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Comparing rxvt-unicode/src/rxvtfont.C (file contents):
Revision 1.52 by root, Sat Dec 4 02:56:06 2004 UTC vs.
Revision 1.223 by sf-exg, Sat Aug 19 17:44:35 2023 UTC

1	/*--------------------------------*-C-*---------------------------------*	1	/*----------------------------------------------------------------------*
2	* File: defaultfont.C	2	* File: rxvtfont.C
3	*----------------------------------------------------------------------*	3	*----------------------------------------------------------------------*
4	* Copyright (c) 2003-2004 Marc Lehmann <pcg@goof.com>	4	* Copyright (c) 2003-2008 Marc Lehmann <schmorp@schmorp.de>
5	* - original version.	5	* - original version.
6	*	6	*
7	* This program is free software; you can redistribute it and/or modify	7	* This program is free software; you can redistribute it and/or modify
8	* it under the terms of the GNU General Public License as published by	8	* it under the terms of the GNU General Public License as published by
9	* the Free Software Foundation; either version 2 of the License, or	9	* the Free Software Foundation; either version 3 of the License, or
10	* (at your option) any later version.	10	* (at your option) any later version.
11	*	11	*
12	* This program is distributed in the hope that it will be useful,	12	* This program is distributed in the hope that it will be useful,
13	* but WITHOUT ANY WARRANTY; without even the implied warranty of	13	* but WITHOUT ANY WARRANTY; without even the implied warranty of
14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the	14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15	* GNU General Public License for more details.	15	* GNU General Public License for more details.
16	*	16	*
17	* You should have received a copy of the GNU General Public License	17	* You should have received a copy of the GNU General Public License
18	* along with this program; if not, write to the Free Software	18	* along with this program; if not, write to the Free Software
19	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA	19	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
20	*---------------------------------------------------------------------*/	20	*---------------------------------------------------------------------*/
21		21
22	#include "../config.h"	22	#include "../config.h"
23	#include "rxvt.h"	23	#include "rxvt.h"
24	#include "rxvtutil.h"	24	#include "rxvtutil.h"
25	#include "rxvtfont.h"	25	#include "rxvtfont.h"
26		26
27	#include <cstdlib>	27	#include <stdlib.h>
28	#include <wchar.h>	28
29	#include <inttypes.h>	29	#include <inttypes.h>
30		30
31	#define DISPLAY r->display->display	31	#if XFT
32	#define TGC r->TermWin.gc	32	# include <fontconfig/fontconfig.h>
		33	#endif
33		34
34	#define MAX_OVERLAP (4 + 1) // max. character width in 4ths of the base width	35	#define MAX_OVERLAP_ROMAN (8 + 2) // max. character width in 8ths of the base width
		36	#define MAX_OVERLAP_ITALIC (8 + 3) // max. overlap for italic fonts
35		37
		38	#define OVERLAP_OK(w,wcw,prop) ((w) <= ( \
		39	(prop)->slant >= rxvt_fontprop::italic \
		40	? ((prop)->width * (wcw) * MAX_OVERLAP_ITALIC + 7) >> 3 \
		41	: ((prop)->width * (wcw) * MAX_OVERLAP_ROMAN + 7) >> 3 \
		42	))
		43
36	const struct rxvt_fallback_font {	44	static const struct rxvt_fallback_font {
37	codeset cs;	45	codeset cs;
38	const char *name;	46	const char *name;
39	} fallback_fonts[] = {	47	} fallback_fonts[] = {
40	{ CS_ISO8859_1, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-1" },	48	{ CS_ISO8859_1, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-1" },
41	{ CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-15" },	49	{ CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-15" },
42	{ CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-fcd8859-15" },	50	{ CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-fcd8859-15" },
43		51
44	#if ENCODING_EU	52	#if ENCODING_EU
45	// cyrillic	53	// cyrillic
46	{ CS_KOI8_R, "-*-*-*-r-*--*-*-*-*-c-*-koi8-r" },	54	{ CS_KOI8_R, "-*-*-*-r-*--*-*-*-*-c-*-koi8-r" },
47	{ CS_KOI8_U, "-*-*-*-r-*--*-*-*-*-c-*-koi8-u" },	55	{ CS_KOI8_U, "-*-*-*-r-*--*-*-*-*-c-*-koi8-u" },
48		56
49	{ CS_ISO8859_2, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-2" },	57	{ CS_ISO8859_2, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-2" },
50	{ CS_ISO8859_3, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-3" },	58	{ CS_ISO8859_3, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-3" },
51	{ CS_ISO8859_4, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-4" },	59	{ CS_ISO8859_4, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-4" },
52	{ CS_ISO8859_5, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-5" },	60	{ CS_ISO8859_5, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-5" },
53	{ CS_ISO8859_6, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-6" },	61	{ CS_ISO8859_6, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-6" },
…		…
59	{ CS_ISO8859_13, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-13" },	67	{ CS_ISO8859_13, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-13" },
60	{ CS_ISO8859_14, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-14" },	68	{ CS_ISO8859_14, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-14" },
61	{ CS_ISO8859_16, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-16" },	69	{ CS_ISO8859_16, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-16" },
62		70
63	# if XFT	71	# if XFT
64	{ CS_KOI8_U, "xft::spacing=100:lang=ru:antialias=false" },	72	{ CS_KOI8_U, "xft::lang=ru" },
65		73
66	{ CS_ISO8859_5, "xft::spacing=100:lang=ru:antialias=false" },	74	{ CS_ISO8859_5, "xft::lang=ru" },
67	{ CS_ISO8859_6, "xft::spacing=100:lang=ar:antialias=false" },	75	{ CS_ISO8859_6, "xft::lang=ar" },
68	{ CS_ISO8859_7, "xft::spacing=100:lang=el:antialias=false" },	76	{ CS_ISO8859_7, "xft::lang=el" },
69	{ CS_ISO8859_8, "xft::spacing=100:lang=he:antialias=false" },	77	{ CS_ISO8859_8, "xft::lang=he" },
70	{ CS_ISO8859_9, "xft::spacing=100:lang=tr:antialias=false" },	78	{ CS_ISO8859_9, "xft::lang=tr" },
71	{ CS_ISO8859_10, "xft::spacing=100:lang=se:antialias=false" },	79	{ CS_ISO8859_10, "xft::lang=se" },
72	{ CS_ISO8859_11, "xft::spacing=100:lang=th:antialias=false" },	80	{ CS_ISO8859_11, "xft::lang=th" },
73	# endif	81	# endif
74	#endif	82	#endif
75		83
76	// japanese	84	// japanese
77	#if ENCODING_JP || ENCODING_JP_EXT	85	#if ENCODING_JP || ENCODING_JP_EXT
78	# if XFT	86	# if XFT
79	// prefer xft for complex scripts	87	// prefer xft for complex scripts
		88	{ CS_JIS0208_1990_0, "xft:Sazanami Mincho:antialias=false" },
80	{ CS_JIS0208_1990_0, "xft:Kochi Gothic:antialias=false" },	89	{ CS_JIS0208_1990_0, "xft:Kochi Gothic:antialias=false" },
81	{ CS_JIS0208_1990_0, "xft:Sazanami Mincho:antialias=false" },
82	{ CS_JIS0208_1990_0, "xft:Mincho:antialias=false" },	90	{ CS_JIS0208_1990_0, "xft:Mincho:antialias=false" },
83	{ CS_JIS0208_1990_0, "xft::lang=ja:spacing=100:antialias=false" },	91	{ CS_JIS0208_1990_0, "xft::lang=ja:antialias=false" },
84	# endif	92	# endif
85	{ CS_JIS0201_1976_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0201*-0" },	93	{ CS_JIS0201_1976_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0201*-0" },
86	{ CS_JIS0208_1990_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0208*-0" },	94	{ CS_JIS0208_1990_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0208*-0" },
87	{ CS_JIS0212_1990_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0212*-0" },	95	{ CS_JIS0212_1990_0, "-*-mincho-*-r-*--*-*-*-*-c-*-jisx0212*-0" },
88	{ CS_JIS0201_1976_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0201*-0" },	96	{ CS_JIS0201_1976_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0201*-0" },
…		…
90	{ CS_JIS0212_1990_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0212*-0" },	98	{ CS_JIS0212_1990_0, "-*-*-*-r-*--*-*-*-*-c-*-jisx0212*-0" },
91	#endif	99	#endif
92		100
93	#if ENCODING_ZH || ENCODING_ZH_EXT	101	#if ENCODING_ZH || ENCODING_ZH_EXT
94	# if XFT	102	# if XFT
		103	{ CS_GBK_0, "xft:AR PL KaitiM GB" },
		104	{ CS_GBK_0, "xft:AR PL SungtiL GB" },
		105	{ CS_GBK_0, "xft::lang=zh" },
95	{ CS_BIG5_EXT, "xft:AR PL Mingti2L Big5" },	106	{ CS_BIG5_EXT, "xft:AR PL Mingti2L Big5" },
96	{ CS_BIG5_EXT, "xft:AR PL KaitiM Big5" },	107	{ CS_BIG5_EXT, "xft:AR PL KaitiM Big5" },
97	{ CS_GB2312_1980_0, "xft:AR PL KaitiM GB" },	108	{ CS_GB2312_1980_0, "xft:AR PL KaitiM GB" },
98	{ CS_GB2312_1980_0, "xft:AR PL SungtiL GB" },	109	{ CS_GB2312_1980_0, "xft:AR PL SungtiL GB" },
99	{ CS_GB2312_1980_0, "xft::spacing=100:lang=zh" },	110	{ CS_GB2312_1980_0, "xft::lang=zh" },
100	# endif	111	# endif
		112	{ CS_GBK_0, "-*-*-*-*-*-*-*-*-*-*-c-*-gbk*-0" },
101	{ CS_BIG5, "-*-*-*-*-*-*-*-*-*-*-c-*-big5-0" },	113	{ CS_BIG5, "-*-*-*-*-*-*-*-*-*-*-c-*-big5-0" },
102	{ CS_BIG5_PLUS, "-*-*-*-*-*-*-*-*-*-*-c-*-big5p-0" },	114	{ CS_BIG5_PLUS, "-*-*-*-*-*-*-*-*-*-*-c-*-big5p-0" },
103	{ CS_BIG5_EXT, "-*-*-*-*-*-*-*-*-*-*-c-*-big5.eten-0" },	115	{ CS_BIG5_EXT, "-*-*-*-*-*-*-*-*-*-*-c-*-big5.eten-0" },
		116	{ CS_GB2312_1980_0, "-*-*-*-*-*-*-*-*-*-*-c-*-gb2312*-0" },
104	{ CS_CNS11643_1992_1, "-*-*-*-*-*-*-*-*-*-*-c-*-gb2312*-0" },	117	{ CS_CNS11643_1992_1, "-*-*-*-*-*-*-*-*-*-*-c-*-gb2312*-0" },
105	{ CS_CNS11643_1992_1, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-1" },	118	{ CS_CNS11643_1992_1, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-1" },
106	{ CS_CNS11643_1992_2, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-2" },	119	{ CS_CNS11643_1992_2, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-2" },
107	{ CS_CNS11643_1992_3, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-3" },	120	{ CS_CNS11643_1992_3, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-3" },
108	{ CS_CNS11643_1992_4, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-4" },	121	{ CS_CNS11643_1992_4, "-*-*-*-*-*-*-*-*-*-*-c-*-cns11643*-4" },
…		…
115	#if ENCODING_KR	128	#if ENCODING_KR
116	{ CS_KSC5601_1987_0, "-baekmuk-gulim-*-*-*-*-*-*-*-*-c-*-ksc5601*" },	129	{ CS_KSC5601_1987_0, "-baekmuk-gulim-*-*-*-*-*-*-*-*-c-*-ksc5601*" },
117	{ CS_KSC5601_1987_0, "-*-*-*-*-*-*-*-*-*-*-c-*-ksc5601*" },	130	{ CS_KSC5601_1987_0, "-*-*-*-*-*-*-*-*-*-*-c-*-ksc5601*" },
118	# if XFT	131	# if XFT
119	{ CS_KSC5601_1987_0, "xft:Baekmuk Gulim:antialias=false" },	132	{ CS_KSC5601_1987_0, "xft:Baekmuk Gulim:antialias=false" },
120	{ CS_KSC5601_1987_0, "xft::spacing=100:lang=ko:antialias=false" },	133	{ CS_KSC5601_1987_0, "xft::lang=ko:antialias=false" },
121	# endif	134	# endif
122	#endif	135	#endif
123		136
124	// generic font fallback	137	//{ CS_UNICODE, "-*-unifont-*-*-*-*-*-*-*-*-c-*-iso10646-1" }, // this gem of a font has actual dotted circles within the combining character glyphs.
125	{ CS_UNICODE, "-*-lucidatypewriter-*-*-*-*-*-*-*-*-m-*-iso10646-1" },
126	{ CS_UNICODE, "-*-unifont-*-*-*-*-*-*-*-*-c-*-iso10646-1" },
127	{ CS_UNICODE, "-*-*-*-r-*-*-*-*-*-*-c-*-iso10646-1" },
128	{ CS_UNICODE, "-*-*-*-r-*-*-*-*-*-*-m-*-iso10646-1" },
129	#if XFT	138	#if XFT
130	{ CS_UNICODE, "xft:Bitstream Vera Sans Mono:antialias=false:autohint=true"},	139	{ CS_UNICODE, "xft:DejaVu Sans Mono:antialias=false:autohint=true" },
131	{ CS_UNICODE, "xft:Courier New:antialias=false:autohint=true" },	140	{ CS_UNICODE, "xft:Courier New:antialias=false:autohint=true" },
132	{ CS_UNICODE, "xft:Andale Mono:antialias=false" },	141	{ CS_UNICODE, "xft:Andale Mono:antialias=false:autohint=false" },
133	{ CS_UNICODE, "xft:Arial Unicode MS:antialias=false" },	142	{ CS_UNICODE, "xft:Arial Unicode MS:antialias=false:autohint=false" },
134		143
135	// FreeMono is usually uglier than x fonts, so try last only.	144	// FreeMono is usually uglier than x fonts, so try after the others
136	{ CS_UNICODE, "xft:FreeMono:autohint=true" },	145	{ CS_UNICODE, "xft:FreeMono:autohint=true" },
137	#endif	146	#endif
138		147
		148	// generic font fallback, put this last, as many iso10646 fonts have extents
		149	// specified for all glyphs in the range they cover, but most are simply empty
		150	//{ CS_UNICODE, "-*-*-*-r-*-*-*-*-*-*-c-*-iso10646-1" },
		151	//{ CS_UNICODE, "-*-*-*-r-*-*-*-*-*-*-m-*-iso10646-1" },
139	{ CS_UNKNOWN, 0 }	152	{ CS_UNKNOWN, 0 }
140	};	153	};
141		154
142	// these characters are used to guess the font height and width	155	// these characters are used to guess the font height and width
143	// pango uses a similar algorithm and eosn't trust the font either.	156	// pango uses a similar algorithm and doesn't trust the font either.
144	static uint16_t extent_test_chars[] = {	157	static uint16_t extent_test_chars[] = {
145	'0', '1', '8', 'a', 'd', 'x', 'm', 'y', 'g', 'W', 'X', '\'', '_',	158	'0', '1', '8', 'a', 'd', 'x', 'm', 'y', 'g', 'W', 'X', '\'', '_',
146	0x00cd, 0x00d5, 0x0114, 0x0177, 0x0643, // ÍÕĔŷﻙ	159	0x00cd, 0x00d5, 0x0114, 0x0177, 0x0643, // ÍÕĔŷﻙ
147	0x304c, 0x672c, // が本	160	0x304c, 0x672c, // が本
148	};	161	};
149		162
150	#define NUM_EXTENT_TEST_CHARS (sizeof (extent_test_chars) / sizeof (extent_test_chars[0]))	163	#define dTermDisplay Display *disp = term->dpy
		164	#define dTermGC GC gc = term->gc
151		165
152	/////////////////////////////////////////////////////////////////////////////	166	/////////////////////////////////////////////////////////////////////////////
153
154	#if XFT
155	rxvt_drawable::~rxvt_drawable ()
156	{
157	if (xftdrawable)
158	XftDrawDestroy (xftdrawable);
159	}
160
161	rxvt_drawable::operator XftDraw *()
162	{
163	if (!xftdrawable)
164	xftdrawable = XftDrawCreate (display->display, drawable, display->visual, display->cmap);
165
166	return xftdrawable;
167	}
168	#endif
169
170	/////////////////////////////////////////////////////////////////////////////
171
172	static void *enc_buf;
173	static uint32_t enc_len;
174
175	static inline void *
176	get_enc_buf (uint32_t len)
177	{
178	if (len > enc_len)
179	{
180	free (enc_buf);
181	enc_buf = malloc (len);
182	enc_len = len;
183	}
184
185	return enc_buf;
186	}
187		167
188	static const char *	168	static const char *
189	enc_char (const text_t *text, uint32_t len, codeset cs, bool &zero)	169	enc_char (const text_t *text, uint32_t len, codeset cs, bool &zero)
190	{	170	{
191	uint8_t *buf = (uint8_t *)get_enc_buf (len);	171	uint8_t *buf = rxvt_temp_buf<uint8_t> (len);
		172	uint8_t *res = buf;
192		173
193	while (len--)	174	while (len--)
194	{	175	{
195	uint32_t c = FROM_UNICODE (cs, *text++);	176	uint32_t c = FROM_UNICODE (cs, *text++);
196		177
…		…
201	}	182	}
202		183
203	*buf++ = c;	184	*buf++ = c;
204	}	185	}
205		186
206	return (const char *)enc_buf;	187	return (const char *)res;
207	}	188	}
208		189
209	static const XChar2b *	190	static const XChar2b *
210	enc_xchar2b (const text_t *text, uint32_t len, codeset cs, bool &zero)	191	enc_xchar2b (const text_t *text, uint32_t len, codeset cs, bool &zero)
211	{	192	{
212	XChar2b *buf = (XChar2b *)get_enc_buf (len * sizeof (XChar2b));	193	XChar2b *buf = rxvt_temp_buf<XChar2b> (len);
		194	XChar2b *res = buf;
213		195
214	while (len--)	196	while (len--)
215	{	197	{
216	uint32_t c = FROM_UNICODE (cs, *text++);	198	uint32_t c = FROM_UNICODE (cs, *text++);
217		199
…		…
224	buf->byte1 = c >> 8;	206	buf->byte1 = c >> 8;
225	buf->byte2 = c;	207	buf->byte2 = c;
226	buf++;	208	buf++;
227	}	209	}
228		210
229	return (XChar2b *)enc_buf;	211	return res;
230	}	212	}
231		213
232	/////////////////////////////////////////////////////////////////////////////	214	/////////////////////////////////////////////////////////////////////////////
233		215
		216	rxvt_font::rxvt_font ()
		217	: name(0), width(rxvt_fontprop::unset), height(rxvt_fontprop::unset)
		218	{
		219	}
		220
234	void	221	void
235	rxvt_font::set_name (char *name)	222	rxvt_font::set_name (char *name_)
236	{	223	{
237	if (this->name == name)	224	if (name == name_)
238	return;	225	return;
239		226
240	if (this->name) free (this->name); // let the compiler optimize	227	if (name) free (name); // let the compiler optimize
241	this->name = name;	228	name = name_;
242	}	229	}
243		230
244	void	231	void
245	rxvt_font::clear_rect (rxvt_drawable &d, int x, int y, int w, int h, int color)	232	rxvt_font::clear_rect (rxvt_drawable &d, int x, int y, int w, int h, int color) const
246	{	233	{
247	if (color == Color_bg)	234	dTermDisplay;
248	XClearArea (d.display->display, d, x, y, w, h, FALSE);	235	dTermGC;
		236
		237	if (color == Color_bg || color == Color_transparent)
		238	XClearArea (disp, d, x, y, w, h, false);
249	else if (color >= 0)	239	else if (color >= 0)
250	{	240	{
251	#if XFT	241	#if XFT
		242	Picture dst;
		243
		244	# ifdef HAVE_IMG
		245	if (term->bg_img
		246	&& !term->pix_colors[color].is_opaque ()
		247	&& ((dst = XftDrawPicture (d))))
		248	{
		249	XClearArea (disp, d, x, y, w, h, false);
		250
		251	Picture solid_color_pict = XftDrawSrcPicture (d, &term->pix_colors[color].c);
		252	XRenderComposite (disp, PictOpOver, solid_color_pict, None, dst, 0, 0, 0, 0, x, y, w, h);
		253	}
		254	else
		255	# endif
252	XftDrawRect (d, &r->pix_colors[color].c, x, y, w, h);	256	XftDrawRect (d, &term->pix_colors[color].c, x, y, w, h);
		257
253	#else	258	#else
254	XSetForeground (d.display->display, TGC, r->pix_colors[color]);	259	XSetForeground (disp, gc, term->pix_colors[color]);
255	XFillRectangle (d.display->display, d, TGC, x, y, w, h);	260	XFillRectangle (disp, d, gc, x, y, w, h);
256	#endif	261	#endif
257	}	262	}
258	}	263	}
259		264
260	#include "table/linedraw.h"	265	/////////////////////////////////////////////////////////////////////////////
261		266
262	struct rxvt_font_default : rxvt_font {	267	struct rxvt_font_default : rxvt_font
		268	{
263	struct rxvt_fontset *fs;	269	struct rxvt_fontset *fs;
264		270
265	rxvt_font_default (rxvt_fontset *fs)	271	rxvt_font_default (rxvt_fontset *fs)
266	: rxvt_font ()	272	: rxvt_font ()
267	{	273	{
…		…
271	rxvt_fontprop properties ()	277	rxvt_fontprop properties ()
272	{	278	{
273	rxvt_fontprop p;	279	rxvt_fontprop p;
274		280
275	p.width = p.height = 1;	281	p.width = p.height = 1;
		282	p.ascent = rxvt_fontprop::unset;
276	p.weight = rxvt_fontprop::medium;	283	p.weight = rxvt_fontprop::medium;
277	p.slant = rxvt_fontprop::roman;	284	p.slant = rxvt_fontprop::roman;
278		285
279	return p;	286	return p;
280	}	287	}
281		288
282	bool load (const rxvt_fontprop &prop)	289	bool load (const rxvt_fontprop &prop, bool force_prop)
283	{	290	{
284	width = 1; height = 1;	291	width = 1; height = 1;
285	ascent = 1; descent = 0;	292	ascent = 1; descent = 0;
286		293
287	set_name (strdup ("built-in support font"));	294	set_name (strdup ("built-in support font"));
288		295
289	return true;	296	return true;
290	}	297	}
291		298
292	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful)	299	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const
293	{	300	{
294	careful = false;	301	careful = false;
295		302
296	if (unicode <= 0x001f)	303	if (unicode <= 0x001f)
297	return true;	304	return true;
…		…
300	return false;	307	return false;
301		308
302	if (unicode <= 0x009f)	309	if (unicode <= 0x009f)
303	return true;	310	return true;
304		311
		312	#ifdef BUILTIN_GLYPHS
305	if (unicode >= 0x2500 && unicode <= 0x259f)	313	if (unicode >= 0x2500 && unicode <= 0x259f &&
		314	!term->option (Opt_skipBuiltinGlyphs))
306	return true;	315	return true;
		316	#endif
307		317
308	if (IS_COMPOSE (unicode))	318	// we do not check for IS_COMPOSE here, as this would
309	return true;	319	// rob other fonts from taking over.
310		320
311	switch (unicode)	321	switch (unicode)
312	{	322	{
313	case ZERO_WIDTH_CHAR:	323	case ZERO_WIDTH_CHAR:
314	case NOCHAR:	324	case NOCHAR:
…		…
326	void	336	void
327	rxvt_font_default::draw (rxvt_drawable &d, int x, int y,	337	rxvt_font_default::draw (rxvt_drawable &d, int x, int y,
328	const text_t *text, int len,	338	const text_t *text, int len,
329	int fg, int bg)	339	int fg, int bg)
330	{	340	{
		341	dTermDisplay;
		342	dTermGC;
		343
331	clear_rect (d, x, y, r->TermWin.fwidth * len, r->TermWin.fheight, bg);	344	clear_rect (d, x, y, term->fwidth * len, term->fheight, bg);
332		345
333	XSetForeground (d.display->display, TGC, r->pix_colors[fg]);	346	XSetForeground (disp, gc, term->pix_colors[fg]);
334		347
335	while (len--)	348	while (len)
336	{	349	{
		350	const text_t *tp = text;
		351	text_t t = *tp;
		352
		353	while (++text, --len && *text == NOCHAR)
		354	;
		355
337	#if ENABLE_COMBINING	356	#if ENABLE_COMBINING
338	compose_char *cc;	357	compose_char *cc;
339	#endif	358	#endif
340	text_t t = *text++;	359	int width = text - tp;
		360	int fwidth = term->fwidth * width;
341		361
		362	#ifdef BUILTIN_GLYPHS
342	if (0x2500 <= t && t <= 0x259f)	363	if (0x2500 <= t && t <= 0x259f)
343	{	364	{
		365	# include "table/linedraw.h"
344	uint16_t offs = linedraw_offs[t - 0x2500];	366	uint16_t offs = linedraw_offs[t - 0x2500];
345	uint32_t *a = linedraw_command + (offs >> 4);	367	uint32_t *a = linedraw_command + (offs >> 4);
346	uint32_t *b = a + (offs & 15);	368	uint32_t *b = a + (offs & 15);
347		369
348	int W = r->TermWin.fwidth;	370	int W = fwidth;
349	int H = r->TermWin.fheight;	371	int H = term->fheight;
350
351	// support double-width (but not more) graphics chars
352	// TODO: do this outside the if/elsif.. statement for all cases
353	if (len && *text == NOCHAR)
354	W += r->TermWin.fwidth;
355		372
356	int x_[16];	373	int x_[16];
357	int y_[16];	374	int y_[16];
358		375
359	for (int i = 0; i <= 8; i++)	376	for (int i = 0; i <= 8; i++)
…		…
367		384
368	XGCValues gcv;	385	XGCValues gcv;
369		386
370	gcv.cap_style = CapButt;	387	gcv.cap_style = CapButt;
371	gcv.line_width = 0;	388	gcv.line_width = 0;
372	XChangeGC (d.display->display, TGC, GCLineWidth | GCCapStyle, &gcv);	389	XChangeGC (disp, gc, GCLineWidth | GCCapStyle, &gcv);
373		390
374	while (a < b)	391	while (a < b)
375	{	392	{
376	uint32_t command = *a++;	393	uint32_t command = *a++;
377		394
…		…
384	int y2 = y_[(command >> 0) & 15];	401	int y2 = y_[(command >> 0) & 15];
385		402
386	switch (op)	403	switch (op)
387	{	404	{
388	case 0: // line	405	case 0: // line
389	XDrawLine (d.display->display, d, TGC, x1, y1, x2, y2);	406	XDrawLine (disp, d, gc, x1, y1, x2, y2);
390	break;	407	break;
391		408
392	case 1: // rectangle, possibly stippled	409	case 1: // rectangle, possibly stippled
393	if (a)	410	if (a)
394	{	411	{
395	static char bm[] = { 0,0 , 3,1 , 1,2 , 1,0 };	412	static char bm[] = { 0,0 , 3,1 , 1,2 , 1,0 };
396		413
397	gcv.fill_style = FillStippled;	414	gcv.fill_style = FillStippled;
398	gcv.stipple = XCreateBitmapFromData (d.display->display, d, bm + a * 2, 2, 2);	415	gcv.stipple = XCreateBitmapFromData (disp, d, bm + a * 2, 2, 2);
399	gcv.ts_x_origin = x;	416	gcv.ts_x_origin = x;
400	gcv.ts_y_origin = y;	417	gcv.ts_y_origin = y;
401		418
402	XChangeGC (d.display->display, TGC,	419	XChangeGC (disp, gc,
403	GCFillStyle | GCStipple | GCTileStipXOrigin | GCTileStipYOrigin,	420	GCFillStyle | GCStipple | GCTileStipXOrigin | GCTileStipYOrigin,
404	&gcv);	421	&gcv);
405	}	422	}
406		423
407	XFillRectangle (d.display->display, d, TGC, x1, y1, x2 - x1 + 1, y2 - y1 + 1);	424	XFillRectangle (disp, d, gc, x1, y1, x2 - x1 + 1, y2 - y1 + 1);
408		425
409	if (a)	426	if (a)
410	{	427	{
411	XFreePixmap (d.display->display, gcv.stipple);	428	XFreePixmap (disp, gcv.stipple);
412	gcv.stipple = 0;	429	gcv.stipple = 0;
413	gcv.fill_style = FillSolid;	430	gcv.fill_style = FillSolid;
414	XChangeGC (d.display->display, TGC, GCFillStyle, &gcv);	431	XChangeGC (disp, gc, GCFillStyle, &gcv);
415	}	432	}
416	break;	433	break;
417	case 2: // arc	434	case 2: // arc
418	XDrawArc (d.display->display, d, TGC,	435	XDrawArc (disp, d, gc,
419	x1 - W/2, y1 - H/2, W-1, H-1,	436	x1 - W/2, y1 - H/2, W-1, H-1,
420	(a - 1) * 90*64, (b - 1) * 90*64);	437	(a - 1) * 90*64, (b - 1) * 90*64);
421	break;	438	break;
422	}	439	}
423	}	440	}
424	}	441	}
		442	#else
		443	if (0)
		444	;
		445	#endif
425	#if ENABLE_COMBINING	446	#if ENABLE_COMBINING
426	else if (IS_COMPOSE (t) && (cc = rxvt_composite[t]))	447	else if (IS_COMPOSE (t) && (cc = rxvt_composite[t]))
427	{	448	{
		449	min_it (width, 2); // we only support wcwidth up to 2
428	text_t c2[2];	450	text_t chrs[2];
429	int len2 = 1;	451	chrs [1] = NOCHAR;
430
431	// support double-width (but not more) combining characters
432	if (len && *text == NOCHAR)
433	{
434	c2[1] = *text; // not text++ to get correct x-width
435	len2++;
436	}
437		452
438	c2[0] = cc->c1;	453	*chrs = cc->c1;
439	rxvt_font *f1 = (*fs)[fs->find_font (c2[0])];	454	rxvt_font *f1 = (*fs)[fs->find_font_idx (cc->c1)];
440	f1->draw (d, x, y, c2, len2, fg, bg);	455	f1->draw (d, x, y, chrs, width, fg, bg);
441		456
442	if (cc->c2 != NOCHAR)	457	if (cc->c2 != NOCHAR)
443	{	458	{
444	bool careful;	459	bool careful;
445		460
446	// prefer font of first character, for no good reasons	461	// prefer font of first character, for no good reasons
447	c2[0] = cc->c2;	462	*chrs = cc->c2;
448	rxvt_font *f2 = (f1->has_char (c2[0], 0, careful) && !careful)	463	rxvt_font *f2 = (f1->has_char (cc->c2, 0, careful) && !careful)
449	? f1	464	? f1
450	: (*fs)[fs->find_font (c2[0])];	465	: (*fs)[fs->find_font_idx (cc->c2)];
451		466
452	f2->draw (d, x, y, c2, len2, fg, -1);	467	f2->draw (d, x, y, chrs, width, fg, Color_none);
453	}	468	}
454	}	469	}
455	#endif	470	#endif
456	else	471	else
457	switch (t)	472	switch (t)
…		…
459	case '\t':	474	case '\t':
460	case ZERO_WIDTH_CHAR:	475	case ZERO_WIDTH_CHAR:
461	case NOCHAR:	476	case NOCHAR:
462	break;	477	break;
463		478
		479	/*
		480	* If the base font does not support variation selectors, treat them as ZWC.
		481	* a point could be made to do this for all wcwidth == 0 characters, but I
		482	* decided against that until more data is available.
		483	*/
		484	case 0xfe00: case 0xfe01: case 0xfe02: case 0xfe03: case 0xfe04: case 0xfe05: case 0xfe06: case 0xfe07:
		485	case 0xfe08: case 0xfe09: case 0xfe0a: case 0xfe0b: case 0xfe0c: case 0xfe0d: case 0xfe0e: case 0xfe0f:
		486	break;
		487
464	default:	488	default:
465	int w = 0;
466	while (len > 0 && *text == NOCHAR)
467	{
468	++text;
469	--len;
470	w += r->TermWin.fwidth;
471	}
472
473	XDrawRectangle (d.display->display, d, TGC, x + 2, y + 2,	489	XDrawRectangle (disp, d, gc, x + 2, y + 2,
474	w + r->TermWin.fwidth - 4, r->TermWin.fheight - 4);	490	fwidth - 4, term->fheight - 4);
475	x += w;
476	}	491	}
477		492
478	x += r->TermWin.fwidth;	493	x += fwidth;
		494	}
		495	}
		496
		497	struct rxvt_font_overflow : rxvt_font
		498	{
		499	struct rxvt_fontset *fs;
		500
		501	rxvt_font_overflow (rxvt_fontset *fs)
		502	: rxvt_font ()
		503	{
		504	this->fs = fs;
		505	}
		506
		507	rxvt_fontprop properties ()
		508	{
		509	rxvt_fontprop p;
		510
		511	p.width = p.height = 1;
		512	p.ascent = rxvt_fontprop::unset;
		513	p.weight = rxvt_fontprop::medium;
		514	p.slant = rxvt_fontprop::roman;
		515
		516	return p;
		517	}
		518
		519	bool load (const rxvt_fontprop &prop, bool force_prop)
		520	{
		521	width = 1; height = 1;
		522	ascent = 1;
		523	descent = (*fs)[2]->descent;
		524
		525	set_name (strdup ("built-in rendition overflow font"));
		526
		527	return true;
		528	}
		529
		530	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const
		531	{
		532	return false;
		533	}
		534
		535	void draw (rxvt_drawable &d, int x, int y,
		536	const text_t *text, int len,
		537	int fg, int bg)
		538	{
		539	while (len)
		540	{
		541	int fid = fs->find_font_idx (*text);
		542	int w = 1;
		543	while (w < len && text[w] == NOCHAR)
		544	w++;
		545	(*fs)[fid]->draw (d, x, y, text, w, fg, bg);
		546	text += w;
		547	len -= w;
		548	x += term->fwidth * w;
479	}	549	}
480	}	550	}
		551	};
481		552
482	/////////////////////////////////////////////////////////////////////////////	553	/////////////////////////////////////////////////////////////////////////////
483		554
484	struct rxvt_font_x11 : rxvt_font {	555	struct rxvt_font_x11 : rxvt_font
		556	{
485	rxvt_font_x11 () { f = 0; }	557	rxvt_font_x11 () { f = 0; }
486		558
487	void clear ();	559	void clear ();
488		560
489	rxvt_fontprop properties ();	561	rxvt_fontprop properties ();
490		562
491	bool load (const rxvt_fontprop &prop);	563	bool load (const rxvt_fontprop &prop, bool force_prop);
492		564
493	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful);	565	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const;
494		566
495	void draw (rxvt_drawable &d, int x, int y,	567	void draw (rxvt_drawable &d, int x, int y,
496	const text_t *text, int len,	568	const text_t *text, int len,
497	int fg, int bg);	569	int fg, int bg);
498		570
499	bool slow; // wether this is a proportional font or has other funny characteristics	571	bool slow; // whether this is a proportional font or has other funny characteristics
500	XFontStruct *f;	572	XFontStruct *f;
501	codeset cs;
502	bool enc2b, encm;	573	bool enc2b, encm;
503		574
504	char *get_property (XFontStruct *f, const char *property, const char *repl) const;	575	char *get_property (XFontStruct *f, Atom property, const char *repl) const;
505	bool set_properties (rxvt_fontprop &p, int height, const char *weight, const char *slant, int avgwidth);	576	bool set_properties (rxvt_fontprop &p, int height, const char *weight, const char *slant, int avgwidth);
506	bool set_properties (rxvt_fontprop &p, XFontStruct *f);	577	bool set_properties (rxvt_fontprop &p, XFontStruct *f);
507	bool set_properties (rxvt_fontprop &p, const char *name);	578	bool set_properties (rxvt_fontprop &p, const char *name);
508	};	579	};
509		580
510	char *	581	char *
511	rxvt_font_x11::get_property (XFontStruct *f, const char *property, const char *repl) const	582	rxvt_font_x11::get_property (XFontStruct *f, Atom property, const char *repl) const
512	{	583	{
513	unsigned long value;	584	unsigned long value;
514		585
515	if (XGetFontProperty (f, XInternAtom (DISPLAY, property, 0), &value))	586	if (XGetFontProperty (f, property, &value))
516	return XGetAtomName (DISPLAY, value);	587	return XGetAtomName (term->dpy, value);
517	else	588	else
518	return rxvt_strdup (repl);	589	return repl ? strdup (repl) : 0;
519	}	590	}
520		591
521	rxvt_fontprop	592	rxvt_fontprop
522	rxvt_font_x11::properties ()	593	rxvt_font_x11::properties ()
523	{	594	{
…		…
527	}	598	}
528		599
529	bool	600	bool
530	rxvt_font_x11::set_properties (rxvt_fontprop &p, int height, const char *weight, const char *slant, int avgwidth)	601	rxvt_font_x11::set_properties (rxvt_fontprop &p, int height, const char *weight, const char *slant, int avgwidth)
531	{	602	{
532	p.width = avgwidth ? (avgwidth + 1) / 10 : (height + 1) / 2;	603	p.width = width != rxvt_fontprop::unset ? width
		604	: avgwidth ? (avgwidth + 1) / 10
		605	: (height + 1) / 2;
533	p.height = height;	606	p.height = height;
		607	p.ascent = rxvt_fontprop::unset;
534	p.weight = *weight == 'B' || *weight == 'b' ? rxvt_fontprop::bold : rxvt_fontprop::medium;	608	p.weight = *weight == 'B' || *weight == 'b' ? rxvt_fontprop::bold : rxvt_fontprop::medium;
535	p.slant = *slant == 'r' || *slant == 'R' ? rxvt_fontprop::roman : rxvt_fontprop::italic;	609	p.slant = *slant == 'r' || *slant == 'R' ? rxvt_fontprop::roman : rxvt_fontprop::italic;
536		610
537	return true;	611	return true;
538	}	612	}
539		613
540	bool	614	bool
541	rxvt_font_x11::set_properties (rxvt_fontprop &p, XFontStruct *f)	615	rxvt_font_x11::set_properties (rxvt_fontprop &p, XFontStruct *f)
542	{	616	{
543	unsigned long height;	617	unsigned long height;
		618
		619	#if 0
544	if (!XGetFontProperty (f, XInternAtom (DISPLAY, "PIXEL_SIZE", 0), &height))	620	if (!XGetFontProperty (f, XInternAtom (term->dpy, "PIXEL_SIZE", 0), &height))
545	return false;	621	return false;
		622	#else
		623	height = f->ascent + f->descent;
		624	#endif
546		625
547	unsigned long avgwidth;	626	unsigned long avgwidth;
548	if (!XGetFontProperty (f, XInternAtom (DISPLAY, "AVERAGE_WIDTH", 0), &avgwidth))	627	if (!XGetFontProperty (f, term->xa [XA_AVERAGE_WIDTH], &avgwidth))
549	avgwidth = 0;	628	avgwidth = 0;
550		629
551	char *weight = get_property (f, "WEIGHT_NAME", "medium");	630	char *weight = get_property (f, term->xa [XA_WEIGHT_NAME], "medium");
552	char *slant = get_property (f, "SLANT", "r");	631	char *slant = get_property (f, term->xa [XA_SLANT], "r");
553		632
554	set_properties (p, height, weight, slant, avgwidth);	633	set_properties (p, height, weight, slant, avgwidth);
555		634
556	free (weight);	635	free (weight);
557	free (slant);	636	free (slant);
558		637
		638	p.ascent = f->ascent;
		639
559	return true;	640	return true;
560	}	641	}
561		642
562	bool	643	bool
563	rxvt_font_x11::set_properties (rxvt_fontprop &p, const char *name)	644	rxvt_font_x11::set_properties (rxvt_fontprop &p, const char *name)
564	{	645	{
		646	dTermDisplay;
565	int slashes = 0;	647	int slashes = 0;
566	const char *comp[13];	648	const char *comp[13];
567		649
568	for (const char *c = name; *c; c++)	650	for (const char *c = name; *c; c++)
569	if (*c == '-')	651	if (*c == '-')
…		…
577	if (slashes >= 13	659	if (slashes >= 13
578	&& (*comp[ 6] >= '1' && *comp[ 6] <= '9')	660	&& (*comp[ 6] >= '1' && *comp[ 6] <= '9')
579	&& (*comp[11] >= '0' && *comp[11] <= '9'))	661	&& (*comp[11] >= '0' && *comp[11] <= '9'))
580	return set_properties (p, atoi (comp[6]), comp[2], comp[3], atoi (comp[11]));	662	return set_properties (p, atoi (comp[6]), comp[2], comp[3], atoi (comp[11]));
581		663
582	XFontStruct *f = XLoadQueryFont (DISPLAY, name);	664	XFontStruct *f = XLoadQueryFont (disp, name);
583		665
584	if (f)	666	if (f)
585	{	667	{
586	// the font should really exist now. if not, we have a problem	668	// the font should really exist now. if not, we have a problem
587	// (e.g. if the user did xset fp rehash just when we were searching fonts).	669	// (e.g. if the user did xset fp rehash just when we were searching fonts).
588	// in that case, just return garbage.	670	// in that case, just return garbage.
589	bool ret = set_properties (p, f);	671	bool ret = set_properties (p, f);
590	XFreeFont (DISPLAY, f);	672	XFreeFont (disp, f);
591	return ret;	673	return ret;
592	}	674	}
593	else	675	else
594	return false;	676	return false;
595	}	677	}
596		678
597	// fix the size of scalable fonts	679	// fix the size of scalable fonts
598	static bool	680	static bool
599	replace_field (char *buf, const char *name, int index, const char old, const char *replace)	681	replace_field (char **ptr, const char *name, int index, const char old, const char *replace)
600	{	682	{
601	int slashes = 0;	683	int slashes = 0;
602	const char *field, *end;	684	const char *field, *end;
603		685
604	for (const char *c = name; *c; c++)	686	for (const char *c = name; *c; c++)
…		…
614	break;	696	break;
615	}	697	}
616		698
617	if (slashes >= 13 && (!old || *field == old))	699	if (slashes >= 13 && (!old || *field == old))
618	{	700	{
619	// TODO: check for overflow in font-name	701	size_t len = field - name;
620	strncpy (buf, name, field - name);	702	*ptr = (char *)malloc (len + strlen (replace) + strlen (end) + 1);
621	buf += field - name;	703	memcpy (*ptr, name, len);
622	strcpy (buf, replace);	704	strcpy (*ptr + len, replace);
623	strcat (buf, end);	705	strcat (*ptr, end);
624		706
625	return true;	707	return true;
626	}	708	}
627	else	709	else
628	{	710	{
629	strcpy (buf, name);	711	*ptr = strdup (name);
630		712
631	return false;	713	return false;
632	}	714	}
633	}	715	}
634		716
635	bool	717	bool
636	rxvt_font_x11::load (const rxvt_fontprop &prop)	718	rxvt_font_x11::load (const rxvt_fontprop &prop, bool force_prop)
637	{	719	{
		720	dTermDisplay;
		721
638	clear ();	722	clear ();
639		723
640	char field_str[64]; // enough for 128 bits	724	char field_str[64]; // enough for 128 bits
641		725
642	// first morph the font if required	726	// first morph the font if required
643	if (prop.weight != rxvt_fontprop::unset	727	if (force_prop)
644	|| prop.slant != rxvt_fontprop::unset)
645	{	728	{
646	char fname[1024];	729	char *fname;
647		730
648	if (name[0] != '-')	731	if (name[0] != '-')
649	{	732	{
650	f = XLoadQueryFont (DISPLAY, name);	733	f = XLoadQueryFont (disp, name);
651		734
652	if (!f)	735	if (!f)
653	return false;	736	return false;
654		737
655	char *new_name = get_property (f, "FONT", name);	738	char *new_name = get_property (f, XA_FONT, 0);
656		739
657	if (new_name)	740	if (new_name)
658	set_name (new_name);	741	set_name (new_name);
659	else	742	else
660	rxvt_warn ("font '%s' has no FONT property, continuing without.", name);	743	rxvt_warn ("font '%s' has no FONT property, continuing without.\n", name);
661		744
662	XFreeFont (DISPLAY, f);	745	XFreeFont (disp, f);
663	f = 0;	746	f = 0;
664	}	747	}
665		748
666	if (prop.weight != rxvt_fontprop::unset)	749	if (prop.weight != rxvt_fontprop::unset)
667	{	750	{
668	replace_field (fname, name, 2, 0,	751	replace_field (&fname, name, 2, 0,
669	prop.weight < rxvt_fontprop::bold	752	prop.weight < rxvt_fontprop::bold
670	? "medium" : "bold");	753	? "medium" : "bold");
671	set_name (strdup (fname));	754	set_name (fname);
672	}	755	}
673		756
674	if (prop.slant != rxvt_fontprop::unset)	757	if (prop.slant != rxvt_fontprop::unset)
675	{	758	{
676	replace_field (fname, name, 3, 0,	759	replace_field (&fname, name, 3, 0,
677	prop.slant < rxvt_fontprop::italic	760	prop.slant < rxvt_fontprop::italic
678	? "r" : "i"); // TODO: handle "o"blique, too	761	? "r" : "i"); // TODO: handle "o"blique, too
679	set_name (strdup (fname));	762	set_name (fname);
680	}	763	}
		764	}
		765
		766	sprintf (field_str, "%d", prop.height == rxvt_fontprop::unset
		767	? 0 : prop.height);
		768
		769	struct font_weight {
		770	char *name;
		771	int diff;
		772
		773	void clear ()
681	}	774	{
		775	name = 0;
		776	diff = 0x7fffffff;
		777	}
		778
		779	font_weight () { clear (); }
		780	~font_weight () { free (name); }
		781	};
682		782
683	char **list;	783	char **list;
684	int count;	784	int count;
685	list = XListFonts (DISPLAY, name, 1024, &count);	785	list = XListFonts (disp, name, 4000, &count);
686		786
687	set_name (0);	787	set_name (0);
688		788
689	if (!list)	789	if (!list)
690	return false;	790	return false;
691		791
692	sprintf (field_str, "%d", prop.height == rxvt_fontprop::unset	792	font_weight *fonts = new font_weight[count];
693	? 0 : prop.height);
694		793
695	int bestdiff = 0x7fffffff;
696	for (int i = 0; i < count; i++)	794	for (int i = 0; i < count; i++)
697	{	795	{
698	rxvt_fontprop p;	796	rxvt_fontprop p;
699	char fname[1024];	797	char *fname;
700		798
701	int diff = 0;	799	int diff = 0;
702		800
703	if (replace_field (fname, list[i], 6, '0', field_str))	801	if (replace_field (&fname, list[i], 6, '0', field_str))
704	diff += 10; // slightly penalize scalable fonts	802	diff += 10; // slightly penalize scalable fonts
		803	else
		804	{
		805	free (fname);
		806	if (replace_field (&fname, list[i], 11, '0', "0"))
		807	diff += 300; // more heavily penalize what looks like scaled bitmap fonts
		808	}
705		809
706	if (!set_properties (p, fname))	810	if (!set_properties (p, fname)
		811	// also weed out too large fonts
		812	|| (prop.height != rxvt_fontprop::unset
		813	&& p.height > prop.height))
		814	{
		815	free (fname);
707	continue;	816	continue;
708		817	}
709	if (prop.height != rxvt_fontprop::unset
710	&& p.height > prop.height) // weed out too large fonts
711	continue;
712		818
713	if (prop.height != rxvt_fontprop::unset) diff += (prop.height - p.height) * 128;	819	if (prop.height != rxvt_fontprop::unset) diff += (prop.height - p.height) * 128;
714	if (prop.weight != rxvt_fontprop::unset) diff += abs (prop.weight - p.weight);	820	if (prop.weight != rxvt_fontprop::unset) diff += abs (prop.weight - p.weight);
715	if (prop.slant != rxvt_fontprop::unset) diff += abs (prop.slant - p.slant);	821	if (prop.slant != rxvt_fontprop::unset) diff += abs (prop.slant - p.slant);
716	//if (prop.width != rxvt_fontprop::unset) diff += abs (prop.width - p.width);	822	//if (prop.width != rxvt_fontprop::unset) diff += abs (prop.width - p.width);
717		823
718	if (!name // compare against best found so far	824	fonts[i].name = fname;
719	|| diff < bestdiff)	825	fonts[i].diff = diff;
720	{
721	set_name (strdup (fname));
722	bestdiff = diff;
723	}
724	}	826	}
725		827
726	XFreeFontNames (list);	828	XFreeFontNames (list);
727		829
728	if (!name)	830	// this loop only iterates when the guessed font-size is too small
729	return false;	831	for (;;)
		832	{
		833	font_weight *best = fonts;
730		834
731	f = XLoadQueryFont (DISPLAY, name);	835	for (font_weight *w = fonts + 1; w < fonts + count; w++)
		836	if (w->diff < best->diff)
		837	best = w;
		838
		839	if (!best->name
		840	|| !(f = XLoadQueryFont (disp, best->name)))
		841	break;
		842
		843	set_name (best->name);
		844	best->clear ();
		845
		846	ascent = f->ascent;
		847	descent = f->descent;
		848	height = ascent + descent;
		849
		850	if (prop.height == rxvt_fontprop::unset
		851	|| height <= prop.height)
		852	break; // font is ready for use
		853
		854	// PIXEL_SIZE small enough, but real height too large
		855	clear ();
		856	}
		857
		858	delete [] fonts;
732		859
733	if (!f)	860	if (!f)
734	return false;	861	return false;
735		862
736	char *registry = get_property (f, "CHARSET_REGISTRY", 0);	863	char *registry = get_property (f, term->xa [XA_CHARSET_REGISTRY], 0);
737	char *encoding = get_property (f, "CHARSET_ENCODING", 0);	864	char *encoding = get_property (f, term->xa [XA_CHARSET_ENCODING], 0);
		865
		866	cs = CS_UNKNOWN;
738		867
739	if (registry && encoding)	868	if (registry && encoding)
740	{	869	{
741	char charset[64];	870	char charset[64];
742	snprintf (charset, 64, "%s-%s", registry, encoding);	871	snprintf (charset, 64, "%s-%s", registry, encoding);
743		872
744	cs = codeset_from_name (charset);	873	cs = codeset_from_name (charset);
745	}	874
746	else	875	if (cs == CS_UNKNOWN)
		876	rxvt_warn ("%s: cannot deduce encoding from registry/encoding properties \"%s\", ignoring font.\n", name, charset);
747	{	877	}
		878
		879	free (registry);
		880	free (encoding);
		881
		882	if (cs == CS_UNKNOWN)
		883	{
748	const char *charset = get_property (f, "FONT", 0);	884	char *value = get_property (f, XA_FONT, 0);
		885	const char *charset = value;
749		886
750	if (!charset)	887	if (!charset)
751	charset = name;	888	charset = name;
752		889
753	int count = 13;	890	int count = 13;
754	while (*charset)	891	while (*charset)
755	if (*charset++ == '-' && !--count)	892	if (*charset++ == '-' && !--count)
756	break;	893	break;
757		894
758	cs = codeset_from_name (charset);	895	cs = codeset_from_name (charset);
		896	if (cs == CS_UNKNOWN)
		897	rxvt_warn ("%s: cannot deduce encoding from font name property \"%s\", ignoring font.\n", name, charset);
		898
		899	free (value);
		900	}
		901
		902	if (cs == CS_UNKNOWN)
759	}	903	{
760		904	clear ();
761	free (registry);	905	return false;
762	free (encoding);	906	}
763		907
764	if (cs == CS_UNICODE)	908	if (cs == CS_UNICODE)
765	cs = CS_UNICODE_16; // X11 can have a max. of 65536 chars per font	909	cs = CS_UNICODE_16; // X11 can have a max. of 65536 chars per font
766		910
767	encm = f->min_byte1 != 0 || f->max_byte1 != 0;	911	encm = f->min_byte1 != 0 || f->max_byte1 != 0;
768	enc2b = encm || f->max_char_or_byte2 > 255;	912	enc2b = encm || f->max_char_or_byte2 > 255;
769		913
770	ascent = f->ascent;
771	descent = f->descent;
772	height = ascent + descent;
773
774	slow = false;	914	slow = false;
775		915
776	#if 1 // only used for slow detection, TODO optimize	916	#if 1 // only used for slow detection, TODO optimize
777	if (f->min_bounds.width == f->max_bounds.width)	917	if (f->min_bounds.width == f->max_bounds.width || !f->per_char)
778	width = f->min_bounds.width;
779	else if (f->per_char == NULL)
780	width = f->max_bounds.width;	918	width = f->max_bounds.width;
781	else	919	else
782	{	920	{
783	slow = true;	921	slow = true;
784		922
785	int N = f->max_char_or_byte2 - f->min_char_or_byte2;	923	int N = f->max_char_or_byte2 - f->min_char_or_byte2;
786		924
787	if (encm)	925	if (encm)
788	N += (f->max_byte1 - f->min_byte1)	926	N += (f->max_byte1 - f->min_byte1)
789	* (f->max_char_or_byte2 - f->min_char_or_byte2 + 1);	927	* (f->max_char_or_byte2 - f->min_char_or_byte2 + 1);
790		928
791	while (N)	929	while (N)
792	{	930	{
793	if (f->per_char[N].width > width)	931	if (f->per_char[N].width > width)
794	width = f->per_char[N].width;	932	width = f->per_char[N].width;
795		933
…		…
798	}	936	}
799	#endif	937	#endif
800		938
801	width = 1;	939	width = 1;
802		940
803	for (uint16_t *t = extent_test_chars + NUM_EXTENT_TEST_CHARS; t-- > extent_test_chars; )	941	for (uint16_t *t = extent_test_chars; t < extent_test_chars + ecb_array_length (extent_test_chars); t++)
804	{	942	{
805	if (cs != CS_UNICODE
806	&& *t > 0x100
807	&& FROM_UNICODE (cs, *t) == NOCHAR)	943	if (FROM_UNICODE (cs, *t) == NOCHAR)
808	continue;	944	continue;
809		945
810	// ignore characters we wouldn't use anyways	946	// ignore characters we wouldn't use anyways
811	bool careful;	947	bool careful;
812	if (!has_char (*t, &prop, careful))	948	if (!has_char (*t, &prop, careful))
813	continue;	949	continue;
814		950
815	XChar2b ch = { *t >> 8, *t };	951	// the casts are needed in C++11 (see 8.5.1)
		952	XChar2b ch = { (unsigned char)(*t >> 8), (unsigned char)*t };
816		953
817	XCharStruct g;	954	XCharStruct g;
818	int dir_ret, asc_ret, des_ret;	955	int dir_ret, asc_ret, des_ret;
819	XTextExtents16 (f, &ch, 1, &dir_ret, &asc_ret, &des_ret, &g);	956	XTextExtents16 (f, &ch, 1, &dir_ret, &asc_ret, &des_ret, &g);
820		957
821	int wcw = wcwidth (*t); if (wcw > 0) g.width = g.width / wcw;	958	int wcw = WCWIDTH (*t);
		959	if (wcw > 0) g.width = (g.width + wcw - 1) / wcw;
822		960
823	if (width < g.width) width = g.width;	961	if (width < g.width) width = g.width;
824	}
825
826	if (cs == CS_UNKNOWN)
827	{	962	}
828	fprintf (stderr, "unable to deduce codeset, ignoring font '%s'\n", name);
829		963
		964	#if 0 // do it per-character
		965	if (prop && width > prop->width)
		966	{
830	clear ();	967	clear ();
831	return false;	968	return false;
832	}	969	}
833
834	#if 0 // do it per-character
835	if (prop && width > prop->width)
836	{
837	clear ();
838	return false;
839	}
840	#endif	970	#endif
841		971
842	return true;	972	return true;
843	}	973	}
844		974
845	void	975	void
846	rxvt_font_x11::clear ()	976	rxvt_font_x11::clear ()
847	{	977	{
848	if (f)	978	if (f)
849	{	979	{
850	XFreeFont (DISPLAY, f);	980	XFreeFont (term->dpy, f);
851	f = 0;	981	f = 0;
852	}	982	}
853	}	983	}
854		984
855	bool	985	bool
856	rxvt_font_x11::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful)	986	rxvt_font_x11::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const
857	{	987	{
		988	careful = false;
		989
858	uint32_t ch = FROM_UNICODE (cs, unicode);	990	uint32_t ch = FROM_UNICODE (cs, unicode);
859		991
860	if (ch == NOCHAR)	992	if (ch == NOCHAR)
861	return false;	993	return false;
862		994
863	/* check wether the character exists in _this_ font. horrible. */	995	/* check whether the character exists in _this_ font. horrible. */
864	XCharStruct *xcs;	996	XCharStruct *xcs;
865		997
866	if (encm)	998	if (encm)
867	{	999	{
868	unsigned char byte1 = ch >> 8;	1000	unsigned char byte1 = ch >> 8;
…		…
898	return false;	1030	return false;
899		1031
900	if (!prop || prop->width == rxvt_fontprop::unset)	1032	if (!prop || prop->width == rxvt_fontprop::unset)
901	return true;	1033	return true;
902		1034
903	// check character against base font bounding box	1035	// check whether character overlaps previous/next character
904	int w = xcs->width;	1036	int w = xcs->rbearing - xcs->lbearing;
905	int wcw = wcwidth (unicode);	1037	int wcw = max (WCWIDTH (unicode), 1);
906	if (wcw > 0) w /= wcw;
907		1038
908	careful = w > prop->width;	1039	careful = xcs->lbearing < 0 || xcs->rbearing > prop->width * wcw;
909	if (careful && w > prop->width * MAX_OVERLAP >> 2)	1040
		1041	if (careful && !OVERLAP_OK (w, wcw, prop))
910	return false;	1042	return false;
911		1043
912	return true;	1044	return true;
913	}	1045	}
914		1046
…		…
920	// this looks like a mess /.	1052	// this looks like a mess /.
921	// and it is a mess /.	1053	// and it is a mess /.
922	// yet we are trying to be perfect /.	1054	// yet we are trying to be perfect /.
923	// but the result still isn't perfect /.	1055	// but the result still isn't perfect /.
924		1056
		1057	dTermDisplay;
		1058	dTermGC;
		1059
925	bool slow = this->slow	1060	bool slow = this->slow
926	|| width != r->TermWin.fwidth	1061	|| width != term->fwidth
927	|| height != r->TermWin.fheight;	1062	|| height != term->fheight
		1063	|| ascent != f->ascent;
928		1064
929	int base = ascent; // sorry, incorrect: r->TermWin.fbase;	1065	int base = ascent; // sorry, incorrect: term->fbase;
930		1066
931	XGCValues v;	1067	XGCValues v;
932	v.foreground = r->pix_colors[fg];	1068	v.foreground = term->pix_colors[fg];
933	v.font = f->fid;	1069	v.font = f->fid;
934		1070
935	if (enc2b)	1071	if (enc2b)
936	{	1072	{
937	const XChar2b *xc = enc_xchar2b (text, len, cs, slow);	1073	const XChar2b *xc = enc_xchar2b (text, len, cs, slow);
938		1074
939	if (bg == Color_bg && !slow)	1075	if (bg == Color_bg && !slow)
940	{	1076	{
941	v.background = r->pix_colors[bg];	1077	v.background = term->pix_colors[bg];
942	XChangeGC (d.display->display, TGC, GCForeground | GCBackground | GCFont, &v);	1078	XChangeGC (disp, gc, GCForeground | GCBackground | GCFont, &v);
943	XDrawImageString16 (d.display->display, d, TGC, x, y + base, xc, len);	1079	XDrawImageString16 (disp, d, gc, x, y + base, xc, len);
944	}	1080	}
945	else	1081	else
946	{	1082	{
947	clear_rect (d, x, y, r->TermWin.fwidth * len, r->TermWin.fheight, bg);	1083	clear_rect (d, x, y, term->fwidth * len, term->fheight, bg);
948		1084
949	XChangeGC (d.display->display, TGC, GCForeground | GCFont, &v);	1085	XChangeGC (disp, gc, GCForeground | GCFont, &v);
950		1086
951	if (slow)	1087	if (slow)
952	{	1088	{
953	do	1089	do
954	{	1090	{
955	if (xc->byte1 || xc->byte2)	1091	if (xc->byte1 || xc->byte2)
956	XDrawString16 (d.display->display, d, TGC, x, y + base, xc, 1);	1092	XDrawString16 (disp, d, gc, x, y + base, xc, 1);
957		1093
958	x += r->TermWin.fwidth;	1094	x += term->fwidth;
959	xc++; len--;	1095	xc++; len--;
960	}	1096	}
961	while (len);	1097	while (len);
962	}	1098	}
963	else	1099	else
964	XDrawString16 (d.display->display, d, TGC, x, y + base, xc, len);	1100	XDrawString16 (disp, d, gc, x, y + base, xc, len);
965	}	1101	}
966	}	1102	}
967	else	1103	else
968	{	1104	{
969	const char *xc = enc_char (text, len, cs, slow);	1105	const char *xc = enc_char (text, len, cs, slow);
970		1106
971	if (bg == Color_bg && !slow)	1107	if (bg == Color_bg && !slow)
972	{	1108	{
973	v.background = r->pix_colors[bg];	1109	v.background = term->pix_colors[bg];
974	XChangeGC (d.display->display, TGC, GCForeground | GCBackground | GCFont, &v);	1110	XChangeGC (disp, gc, GCForeground | GCBackground | GCFont, &v);
975	XDrawImageString (d.display->display, d, TGC, x, y + base, xc, len);	1111	XDrawImageString (disp, d, gc, x, y + base, xc, len);
976	}	1112	}
977	else	1113	else
978	{	1114	{
979	clear_rect (d, x, y, r->TermWin.fwidth * len, r->TermWin.fheight, bg);	1115	clear_rect (d, x, y, term->fwidth * len, term->fheight, bg);
980		1116
981	XChangeGC (d.display->display, TGC, GCForeground | GCFont, &v);	1117	XChangeGC (disp, gc, GCForeground | GCFont, &v);
982		1118
983	if (slow)	1119	if (slow)
984	{	1120	{
985	do	1121	do
986	{	1122	{
987	if (*xc)	1123	if (*xc)
988	XDrawString (d.display->display, d, TGC, x, y + base, xc, 1);	1124	XDrawString (disp, d, gc, x, y + base, xc, 1);
989		1125
990	x += r->TermWin.fwidth;	1126	x += term->fwidth;
991	xc++; len--;	1127	xc++; len--;
992	}	1128	}
993	while (len);	1129	while (len);
994	}	1130	}
995	else	1131	else
996	XDrawString (d.display->display, d, TGC, x, y + base, xc, len);	1132	XDrawString (disp, d, gc, x, y + base, xc, len);
997	}	1133	}
998	}	1134	}
999	}	1135	}
1000		1136
1001	/////////////////////////////////////////////////////////////////////////////	1137	/////////////////////////////////////////////////////////////////////////////
1002		1138
1003	#if XFT	1139	#if XFT
1004		1140
1005	struct rxvt_font_xft : rxvt_font {	1141	struct rxvt_font_xft : rxvt_font
		1142	{
		1143	#if XFT_CHAR_CACHE
		1144	// we cache the qascii range xoffsets in the name of speed,
		1145	// expecting terminals to deal mostly with these characters
		1146	// we also assume the xoff always fits into uint8_t,
		1147	// which is questionable, but let's see...
		1148	// also, it is uncomfortably big, due to the uints.
		1149	enum { char_cache_min = 0x20, char_cache_max = 0x7e };
		1150	uint8_t xoff_cache [char_cache_max - char_cache_min + 1];
		1151	FT_UInt glyph_cache [char_cache_max - char_cache_min + 1];
		1152	#endif
		1153
1006	rxvt_font_xft () { f = 0; }	1154	rxvt_font_xft ()
		1155	{
		1156	f = 0;
		1157	}
1007		1158
1008	void clear ();	1159	void clear ();
1009		1160
1010	rxvt_fontprop properties ();	1161	rxvt_fontprop properties ();
1011		1162
1012	bool load (const rxvt_fontprop &prop);	1163	bool load (const rxvt_fontprop &prop, bool force_prop);
1013		1164
1014	void draw (rxvt_drawable &d, int x, int y,	1165	void draw (rxvt_drawable &d, int x, int y,
1015	const text_t *text, int len,	1166	const text_t *text, int len,
1016	int fg, int bg);	1167	int fg, int bg);
1017		1168
1018	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &carefull);	1169	bool has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const;
1019		1170
1020	protected:	1171	protected:
1021	XftFont *f;	1172	XftFont *f;
1022	};	1173	};
1023		1174
1024	void	1175	void
1025	rxvt_font_xft::clear ()	1176	rxvt_font_xft::clear ()
1026	{	1177	{
1027	if (f)	1178	if (f)
1028	{	1179	{
1029	XftFontClose (DISPLAY, f);	1180	XftFontClose (term->dpy, f);
1030	f = 0;	1181	f = 0;
1031	}	1182	}
1032	}	1183	}
1033		1184
1034	rxvt_fontprop	1185	rxvt_fontprop
…		…
1038		1189
1039	FT_Face face = XftLockFace (f);	1190	FT_Face face = XftLockFace (f);
1040		1191
1041	p.width = width;	1192	p.width = width;
1042	p.height = height;	1193	p.height = height;
		1194	p.ascent = ascent;
1043	p.weight = face->style_flags & FT_STYLE_FLAG_BOLD	1195	p.weight = face->style_flags & FT_STYLE_FLAG_BOLD
1044	? rxvt_fontprop::bold : rxvt_fontprop::medium;	1196	? rxvt_fontprop::bold : rxvt_fontprop::medium;
1045	p.slant = face->style_flags & FT_STYLE_FLAG_ITALIC	1197	p.slant = face->style_flags & FT_STYLE_FLAG_ITALIC
1046	? rxvt_fontprop::italic : rxvt_fontprop::roman;	1198	? rxvt_fontprop::italic : rxvt_fontprop::roman;
1047		1199
…		…
1049		1201
1050	return p;	1202	return p;
1051	}	1203	}
1052		1204
1053	bool	1205	bool
1054	rxvt_font_xft::load (const rxvt_fontprop &prop)	1206	rxvt_font_xft::load (const rxvt_fontprop &prop, bool force_prop)
1055	{	1207	{
		1208	dTermDisplay;
		1209
1056	clear ();	1210	clear ();
1057		1211
1058	FcPattern *p = FcNameParse ((FcChar8 *) name);	1212	FcPattern *p = FcNameParse ((FcChar8 *) name);
1059		1213
1060	if (!p)	1214	if (!p)
1061	return false;	1215	return false;
1062		1216
1063	FcValue v;	1217	FcValue v;
1064		1218
1065	if (prop.height != rxvt_fontprop::unset	1219	if (prop.height != rxvt_fontprop::unset
1066	|| (FcPatternGet (p, FC_PIXEL_SIZE, 0, &v) != FcResultMatch	1220	&& (FcPatternGet (p, FC_PIXEL_SIZE, 0, &v) != FcResultMatch
1067	&& FcPatternGet (p, FC_SIZE, 0, &v) != FcResultMatch))	1221	&& FcPatternGet (p, FC_SIZE, 0, &v) != FcResultMatch))
1068	FcPatternAddInteger (p, FC_PIXEL_SIZE, prop.height);	1222	FcPatternAddInteger (p, FC_PIXEL_SIZE, prop.height);
1069		1223
1070	if (prop.weight != rxvt_fontprop::unset	1224	if (prop.weight != rxvt_fontprop::unset
1071	&& FcPatternGet (p, FC_WEIGHT, 0, &v) != FcResultMatch)	1225	&& (force_prop || FcPatternGet (p, FC_WEIGHT, 0, &v) != FcResultMatch))
1072	FcPatternAddInteger (p, FC_WEIGHT, prop.weight);	1226	FcPatternAddInteger (p, FC_WEIGHT, prop.weight);
1073		1227
1074	if (prop.slant != rxvt_fontprop::unset	1228	if (prop.slant != rxvt_fontprop::unset
1075	&& FcPatternGet (p, FC_SLANT, 0, &v) != FcResultMatch)	1229	&& (force_prop || FcPatternGet (p, FC_SLANT, 0, &v) != FcResultMatch))
1076	FcPatternAddInteger (p, FC_SLANT, prop.slant);	1230	FcPatternAddInteger (p, FC_SLANT, prop.slant);
1077		1231
1078	#if 0 // clipping unfortunately destroys our precious double-width-characters	1232	#if 0 // clipping unfortunately destroys our precious double-width-characters
1079	// clip width, we can't do better, or can we?	1233	// clip width, we can't do better, or can we?
1080	if (FcPatternGet (p, FC_CHAR_WIDTH, 0, &v) != FcResultMatch)	1234	if (FcPatternGet (p, FC_CHAR_WIDTH, 0, &v) != FcResultMatch)
1081	FcPatternAddInteger (p, FC_CHAR_WIDTH, prop->width);	1235	FcPatternAddInteger (p, FC_CHAR_WIDTH, prop.width);
1082	#endif	1236	#endif
1083		1237
1084	if (FcPatternGet (p, FC_MINSPACE, 0, &v) != FcResultMatch)	1238	if (FcPatternGet (p, FC_MINSPACE, 0, &v) != FcResultMatch)
1085	FcPatternAddBool (p, FC_MINSPACE, 1);	1239	FcPatternAddBool (p, FC_MINSPACE, 1);
1086		1240
1087	// store generated name so iso14755 view gives better results	1241	// store generated name so iso14755 view gives better results
1088	set_name ((char *)FcNameUnparse (p));	1242	set_name ((char *)FcNameUnparse (p));
1089		1243
1090	XftResult result;	1244	XftResult result;
1091	FcPattern *match = XftFontMatch (DISPLAY, DefaultScreen (DISPLAY), p, &result);	1245	FcPattern *match = XftFontMatch (disp, term->display->screen, p, &result);
1092		1246
1093	FcPatternDestroy (p);	1247	FcPatternDestroy (p);
1094		1248
1095	if (!match)	1249	if (!match)
1096	return false;	1250	return false;
…		…
1098	int ftheight = 0;	1252	int ftheight = 0;
1099	bool success = true;	1253	bool success = true;
1100		1254
1101	for (;;)	1255	for (;;)
1102	{	1256	{
1103	f = XftFontOpenPattern (DISPLAY, FcPatternDuplicate (match));	1257	p = FcPatternDuplicate (match);
		1258	f = XftFontOpenPattern (disp, p);
1104		1259
1105	if (!f)	1260	if (!f)
1106	{	1261	{
		1262	FcPatternDestroy (p);
1107	success = false;	1263	success = false;
1108	break;	1264	break;
1109	}	1265	}
1110		1266
1111	FT_Face face = XftLockFace (f);	1267	FT_Face face = XftLockFace (f);
		1268
		1269	// fuck me plenty: XftLockFace can actually return 0. try not to crash.
		1270	// we also assume blindly that if the first lock succeeds, then subsequent
		1271	// locks will also succeed.
		1272	if (!face)
		1273	{
		1274	XftFontClose (disp, f);
		1275	success = false;
		1276	break;
		1277	}
1112		1278
1113	ascent = (face->size->metrics.ascender + 63) >> 6;	1279	ascent = (face->size->metrics.ascender + 63) >> 6;
1114	descent = (-face->size->metrics.descender + 63) >> 6;	1280	descent = (-face->size->metrics.descender + 63) >> 6;
1115	height = max (ascent + descent, (face->size->metrics.height + 63) >> 6);	1281	height = max (ascent + descent, (face->size->metrics.height + 63) >> 6);
1116	width = 0;	1282	width = 0;
1117		1283
1118	bool scalable = face->face_flags & FT_FACE_FLAG_SCALABLE;	1284	bool scalable = face->face_flags & FT_FACE_FLAG_SCALABLE;
1119		1285
1120	XftUnlockFace (f);	1286	XftUnlockFace (f);
1121		1287
1122	for (uint16_t *t = extent_test_chars + NUM_EXTENT_TEST_CHARS; t-- > extent_test_chars; )	1288	int glheight = height;
		1289
		1290	for (uint16_t *t = extent_test_chars; t < extent_test_chars + ecb_array_length (extent_test_chars); t++)
1123	{	1291	{
1124	FcChar16 ch = *t;	1292	FcChar16 ch = *t;
1125		1293
1126	if (cs != CS_UNICODE	1294	if (cs != CS_UNICODE
1127	&& ch > 0x100	1295	&& ch > 0x100
…		…
1132	bool careful;	1300	bool careful;
1133	if (!has_char (*t, &prop, careful))	1301	if (!has_char (*t, &prop, careful))
1134	continue;	1302	continue;
1135		1303
1136	XGlyphInfo g;	1304	XGlyphInfo g;
1137	XftTextExtents16 (DISPLAY, f, &ch, 1, &g);	1305	XftTextExtents16 (disp, f, &ch, 1, &g);
1138		1306
		1307	g.width -= g.x;
		1308
1139	int wcw = wcwidth (ch);	1309	int wcw = WCWIDTH (ch);
1140	if (wcw > 0) g.width = g.width / wcw;	1310	if (wcw > 0) g.width = (g.width + wcw - 1) / wcw;
1141		1311
1142	if (width < g.width) width = g.width;	1312	if (width < g.width ) width = g.width;
1143	if (height < g.height) height = g.height;	1313	if (height < g.height ) height = g.height;
		1314	if (glheight < g.height - g.y) glheight = g.height - g.y;
		1315	}
		1316
		1317	if (!width)
		1318	{
		1319	rxvt_warn ("unable to calculate font width for '%s', using max_advance_width.\n", name);
		1320	width = f->max_advance_width;
		1321	break;
1144	}	1322	}
1145		1323
1146	if (prop.height == rxvt_fontprop::unset	1324	if (prop.height == rxvt_fontprop::unset
1147	|| height <= prop.height	1325	|| (height <= prop.height && glheight <= prop.height)
1148	|| height <= 2	1326	|| height <= 2
1149	|| !scalable)	1327	|| !scalable)
1150	break;	1328	break;
1151		1329
1152	if (ftheight)	1330	if (ftheight)
…		…
1159	ftheight -= height - prop.height;	1337	ftheight -= height - prop.height;
1160	}	1338	}
1161	else	1339	else
1162	ftheight = prop.height - 1;	1340	ftheight = prop.height - 1;
1163		1341
1164	XftFontClose (DISPLAY, f);	1342	XftFontClose (disp, f);
1165	FcPatternDel (match, FC_PIXEL_SIZE);	1343	FcPatternDel (match, FC_PIXEL_SIZE);
1166	FcPatternAddInteger (match, FC_PIXEL_SIZE, ftheight);	1344	FcPatternAddInteger (match, FC_PIXEL_SIZE, ftheight);
1167	}	1345	}
1168		1346
1169	FcPatternDestroy (match);	1347	FcPatternDestroy (match);
1170		1348
1171	#if 0 // do it per-character	1349	#if 0 // do it per-character
…		…
1174	clear ();	1352	clear ();
1175	success = false;	1353	success = false;
1176	}	1354	}
1177	#endif	1355	#endif
1178		1356
		1357	#if XFT_CHAR_CACHE
		1358	// populate char cache
		1359	for (FcChar16 ch = char_cache_min; ch <= char_cache_max; ++ch)
		1360	{
		1361	FT_UInt glyph = XftCharIndex (disp, f, ch);
		1362	glyph_cache [ch - char_cache_min] = glyph;
		1363
		1364	XGlyphInfo g;
		1365	XftGlyphExtents (disp, f, &glyph, 1, &g);
		1366	xoff_cache [ch - char_cache_min] = g.xOff;
		1367	}
		1368	#endif
		1369
1179	return success;	1370	return success;
1180	}	1371	}
1181		1372
1182	bool	1373	bool
1183	rxvt_font_xft::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful)	1374	rxvt_font_xft::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const
1184	{	1375	{
1185	careful = false;	1376	careful = false;
1186		1377
1187	if (!XftCharExists (DISPLAY, f, unicode))	1378	// handle non-bmp chars when text_t is 16 bit
		1379	#if ENABLE_COMBINING && !UNICODE_3
		1380	if (ecb_expect_false (IS_COMPOSE (unicode)))
		1381	if (compose_char *cc = rxvt_composite [unicode])
		1382	if (cc->c2 == NOCHAR)
		1383	unicode = cc->c1;
		1384	else
		1385	return false;
		1386	else
		1387	return false;
		1388	#endif
		1389
		1390	FcChar32 chr = unicode;
		1391
		1392	if (!XftCharExists (term->dpy, f, chr))
1188	return false;	1393	return false;
1189		1394
1190	if (!prop || prop->width == rxvt_fontprop::unset)	1395	if (!prop || prop->width == rxvt_fontprop::unset)
1191	return true;	1396	return true;
1192		1397
1193	// check character against base font bounding box	1398	int wcw = max (WCWIDTH (chr), 1);
1194	FcChar32 ch = unicode;	1399
1195	XGlyphInfo g;	1400	XGlyphInfo g;
1196	XftTextExtents32 (DISPLAY, f, &ch, 1, &g);	1401	XftTextExtents32 (term->dpy, f, &chr, 1, &g);
1197		1402
		1403	int cwidth = prop->width * wcw;
		1404
		1405	// use same adjustments as in ->draw, see there
		1406	g.x += g.xOff ? cwidth - g.xOff >> 1 : 0;
		1407	g.x += g.xOff ? 0 : cwidth;
		1408
1198	int w = g.width;	1409	int w = g.width - g.x;
1199	int wcw = wcwidth (unicode);
1200	if (wcw > 0) w /= wcw;
1201		1410
1202	careful = w > prop->width;	1411	careful = g.x > 0 || w > cwidth;
1203	if (careful && w > prop->width * MAX_OVERLAP >> 2)	1412
		1413	if (careful && !OVERLAP_OK (w, wcw, prop))
		1414	return false;
		1415
		1416	// this weeds out _totally_ broken fonts, or glyphs
		1417	if (!OVERLAP_OK (g.xOff, wcw, prop))
1204	return false;	1418	return false;
1205		1419
1206	return true;	1420	return true;
1207	}	1421	}
1208		1422
1209	void	1423	void
1210	rxvt_font_xft::draw (rxvt_drawable &d, int x, int y,	1424	rxvt_font_xft::draw (rxvt_drawable &d, int x, int y,
1211	const text_t *text, int len,	1425	const text_t *text, int len,
1212	int fg, int bg)	1426	int fg, int bg)
1213	{	1427	{
1214	clear_rect (d, x, y, r->TermWin.fwidth * len, r->TermWin.fheight, bg);	1428	XftGlyphSpec *enc = rxvt_temp_buf<XftGlyphSpec> (len);
		1429	XftGlyphSpec *ep = enc;
1215		1430
1216	int base = ascent; // should be fbase, but that is incorrect	1431	dTermDisplay;
		1432	dTermGC;
1217		1433
1218	XGlyphInfo extents;	1434	int w = term->fwidth * len;
1219	FcChar32 *enc = (FcChar32 *) get_enc_buf (len * sizeof (FcChar32));	1435	int h = term->fheight;
1220	FcChar32 *ep = enc;	1436
1221	int ewidth = 0;	1437	bool buffered = bg >= Color_transparent
1222	int xoff = 0;	1438	&& term->option (Opt_buffered);
		1439
		1440	// cut trailing spaces
		1441	while (len && text [len - 1] == ' ')
		1442	len--;
		1443
		1444	int x_ = buffered ? 0 : x;
		1445	int y_ = buffered ? 0 : y;
1223		1446
1224	while (len)	1447	while (len)
1225	{	1448	{
1226	int cwidth = r->TermWin.fwidth;	1449	int cwidth = term->fwidth;
1227	FcChar32 fc = *text++; len--;	1450	FcChar32 chr = *text++; len--;
1228	FT_UInt gl;
1229		1451
1230	while (len && *text == NOCHAR)	1452	while (len && *text == NOCHAR)
1231	text++, len--, cwidth += r->TermWin.fwidth;	1453	text++, len--, cwidth += term->fwidth;
1232
1233	gl = XftCharIndex (d.display->display, f, fc);
1234	XftGlyphExtents (d.display->display, f, &gl, 1, &extents);
1235		1454
1236	if (extents.xOff != cwidth && ep != enc)	1455	if (chr != ' ') // skip spaces
1237	{
1238	if (xoff > ewidth) xoff = ewidth;
1239	XftDrawGlyphs (d, &r->pix_colors[fg].c, f,
1240	x + (ewidth - xoff >> 1),
1241	y + base, enc, ep - enc);
1242	x += ewidth;
1243
1244	ep = enc;
1245	ewidth = 0;
1246	xoff = 0;
1247	}	1456	{
		1457	// handle non-bmp chars when text_t is 16 bit
		1458	#if ENABLE_COMBINING && !UNICODE_3
		1459	if (ecb_expect_false (IS_COMPOSE (chr)))
		1460	if (compose_char *cc = rxvt_composite [chr])
		1461	if (cc->c2 == NOCHAR)
		1462	chr = cc->c1;
		1463	#endif
1248		1464
1249	if (fc == ' ' && ep == enc) // skip leading spaces	1465	#if 0
		1466	FT_UInt glyphs [decltype (exp)::max_size];
		1467
		1468	for (int i = 0; i < nchrs; ++i)
		1469	glyphs [i] = XftCharIndex (disp, f, chrs [i]);
		1470
		1471	for (int i = 0; i < nchrs; ++i)
		1472	{
		1473	XGlyphInfo ep;
		1474	XftGlyphExtents (disp, f, glyphs+i, 1, &ep);
		1475	printf ("gs %4x g %4x + %3d,%3d o %3d,%3d wh %3d,%3d\n", chrs[i],glyphs[i],ep.x,ep.y,ep.xOff,ep.yOff,ep.width,ep.height);
		1476	}
		1477	#endif
		1478
		1479	FT_UInt glyph;
		1480	int xOff;
		1481
		1482	#if XFT_CHAR_CACHE
		1483	if (ecb_expect_true (IN_RANGE_INC (chr, char_cache_min, char_cache_max)))
		1484	{
		1485	glyph = glyph_cache [chr - char_cache_min];
		1486	xOff = xoff_cache [chr - char_cache_min];
		1487	}
		1488	else
		1489	#endif
		1490	{
		1491	glyph = XftCharIndex (disp, f, chr);
		1492	XGlyphInfo extents;
		1493	XftGlyphExtents (disp, f, &glyph, 1, &extents);
		1494	xOff = extents.xOff;
		1495	}
		1496
		1497	ep->glyph = glyph;
		1498	ep->x = x_;
		1499	ep->y = y_ + ascent;
		1500
		1501	// the xft font cell might differ from the terminal font cell,
		1502	// in which case we use the average between the two.
		1503	ep->x += xOff ? cwidth - xOff >> 1 : 0;
		1504
		1505	// xft/freetype represent combining characters as characters with zero
		1506	// width rendered over the previous character with some fonts, while
		1507	// in other fonts, they are considered normal characters, while yet
		1508	// in other fonts, they are shifted all over the place.
		1509	// we handle the first two cases by keying off on xOff being 0
		1510	// for zero-width chars. normally, we would add extents.xOff
		1511	// of the base character here, but we don't have that, so we use cwidth.
		1512	ep->x += xOff ? 0 : cwidth;
		1513
		1514	++ep;
1250	{	1515	}
		1516
1251	x += cwidth;	1517	x_ += cwidth;
1252	continue;	1518	}
		1519
		1520	if (buffered)
		1521	{
		1522	if (ep != enc)
1253	}	1523	{
		1524	rxvt_drawable &d2 = d.screen->scratch_drawable (w, h);
1254		1525
		1526	#ifdef HAVE_IMG
		1527	Picture dst = 0; // the only assignment is done conditionally in the following if condition
		1528
		1529	if (term->bg_img
		1530	&& (bg == Color_transparent || bg == Color_bg
		1531	|| (bg >= 0 && !term->pix_colors[bg].is_opaque () && ((dst = XftDrawPicture (d2))))))
		1532	{
		1533	int src_x = x, src_y = y;
		1534
		1535	if (term->bg_flags & rxvt_term::BG_IS_TRANSPARENT)
		1536	{
		1537	src_x += term->window_vt_x;
		1538	src_y += term->window_vt_y;
		1539	}
		1540
		1541	if (term->bg_img->w >= src_x + w
		1542	&& term->bg_img->h >= src_y + h)
		1543	{
		1544	XCopyArea (disp, term->bg_img->pm, d2, gc,
		1545	src_x, src_y, w, h, 0, 0);
		1546	}
		1547	else
		1548	{
		1549	XGCValues gcv;
		1550
		1551	gcv.fill_style = FillTiled;
		1552	gcv.tile = term->bg_img->pm;
		1553	gcv.ts_x_origin = -src_x;
		1554	gcv.ts_y_origin = -src_y;
		1555
		1556	XChangeGC (disp, gc,
		1557	GCTile | GCTileStipXOrigin | GCTileStipYOrigin | GCFillStyle,
		1558	&gcv);
		1559
		1560	XFillRectangle (disp, d2, gc, 0, 0, w, h);
		1561
		1562	gcv.fill_style = FillSolid;
		1563	XChangeGC (disp, gc, GCFillStyle, &gcv);
		1564	}
		1565
		1566	if (dst)
		1567	{
		1568	Picture solid_color_pict = XftDrawSrcPicture (d2, &term->pix_colors[bg].c);
		1569
		1570	// dst can only be set when bg >= 0
		1571	XRenderComposite (disp, PictOpOver, solid_color_pict, None, dst, 0, 0, 0, 0, 0, 0, w, h);
		1572	}
		1573	}
		1574	else
		1575	#endif
		1576	XftDrawRect (d2, &term->pix_colors[bg >= 0 ? bg : Color_bg].c, 0, 0, w, h);
		1577
		1578	XftDrawGlyphSpec (d2, &term->pix_colors[fg].c, f, enc, ep - enc);
		1579	XCopyArea (disp, d2, d, gc, 0, 0, w, h, x, y);
		1580	}
1255	else	1581	else
1256	{	1582	clear_rect (d, x, y, w, h, bg);
1257	*ep++ = gl;
1258	ewidth += cwidth;
1259	xoff += extents.xOff;
1260	}
1261	}
1262
1263	if (ep != enc)
1264	{	1583	}
1265	if (xoff > ewidth) xoff = ewidth;	1584	else
1266	XftDrawGlyphs (d, &r->pix_colors[fg].c, f,
1267	x + (ewidth - xoff >> 1),
1268	y + base, enc, ep - enc);
1269	}	1585	{
		1586	clear_rect (d, x, y, w, h, bg);
		1587	XftDrawGlyphSpec (d, &term->pix_colors[fg].c, f, enc, ep - enc);
		1588	}
1270	}	1589	}
		1590
1271	#endif	1591	#endif
1272		1592
1273	/////////////////////////////////////////////////////////////////////////////	1593	/////////////////////////////////////////////////////////////////////////////
1274		1594
1275	rxvt_fontset::rxvt_fontset (rxvt_t r)	1595	rxvt_fontset::rxvt_fontset (rxvt_term *term)
1276	: r (r), fontdesc (0)	1596	: fontdesc (0), term (term)
1277	{	1597	{
1278	clear ();	1598	clear ();
1279	}	1599	}
1280		1600
1281	rxvt_fontset::~rxvt_fontset ()	1601	rxvt_fontset::~rxvt_fontset ()
…		…
1284	}	1604	}
1285		1605
1286	void	1606	void
1287	rxvt_fontset::clear ()	1607	rxvt_fontset::clear ()
1288	{	1608	{
1289	prop.width = prop.height = prop.weight = prop.slant	1609	prop.width = prop.height = prop.ascent = prop.weight = prop.slant
1290	= rxvt_fontprop::unset;	1610	= rxvt_fontprop::unset;
		1611	force_prop = false;
1291		1612
1292	for (rxvt_font **i = fonts.begin (); i != fonts.end (); i++)	1613	for (rxvt_font **i = fonts.begin (); i != fonts.end (); i++)
1293	FONT_UNREF (*i);	1614	(*i)->unref ();
1294		1615
1295	for (pagemap **p = fmap.begin (); p != fmap.end (); p++)	1616	for (pagemap **p = fmap.begin (); p != fmap.end (); p++)
1296	delete *p;	1617	delete *p;
1297		1618
1298	free (fontdesc); fontdesc = 0;	1619	free (fontdesc); fontdesc = 0;
…		…
1300	fonts.clear ();	1621	fonts.clear ();
1301		1622
1302	fallback = fallback_fonts;	1623	fallback = fallback_fonts;
1303	}	1624	}
1304		1625
		1626	void
		1627	rxvt_fontset::prepare_font (rxvt_font *font, codeset cs)
		1628	{
		1629	font->set_term (term);
		1630
		1631	font->cs = cs;
		1632	font->loaded = false;
		1633	}
		1634
1305	rxvt_font *	1635	rxvt_font *
1306	rxvt_fontset::new_font (const char *name, codeset cs)	1636	rxvt_fontset::new_font (const char *name, codeset cs)
1307	{	1637	{
1308	rxvt_font *f;	1638	rxvt_font *f;
1309		1639
1310	if (!name || !*name)	1640	if (!name || !*name)
1311	{	1641	{
1312	name = "";	1642	name = "";
1313	f = new rxvt_font_default (this);	1643	f = new rxvt_font_default (this);
1314	}	1644	}
…		…
1325	f = new rxvt_font_x11;	1655	f = new rxvt_font_x11;
1326	}	1656	}
1327	else	1657	else
1328	f = new rxvt_font_x11;	1658	f = new rxvt_font_x11;
1329		1659
1330	f->set_term (r);
1331	f->set_name (strdup (name));	1660	f->set_name (strdup (name));
1332		1661	prepare_font (f, cs);
1333	f->cs = cs;
1334	f->loaded = false;
1335		1662
1336	return f;	1663	return f;
1337	}	1664	}
1338		1665
1339	/////////////////////////////////////////////////////////////////////////////	1666	/////////////////////////////////////////////////////////////////////////////
		1667
		1668	void
		1669	rxvt_fontset::push_font (rxvt_font *font)
		1670	{
		1671	// the fontCount index is reserved for the overflow font, it is only
		1672	// necessary when we get fontCount or more fonts, as they cannot be
		1673	// represented in the rendition.
		1674	if (fonts.size () == fontCount)
		1675	{
		1676	rxvt_font *f = new rxvt_font_overflow (this);
		1677
		1678	prepare_font (f, CS_UNICODE);
		1679	fonts.push_back (f);
		1680	}
		1681
		1682	fonts.push_back (font);
		1683	}
1340		1684
1341	void	1685	void
1342	rxvt_fontset::add_fonts (const char *desc)	1686	rxvt_fontset::add_fonts (const char *desc)
1343	{	1687	{
1344	if (desc)	1688	if (desc)
…		…
1346	char buf[512];	1690	char buf[512];
1347	const char *end;	1691	const char *end;
1348		1692
1349	do	1693	do
1350	{	1694	{
1351	while (*desc <= ' ') desc++;	1695	while (*desc && *desc <= ' ')
		1696	desc++;
1352		1697
1353	codeset cs = CS_UNICODE;	1698	codeset cs = CS_UNICODE;
1354		1699
1355	if (*desc == '[')	1700	if (*desc == '[')
1356	{	1701	{
…		…
1372	cs = codeset_from_name (spec + sizeof ("codeset=") - 1);	1717	cs = codeset_from_name (spec + sizeof ("codeset=") - 1);
1373	else	1718	else
1374	rxvt_warn ("unknown parameter '%s' in font specification, skipping.\n", spec);	1719	rxvt_warn ("unknown parameter '%s' in font specification, skipping.\n", spec);
1375		1720
1376	desc++;	1721	desc++;
1377	while (*desc <= ' ') desc++;	1722	while (*desc <= ' ' && *desc) desc++;
1378	}	1723	}
1379		1724
1380	end = strchr (desc, ',');	1725	end = strchr (desc, ',');
1381	if (!end)	1726	if (!end)
1382	end = desc + strlen (desc);	1727	end = desc + strlen (desc);
1383		1728
1384	if (end - desc < 511)	1729	if (end - desc < 511)
1385	{	1730	{
1386	strncpy (buf, desc, end - desc);	1731	memcpy (buf, desc, end - desc);
1387	buf[end - desc] = 0;	1732	buf[end - desc] = 0;
1388		1733
1389	fonts.push_back (new_font (buf, cs));	1734	push_font (new_font (buf, cs));
1390	}	1735	}
1391	else	1736	else
1392	rxvt_warn ("fontset element too long (>511 bytes), ignored.");	1737	rxvt_warn ("fontset element too long (>511 bytes), ignored.\n");
1393		1738
1394	desc = end + 1;	1739	desc = end + 1;
1395	}	1740	}
1396	while (*end);	1741	while (*end);
1397	}	1742	}
…		…
1406	if (fonts[i]->loaded)	1751	if (fonts[i]->loaded)
1407	return true;	1752	return true;
1408		1753
1409	fonts[i]->loaded = true;	1754	fonts[i]->loaded = true;
1410		1755
1411	if (!fonts[i]->load (prop))	1756	if (!fonts[i]->load (prop, force_prop))
1412	{	1757	{
1413	fonts[i]->cs = CS_UNKNOWN;	1758	fonts[i]->cs = CS_UNKNOWN;
1414	return false;	1759	return false;
1415	}	1760	}
1416		1761
…		…
1422	{	1767	{
1423	clear ();	1768	clear ();
1424		1769
1425	fontdesc = strdup (desc);	1770	fontdesc = strdup (desc);
1426		1771
1427	fonts.push_back (new_font (0, CS_UNICODE));	1772	push_font (new_font (0, CS_UNICODE));
1428	realize_font (0);	1773	realize_font (0);
1429		1774
1430	add_fonts (desc);	1775	add_fonts (desc);
1431		1776
1432	return true;	1777	return true;
…		…
1441		1786
1442	return -1;	1787	return -1;
1443	}	1788	}
1444		1789
1445	int	1790	int
1446	rxvt_fontset::find_font (unicode_t unicode)	1791	rxvt_fontset::find_font_idx (unicode_t unicode)
1447	{	1792	{
1448	if (unicode >= 1<<20)	1793	// this limits fmap size. it has to accommodate COMPOSE_HI when UNICODE_3
		1794	if (unicode > 0x1fffff)
1449	return 0;	1795	return 0;
1450		1796
1451	unicode_t hi = unicode >> 8;	1797	unicode_t hi = unicode >> 8;
1452		1798
1453	if (hi < fmap.size ()	1799	if (hi < fmap.size ())
1454	&& fmap[hi]	1800	if (pagemap *pm = fmap[hi])
1455	&& (*fmap[hi])[unicode & 0xff] != 0xff)	1801	if ((*pm)[unicode & 0xff] != 0xff)
1456	return (*fmap[hi])[unicode & 0xff];	1802	return (*pm)[unicode & 0xff];
1457		1803
1458	unsigned int i;	1804	unsigned int i;
1459		1805
1460	for (i = 0; i < fonts.size (); i++)	1806	for (i = 0; i < fonts.size (); i++)
1461	{	1807	{
…		…
1466	if (FROM_UNICODE (f->cs, unicode) == NOCHAR)	1812	if (FROM_UNICODE (f->cs, unicode) == NOCHAR)
1467	goto next_font;	1813	goto next_font;
1468		1814
1469	if (!realize_font (i))	1815	if (!realize_font (i))
1470	goto next_font;	1816	goto next_font;
		1817
		1818	if (prop.ascent != rxvt_fontprop::unset)
		1819	max_it (f->ascent, prop.ascent);
1471	}	1820	}
1472		1821
1473	if (f->cs == CS_UNKNOWN)	1822	if (f->cs == CS_UNKNOWN)
1474	goto next_font;	1823	goto next_font;
1475		1824
1476	bool careful;	1825	bool careful;
1477	if (f->has_char (unicode, &prop, careful))	1826	if (f->has_char (unicode, &prop, careful))
1478	{	1827	{
1479	if (careful)	1828	i = (i << 1) | careful;
1480	i |= 128;
1481		1829
1482	goto found;	1830	goto found;
1483	}	1831	}
1484		1832
1485	next_font:	1833	next_font:
1486	if (i == fonts.size () - 1)	1834	if (i == fonts.size () - 1)
1487	{	1835	{
		1836	// compose characters are handled by the default font, unless another font takes over
		1837	// we do not go via the fallback list for speed reasons.
		1838	if (IS_COMPOSE (unicode))
		1839	return 0;
		1840
1488	if (fallback->name)	1841	if (fallback->name)
1489	{	1842	{
1490	// search through the fallback list	1843	// search through the fallback list
1491	fonts.push_back (new_font (fallback->name, fallback->cs));	1844	push_font (new_font (fallback->name, fallback->cs));
1492	fallback++;	1845	fallback++;
1493	}	1846	}
1494	else	1847	else
1495	{	1848	{
1496	// try to find a new font.	1849	// try to find a new font.
…		…
1498	// way to configure this and xft is easier to hack in,	1851	// way to configure this and xft is easier to hack in,
1499	// while x11 has more framework in place already.	1852	// while x11 has more framework in place already.
1500	// TODO: this is a real resource hog, xft takes ages(?)	1853	// TODO: this is a real resource hog, xft takes ages(?)
1501	#if XFT && USE_SLOW_LOOKUP	1854	#if XFT && USE_SLOW_LOOKUP
1502	// grab the first xft font that seems suitable	1855	// grab the first xft font that seems suitable
		1856	// TOOD: should go first for cellchar (spacing 110) then mono, then else
1503	FcPattern *p = FcPatternCreate ();	1857	FcPattern *p = FcPatternCreate ();
1504		1858
1505	FcCharSet *s = FcCharSetCreate ();	1859	FcCharSet *s = FcCharSetCreate ();
1506	FcCharSetAddChar (s, unicode);	1860	FcCharSetAddChar (s, unicode);
1507	FcPatternAddCharSet (p, FC_CHARSET, s);	1861	FcPatternAddCharSet (p, FC_CHARSET, s);
…		…
1514	FcPatternAddInteger (p, FC_SLANT, prop.slant);	1868	FcPatternAddInteger (p, FC_SLANT, prop.slant);
1515	FcPatternAddBool (p, FC_MINSPACE, 1);	1869	FcPatternAddBool (p, FC_MINSPACE, 1);
1516	//FcPatternAddBool (p, FC_ANTIALIAS, 1);	1870	//FcPatternAddBool (p, FC_ANTIALIAS, 1);
1517		1871
1518	XftResult result;	1872	XftResult result;
1519	FcPattern *match = XftFontMatch (DISPLAY, DefaultScreen (DISPLAY), p, &result);	1873	FcPattern *match = XftFontMatch (term->dpy, term->display->screen, p, &result);
1520		1874
1521	FcPatternDestroy (p);	1875	FcPatternDestroy (p);
1522		1876
1523	if (match)	1877	if (match)
1524	{	1878	{
…		…
1527	FcPatternDestroy (match);	1881	FcPatternDestroy (match);
1528		1882
1529	if (find_font (font) < 0)	1883	if (find_font (font) < 0)
1530	{	1884	{
1531	char fontname[4096];	1885	char fontname[4096];
1532	sprintf (fontname, "xft:%-.4090s", font);	1886	snprintf (fontname, sizeof (fontname), "xft:%s", font);
1533		1887
1534	fonts.push_back (new_font (fontname, CS_UNICODE));	1888	push_font (new_font (fontname, CS_UNICODE));
1535	}	1889	}
1536		1890
1537	free (font);	1891	free (font);
1538	}	1892	}
1539	#endif	1893	#endif
…		…
1551	while (hi >= fmap.size ())	1905	while (hi >= fmap.size ())
1552	fmap.push_back (0);	1906	fmap.push_back (0);
1553		1907
1554	if (!fmap[hi])	1908	if (!fmap[hi])
1555	{	1909	{
1556	fmap[hi] = (pagemap *)new pagemap;	1910	fmap[hi] = new pagemap;
1557	memset (fmap[hi], 0xff, sizeof (pagemap));	1911	memset (fmap[hi], 0xff, sizeof (pagemap));
1558	}	1912	}
1559		1913
1560	(*fmap[hi])[unicode & 0xff] = i;	1914	(*fmap[hi])[unicode & 0xff] = i;
1561	}	1915	}
1562		1916
1563	return i;	1917	return i;
1564	}	1918	}
1565		1919
1566
1567

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