/* * $Xorg: xlsfonts.c,v 1.4 2001/02/09 02:05:54 xorgcvs Exp $ * * Copyright 1989, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. 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 OPEN GROUP 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 of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * */ /* $XFree86: xc/programs/xlsfonts/xlsfonts.c,v 1.9 2003/09/08 14:25:33 eich Exp $ */ #include #include #include #include #include #include #include "dsimple.h" #define N_START INT_MAX /* Maximum # of fonts to start with (should * always be be > 10000 as modern OSes like * Solaris 8 already have more than 9000 XLFD * fonts available) */ #define L_SHORT 0 #define L_MEDIUM 1 #define L_LONG 2 #define L_VERYLONG 3 static int max_output_line_width = 79; static int output_line_padding = 3; static int columns = 0; static Bool sort_output = True; static Bool open_instead_of_list = False; static int long_list = L_SHORT; static int nnames = N_START; static int font_cnt = 0; static int min_max; typedef struct { char *name; XFontStruct *info; } FontList; static FontList *font_list = NULL; /* Local prototypes */ static void get_list(const char *pattern); static int compare(const void *arg1, const void *arg2); static void show_fonts(void); static void copy_number(char **pp1, char**pp2, int n1, int n2); static int IgnoreError(Display *disp, XErrorEvent *event); static void PrintProperty(XFontProp *prop); static void ComputeFontType(XFontStruct *fs); static void print_character_metrics(register XFontStruct *info); static void do_query_font (Display *dpy, char *name); void usage(const char *errmsg) { if (errmsg != NULL) fprintf (stderr, "%s: %s\n\n", program_name, errmsg); fprintf (stderr, "usage: %s [-options] [-fn pattern]\n%s", program_name, "where options include:\n" " -l[l[l]] give long info about each font\n" " -m give character min and max bounds\n" " -C force columns\n" " -1 force single column\n" " -u keep output unsorted\n" " -o use OpenFont/QueryFont instead of ListFonts\n" " -w width maximum width for multiple columns\n" " -n columns number of columns if multi column\n" " -display displayname X server to contact\n" " -d displayname (alias for -display displayname)\n" "\n"); Close_Display(); exit(EXIT_FAILURE); } int main(int argc, char **argv) { int argcnt = 0, i; INIT_NAME; /* Handle command line arguments, open display */ Setup_Display_And_Screen(&argc, argv); for (argv++, argc--; argc; argv++, argc--) { if (argv[0][0] == '-') { if (argcnt > 0) usage ("options may not be specified after font names"); for (i=1; argv[0][i]; i++) switch(argv[0][i]) { case 'l': long_list++; break; case 'm': min_max++; break; case 'C': columns = 0; break; case '1': columns = 1; break; case 'f': /* "-fn" */ if (argv[0][i+1] != 'n') { fprintf (stderr, "%s: unrecognized argument %s\n\n", program_name, argv[0]); usage(NULL); } if (--argc <= 0) usage ("-fn requires an argument"); argcnt++; argv++; get_list(argv[0]); goto next; case 'w': if (--argc <= 0) usage ("-w requires an argument"); argv++; max_output_line_width = atoi(argv[0]); goto next; case 'n': if (--argc <= 0) usage ("-n requires an argument"); argv++; columns = atoi(argv[0]); goto next; case 'o': open_instead_of_list = True; break; case 'u': sort_output = False; break; default: fprintf (stderr, "%s: unrecognized argument -%c\n\n", program_name, argv[0][i]); usage(NULL); break; } if (i == 1) { fprintf (stderr, "%s: unrecognized argument %s\n\n", program_name, argv[0]); usage(NULL); } } else { argcnt++; get_list(argv[0]); } next: ; } if (argcnt == 0) get_list("*"); show_fonts(); Close_Display(); return EXIT_SUCCESS; } static void get_list(const char *pattern) { int available = nnames+1, i; char **fonts; XFontStruct *info; /* Get list of fonts matching pattern */ for (;;) { if (open_instead_of_list) { info = XLoadQueryFont (dpy, pattern); if (info) { fonts = &pattern; available = 1; XUnloadFont (dpy, info->fid); } else { fonts = NULL; } break; } if (long_list == L_MEDIUM) fonts = XListFontsWithInfo(dpy, pattern, nnames, &available, &info); else fonts = XListFonts(dpy, pattern, nnames, &available); if (fonts == NULL || available < nnames) break; if (long_list == L_MEDIUM) XFreeFontInfo(fonts, info, available); else XFreeFontNames(fonts); nnames = available * 2; } if (fonts == NULL) { fprintf(stderr, "%s: pattern \"%s\" unmatched\n", program_name, pattern); return; } font_list = realloc(font_list, (font_cnt + available) * sizeof(FontList)); if (font_list == NULL) Fatal_Error("Out of memory!"); for (i=0; iname; const char *p2 = f2->name; while (*p1 && *p2 && *p1 == *p2) p1++, p2++; return(*p1 - *p2); } static void show_fonts(void) { int i; if (font_cnt == 0) return; /* first sort the output */ if (sort_output) qsort(font_list, font_cnt, sizeof(FontList), compare); if (long_list > L_MEDIUM) { for (i = 0; i < font_cnt; i++) { do_query_font (dpy, font_list[i].name); } return; } if (long_list == L_MEDIUM) { XFontStruct *pfi; const char *string; printf("DIR "); printf("MIN "); printf("MAX "); printf("EXIST "); printf("DFLT "); printf("PROP "); printf("ASC "); printf("DESC "); printf("NAME"); printf("\n"); for (i=0; idirection) { case FontLeftToRight: string = "-->"; break; case FontRightToLeft: string = "<--"; break; default: string = "???"; break; } printf("%-4s", string); if (pfi->min_byte1 == 0 && pfi->max_byte1 == 0) { printf(" %3d ", pfi->min_char_or_byte2); printf(" %3d ", pfi->max_char_or_byte2); } else { printf("*%3d ", pfi->min_byte1); printf("*%3d ", pfi->max_byte1); } printf("%5s ", pfi->all_chars_exist ? "all" : "some"); printf("%4d ", pfi->default_char); printf("%4d ", pfi->n_properties); printf("%3d ", pfi->ascent); printf("%4d ", pfi->descent); printf("%s\n", font_list[i].name); if (min_max) { char min[ BUFSIZ ], max[ BUFSIZ ]; char *pmax = max, *pmin = min; strcpy(pmin, " min(l,r,w,a,d) = ("); strcpy(pmax, " max(l,r,w,a,d) = ("); pmin += strlen(pmin); pmax += strlen(pmax); copy_number(&pmin, &pmax, pfi->min_bounds.lbearing, pfi->max_bounds.lbearing); *pmin++ = *pmax++ = ','; copy_number(&pmin, &pmax, pfi->min_bounds.rbearing, pfi->max_bounds.rbearing); *pmin++ = *pmax++ = ','; copy_number(&pmin, &pmax, pfi->min_bounds.width, pfi->max_bounds.width); *pmin++ = *pmax++ = ','; copy_number(&pmin, &pmax, pfi->min_bounds.ascent, pfi->max_bounds.ascent); *pmin++ = *pmax++ = ','; copy_number(&pmin, &pmax, pfi->min_bounds.descent, pfi->max_bounds.descent); *pmin++ = *pmax++ = ')'; *pmin = *pmax = '\0'; printf("%s\n", min); printf("%s\n", max); } } return; } if ((columns == 0 && isatty(1)) || columns > 1) { int width, max_width = 0, lines_per_column, j, index; for (i=0; i max_width) max_width = width; } if (max_width == 0) Fatal_Error("all %d fontnames listed are zero length", font_cnt); if (columns == 0) { if ((max_width * 2) + output_line_padding > max_output_line_width) { columns = 1; } else { max_width += output_line_padding; columns = ((max_output_line_width + output_line_padding) / max_width); } } else { max_width += output_line_padding; } if (columns <= 1) goto single_column; if (font_cnt < columns) columns = font_cnt; lines_per_column = (font_cnt + columns - 1) / columns; for (i=0; i= font_cnt) break; if (j+1 == columns) printf("%s", font_list[ index ].name); else printf("%-*s", max_width, font_list[ index ].name); } printf("\n"); } return; } single_column: for (i=0; iwidth, p->lbearing, \ p->rbearing, p->ascent, p->descent, p->attributes); } static const char* stringValued [] = { /* values are atoms */ /* font name components (see section 3.2 of the XLFD) */ "FOUNDRY", "FAMILY_NAME", "WEIGHT_NAME", "SLANT", "SETWIDTH_NAME", "ADD_STYLE_NAME", "SPACING", "CHARSET_REGISTRY", "CHARSET_ENCODING", /* other standard X font properties (see section 3.2 of the XLFD) */ "FONT", "FACE_NAME", "FULL_NAME", /* deprecated */ "COPYRIGHT", "NOTICE", "FONT_TYPE", "FONT_VERSION", "RASTERIZER_NAME", "RASTERIZER_VERSION", /* other registered font properties (see the X.org Registry, sec. 15) */ "_ADOBE_POSTSCRIPT_FONTNAME", /* unregistered font properties */ "CHARSET_COLLECTIONS", "CLASSIFICATION", "DEVICE_FONT_NAME", "FONTNAME_REGISTRY", "MONOSPACED", "QUALITY", "RELATIVE_SET", "STYLE", NULL }; static void PrintProperty(XFontProp *prop) { char *atom, *value; char nosuch[40]; int i; XErrorHandler oldhandler = XSetErrorHandler(IgnoreError); atom = XGetAtomName(dpy, prop->name); if (!atom) { atom = nosuch; nosuch[0] = '\0'; (void)sprintf (atom, "No such atom = %ld", prop->name); } printf (" %s", atom); /* Pad out to a column width of 22, but ensure there is always at least one space between property name & value. */ for (i = strlen(atom); i < 21; i++) putchar (' '); putchar(' '); for (i = 0; ; i++) { if (stringValued[i] == NULL) { printf ("%ld\n", prop->card32); break; } if (strcmp(stringValued[i], atom) == 0) { value = XGetAtomName(dpy, prop->card32); if (value == NULL) printf ("%ld (expected string value)\n", prop->card32); else { printf ("%s\n", value); XFree (value); } break; } } if (atom != nosuch) XFree (atom); XSetErrorHandler (oldhandler); } static void ComputeFontType(XFontStruct *fs) { int i; Bool char_cell = True; const char *reason = NULL; XCharStruct *cs; Atom awatom = XInternAtom (dpy, "AVERAGE_WIDTH", False); printf (" font type:\t\t"); if (fs->min_bounds.width != fs->max_bounds.width) { printf ("Proportional (min and max widths not equal)\n"); return; } if (awatom) { for (i = 0; i < fs->n_properties; i++) { if (fs->properties[i].name == awatom && (fs->max_bounds.width * 10) != fs->properties[i].card32) { char_cell = False; reason = "font width not equal to AVERAGE_WIDTH"; break; } } } if (fs->per_char) { for (i = fs->min_char_or_byte2, cs = fs->per_char; i <= fs->max_char_or_byte2; i++, cs++) { if (cs->width == 0) continue; if (cs->width != fs->max_bounds.width) { /* this shouldn't happen since we checked above */ printf ("Proportional (characters not all the same width)\n"); return; } if (char_cell) { if (cs->width < 0) { if (!(cs->width <= cs->lbearing && cs->lbearing <= cs->rbearing && cs->rbearing <= 0)) { char_cell = False; reason = "ink outside bounding box"; } } else { if (!(0 <= cs->lbearing && cs->lbearing <= cs->rbearing && cs->rbearing <= cs->width)) { char_cell = False; reason = "ink outside bounding box"; } } if (!(cs->ascent <= fs->ascent && cs->descent <= fs->descent)) { char_cell = False; reason = "characters not all same ascent or descent"; } } } } printf ("%s", char_cell ? "Character Cell" : "Monospaced"); if (reason) printf (" (%s)", reason); printf ("\n"); return; } static void print_character_metrics(register XFontStruct *info) { register XCharStruct *pc = info->per_char; register int i, j; unsigned n, saven; printf (" character metrics:\n"); saven = ((info->min_byte1 << 8) | info->min_char_or_byte2); for (j = info->min_byte1; j <= info->max_byte1; j++) { n = saven; for (i = info->min_char_or_byte2; i <= info->max_char_or_byte2; i++) { char *s = XKeysymToString ((KeySym) n); printf ("\t0x%02x%02x (%u)\t%4d %4d %4d %4d %4d 0x%04x %s\n", j, i, n, pc->width, pc->lbearing, pc->rbearing, pc->ascent, pc->descent, pc->attributes, s ? s : "."); pc++; n++; } saven += 256; } } static void do_query_font (Display *dpy, char *name) { register int i; register XFontStruct *info = XLoadQueryFont (dpy, name); if (!info) { fprintf (stderr, "%s: unable to get info about font \"%s\"\n", program_name, name); return; } printf ("name: %s\n", name ? name : "(nil)"); printf (" direction:\t\t%s\n", ((info->direction == FontLeftToRight) ? "left to right" : "right to left")); printf (" indexing:\t\t%s\n", ((info->min_byte1 == 0 && info->max_byte1 == 0) ? "linear" : "matrix")); printf (" rows:\t\t\t0x%02x thru 0x%02x (%d thru %d)\n", info->min_byte1, info->max_byte1, info->min_byte1, info->max_byte1); printf (" columns:\t\t0x%02x thru 0x%02x (%d thru %d)\n", info->min_char_or_byte2, info->max_char_or_byte2, info->min_char_or_byte2, info->max_char_or_byte2); printf (" all chars exist:\t%s\n", (info->all_chars_exist) ? "yes" : "no"); printf (" default char:\t\t0x%04x (%d)\n", info->default_char, info->default_char); printf (" ascent:\t\t%d\n", info->ascent); printf (" descent:\t\t%d\n", info->descent); ComputeFontType (info); printf (" bounds:\t\t%s", bounds_metrics_title); PrintBounds ("min", &info->min_bounds); PrintBounds ("max", &info->max_bounds); if (info->per_char && long_list >= L_VERYLONG) print_character_metrics (info); printf (" properties:\t\t%d\n", info->n_properties); for (i = 0; i < info->n_properties; i++) PrintProperty (&info->properties[i]); printf ("\n"); XFreeFontInfo (NULL, info, 1); }