probably wrong. But it works. */ underline_len = len; /* Set the drawing font */ if (!(draw_flags & (DOUBLEHFONT | DOUBLEWFONT))) { VTwin *currentWin = WhichVWin(screen); VTFontEnum fntId; CgsEnum cgsId; Pixel fg = getCgsFore(xw, currentWin, gc); Pixel bg = getCgsBack(xw, currentWin, gc); if (needWide && useBoldFont && okFont(BoldWFont(screen))) { fntId = fWBold; cgsId = gcWBold; } else if (needWide) { fntId = fWide; cgsId = gcWide; } else if (useBoldFont) { fntId = fBold; cgsId = gcBold; } else { fntId = fNorm; cgsId = gcNorm; } setCgsFore(xw, currentWin, cgsId, fg); setCgsBack(xw, currentWin, cgsId, bg); gc = getCgsGC(xw, currentWin, cgsId); #if OPT_WIDE_ATTRS #if OPT_DEC_CHRSET if (!(CSET_DOUBLE(chrset) || (draw_flags & DOUBLEWFONT))) #endif need_clipping = fixupItalics(xw, draw_flags, gc, getCgsFont(xw, currentWin, gc), y, x, font_width, len); #endif if (fntId != fNorm) { XFontStruct *thisFp = WhichVFont(screen, fnts[fntId].fs); ascent_adjust = (thisFp->ascent - NormalFont(screen)->ascent); if (thisFp->max_bounds.width == NormalFont(screen)->max_bounds.width * 2) { underline_len = real_length = (Cardinal) (dst * 2); } else if (cgsId == gcWide || cgsId == gcWBold) { underline_len = real_length = (Cardinal) (dst * 2); xtermFillCells(xw, draw_flags, gc, x, y - thisFp->ascent, real_length); } } } if (draw_flags & NOBACKGROUND) { XDrawString16(screen->display, VDrawable(screen), gc, x, y + ascent_adjust, buffer, dst); } else { XDrawImageString16(screen->display, VDrawable(screen), gc, x, y + ascent_adjust, buffer, dst); } #if OPT_WIDE_ATTRS if (need_clipping) { endClipping(screen, gc); } #endif if ((attr_flags & BOLDATTR(screen)) && (screen->enbolden || !useBoldFont)) { beginClipping(screen, gc, (Cardinal) font_width, len); XDrawString16(screen->display, VDrawable(screen), gc, x + 1, y + ascent_adjust, buffer, dst); endClipping(screen, gc); } } else #endif /* OPT_WIDE_CHARS */ { int length = (int) len; /* X should have used unsigned */ #if OPT_WIDE_CHARS char *buffer; int dst; BumpTypedBuffer(char, len); buffer = BfBuf(char); for (dst = 0; dst < length; ++dst) buffer[dst] = (char) LO_BYTE(text[dst]); #else char *buffer = (char *) text; #endif #if OPT_WIDE_ATTRS #if OPT_DEC_CHRSET if (!(CSET_DOUBLE(chrset) || (draw_flags & DOUBLEWFONT))) #endif need_clipping = fixupItalics(xw, draw_flags, gc, curFont, y, x, font_width, len); #endif if (draw_flags & NOBACKGROUND) { XDrawString(screen->display, VDrawable(screen), gc, x, y, buffer, length); } else { XDrawImageString(screen->display, VDrawable(screen), gc, x, y, buffer, length); } #if OPT_WIDE_ATTRS if (need_clipping) { endClipping(screen, gc); } #endif underline_len = (Cardinal) length; if ((attr_flags & BOLDATTR(screen)) && screen->enbolden) { beginClipping(screen, gc, font_width, length); XDrawString(screen->display, VDrawable(screen), gc, x + 1, y, buffer, length); endClipping(screen, gc); } } (void) drawUnderline(xw, gc, attr_flags, underline_len, font_width, x, y, did_ul); x += ((int) real_length) * FontWidth(screen); return x; } #if OPT_WIDE_CHARS /* * Allocate buffer - workaround for wide-character interfaces. */ void allocXtermChars(ScrnPtr *buffer, Cardinal length) { if (*buffer == 0) { *buffer = (ScrnPtr) XtMalloc(length); } else { *buffer = (ScrnPtr) XtRealloc((char *) *buffer, length); } } #endif /* set up size hints for window manager; min 1 char by 1 char */ void xtermSizeHints(XtermWidget xw, int scrollbarWidth) { TScreen *screen = TScreenOf(xw); TRACE(("xtermSizeHints\n")); TRACE((" border %d\n", xw->core.border_width)); TRACE((" scrollbar %d\n", scrollbarWidth)); xw->hints.base_width = 2 * screen->border + scrollbarWidth; xw->hints.base_height = 2 * screen->border; #if OPT_TOOLBAR TRACE((" toolbar %d\n", ToolbarHeight(xw))); xw->hints.base_height += ToolbarHeight(xw); xw->hints.base_height += BorderWidth(xw) * 2; xw->hints.base_width += BorderWidth(xw) * 2; #endif xw->hints.width_inc = FontWidth(screen); xw->hints.height_inc = FontHeight(screen); xw->hints.min_width = xw->hints.base_width + xw->hints.width_inc; xw->hints.min_height = xw->hints.base_height + xw->hints.height_inc; xw->hints.width = MaxCols(screen) * FontWidth(screen) + xw->hints.min_width; xw->hints.height = MaxRows(screen) * FontHeight(screen) + xw->hints.min_height; xw->hints.flags |= (PSize | PBaseSize | PMinSize | PResizeInc); TRACE_HINTS(&(xw->hints)); } void getXtermSizeHints(XtermWidget xw) { TScreen *screen = TScreenOf(xw); long supp; if (!XGetWMNormalHints(screen->display, VShellWindow(xw), &xw->hints, &supp)) memset(&xw->hints, 0, sizeof(xw->hints)); TRACE_HINTS(&(xw->hints)); } CgsEnum whichXtermCgs(XtermWidget xw, unsigned attr_flags, Bool hilite) { TScreen *screen = TScreenOf(xw); CgsEnum cgsId = gcMAX; if (ReverseOrHilite(screen, attr_flags, hilite)) { if (attr_flags & BOLDATTR(screen)) { cgsId = gcBoldReverse; } else { cgsId = gcNormReverse; } } else { if (attr_flags & BOLDATTR(screen)) { cgsId = gcBold; } else { cgsId = gcNorm; } } return cgsId; } /* * Returns a GC, selected according to the font (reverse/bold/normal) that is * required for the current position (implied). The GC is updated with the * current screen foreground and background colors. */ GC updatedXtermGC(XtermWidget xw, unsigned attr_flags, unsigned fg_bg, Bool hilite) { TScreen *screen = TScreenOf(xw); VTwin *win = WhichVWin(screen); CgsEnum cgsId = whichXtermCgs(xw, attr_flags, hilite); unsigned my_fg = extract_fg(xw, fg_bg, attr_flags); unsigned my_bg = extract_bg(xw, fg_bg, attr_flags); Pixel fg_pix = getXtermForeground(xw, attr_flags, (int) my_fg); Pixel bg_pix = getXtermBackground(xw, attr_flags, (int) my_bg); Pixel xx_pix; #if OPT_HIGHLIGHT_COLOR Pixel selbg_pix = T_COLOR(screen, HIGHLIGHT_BG); Pixel selfg_pix = T_COLOR(screen, HIGHLIGHT_FG); Boolean always = screen->hilite_color; Boolean use_selbg = (Boolean) (always || isNotForeground(xw, fg_pix, bg_pix, selbg_pix)); Boolean use_selfg = (Boolean) (always && isNotBackground(xw, fg_pix, bg_pix, selfg_pix)); #endif (void) fg_bg; (void) my_bg; (void) my_fg; /* * Discard video attributes overridden by colorXXXMode's. */ checkVeryBoldColors(attr_flags, my_fg); if (ReverseOrHilite(screen, attr_flags, hilite)) { #if OPT_HIGHLIGHT_COLOR if (!screen->hilite_color) { if (selbg_pix != T_COLOR(screen, TEXT_FG) && selbg_pix != fg_pix && selbg_pix != bg_pix && selbg_pix != xw->dft_foreground) { bg_pix = fg_pix; fg_pix = selbg_pix; } } #endif EXCHANGE(fg_pix, bg_pix, xx_pix); #if OPT_HIGHLIGHT_COLOR if (screen->hilite_color) { if (screen->hilite_reverse) { if (use_selbg) { if (use_selfg) bg_pix = fg_pix; else fg_pix = bg_pix; } if (use_selbg) bg_pix = selbg_pix; if (use_selfg) fg_pix = selfg_pix; } } #endif } #if OPT_HIGHLIGHT_COLOR if (!screen->hilite_color || !screen->hilite_reverse) { if (hilite && !screen->hilite_reverse) { if (use_selbg) bg_pix = selbg_pix; if (use_selfg) fg_pix = selfg_pix; } } #endif #if OPT_BLINK_TEXT if ((screen->blink_state == ON) && (!screen->blink_as_bold) && (attr_flags & BLINK)) { fg_pix = bg_pix; } #endif setCgsFore(xw, win, cgsId, fg_pix); setCgsBack(xw, win, cgsId, bg_pix); return getCgsGC(xw, win, cgsId); } /* * Resets the foreground/background of the GC returned by 'updatedXtermGC()' * to the values that would be set in SGR_Foreground and SGR_Background. This * duplicates some logic, but only modifies 1/4 as many GC's. */ void resetXtermGC(XtermWidget xw, unsigned attr_flags, Bool hilite) { TScreen *screen = TScreenOf(xw); VTwin *win = WhichVWin(screen); CgsEnum cgsId = whichXtermCgs(xw, attr_flags, hilite); Pixel fg_pix = getXtermForeground(xw, attr_flags, xw->cur_foreground); Pixel bg_pix = getXtermBackground(xw, attr_flags, xw->cur_background); checkVeryBoldColors(attr_flags, xw->cur_foreground); if (ReverseOrHilite(screen, attr_flags, hilite)) { setCgsFore(xw, win, cgsId, bg_pix); setCgsBack(xw, win, cgsId, fg_pix); } else { setCgsFore(xw, win, cgsId, fg_pix); setCgsBack(xw, win, cgsId, bg_pix); } } #if OPT_ISO_COLORS /* * Extract the foreground-color index from a color pair. * If we've got BOLD or UNDERLINE color-mode active, those will be used. */ unsigned extract_fg(XtermWidget xw, unsigned color, unsigned attr_flags) { unsigned fg = ExtractForeground(color); if (TScreenOf(xw)->colorAttrMode || (fg == ExtractBackground(color))) { fg = MapToColorMode(fg, TScreenOf(xw), attr_flags); } return fg; } /* * Extract the background-color index from a color pair. * If we've got INVERSE color-mode active, that will be used. */ unsigned extract_bg(XtermWidget xw, unsigned color, unsigned attr_flags) { unsigned bg = ExtractBackground(color); if (TScreenOf(xw)->colorAttrMode || (bg == ExtractForeground(color))) { if (TScreenOf(xw)->colorRVMode && (attr_flags & INVERSE)) bg = COLOR_RV; } return bg; } /* * Combine the current foreground and background into a single 8-bit number. * Note that we're storing the SGR foreground, since cur_foreground may be set * to COLOR_UL, COLOR_BD or COLOR_BL, which would make the code larger than 8 * bits. * * This assumes that fg/bg are equal when we override with one of the special * attribute colors. */ CellColor makeColorPair(int fg, int bg) { unsigned my_bg = (bg >= 0) && (bg < NUM_ANSI_COLORS) ? (unsigned) bg : 0; unsigned my_fg = (fg >= 0) && (fg < NUM_ANSI_COLORS) ? (unsigned) fg : my_bg; return (CellColor) (my_fg | (my_bg << COLOR_BITS)); } /* * Using the "current" SGR background, clear a rectangle. */ void ClearCurBackground(XtermWidget xw, int top, int left, unsigned height, unsigned width, unsigned fw) { TScreen *screen = TScreenOf(xw); TRACE(("ClearCurBackground %d,%d %dx%d with %d\n", top, left, height, width, xw->cur_background)); assert((int) width > 0); assert((left + (int) width) <= screen->max_col + 1); assert((int) height <= screen->max_row + 1); if (VWindow(screen)) { set_background(xw, xw->cur_background); #if OPT_DOUBLE_BUFFER XFillRectangle(screen->display, VDrawable(screen), ReverseGC(xw, screen), CursorX2(screen, left, fw), CursorY(screen, top), (width * fw), (height * (unsigned) FontHeight(screen))); #else XClearArea(screen->display, VWindow(screen), CursorX2(screen, left, fw), CursorY2(screen, top), (width * fw), (height * (unsigned) FontHeight(screen)), False); #endif set_background(xw, -1); } } #endif /* OPT_ISO_COLORS */ Pixel getXtermBackground(XtermWidget xw, unsigned attr_flags, int color) { Pixel result = T_COLOR(TScreenOf(xw), TEXT_BG); #if OPT_ISO_COLORS if ((attr_flags & BG_COLOR) && (color >= 0 && color < MAXCOLORS)) { result = GET_COLOR_RES(xw, TScreenOf(xw)->Acolors[color]); } #endif return result; } Pixel getXtermForeground(XtermWidget xw, unsigned attr_flags, int color) { Pixel result = T_COLOR(TScreenOf(xw), TEXT_FG); #if OPT_ISO_COLORS if ((attr_flags & FG_COLOR) && (color >= 0 && color < MAXCOLORS)) { result = GET_COLOR_RES(xw, TScreenOf(xw)->Acolors[color]); } #endif #if OPT_WIDE_ATTRS #define DIM_IT(n) work.n = (unsigned short) ((2 * work.n) / 3) if ((attr_flags & ATR_FAINT)) { static Pixel last_in; static Pixel last_out; if (result != last_in) { XColor work; work.pixel = result; last_in = result; if (XQueryColor(TScreenOf(xw)->display, xw->core.colormap, &work)) { DIM_IT(red); DIM_IT(green); DIM_IT(blue); if (allocateBestRGB(xw, &work)) { result = work.pixel; } } last_out = result; } else { result = last_out; } } #endif return result; } /* * Returns a single base character for the given cell. */ unsigned getXtermCell(TScreen *screen, int row, int col) { CLineData *ld = getLineData(screen, row); return ((ld && (col < (int) ld->lineSize)) ? ld->charData[col] : (unsigned) ' '); } /* * Sets a single base character for the given cell. */ void putXtermCell(TScreen *screen, int row, int col, int ch) { LineData *ld = getLineData(screen, row); if (ld && (col < (int) ld->lineSize)) { ld->charData[col] = (CharData) ch; if_OPT_WIDE_CHARS(screen, { size_t off; for_each_combData(off, ld) { ld->combData[off][col] = 0; } }); } } #if OPT_WIDE_CHARS /* * Add a combining character for the given cell */ void addXtermCombining(TScreen *screen, int row, int col, unsigned ch) { if (ch != 0) { LineData *ld = getLineData(screen, row); size_t off; TRACE(("addXtermCombining %d,%d %#x (%d)\n", row, col, ch, my_wcwidth((wchar_t) ch))); for_each_combData(off, ld) { if (!ld->combData[off][col]) { ld->combData[off][col] = (CharData) ch; break; } } } } unsigned getXtermCombining(TScreen *screen, int row, int col, int off) { CLineData *ld = getLineData(screen, row); return ld->combData[off][col]; } #endif void update_keyboard_type(void) { update_delete_del(); update_tcap_fkeys(); update_old_fkeys(); update_hp_fkeys(); update_sco_fkeys(); update_sun_fkeys(); update_sun_kbd(); } void set_keyboard_type(XtermWidget xw, xtermKeyboardType type, Bool set) { xtermKeyboardType save = xw->keyboard.type; TRACE(("set_keyboard_type(%s, %s) currently %s\n", visibleKeyboardType(type), BtoS(set), visibleKeyboardType(xw->keyboard.type))); if (set) { xw->keyboard.type = type; } else { xw->keyboard.type = keyboardIsDefault; } if (save != xw->keyboard.type) { update_keyboard_type(); } } void toggle_keyboard_type(XtermWidget xw, xtermKeyboardType type) { xtermKeyboardType save = xw->keyboard.type; TRACE(("toggle_keyboard_type(%s) currently %s\n", visibleKeyboardType(type), visibleKeyboardType(xw->keyboard.type))); if (xw->keyboard.type == type) { xw->keyboard.type = keyboardIsDefault; } else { xw->keyboard.type = type; } if (save != xw->keyboard.type) { update_keyboard_type(); } } void init_keyboard_type(XtermWidget xw, xtermKeyboardType type, Bool set) { static Bool wasSet = False; TRACE(("init_keyboard_type(%s, %s) currently %s\n", visibleKeyboardType(type), BtoS(set), visibleKeyboardType(xw->keyboard.type))); if (set) { if (wasSet) { xtermWarning("Conflicting keyboard type option (%u/%u)\n", xw->keyboard.type, type); } xw->keyboard.type = type; wasSet = True; update_keyboard_type(); } } /* * If the keyboardType resource is set, use that, overriding the individual * boolean resources for different keyboard types. */ void decode_keyboard_type(XtermWidget xw, XTERM_RESOURCE * rp) { #define DATA(n, t, f) { n, t, XtOffsetOf(XTERM_RESOURCE, f) } #define FLAG(n) *(Boolean *)(((char *)rp) + table[n].offset) static struct { const char *name; xtermKeyboardType type; unsigned offset; } table[] = { #if OPT_HP_FUNC_KEYS DATA(NAME_HP_KT, keyboardIsHP, hpFunctionKeys), #endif #if OPT_SCO_FUNC_KEYS DATA(NAME_SCO_KT, keyboardIsSCO, scoFunctionKeys), #endif #if OPT_SUN_FUNC_KEYS DATA(NAME_SUN_KT, keyboardIsSun, sunFunctionKeys), #endif #if OPT_SUNPC_KBD DATA(NAME_VT220_KT, keyboardIsVT220, sunKeyboard), #endif #if OPT_TCAP_FKEYS DATA(NAME_TCAP_KT, keyboardIsTermcap, termcapKeys), #endif }; Cardinal n; TRACE(("decode_keyboard_type(%s)\n", rp->keyboardType)); if (!x_strcasecmp(rp->keyboardType, "unknown")) { /* * Let the individual resources comprise the keyboard-type. */ for (n = 0; n < XtNumber(table); ++n) init_keyboard_type(xw, table[n].type, FLAG(n)); } else if (!x_strcasecmp(rp->keyboardType, "default")) { /* * Set the keyboard-type to the Sun/PC type, allowing modified * function keys, etc. */ for (n = 0; n < XtNumber(table); ++n) init_keyboard_type(xw, table[n].type, False); } else { Bool found = False; /* * Choose an individual keyboard type. */ for (n = 0; n < XtNumber(table); ++n) { if (!x_strcasecmp(rp->keyboardType, table[n].name + 1)) { FLAG(n) = True; found = True; } else { FLAG(n) = False; } init_keyboard_type(xw, table[n].type, FLAG(n)); } if (!found) { xtermWarning("KeyboardType resource \"%s\" not found\n", rp->keyboardType); } } #undef DATA #undef FLAG } #if OPT_WIDE_CHARS #if defined(HAVE_WCHAR_H) && defined(HAVE_WCWIDTH) /* * If xterm is running in a UTF-8 locale, it is still possible to encounter * old runtime configurations which yield incomplete or inaccurate data. */ static Bool systemWcwidthOk(int samplesize, int samplepass) { wchar_t n; int oops = 0; for (n = 21; n <= 25; ++n) { wchar_t code = (wchar_t) dec2ucs((unsigned) n); int system_code = wcwidth(code); int intern_code = mk_wcwidth(code); /* * Solaris 10 wcwidth() returns "2" for all of the line-drawing (page * 0x2500) and most of the geometric shapes (a few are excluded, just * to make it more difficult to use). Do a sanity check to avoid using * it. */ if ((system_code < 0 && intern_code >= 1) || (system_code >= 0 && intern_code != system_code)) { TRACE(("systemWcwidthOk: broken system line-drawing wcwidth\n")); oops += (samplepass + 1); break; } } for (n = 0; n < (wchar_t) samplesize; ++n) { int system_code = wcwidth(n); int intern_code = mk_wcwidth(n); /* * Since mk_wcwidth() is designed to check for nonspacing characters, * and has rough range-checks for double-width characters, it will * generally not detect cases where a code has not been assigned. * * Some experimentation with GNU libc suggests that up to 1/4 of the * codes would differ, simply because the runtime library would have a * table listing the unassigned codes, and return -1 for those. If * mk_wcwidth() has no information about a code, it returns 1. On the * other hand, if the runtime returns a positive number, the two should * agree. * * The "up to" is measured for 4k, 8k, 16k of data. With only 1k, the * number of differences was only 77. However, that is only one * system, and this is only a sanity check to avoid using broken * libraries. */ if ((system_code < 0 && intern_code >= 1) || (system_code >= 0 && intern_code != system_code)) { ++oops; } } TRACE(("systemWcwidthOk: %d/%d mismatches, allowed %d\n", oops, samplesize, samplepass)); return (oops <= samplepass); } #endif /* HAVE_WCWIDTH */ void decode_wcwidth(XtermWidget xw) { int mode = ((xw->misc.cjk_width ? 2 : 0) + (xw->misc.mk_width ? 1 : 0) + 1); switch (mode) { default: #if defined(HAVE_WCHAR_H) && defined(HAVE_WCWIDTH) if (xtermEnvUTF8() && systemWcwidthOk(xw->misc.mk_samplesize, xw->misc.mk_samplepass)) { my_wcwidth = wcwidth; TRACE(("using system wcwidth() function\n")); break; } /* FALLTHRU */ #endif case 2: my_wcwidth = &mk_wcwidth; TRACE(("using MK wcwidth() function\n")); break; case 3: case 4: my_wcwidth = &mk_wcwidth_cjk; TRACE(("using MK-CJK wcwidth() function\n")); break; } for (first_widechar = 128; first_widechar < 4500; ++first_widechar) { if (my_wcwidth((int) first_widechar) > 1) { TRACE(("first_widechar %#x\n", first_widechar)); break; } } } #endif /* * Extend a (normally) boolean resource value by checking for additional values * which will be mapped into true/false. */ int extendedBoolean(const char *value, const FlagList * table, Cardinal limit) { int result = -1; long check; char *next; Cardinal n; if ((x_strcasecmp(value, "true") == 0) || (x_strcasecmp(value, "yes") == 0) || (x_strcasecmp(value, "on") == 0)) { result = True; } else if ((x_strcasecmp(value, "false") == 0) || (x_strcasecmp(value, "no") == 0) || (x_strcasecmp(value, "off") == 0)) { result = False; } else if ((check = strtol(value, &next, 0)) >= 0 && *next == '\0') { if (check >= (long) limit) check = True; result = (int) check; } else { for (n = 0; n < limit; ++n) { if (x_strcasecmp(value, table[n].name) == 0) { result = table[n].code; break; } } } if (result < 0) { xtermWarning("Unrecognized keyword: %s\n", value); result = False; } TRACE(("extendedBoolean(%s) = %d\n", value, result)); return result; } /* * Something like round() from math library, but round() is less widely-used * than xterm. Also, there are no negative numbers to complicate this. */ int dimRound(double value) { int result = (int) value; if (result < value) ++result; return result; } /* * Find the geometry of the specified Xinerama screen */ static void find_xinerama_screen(Display *display, int screen, struct Xinerama_geometry *ret) { #ifdef HAVE_X11_EXTENSIONS_XINERAMA_H XineramaScreenInfo *screens; int nb_screens; if (screen == -1) /* already inited */ return; screens = XineramaQueryScreens(display, &nb_screens); if (screen >= nb_screens) { xtermWarning("Xinerama screen %d does not exist\n", screen); return; } if (screen == -2) { int ptr_x, ptr_y; int dummy_int, i; unsigned dummy_uint; Window dummy_win; if (nb_screens == 0) return; XQueryPointer(display, DefaultRootWindow(display), &dummy_win, &dummy_win, &ptr_x, &ptr_y, &dummy_int, &dummy_int, &dummy_uint); for (i = 0; i < nb_screens; i++) { if ((ptr_x - screens[i].x_org) < screens[i].width && (ptr_y - screens[i].y_org) < screens[i].height) { screen = i; break; } } if (screen < 0) { xtermWarning("Mouse not in any Xinerama screen, using 0\n"); screen = 0; } } ret->scr_x = screens[screen].x_org; ret->scr_y = screens[screen].y_org; ret->scr_w = screens[screen].width; ret->scr_h = screens[screen].height; #else /* HAVE_X11_EXTENSIONS_XINERAMA_H */ (void) display; (void) ret; if (screen > 0) xtermWarning("Xinerama support not enabled\n"); #endif /* HAVE_X11_EXTENSIONS_XINERAMA_H */ } /* * Parse the screen code after the @ in a geometry string. */ static void parse_xinerama_screen(Display *display, const char *str, struct Xinerama_geometry *ret) { int screen = -1; char *end; if (*str == 'g') { screen = -1; str++; } else if (*str == 'c') { screen = -2; str++; } else { long s = strtol(str, &end, 0); if (end > str && (int) s >= 0) { screen = (int) s; str = end; } } if (*str) { xtermWarning("invalid Xinerama specification '%s'\n", str); return; } if (screen == -1) /* already done */ return; find_xinerama_screen(display, screen, ret); } /* * Parse a geometry string with extra Xinerama specification: * x++@. */ int XParseXineramaGeometry(Display *display, char *parsestring, struct Xinerama_geometry *ret) { char *at, buf[128]; ret->scr_x = 0; ret->scr_y = 0; ret->scr_w = DisplayWidth(display, DefaultScreen(display)); ret->scr_h = DisplayHeight(display, DefaultScreen(display)); at = strchr(parsestring, '@'); if (at != NULL && (size_t) (at - parsestring) < sizeof(buf) - 1) { memcpy(buf, parsestring, (size_t) (at - parsestring)); buf[at - parsestring] = 0; parsestring = buf; parse_xinerama_screen(display, at + 1, ret); } return XParseGeometry(parsestring, &ret->x, &ret->y, &ret->w, &ret->h); }