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1 /* vim: set ts=8 sw=8 noexpandtab: */
2 //  qcms
3 //  Copyright (C) 2009 Mozilla Foundation
4 //
5 // Permission is hereby granted, free of charge, to any person obtaining
6 // a copy of this software and associated documentation files (the "Software"),
7 // to deal in the Software without restriction, including without limitation
8 // the rights to use, copy, modify, merge, publish, distribute, sublicense,
9 // and/or sell copies of the Software, and to permit persons to whom the Software
10 // is furnished to do so, subject to the following conditions:
11 //
12 // The above copyright notice and this permission notice shall be included in
13 // all copies or substantial portions of the Software.
14 //
15 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
16 // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
17 // THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
18 // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
19 // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
20 // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
21 // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
22 
23 #include "qcms.h"
24 #include "qcmstypes.h"
25 
26 /* used as a lookup table for the output transformation.
27  * we refcount them so we only need to have one around per output
28  * profile, instead of duplicating them per transform */
29 struct precache_output
30 {
31 	int ref_count;
32 	/* We previously used a count of 65536 here but that seems like more
33 	 * precision than we actually need.  By reducing the size we can
34 	 * improve startup performance and reduce memory usage. ColorSync on
35 	 * 10.5 uses 4097 which is perhaps because they use a fixed point
36 	 * representation where 1. is represented by 0x1000. */
37 #define PRECACHE_OUTPUT_SIZE 8192
38 #define PRECACHE_OUTPUT_MAX (PRECACHE_OUTPUT_SIZE-1)
39 	uint8_t data[PRECACHE_OUTPUT_SIZE];
40 };
41 
42 #ifdef _MSC_VER
43 #define ALIGN __declspec(align(16))
44 #else
45 #define ALIGN __attribute__(( aligned (16) ))
46 #endif
47 
48 typedef struct _qcms_format_type {
49 	int r;
50 	int b;
51 } qcms_format_type;
52 
53 struct _qcms_transform {
54 	float ALIGN matrix[3][4];
55 	float *input_gamma_table_r;
56 	float *input_gamma_table_g;
57 	float *input_gamma_table_b;
58 
59 	float *input_clut_table_r;
60 	float *input_clut_table_g;
61 	float *input_clut_table_b;
62 	uint16_t input_clut_table_length;
63 	float *r_clut;
64 	float *g_clut;
65 	float *b_clut;
66 	uint16_t grid_size;
67 	float *output_clut_table_r;
68 	float *output_clut_table_g;
69 	float *output_clut_table_b;
70 	uint16_t output_clut_table_length;
71 
72 	float *input_gamma_table_gray;
73 
74 	float out_gamma_r;
75 	float out_gamma_g;
76 	float out_gamma_b;
77 
78 	float out_gamma_gray;
79 
80 	uint16_t *output_gamma_lut_r;
81 	uint16_t *output_gamma_lut_g;
82 	uint16_t *output_gamma_lut_b;
83 
84 	uint16_t *output_gamma_lut_gray;
85 
86 	size_t output_gamma_lut_r_length;
87 	size_t output_gamma_lut_g_length;
88 	size_t output_gamma_lut_b_length;
89 
90 	size_t output_gamma_lut_gray_length;
91 
92 	struct precache_output *output_table_r;
93 	struct precache_output *output_table_g;
94 	struct precache_output *output_table_b;
95 
96 	void (*transform_fn)(struct _qcms_transform *transform, unsigned char *src, unsigned char *dest, size_t length, struct _qcms_format_type output_format);
97 };
98 
99 struct matrix {
100 	float m[3][3];
101 	bool invalid;
102 };
103 
104 struct qcms_modular_transform;
105 
106 typedef void (*transform_module_fn_t)(struct qcms_modular_transform *transform, float *src, float *dest, size_t length);
107 
108 struct qcms_modular_transform {
109 	struct matrix matrix;
110 	float tx, ty, tz;
111 
112 	float *input_clut_table_r;
113 	float *input_clut_table_g;
114 	float *input_clut_table_b;
115 	uint16_t input_clut_table_length;
116 	float *r_clut;
117 	float *g_clut;
118 	float *b_clut;
119 	uint16_t grid_size;
120 	float *output_clut_table_r;
121 	float *output_clut_table_g;
122 	float *output_clut_table_b;
123 	uint16_t output_clut_table_length;
124 
125 	uint16_t *output_gamma_lut_r;
126 	uint16_t *output_gamma_lut_g;
127 	uint16_t *output_gamma_lut_b;
128 
129 	size_t output_gamma_lut_r_length;
130 	size_t output_gamma_lut_g_length;
131 	size_t output_gamma_lut_b_length;
132 
133 	transform_module_fn_t transform_module_fn;
134 	struct qcms_modular_transform *next_transform;
135 };
136 
137 typedef int32_t s15Fixed16Number;
138 typedef uint16_t uInt16Number;
139 typedef uint8_t uInt8Number;
140 
141 struct XYZNumber {
142 	s15Fixed16Number X;
143 	s15Fixed16Number Y;
144 	s15Fixed16Number Z;
145 };
146 
147 struct curveType {
148 	uint32_t type;
149 	uint32_t count;
150 	float parameter[7];
151 	uInt16Number data[];
152 };
153 
154 struct lutmABType {
155 	uint8_t num_in_channels;
156 	uint8_t num_out_channels;
157 	// 16 is the upperbound, actual is 0..num_in_channels.
158 	uint8_t num_grid_points[16];
159 
160 	s15Fixed16Number e00;
161 	s15Fixed16Number e01;
162 	s15Fixed16Number e02;
163 	s15Fixed16Number e03;
164 	s15Fixed16Number e10;
165 	s15Fixed16Number e11;
166 	s15Fixed16Number e12;
167 	s15Fixed16Number e13;
168 	s15Fixed16Number e20;
169 	s15Fixed16Number e21;
170 	s15Fixed16Number e22;
171 	s15Fixed16Number e23;
172 
173 	// reversed elements (for mBA)
174 	bool reversed;
175 
176 	float *clut_table;
177 	struct curveType *a_curves[10];
178 	struct curveType *b_curves[10];
179 	struct curveType *m_curves[10];
180 	float clut_table_data[];
181 };
182 
183 /* should lut8Type and lut16Type be different types? */
184 struct lutType { // used by lut8Type/lut16Type (mft2) only
185 	uint8_t num_input_channels;
186 	uint8_t num_output_channels;
187 	uint8_t num_clut_grid_points;
188 
189 	s15Fixed16Number e00;
190 	s15Fixed16Number e01;
191 	s15Fixed16Number e02;
192 	s15Fixed16Number e10;
193 	s15Fixed16Number e11;
194 	s15Fixed16Number e12;
195 	s15Fixed16Number e20;
196 	s15Fixed16Number e21;
197 	s15Fixed16Number e22;
198 
199 	uint16_t num_input_table_entries;
200 	uint16_t num_output_table_entries;
201 
202 	float *input_table;
203 	float *clut_table;
204 	float *output_table;
205 
206 	float table_data[];
207 };
208 #if 0
209 /* this is from an intial idea of having the struct correspond to the data in
210  * the file. I decided that it wasn't a good idea.
211  */
212 struct tag_value {
213 	uint32_t type;
214 	union {
215 		struct {
216 			uint32_t reserved;
217 			struct {
218 				s15Fixed16Number X;
219 				s15Fixed16Number Y;
220 				s15Fixed16Number Z;
221 			} XYZNumber;
222 		} XYZType;
223 	};
224 }; // I guess we need to pack this?
225 #endif
226 
227 #define RGB_SIGNATURE  0x52474220
228 #define GRAY_SIGNATURE 0x47524159
229 #define XYZ_SIGNATURE  0x58595A20
230 #define LAB_SIGNATURE  0x4C616220
231 
232 struct _qcms_profile {
233 	uint32_t class;
234 	uint32_t color_space;
235 	uint32_t pcs;
236 	qcms_intent rendering_intent;
237 	struct XYZNumber redColorant;
238 	struct XYZNumber blueColorant;
239 	struct XYZNumber greenColorant;
240 	struct curveType *redTRC;
241 	struct curveType *blueTRC;
242 	struct curveType *greenTRC;
243 	struct curveType *grayTRC;
244 	struct lutType *A2B0;
245 	struct lutType *B2A0;
246 	struct lutmABType *mAB;
247 	struct lutmABType *mBA;
248 	struct matrix chromaticAdaption;
249 
250 	struct precache_output *output_table_r;
251 	struct precache_output *output_table_g;
252 	struct precache_output *output_table_b;
253 };
254 
255 #ifdef _MSC_VER
256 #define inline _inline
257 #endif
258 
259 /* produces the nearest float to 'a' with a maximum error
260  * of 1/1024 which happens for large values like 0x40000040 */
s15Fixed16Number_to_float(s15Fixed16Number a)261 static inline float s15Fixed16Number_to_float(s15Fixed16Number a)
262 {
263 	return ((int32_t)a)/65536.f;
264 }
265 
double_to_s15Fixed16Number(double v)266 static inline s15Fixed16Number double_to_s15Fixed16Number(double v)
267 {
268 	return (int32_t)(v*65536);
269 }
270 
uInt8Number_to_float(uInt8Number a)271 static inline float uInt8Number_to_float(uInt8Number a)
272 {
273 	return ((int32_t)a)/255.f;
274 }
275 
uInt16Number_to_float(uInt16Number a)276 static inline float uInt16Number_to_float(uInt16Number a)
277 {
278 	return ((int32_t)a)/65535.f;
279 }
280 
281 
282 void precache_release(struct precache_output *p);
283 qcms_bool set_rgb_colorants(qcms_profile *profile, qcms_CIE_xyY white_point, qcms_CIE_xyYTRIPLE primaries);
284 
285 void qcms_transform_data_rgb_out_lut_sse2(qcms_transform *transform,
286                                           unsigned char *src,
287                                           unsigned char *dest,
288                                           size_t length,
289                                           qcms_format_type output_format);
290 void qcms_transform_data_rgba_out_lut_sse2(qcms_transform *transform,
291                                           unsigned char *src,
292                                           unsigned char *dest,
293                                           size_t length,
294                                           qcms_format_type output_format);
295 void qcms_transform_data_rgb_out_lut_sse1(qcms_transform *transform,
296                                           unsigned char *src,
297                                           unsigned char *dest,
298                                           size_t length,
299                                           qcms_format_type output_format);
300 void qcms_transform_data_rgba_out_lut_sse1(qcms_transform *transform,
301                                           unsigned char *src,
302                                           unsigned char *dest,
303                                           size_t length,
304                                           qcms_format_type output_format);
305 
306 extern qcms_bool qcms_supports_iccv4;
307 
308 
309 #ifdef _MSC_VER
310 
311 long __cdecl _InterlockedIncrement(long volatile *);
312 long __cdecl _InterlockedDecrement(long volatile *);
313 #pragma intrinsic(_InterlockedIncrement)
314 #pragma intrinsic(_InterlockedDecrement)
315 
316 #define qcms_atomic_increment(x) _InterlockedIncrement((long volatile *)&x)
317 #define qcms_atomic_decrement(x) _InterlockedDecrement((long volatile*)&x)
318 
319 #else
320 
321 #define qcms_atomic_increment(x) __sync_add_and_fetch(&x, 1)
322 #define qcms_atomic_decrement(x) __sync_sub_and_fetch(&x, 1)
323 
324 #endif
325