]>
Dogcows Code - chaz/openbox/blob - color.c
a247673f4532ef9bfe69f0eade9750909996b71d
1 /* -*- indent-tabs-mode: nil; tab-width: 4; c-basic-offset: 4; -*-
3 color.c for the Openbox window manager
4 Copyright (c) 2006 Mikael Magnusson
5 Copyright (c) 2003-2007 Dana Jansens
6 Copyright (c) 2003 Derek Foreman
8 This program is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 2 of the License, or
11 (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 See the COPYING file for a copy of the GNU General Public License.
26 #include <X11/Xutil.h>
29 void RrColorAllocateGC(RrColor
*in
)
33 gcv
.foreground
= in
->pixel
;
34 gcv
.cap_style
= CapProjecting
;
35 in
->gc
= XCreateGC(RrDisplay(in
->inst
),
36 RrRootWindow(in
->inst
),
37 GCForeground
| GCCapStyle
, &gcv
);
40 RrColor
*RrColorParse(const RrInstance
*inst
, gchar
*colorname
)
44 g_assert(colorname
!= NULL
);
45 /* get rgb values from colorname */
51 if (!XParseColor(RrDisplay(inst
), RrColormap(inst
), colorname
, &xcol
)) {
52 g_message("Unable to parse color '%s'", colorname
);
55 return RrColorNew(inst
, xcol
.red
>> 8, xcol
.green
>> 8, xcol
.blue
>> 8);
58 /*#define NO_COLOR_CACHE*/
63 RrColor
*RrColorNew(const RrInstance
*inst
, gint r
, gint g
, gint b
)
65 /* this should be replaced with something far cooler */
70 g_assert(r
>= 0 && r
< 256);
71 g_assert(g
>= 0 && g
< 256);
72 g_assert(b
>= 0 && b
< 256);
74 key
= (r
<< 24) + (g
<< 16) + (b
<< 8);
75 #ifndef NO_COLOR_CACHE
76 if ((out
= g_hash_table_lookup(RrColorHash(inst
), &key
))) {
80 xcol
.red
= (r
<< 8) | r
;
81 xcol
.green
= (g
<< 8) | g
;
82 xcol
.blue
= (b
<< 8) | b
;
83 if (XAllocColor(RrDisplay(inst
), RrColormap(inst
), &xcol
)) {
84 out
= g_new(RrColor
, 1);
86 out
->r
= xcol
.red
>> 8;
87 out
->g
= xcol
.green
>> 8;
88 out
->b
= xcol
.blue
>> 8;
90 out
->pixel
= xcol
.pixel
;
96 #ifndef NO_COLOR_CACHE
97 g_hash_table_insert(RrColorHash(inst
), &out
->key
, out
);
104 void RrColorFree(RrColor
*c
)
107 if (--c
->refcount
< 1) {
108 #ifndef NO_COLOR_CACHE
109 g_assert(g_hash_table_lookup(RrColorHash(c
->inst
), &c
->key
));
110 g_hash_table_remove(RrColorHash(c
->inst
), &c
->key
);
112 if (c
->pixel
) XFreeColors(RrDisplay(c
->inst
), RrColormap(c
->inst
),
114 if (c
->gc
) XFreeGC(RrDisplay(c
->inst
), c
->gc
);
120 void RrReduceDepth(const RrInstance
*inst
, RrPixel32
*data
, XImage
*im
)
124 RrPixel32
*p32
= (RrPixel32
*) im
->data
;
125 RrPixel16
*p16
= (RrPixel16
*) im
->data
;
126 RrPixel8
*p8
= (RrPixel8
*) im
->data
;
127 switch (im
->bits_per_pixel
) {
129 if ((RrRedOffset(inst
) != RrDefaultRedOffset
) ||
130 (RrBlueOffset(inst
) != RrDefaultBlueOffset
) ||
131 (RrGreenOffset(inst
) != RrDefaultGreenOffset
)) {
132 for (y
= 0; y
< im
->height
; y
++) {
133 for (x
= 0; x
< im
->width
; x
++) {
134 r
= (data
[x
] >> RrDefaultRedOffset
) & 0xFF;
135 g
= (data
[x
] >> RrDefaultGreenOffset
) & 0xFF;
136 b
= (data
[x
] >> RrDefaultBlueOffset
) & 0xFF;
137 p32
[x
] = (r
<< RrRedOffset(inst
))
138 + (g
<< RrGreenOffset(inst
))
139 + (b
<< RrBlueOffset(inst
));
144 } else im
->data
= (gchar
*) data
;
147 for (y
= 0; y
< im
->height
; y
++) {
148 for (x
= 0; x
< im
->width
; x
++) {
149 r
= (data
[x
] >> RrDefaultRedOffset
) & 0xFF;
150 r
= r
>> RrRedShift(inst
);
151 g
= (data
[x
] >> RrDefaultGreenOffset
) & 0xFF;
152 g
= g
>> RrGreenShift(inst
);
153 b
= (data
[x
] >> RrDefaultBlueOffset
) & 0xFF;
154 b
= b
>> RrBlueShift(inst
);
155 p16
[x
] = (r
<< RrRedOffset(inst
))
156 + (g
<< RrGreenOffset(inst
))
157 + (b
<< RrBlueOffset(inst
));
160 p16
+= im
->bytes_per_line
/2;
164 if (RrVisual(inst
)->class == TrueColor
) {
165 for (y
= 0; y
< im
->height
; y
++) {
166 for (x
= 0; x
< im
->width
; x
++) {
167 r
= (data
[x
] >> RrDefaultRedOffset
) & 0xFF;
168 r
= r
>> RrRedShift(inst
);
169 g
= (data
[x
] >> RrDefaultGreenOffset
) & 0xFF;
170 g
= g
>> RrGreenShift(inst
);
171 b
= (data
[x
] >> RrDefaultBlueOffset
) & 0xFF;
172 b
= b
>> RrBlueShift(inst
);
173 p8
[x
] = (r
<< RrRedOffset(inst
))
174 + (g
<< RrGreenOffset(inst
))
175 + (b
<< RrBlueOffset(inst
));
178 p8
+= im
->bytes_per_line
;
181 for (y
= 0; y
< im
->height
; y
++) {
182 for (x
= 0; x
< im
->width
; x
++) {
183 p8
[x
] = RrPickColor(inst
,
184 data
[x
] >> RrDefaultRedOffset
,
185 data
[x
] >> RrDefaultGreenOffset
,
186 data
[x
] >> RrDefaultBlueOffset
)->pixel
;
189 p8
+= im
->bytes_per_line
;
194 g_error("Your bit depth is currently unhandled\n");
199 XColor
*RrPickColor(const RrInstance
*inst
, gint r
, gint g
, gint b
)
201 r
= (r
& 0xff) >> (8-RrPseudoBPC(inst
));
202 g
= (g
& 0xff) >> (8-RrPseudoBPC(inst
));
203 b
= (b
& 0xff) >> (8-RrPseudoBPC(inst
));
204 return &RrPseudoColors(inst
)[(r
<< (2*RrPseudoBPC(inst
))) +
205 (g
<< (1*RrPseudoBPC(inst
))) +
209 static void swap_byte_order(XImage
*im
)
214 for (y
= 0; y
< im
->height
; ++y
) {
215 for (x
= 0; x
< im
->height
; ++x
) {
216 gchar
*c
= &im
->data
[di
+ x
* im
->bits_per_pixel
/ 8];
219 switch (im
->bits_per_pixel
) {
232 g_error("Your bit depth (%i) is currently unhandled",
236 di
+= im
->bytes_per_line
;
239 if (im
->byte_order
== LSBFirst
)
240 im
->byte_order
= MSBFirst
;
242 im
->byte_order
= LSBFirst
;
245 void RrIncreaseDepth(const RrInstance
*inst
, RrPixel32
*data
, XImage
*im
)
249 RrPixel32
*p32
= (RrPixel32
*) im
->data
;
250 RrPixel16
*p16
= (RrPixel16
*) im
->data
;
251 guchar
*p8
= (guchar
*)im
->data
;
253 if (im
->byte_order
!= LSBFirst
)
256 switch (im
->bits_per_pixel
) {
258 for (y
= 0; y
< im
->height
; y
++) {
259 for (x
= 0; x
< im
->width
; x
++) {
260 r
= (p32
[x
] >> RrRedOffset(inst
)) & 0xff;
261 g
= (p32
[x
] >> RrGreenOffset(inst
)) & 0xff;
262 b
= (p32
[x
] >> RrBlueOffset(inst
)) & 0xff;
263 data
[x
] = (r
<< RrDefaultRedOffset
)
264 + (g
<< RrDefaultGreenOffset
)
265 + (b
<< RrDefaultBlueOffset
)
266 + (0xff << RrDefaultAlphaOffset
);
269 p32
+= im
->bytes_per_line
/4;
273 for (y
= 0; y
< im
->height
; y
++) {
274 for (x
= 0; x
< im
->width
; x
++) {
275 r
= (p16
[x
] & RrRedMask(inst
)) >>
278 g
= (p16
[x
] & RrGreenMask(inst
)) >>
279 RrGreenOffset(inst
) <<
281 b
= (p16
[x
] & RrBlueMask(inst
)) >>
282 RrBlueOffset(inst
) <<
284 data
[x
] = (r
<< RrDefaultRedOffset
)
285 + (g
<< RrDefaultGreenOffset
)
286 + (b
<< RrDefaultBlueOffset
)
287 + (0xff << RrDefaultAlphaOffset
);
290 p16
+= im
->bytes_per_line
/2;
294 g_error("This image bit depth (%i) is currently unhandled", 8);
297 for (y
= 0; y
< im
->height
; y
++) {
298 for (x
= 0; x
< im
->width
; x
++) {
299 if (!(((p8
[x
/ 8]) >> (x
% 8)) & 0x1))
300 data
[x
] = 0xff << RrDefaultAlphaOffset
; /* black */
302 data
[x
] = 0xffffffff; /* white */
305 p8
+= im
->bytes_per_line
;
309 g_error("This image bit depth (%i) is currently unhandled",
314 gint
RrColorRed(const RrColor
*c
)
319 gint
RrColorGreen(const RrColor
*c
)
324 gint
RrColorBlue(const RrColor
*c
)
329 gulong
RrColorPixel(const RrColor
*c
)
334 GC
RrColorGC(RrColor
*c
)
337 RrColorAllocateGC(c
);
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