/*----------------------------------------------------------------------* * File: rxvtfont.C *----------------------------------------------------------------------* * Copyright (c) 2003-2008 Marc Lehmann * - original version. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA *---------------------------------------------------------------------*/ #include "../config.h" #include "rxvt.h" #include "rxvtutil.h" #include "rxvtfont.h" #include #include #define MAX_OVERLAP_ROMAN (8 + 2) // max. character width in 8ths of the base width #define MAX_OVERLAP_ITALIC (8 + 3) // max. overlap for italic fonts #define OVERLAP_OK(w,wcw,prop) ((w) <= ( \ (prop)->slant >= rxvt_fontprop::italic \ ? ((prop)->width * (wcw) * MAX_OVERLAP_ITALIC + 7) >> 3 \ : ((prop)->width * (wcw) * MAX_OVERLAP_ROMAN + 7) >> 3 \ )) const struct rxvt_fallback_font { codeset cs; const char *name; } fallback_fonts[] = { { CS_ISO8859_1, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-1" }, { CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-15" }, { CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-fcd8859-15" }, #if ENCODING_EU // cyrillic { CS_KOI8_R, "-*-*-*-r-*--*-*-*-*-c-*-koi8-r" }, { CS_KOI8_U, "-*-*-*-r-*--*-*-*-*-c-*-koi8-u" }, { CS_ISO8859_2, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-2" }, { CS_ISO8859_3, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-3" }, { CS_ISO8859_4, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-4" }, { CS_ISO8859_5, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-5" }, { CS_ISO8859_6, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-6" }, { CS_ISO8859_7, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-7" }, { CS_ISO8859_8, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-8" }, { CS_ISO8859_9, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-9" }, { CS_ISO8859_10, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-10" }, { CS_ISO8859_11, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-11" }, { CS_ISO8859_13, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-13" }, { CS_ISO8859_14, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-14" }, { CS_ISO8859_16, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-16" }, # if XFT { CS_KOI8_U, "xft::lang=ru" }, { CS_ISO8859_5, "xft::lang=ru" }, { CS_ISO8859_6, "xft::lang=ar" }, { CS_ISO8859_7, "xft::lang=el" }, { CS_ISO8859_8, "xft::lang=he" }, { CS_ISO8859_9, "xft::lang=tr" }, { CS_ISO8859_10, "xft::lang=se" }, { CS_ISO8859_11, "xft::lang=th" }, # endif #endif // japanese #if ENCODING_JP || ENCODING_JP_EXT # if XFT // prefer xft for complex scripts { CS_JIS0208_1990_0, "xft:Sazanami Mincho:antialias=false" }, { CS_JIS0208_1990_0, "xft:Kochi Gothic:antialias=false" }, { CS_JIS0208_1990_0, "xft:Mincho:antialias=false" }, { CS_JIS0208_1990_0, "xft::lang=ja:antialias=false" }, # endif { CS_JIS0201_1976_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0201*-0" }, { CS_JIS0208_1990_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0208*-0" }, { CS_JIS0212_1990_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0212*-0" }, { CS_JIS0201_1976_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0201*-0" }, { CS_JIS0208_1990_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0208*-0" }, { CS_JIS0212_1990_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0212*-0" }, #endif #if ENCODING_ZH || ENCODING_ZH_EXT # if XFT { CS_GBK_0, "xft:AR PL KaitiM GB" }, { CS_GBK_0, "xft:AR PL SungtiL GB" }, { CS_GBK_0, "xft::lang=zh" }, { CS_BIG5_EXT, "xft:AR PL Mingti2L Big5" }, { CS_BIG5_EXT, "xft:AR PL KaitiM Big5" }, { CS_GB2312_1980_0, "xft:AR PL KaitiM GB" }, { CS_GB2312_1980_0, "xft:AR PL SungtiL GB" }, { CS_GB2312_1980_0, "xft::lang=zh" }, # endif { CS_GBK_0, "-*-*-*-*-*-*-*-*-*-*-c-*-gbk*-0" }, { CS_BIG5, "-*-*-*-*-*-*-*-*-*-*-c-*-big5-0" }, { CS_BIG5_PLUS, "-*-*-*-*-*-*-*-*-*-*-c-*-big5p-0" }, { CS_BIG5_EXT, "-*-*-*-*-*-*-*-*-*-*-c-*-big5.eten-0" }, { CS_GB2312_1980_0, "-*-*-*-*-*-*-*-*-*-*-c-*-gb2312*-0" }, { CS_CNS11643_1992_1, "-*-*-*-*-*-*-*-*-*-*-c-*-gb2312*-0" }, { CS_CNS11643_1992_1, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-1" }, { CS_CNS11643_1992_2, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-2" }, { CS_CNS11643_1992_3, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-3" }, { CS_CNS11643_1992_4, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-4" }, { CS_CNS11643_1992_5, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-5" }, { CS_CNS11643_1992_6, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-6" }, { CS_CNS11643_1992_7, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-7" }, { CS_CNS11643_1992_F, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-f" }, #endif #if ENCODING_KR { CS_KSC5601_1987_0, "-baekmuk-gulim-*-*-*-*-*-*-*-*-c-*-ksc5601*" }, { CS_KSC5601_1987_0, "-*-*-*-*-*-*-*-*-*-*-c-*-ksc5601*" }, # if XFT { CS_KSC5601_1987_0, "xft:Baekmuk Gulim:antialias=false" }, { CS_KSC5601_1987_0, "xft::lang=ko:antialias=false" }, # endif #endif { CS_UNICODE, "-*-lucidatypewriter-*-*-*-*-*-*-*-*-m-*-iso10646-1" }, //{ CS_UNICODE, "-*-unifont-*-*-*-*-*-*-*-*-c-*-iso10646-1" }, // this gem of a font has actual dotted circles within the combining character glyphs. #if XFT { CS_UNICODE, "xft:Bitstream Vera Sans Mono:antialias=false:autohint=true" }, { CS_UNICODE, "xft:Courier New:antialias=false:autohint=true" }, { CS_UNICODE, "xft:Andale Mono:antialias=false:autohint=false" }, { CS_UNICODE, "xft:Arial Unicode MS:antialias=false:autohint=false" }, // FreeMono is usually uglier than x fonts, so try after the others { CS_UNICODE, "xft:FreeMono:autohint=true" }, #endif // generic font fallback, put this last, as many iso10646 fonts have extents // specified for all glyphs in the range they cover, but most are simply empty //{ CS_UNICODE, "-*-*-*-r-*-*-*-*-*-*-c-*-iso10646-1" }, //{ CS_UNICODE, "-*-*-*-r-*-*-*-*-*-*-m-*-iso10646-1" }, { CS_UNKNOWN, 0 } }; // these characters are used to guess the font height and width // pango uses a similar algorithm and doesn't trust the font either. static uint16_t extent_test_chars[] = { '0', '1', '8', 'a', 'd', 'x', 'm', 'y', 'g', 'W', 'X', '\'', '_', 0x00cd, 0x00d5, 0x0114, 0x0177, 0x0643, // ÍÕĔŷﻙ 0x304c, 0x672c, // が本 }; #define NUM_EXTENT_TEST_CHARS (sizeof (extent_test_chars) / sizeof (extent_test_chars[0])) #define dTermDisplay Display *disp = term->dpy #define dTermGC GC gc = term->gc ///////////////////////////////////////////////////////////////////////////// static const char * enc_char (const text_t *text, uint32_t len, codeset cs, bool &zero) { uint8_t *buf = rxvt_temp_buf (len); uint8_t *res = buf; while (len--) { uint32_t c = FROM_UNICODE (cs, *text++); if (c == NOCHAR) { c = 0; zero = true; } *buf++ = c; } return (const char *)res; } static const XChar2b * enc_xchar2b (const text_t *text, uint32_t len, codeset cs, bool &zero) { XChar2b *buf = rxvt_temp_buf (len); XChar2b *res = buf; while (len--) { uint32_t c = FROM_UNICODE (cs, *text++); if (c == NOCHAR) { c = 0; zero = true; } buf->byte1 = c >> 8; buf->byte2 = c; buf++; } return res; } ///////////////////////////////////////////////////////////////////////////// rxvt_font::rxvt_font () : name(0), width(rxvt_fontprop::unset), height(rxvt_fontprop::unset) { } void rxvt_font::set_name (char *name_) { if (name == name_) return; if (name) free (name); // let the compiler optimize name = name_; } void rxvt_font::clear_rect (rxvt_drawable &d, int x, int y, int w, int h, int color) const { dTermDisplay; dTermGC; if (color == Color_bg || color == Color_transparent) XClearArea (disp, d, x, y, w, h, false); else if (color >= 0) { #if XFT Picture dst; # ifdef HAVE_BG_PIXMAP if (term->bgPixmap.pixmap && !term->pix_colors[color].is_opaque () && ((dst = XftDrawPicture (d)))) { XClearArea (disp, d, x, y, w, h, false); Picture solid_color_pict = XftDrawSrcPicture (d, &term->pix_colors[color].c); XRenderComposite (disp, PictOpOver, solid_color_pict, None, dst, 0, 0, 0, 0, x, y, w, h); } else # endif XftDrawRect (d, &term->pix_colors[color].c, x, y, w, h); #else XSetForeground (disp, gc, term->pix_colors[color]); XFillRectangle (disp, d, gc, x, y, w, h); #endif } } ///////////////////////////////////////////////////////////////////////////// struct rxvt_font_default : rxvt_font { struct rxvt_fontset *fs; rxvt_font_default (rxvt_fontset *fs) : rxvt_font () { this->fs = fs; } rxvt_fontprop properties () { rxvt_fontprop p; p.width = p.height = 1; p.ascent = rxvt_fontprop::unset; p.weight = rxvt_fontprop::medium; p.slant = rxvt_fontprop::roman; return p; } bool load (const rxvt_fontprop &prop, bool force_prop) { width = 1; height = 1; ascent = 1; descent = 0; set_name (strdup ("built-in support font")); return true; } bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const { careful = false; if (unicode <= 0x001f) return true; if (unicode <= 0x007f) return false; if (unicode <= 0x009f) return true; #ifdef BUILTIN_GLYPHS if (unicode >= 0x2500 && unicode <= 0x259f && !term->option (Opt_skipBuiltinGlyphs)) return true; #endif if (IS_COMPOSE (unicode)) return true; switch (unicode) { case ZERO_WIDTH_CHAR: case NOCHAR: return true; } return false; } void draw (rxvt_drawable &d, int x, int y, const text_t *text, int len, int fg, int bg); }; void rxvt_font_default::draw (rxvt_drawable &d, int x, int y, const text_t *text, int len, int fg, int bg) { dTermDisplay; dTermGC; clear_rect (d, x, y, term->fwidth * len, term->fheight, bg); XSetForeground (disp, gc, term->pix_colors[fg]); while (len) { #if ENABLE_COMBINING compose_char *cc; #endif const text_t *tp = text; text_t t = *tp; while (++text, --len && *text == NOCHAR) ; int width = text - tp; int fwidth = term->fwidth * width; #ifdef BUILTIN_GLYPHS if (0x2500 <= t && t <= 0x259f) { # include "table/linedraw.h" uint16_t offs = linedraw_offs[t - 0x2500]; uint32_t *a = linedraw_command + (offs >> 4); uint32_t *b = a + (offs & 15); int W = fwidth; int H = term->fheight; int x_[16]; int y_[16]; for (int i = 0; i <= 8; i++) { x_[i] = x + ((W-1) * i + (i*7/8)) / 8; y_[i] = y + ((H-1) * i + (i*7/8)) / 8; } x_[10] = x + (W - 1) / 2; x_[9] = x_[10] - 1; x_[11] = x_[10] + 1; y_[10] = y + (H - 1) / 2; y_[9] = y_[10] - 1; y_[11] = y_[10] + 1; XGCValues gcv; gcv.cap_style = CapButt; gcv.line_width = 0; XChangeGC (disp, gc, GCLineWidth | GCCapStyle, &gcv); while (a < b) { uint32_t command = *a++; int op = (command >> 24) & 255; int a = (command >> 20) & 15; int b = (command >> 16) & 15; int x1 = x_[(command >> 12) & 15]; int y1 = y_[(command >> 8) & 15]; int x2 = x_[(command >> 4) & 15]; int y2 = y_[(command >> 0) & 15]; switch (op) { case 0: // line XDrawLine (disp, d, gc, x1, y1, x2, y2); break; case 1: // rectangle, possibly stippled if (a) { static char bm[] = { 0,0 , 3,1 , 1,2 , 1,0 }; gcv.fill_style = FillStippled; gcv.stipple = XCreateBitmapFromData (disp, d, bm + a * 2, 2, 2); gcv.ts_x_origin = x; gcv.ts_y_origin = y; XChangeGC (disp, gc, GCFillStyle | GCStipple | GCTileStipXOrigin | GCTileStipYOrigin, &gcv); } XFillRectangle (disp, d, gc, x1, y1, x2 - x1 + 1, y2 - y1 + 1); if (a) { XFreePixmap (disp, gcv.stipple); gcv.stipple = 0; gcv.fill_style = FillSolid; XChangeGC (disp, gc, GCFillStyle, &gcv); } break; case 2: // arc XDrawArc (disp, d, gc, x1 - W/2, y1 - H/2, W-1, H-1, (a - 1) * 90*64, (b - 1) * 90*64); break; } } } #else if (0) ; #endif #if ENABLE_COMBINING else if (IS_COMPOSE (t) && (cc = rxvt_composite[t])) { min_it (width, 2); // we only support wcwidth up to 2 text_t chrs[2]; chrs [1] = NOCHAR; *chrs = cc->c1; rxvt_font *f1 = (*fs)[fs->find_font (cc->c1)]; f1->draw (d, x, y, chrs, width, fg, bg); if (cc->c2 != NOCHAR) { bool careful; // prefer font of first character, for no good reasons *chrs = cc->c2; rxvt_font *f2 = (f1->has_char (cc->c2, 0, careful) && !careful) ? f1 : (*fs)[fs->find_font (cc->c2)]; f2->draw (d, x, y, chrs, width, fg, Color_none); } } #endif else switch (t) { case '\t': case ZERO_WIDTH_CHAR: case NOCHAR: break; default: XDrawRectangle (disp, d, gc, x + 2, y + 2, fwidth - 4, term->fheight - 4); } x += fwidth; } } ///////////////////////////////////////////////////////////////////////////// struct rxvt_font_x11 : rxvt_font { rxvt_font_x11 () { f = 0; } void clear (); rxvt_fontprop properties (); bool load (const rxvt_fontprop &prop, bool force_prop); bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const; void draw (rxvt_drawable &d, int x, int y, const text_t *text, int len, int fg, int bg); bool slow; // wether this is a proportional font or has other funny characteristics XFontStruct *f; bool enc2b, encm; char *get_property (XFontStruct *f, Atom property, const char *repl) const; bool set_properties (rxvt_fontprop &p, int height, const char *weight, const char *slant, int avgwidth); bool set_properties (rxvt_fontprop &p, XFontStruct *f); bool set_properties (rxvt_fontprop &p, const char *name); }; char * rxvt_font_x11::get_property (XFontStruct *f, Atom property, const char *repl) const { unsigned long value; if (XGetFontProperty (f, property, &value)) return XGetAtomName (term->dpy, value); else return repl ? strdup (repl) : 0; } rxvt_fontprop rxvt_font_x11::properties () { rxvt_fontprop p; set_properties (p, f); return p; } bool rxvt_font_x11::set_properties (rxvt_fontprop &p, int height, const char *weight, const char *slant, int avgwidth) { p.width = width != rxvt_fontprop::unset ? width : avgwidth ? (avgwidth + 1) / 10 : (height + 1) / 2; p.height = height; p.ascent = rxvt_fontprop::unset; p.weight = *weight == 'B' || *weight == 'b' ? rxvt_fontprop::bold : rxvt_fontprop::medium; p.slant = *slant == 'r' || *slant == 'R' ? rxvt_fontprop::roman : rxvt_fontprop::italic; return true; } bool rxvt_font_x11::set_properties (rxvt_fontprop &p, XFontStruct *f) { unsigned long height; #if 0 if (!XGetFontProperty (f, XInternAtom (term->dpy, "PIXEL_SIZE", 0), &height)) return false; #else height = f->ascent + f->descent; #endif unsigned long avgwidth; if (!XGetFontProperty (f, term->xa [XA_AVERAGE_WIDTH], &avgwidth)) avgwidth = 0; char *weight = get_property (f, term->xa [XA_WEIGHT_NAME], "medium"); char *slant = get_property (f, term->xa [XA_SLANT], "r"); set_properties (p, height, weight, slant, avgwidth); free (weight); free (slant); p.ascent = f->ascent; return true; } bool rxvt_font_x11::set_properties (rxvt_fontprop &p, const char *name) { dTermDisplay; int slashes = 0; const char *comp[13]; for (const char *c = name; *c; c++) if (*c == '-') { comp[slashes++] = c + 1; if (slashes >= 13) break; } /* can we short-circuit the costly XLoadQueryFont? */ if (slashes >= 13 && (*comp[ 6] >= '1' && *comp[ 6] <= '9') && (*comp[11] >= '0' && *comp[11] <= '9')) return set_properties (p, atoi (comp[6]), comp[2], comp[3], atoi (comp[11])); XFontStruct *f = XLoadQueryFont (disp, name); if (f) { // the font should really exist now. if not, we have a problem // (e.g. if the user did xset fp rehash just when we were searching fonts). // in that case, just return garbage. bool ret = set_properties (p, f); XFreeFont (disp, f); return ret; } else return false; } // fix the size of scalable fonts static bool replace_field (char **ptr, const char *name, int index, const char old, const char *replace) { int slashes = 0; const char *field, *end; for (const char *c = name; *c; c++) if (*c == '-') { if (slashes == index) field = c + 1; if (slashes == index + 1) end = c; if (++slashes >= 13) break; } if (slashes >= 13 && (!old || *field == old)) { size_t len = field - name; *ptr = (char *)malloc (len + strlen (replace) + strlen (end) + 1); memcpy (*ptr, name, len); strcpy (*ptr + len, replace); strcat (*ptr, end); return true; } else { *ptr = strdup (name); return false; } } bool rxvt_font_x11::load (const rxvt_fontprop &prop, bool force_prop) { dTermDisplay; clear (); char field_str[64]; // enough for 128 bits // first morph the font if required if (force_prop) { char *fname; if (name[0] != '-') { f = XLoadQueryFont (disp, name); if (!f) return false; char *new_name = get_property (f, XA_FONT, name); if (new_name) set_name (new_name); else rxvt_warn ("font '%s' has no FONT property, continuing without.", name); XFreeFont (disp, f); f = 0; } if (prop.weight != rxvt_fontprop::unset) { replace_field (&fname, name, 2, 0, prop.weight < rxvt_fontprop::bold ? "medium" : "bold"); set_name (fname); } if (prop.slant != rxvt_fontprop::unset) { replace_field (&fname, name, 3, 0, prop.slant < rxvt_fontprop::italic ? "r" : "i"); // TODO: handle "o"blique, too set_name (fname); } } sprintf (field_str, "%d", prop.height == rxvt_fontprop::unset ? 0 : prop.height); struct font_weight { char *name; int diff; void clear () { name = 0; diff = 0x7fffffff; } font_weight () { clear (); } ~font_weight () { free (name); } }; char **list; int count; list = XListFonts (disp, name, 4000, &count); set_name (0); if (!list) return false; font_weight *fonts = new font_weight[count]; for (int i = 0; i < count; i++) { rxvt_fontprop p; char *fname; int diff = 0; if (replace_field (&fname, list[i], 6, '0', field_str)) diff += 10; // slightly penalize scalable fonts else { free (fname); if (replace_field (&fname, list[i], 11, '0', "0")) diff += 300; // more heavily penalize what looks like scaled bitmap fonts } if (!set_properties (p, fname)) continue; if (prop.height != rxvt_fontprop::unset && p.height > prop.height) // weed out too large fonts continue; if (prop.height != rxvt_fontprop::unset) diff += (prop.height - p.height) * 128; if (prop.weight != rxvt_fontprop::unset) diff += abs (prop.weight - p.weight); if (prop.slant != rxvt_fontprop::unset) diff += abs (prop.slant - p.slant); //if (prop.width != rxvt_fontprop::unset) diff += abs (prop.width - p.width); fonts[i].name = fname; fonts[i].diff = diff; } XFreeFontNames (list); // this loop only iterates when the guessed font-size is too small for (;;) { font_weight *best = fonts + count - 1; for (font_weight *w = best; w-- > fonts; ) if (w->diff <= best->diff) best = w; if (!best->name || !(f = XLoadQueryFont (disp, best->name))) break; set_name (best->name); best->clear (); ascent = f->ascent; descent = f->descent; height = ascent + descent; if (prop.height == rxvt_fontprop::unset || height <= prop.height) break; // font is ready for use // PIXEL_SIZE small enough, but real height too large clear (); } delete [] fonts; if (!f) return false; char *registry = get_property (f, term->xa [XA_CHARSET_REGISTRY], 0); char *encoding = get_property (f, term->xa [XA_CHARSET_ENCODING], 0); cs = CS_UNKNOWN; if (registry && encoding) { char charset[64]; snprintf (charset, 64, "%s-%s", registry, encoding); cs = codeset_from_name (charset); if (cs == CS_UNKNOWN) rxvt_warn ("%s: cannot deduce encoding from registry/encoding properties \"%s\", ignoring font.\n", name, charset); } free (registry); free (encoding); if (cs == CS_UNKNOWN) { const char *charset = get_property (f, XA_FONT, 0); if (!charset) charset = name; int count = 13; while (*charset) if (*charset++ == '-' && !--count) break; cs = codeset_from_name (charset); if (cs == CS_UNKNOWN) rxvt_warn ("%s: cannot deduce encoding from font name property \"%s\", ignoring font.\n", name, charset); } if (cs == CS_UNKNOWN) { clear (); return false; } if (cs == CS_UNICODE) cs = CS_UNICODE_16; // X11 can have a max. of 65536 chars per font encm = f->min_byte1 != 0 || f->max_byte1 != 0; enc2b = encm || f->max_char_or_byte2 > 255; slow = false; #if 1 // only used for slow detection, TODO optimize if (f->min_bounds.width == f->max_bounds.width || !f->per_char) width = f->max_bounds.width; else { slow = true; int N = f->max_char_or_byte2 - f->min_char_or_byte2; if (encm) N += (f->max_byte1 - f->min_byte1) * (f->max_char_or_byte2 - f->min_char_or_byte2 + 1); while (N) { if (f->per_char[N].width > width) width = f->per_char[N].width; --N; } } #endif width = 1; for (uint16_t *t = extent_test_chars + NUM_EXTENT_TEST_CHARS; t-- > extent_test_chars; ) { if (FROM_UNICODE (cs, *t) == NOCHAR) continue; // ignore characters we wouldn't use anyways bool careful; if (!has_char (*t, &prop, careful)) continue; XChar2b ch = { *t >> 8, *t }; XCharStruct g; int dir_ret, asc_ret, des_ret; XTextExtents16 (f, &ch, 1, &dir_ret, &asc_ret, &des_ret, &g); int wcw = WCWIDTH (*t); if (wcw > 0) g.width = (g.width + wcw - 1) / wcw; if (width < g.width) width = g.width; } #if 0 // do it per-character if (prop && width > prop->width) { clear (); return false; } #endif return true; } void rxvt_font_x11::clear () { if (f) { XFreeFont (term->dpy, f); f = 0; } } bool rxvt_font_x11::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const { uint32_t ch = FROM_UNICODE (cs, unicode); if (ch == NOCHAR) return false; /* check wether the character exists in _this_ font. horrible. */ XCharStruct *xcs; if (encm) { unsigned char byte1 = ch >> 8; unsigned char byte2 = ch & 255; if (byte1 < f->min_byte1 || byte1 > f->max_byte1 || byte2 < f->min_char_or_byte2 || byte2 > f->max_char_or_byte2) return false; if (f->per_char) { int D = f->max_char_or_byte2 - f->min_char_or_byte2 + 1; int N = (byte1 - f->min_byte1) * D + byte2 - f->min_char_or_byte2; xcs = f->per_char + N; } else xcs = &f->max_bounds; } else { if (ch < f->min_char_or_byte2 || ch > f->max_char_or_byte2) return false; if (f->per_char) xcs = f->per_char + (ch - f->min_char_or_byte2); else xcs = &f->max_bounds; } if (xcs->lbearing == 0 && xcs->rbearing == 0 && xcs->width == 0 && xcs->ascent == 0 && xcs->descent == 0) return false; if (!prop || prop->width == rxvt_fontprop::unset) return true; // check wether character overlaps previous/next character int w = xcs->rbearing - xcs->lbearing; int wcw = max (WCWIDTH (unicode), 1); careful = xcs->lbearing < 0 || xcs->rbearing > prop->width * wcw; if (careful && !OVERLAP_OK (w, wcw, prop)) return false; return true; } void rxvt_font_x11::draw (rxvt_drawable &d, int x, int y, const text_t *text, int len, int fg, int bg) { // this looks like a mess /. // and it is a mess /. // yet we are trying to be perfect /. // but the result still isn't perfect /. dTermDisplay; dTermGC; bool slow = this->slow || width != term->fwidth || height != term->fheight; int base = ascent; // sorry, incorrect: term->fbase; XGCValues v; v.foreground = term->pix_colors[fg]; v.font = f->fid; if (enc2b) { const XChar2b *xc = enc_xchar2b (text, len, cs, slow); if (bg == Color_bg && !slow) { v.background = term->pix_colors[bg]; XChangeGC (disp, gc, GCForeground | GCBackground | GCFont, &v); XDrawImageString16 (disp, d, gc, x, y + base, xc, len); } else { clear_rect (d, x, y, term->fwidth * len, term->fheight, bg); XChangeGC (disp, gc, GCForeground | GCFont, &v); if (slow) { do { if (xc->byte1 || xc->byte2) XDrawString16 (disp, d, gc, x, y + base, xc, 1); x += term->fwidth; xc++; len--; } while (len); } else XDrawString16 (disp, d, gc, x, y + base, xc, len); } } else { const char *xc = enc_char (text, len, cs, slow); if (bg == Color_bg && !slow) { v.background = term->pix_colors[bg]; XChangeGC (disp, gc, GCForeground | GCBackground | GCFont, &v); XDrawImageString (disp, d, gc, x, y + base, xc, len); } else { clear_rect (d, x, y, term->fwidth * len, term->fheight, bg); XChangeGC (disp, gc, GCForeground | GCFont, &v); if (slow) { do { if (*xc) XDrawString (disp, d, gc, x, y + base, xc, 1); x += term->fwidth; xc++; len--; } while (len); } else XDrawString (disp, d, gc, x, y + base, xc, len); } } } ///////////////////////////////////////////////////////////////////////////// #if XFT struct rxvt_font_xft : rxvt_font { rxvt_font_xft () { f = 0; } void clear (); rxvt_fontprop properties (); bool load (const rxvt_fontprop &prop, bool force_prop); void draw (rxvt_drawable &d, int x, int y, const text_t *text, int len, int fg, int bg); bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const; protected: XftFont *f; }; void rxvt_font_xft::clear () { if (f) { XftFontClose (term->dpy, f); f = 0; } } rxvt_fontprop rxvt_font_xft::properties () { rxvt_fontprop p; FT_Face face = XftLockFace (f); p.width = width; p.height = height; p.ascent = ascent; p.weight = face->style_flags & FT_STYLE_FLAG_BOLD ? rxvt_fontprop::bold : rxvt_fontprop::medium; p.slant = face->style_flags & FT_STYLE_FLAG_ITALIC ? rxvt_fontprop::italic : rxvt_fontprop::roman; XftUnlockFace (f); return p; } bool rxvt_font_xft::load (const rxvt_fontprop &prop, bool force_prop) { dTermDisplay; clear (); FcPattern *p = FcNameParse ((FcChar8 *) name); if (!p) return false; FcValue v; if (prop.height != rxvt_fontprop::unset && (FcPatternGet (p, FC_PIXEL_SIZE, 0, &v) != FcResultMatch && FcPatternGet (p, FC_SIZE, 0, &v) != FcResultMatch)) FcPatternAddInteger (p, FC_PIXEL_SIZE, prop.height); if (prop.weight != rxvt_fontprop::unset && (force_prop || FcPatternGet (p, FC_WEIGHT, 0, &v) != FcResultMatch)) FcPatternAddInteger (p, FC_WEIGHT, prop.weight); if (prop.slant != rxvt_fontprop::unset && (force_prop || FcPatternGet (p, FC_SLANT, 0, &v) != FcResultMatch)) FcPatternAddInteger (p, FC_SLANT, prop.slant); #if 0 // clipping unfortunately destroys our precious double-width-characters // clip width, we can't do better, or can we? if (FcPatternGet (p, FC_CHAR_WIDTH, 0, &v) != FcResultMatch) FcPatternAddInteger (p, FC_CHAR_WIDTH, prop.width); #endif if (FcPatternGet (p, FC_MINSPACE, 0, &v) != FcResultMatch) FcPatternAddBool (p, FC_MINSPACE, 1); // store generated name so iso14755 view gives better results set_name ((char *)FcNameUnparse (p)); XftResult result; FcPattern *match = XftFontMatch (disp, term->display->screen, p, &result); FcPatternDestroy (p); if (!match) return false; int ftheight = 0; bool success = true; for (;;) { f = XftFontOpenPattern (disp, FcPatternDuplicate (match)); if (!f) { success = false; break; } FT_Face face = XftLockFace (f); ascent = (face->size->metrics.ascender + 63) >> 6; descent = (-face->size->metrics.descender + 63) >> 6; height = max (ascent + descent, (face->size->metrics.height + 63) >> 6); width = 0; bool scalable = face->face_flags & FT_FACE_FLAG_SCALABLE; XftUnlockFace (f); int glheight = height; for (uint16_t *t = extent_test_chars + NUM_EXTENT_TEST_CHARS; t-- > extent_test_chars; ) { FcChar16 ch = *t; if (cs != CS_UNICODE && ch > 0x100 && FROM_UNICODE (cs, ch) == NOCHAR) continue; // ignore characters we wouldn't use anyways bool careful; if (!has_char (*t, &prop, careful)) continue; XGlyphInfo g; XftTextExtents16 (disp, f, &ch, 1, &g); g.width -= g.x; int wcw = WCWIDTH (ch); if (wcw > 0) g.width = (g.width + wcw - 1) / wcw; if (width < g.width ) width = g.width; if (height < g.height ) height = g.height; if (glheight < g.height - g.y) glheight = g.height - g.y; } if (!width) { rxvt_warn ("unable to calculate font width for '%s', ignoring.\n", name); XftFontClose (disp, f); f = 0; success = false; break; } if (prop.height == rxvt_fontprop::unset || (height <= prop.height && glheight <= prop.height) || height <= 2 || !scalable) break; if (ftheight) { // take smaller steps near the end if (height > prop.height + 1) ftheight++; if (height > prop.height + 2) ftheight++; if (height > prop.height + 3) ftheight++; ftheight -= height - prop.height; } else ftheight = prop.height - 1; XftFontClose (disp, f); FcPatternDel (match, FC_PIXEL_SIZE); FcPatternAddInteger (match, FC_PIXEL_SIZE, ftheight); } FcPatternDestroy (match); #if 0 // do it per-character if (prop.width != rxvt_fontprop::unset && width > prop.width) { clear (); success = false; } #endif return success; } bool rxvt_font_xft::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const { careful = false; if (!XftCharExists (term->dpy, f, unicode)) return false; if (!prop || prop->width == rxvt_fontprop::unset) return true; // check character against base font bounding box FcChar32 ch = unicode; XGlyphInfo g; XftTextExtents32 (term->dpy, f, &ch, 1, &g); int w = g.width - g.x; int wcw = max (WCWIDTH (unicode), 1); careful = g.x > 0 || w > prop->width * wcw; if (careful && !OVERLAP_OK (w, wcw, prop)) return false; // this weeds out _totally_ broken fonts, or glyphs if (!OVERLAP_OK (g.xOff, wcw, prop)) return false; return true; } void rxvt_font_xft::draw (rxvt_drawable &d, int x, int y, const text_t *text, int len, int fg, int bg) { XGlyphInfo extents; XftGlyphSpec *enc = (XftGlyphSpec *)rxvt_temp_buf (len * sizeof (XftGlyphSpec)); XftGlyphSpec *ep = enc; dTermDisplay; dTermGC; int w = term->fwidth * len; int h = term->fheight; bool buffered = bg >= Color_transparent && term->option (Opt_buffered); // cut trailing spaces while (len && text [len - 1] == ' ') len--; int x_ = buffered ? 0 : x; int y_ = buffered ? 0 : y; while (len) { int cwidth = term->fwidth; FcChar32 fc = *text++; len--; while (len && *text == NOCHAR) text++, len--, cwidth += term->fwidth; if (fc != ' ') // skip spaces { FT_UInt glyph = XftCharIndex (disp, f, fc); XftGlyphExtents (disp, f, &glyph, 1, &extents); ep->glyph = glyph; ep->x = x_ + (cwidth - extents.xOff >> 1); ep->y = y_ + ascent; if (extents.xOff == 0) ep->x = x_ + cwidth; ep++; } x_ += cwidth; } if (buffered) { if (ep != enc) { rxvt_drawable &d2 = d.screen->scratch_drawable (w, h); #ifdef HAVE_BG_PIXMAP Picture dst = 0; // the only assignment is done conditionally in the following if condition if (term->bgPixmap.pixmap && (bg == Color_transparent || bg == Color_bg || (bg >= 0 && !term->pix_colors[bg].is_opaque () && ((dst = XftDrawPicture (d2)))))) { int src_x = x, src_y = y; if (term->bgPixmap.is_parentOrigin ()) { src_x += term->window_vt_x; src_y += term->window_vt_y; } if (term->bgPixmap.pmap_width >= src_x + w && term->bgPixmap.pmap_height >= src_y + h) { XCopyArea (disp, term->bgPixmap.pixmap, d2, gc, src_x, src_y, w, h, 0, 0); } else { XGCValues gcv; gcv.fill_style = FillTiled; gcv.tile = term->bgPixmap.pixmap; gcv.ts_x_origin = -src_x; gcv.ts_y_origin = -src_y; XChangeGC (disp, gc, GCTile | GCTileStipXOrigin | GCTileStipYOrigin | GCFillStyle, &gcv); XFillRectangle (disp, d2, gc, 0, 0, w, h); gcv.fill_style = FillSolid; XChangeGC (disp, gc, GCFillStyle, &gcv); } if (dst) { Picture solid_color_pict = XftDrawSrcPicture (d2, &term->pix_colors[bg].c); // dst can only be set when bg >= 0 XRenderComposite (disp, PictOpOver, solid_color_pict, None, dst, 0, 0, 0, 0, 0, 0, w, h); } } else #endif XftDrawRect (d2, &term->pix_colors[bg >= 0 ? bg : Color_bg].c, 0, 0, w, h); XftDrawGlyphSpec (d2, &term->pix_colors[fg].c, f, enc, ep - enc); XCopyArea (disp, d2, d, gc, 0, 0, w, h, x, y); } else clear_rect (d, x, y, w, h, bg); } else { clear_rect (d, x, y, w, h, bg); XftDrawGlyphSpec (d, &term->pix_colors[fg].c, f, enc, ep - enc); } } #endif ///////////////////////////////////////////////////////////////////////////// rxvt_fontset::rxvt_fontset (rxvt_term *term) : fontdesc (0), term (term) { clear (); } rxvt_fontset::~rxvt_fontset () { clear (); } void rxvt_fontset::clear () { prop.width = prop.height = prop.ascent = prop.weight = prop.slant = rxvt_fontprop::unset; force_prop = false; for (rxvt_font **i = fonts.begin (); i != fonts.end (); i++) FONT_UNREF (*i); for (pagemap **p = fmap.begin (); p != fmap.end (); p++) delete *p; free (fontdesc); fontdesc = 0; fonts.clear (); fallback = fallback_fonts; } rxvt_font * rxvt_fontset::new_font (const char *name, codeset cs) { rxvt_font *f; if (!name || !*name) { name = ""; f = new rxvt_font_default (this); } #if XFT else if (!strncmp (name, "xft:", 4)) { name += 4; f = new rxvt_font_xft (); } #endif else if (!strncmp (name, "x:", 2)) { name += 2; f = new rxvt_font_x11; } else f = new rxvt_font_x11; f->set_term (term); f->set_name (strdup (name)); f->cs = cs; f->loaded = false; return f; } ///////////////////////////////////////////////////////////////////////////// void rxvt_fontset::add_fonts (const char *desc) { if (desc) { char buf[512]; const char *end; do { while (*desc && *desc <= ' ') desc++; codeset cs = CS_UNICODE; if (*desc == '[') { char spec[256]; const char *extra = ++desc; // not yet used desc = strchr (desc, ']'); if (!desc) { rxvt_warn ("ERROR: opening '[' without closing ']' in font specification, trying to continue.\n"); break; } memcpy (spec, extra, min (desc - extra, 255)); spec[min (desc - extra, 255)] = 0; if (!strncmp (extra, "codeset=", sizeof ("codeset=") - 1)) cs = codeset_from_name (spec + sizeof ("codeset=") - 1); else rxvt_warn ("unknown parameter '%s' in font specification, skipping.\n", spec); desc++; while (*desc <= ' ') desc++; } end = strchr (desc, ','); if (!end) end = desc + strlen (desc); if (end - desc < 511) { memcpy (buf, desc, end - desc); buf[end - desc] = 0; fonts.push_back (new_font (buf, cs)); } else rxvt_warn ("fontset element too long (>511 bytes), ignored."); desc = end + 1; } while (*end); } } bool rxvt_fontset::realize_font (int i) { if (i < 0 || i >= fonts.size ()) return false; if (fonts[i]->loaded) return true; fonts[i]->loaded = true; if (!fonts[i]->load (prop, force_prop)) { fonts[i]->cs = CS_UNKNOWN; return false; } return true; } bool rxvt_fontset::populate (const char *desc) { clear (); fontdesc = strdup (desc); fonts.push_back (new_font (0, CS_UNICODE)); realize_font (0); add_fonts (desc); return true; } int rxvt_fontset::find_font (const char *name) const { for (rxvt_font *const *f = fonts.begin (); f < fonts.end (); f++) if ((*f)->name && !strcmp ((*f)->name, name)) return f - fonts.begin (); return -1; } int rxvt_fontset::find_font (unicode_t unicode) { if (unicode >= 1<<20) return 0; unicode_t hi = unicode >> 8; if (hi < fmap.size () && fmap[hi] && (*fmap[hi])[unicode & 0xff] != 0xff) return (*fmap[hi])[unicode & 0xff]; unsigned int i; for (i = 0; i < fonts.size (); i++) { rxvt_font *f = fonts[i]; if (!f->loaded) { if (FROM_UNICODE (f->cs, unicode) == NOCHAR) goto next_font; if (!realize_font (i)) goto next_font; if (prop.ascent != rxvt_fontprop::unset) max_it (f->ascent, prop.ascent); } if (f->cs == CS_UNKNOWN) goto next_font; bool careful; if (f->has_char (unicode, &prop, careful)) { if (careful) i |= 128; goto found; } next_font: if (i == fonts.size () - 1) { if (fallback->name) { // search through the fallback list fonts.push_back (new_font (fallback->name, fallback->cs)); fallback++; } else { // try to find a new font. // only xft currently supported, as there is no // way to configure this and xft is easier to hack in, // while x11 has more framework in place already. // TODO: this is a real resource hog, xft takes ages(?) #if XFT && USE_SLOW_LOOKUP // grab the first xft font that seems suitable FcPattern *p = FcPatternCreate (); FcCharSet *s = FcCharSetCreate (); FcCharSetAddChar (s, unicode); FcPatternAddCharSet (p, FC_CHARSET, s); // charsets don't help that much, as xft might return // a non-matching font even if a better font is available :/ x x x x TODO prop might have unset contents FcPatternAddInteger (p, FC_PIXEL_SIZE, prop.height); FcPatternAddInteger (p, FC_WEIGHT, prop.weight); FcPatternAddInteger (p, FC_SLANT, prop.slant); FcPatternAddBool (p, FC_MINSPACE, 1); //FcPatternAddBool (p, FC_ANTIALIAS, 1); XftResult result; FcPattern *match = XftFontMatch (term->dpy, term->display->screen, p, &result); FcPatternDestroy (p); if (match) { FcPatternDel (match, FC_CHARSET); char *font = (char *)FcNameUnparse (match); FcPatternDestroy (match); if (find_font (font) < 0) { char fontname[4096]; sprintf (fontname, "xft:%-.4090s", font); fonts.push_back (new_font (fontname, CS_UNICODE)); } free (font); } #endif } } } /* we must return SOME font */ i = 0; found: // found a font, cache it if (i < 255) { while (hi >= fmap.size ()) fmap.push_back (0); if (!fmap[hi]) { fmap[hi] = (pagemap *)new pagemap; memset (fmap[hi], 0xff, sizeof (pagemap)); } (*fmap[hi])[unicode & 0xff] = i; } return i; }