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1 /*****************************************************************************/
2 // Copyright 2006 Adobe Systems Incorporated
3 // All Rights Reserved.
4 //
5 // NOTICE:  Adobe permits you to use, modify, and distribute this file in
6 // accordance with the terms of the Adobe license agreement accompanying it.
7 /*****************************************************************************/
8 
9 /* $Id: //mondo/dng_sdk_1_4/dng_sdk/source/dng_temperature.cpp#1 $ */
10 /* $DateTime: 2012/05/30 13:28:51 $ */
11 /* $Change: 832332 $ */
12 /* $Author: tknoll $ */
13 
14 #include "dng_temperature.h"
15 
16 #include "dng_xy_coord.h"
17 
18 /*****************************************************************************/
19 
20 // Scale factor between distances in uv space to a more user friendly "tint"
21 // parameter.
22 
23 static const real64 kTintScale = -3000.0;
24 
25 /*****************************************************************************/
26 
27 // Table from Wyszecki & Stiles, "Color Science", second edition, page 228.
28 
29 struct ruvt
30 	{
31 	real64 r;
32 	real64 u;
33 	real64 v;
34 	real64 t;
35 	};
36 
37 static const ruvt kTempTable [] =
38 	{
39 	{   0, 0.18006, 0.26352, -0.24341 },
40 	{  10, 0.18066, 0.26589, -0.25479 },
41 	{  20, 0.18133, 0.26846, -0.26876 },
42 	{  30, 0.18208, 0.27119, -0.28539 },
43 	{  40, 0.18293, 0.27407, -0.30470 },
44 	{  50, 0.18388, 0.27709, -0.32675 },
45 	{  60, 0.18494, 0.28021, -0.35156 },
46 	{  70, 0.18611, 0.28342, -0.37915 },
47 	{  80, 0.18740, 0.28668, -0.40955 },
48 	{  90, 0.18880, 0.28997, -0.44278 },
49 	{ 100, 0.19032, 0.29326, -0.47888 },
50 	{ 125, 0.19462, 0.30141, -0.58204 },
51 	{ 150, 0.19962, 0.30921, -0.70471 },
52 	{ 175, 0.20525, 0.31647, -0.84901 },
53 	{ 200, 0.21142, 0.32312, -1.0182 },
54 	{ 225, 0.21807, 0.32909, -1.2168 },
55 	{ 250, 0.22511, 0.33439, -1.4512 },
56 	{ 275, 0.23247, 0.33904, -1.7298 },
57 	{ 300, 0.24010, 0.34308, -2.0637 },
58 	{ 325, 0.24702, 0.34655, -2.4681 },
59 	{ 350, 0.25591, 0.34951, -2.9641 },
60 	{ 375, 0.26400, 0.35200, -3.5814 },
61 	{ 400, 0.27218, 0.35407, -4.3633 },
62 	{ 425, 0.28039, 0.35577, -5.3762 },
63 	{ 450, 0.28863, 0.35714, -6.7262 },
64 	{ 475, 0.29685, 0.35823, -8.5955 },
65 	{ 500, 0.30505, 0.35907, -11.324 },
66 	{ 525, 0.31320, 0.35968, -15.628 },
67 	{ 550, 0.32129, 0.36011, -23.325 },
68 	{ 575, 0.32931, 0.36038, -40.770 },
69 	{ 600, 0.33724, 0.36051, -116.45 }
70 	};
71 
72 /*****************************************************************************/
73 
Set_xy_coord(const dng_xy_coord & xy)74 void dng_temperature::Set_xy_coord (const dng_xy_coord &xy)
75 	{
76 
77 	// Convert to uv space.
78 
79 	real64 u = 2.0 * xy.x / (1.5 - xy.x + 6.0 * xy.y);
80 	real64 v = 3.0 * xy.y / (1.5 - xy.x + 6.0 * xy.y);
81 
82 	// Search for line pair coordinate is between.
83 
84 	real64 last_dt = 0.0;
85 
86 	real64 last_dv = 0.0;
87 	real64 last_du = 0.0;
88 
89 	for (uint32 index = 1; index <= 30; index++)
90 		{
91 
92 		// Convert slope to delta-u and delta-v, with length 1.
93 
94 		real64 du = 1.0;
95 		real64 dv = kTempTable [index] . t;
96 
97 		real64 len = sqrt (1.0 + dv * dv);
98 
99 		du /= len;
100 		dv /= len;
101 
102 		// Find delta from black body point to test coordinate.
103 
104 		real64 uu = u - kTempTable [index] . u;
105 		real64 vv = v - kTempTable [index] . v;
106 
107 		// Find distance above or below line.
108 
109 		real64 dt = - uu * dv + vv * du;
110 
111 		// If below line, we have found line pair.
112 
113 		if (dt <= 0.0 || index == 30)
114 			{
115 
116 			// Find fractional weight of two lines.
117 
118 			if (dt > 0.0)
119 				dt = 0.0;
120 
121 			dt = -dt;
122 
123 			real64 f;
124 
125 			if (index == 1)
126 				{
127 				f = 0.0;
128 				}
129 			else
130 				{
131 				f = dt / (last_dt + dt);
132 				}
133 
134 			// Interpolate the temperature.
135 
136 			fTemperature = 1.0E6 / (kTempTable [index - 1] . r * f +
137 								    kTempTable [index    ] . r * (1.0 - f));
138 
139 			// Find delta from black body point to test coordinate.
140 
141 			uu = u - (kTempTable [index - 1] . u * f +
142 					  kTempTable [index    ] . u * (1.0 - f));
143 
144 			vv = v - (kTempTable [index - 1] . v * f +
145 					  kTempTable [index    ] . v * (1.0 - f));
146 
147 			// Interpolate vectors along slope.
148 
149 			du = du * (1.0 - f) + last_du * f;
150 			dv = dv * (1.0 - f) + last_dv * f;
151 
152 			len = sqrt (du * du + dv * dv);
153 
154 			du /= len;
155 			dv /= len;
156 
157 			// Find distance along slope.
158 
159 			fTint = (uu * du + vv * dv) * kTintScale;
160 
161 			break;
162 
163 			}
164 
165 		// Try next line pair.
166 
167 		last_dt = dt;
168 
169 		last_du = du;
170 		last_dv = dv;
171 
172 		}
173 
174 	}
175 
176 /*****************************************************************************/
177 
Get_xy_coord() const178 dng_xy_coord dng_temperature::Get_xy_coord () const
179 	{
180 
181 	dng_xy_coord result;
182 
183 	// Find inverse temperature to use as index.
184 
185 	real64 r = 1.0E6 / fTemperature;
186 
187 	// Convert tint to offset is uv space.
188 
189 	real64 offset = fTint * (1.0 / kTintScale);
190 
191 	// Search for line pair containing coordinate.
192 
193 	for (uint32 index = 0; index <= 29; index++)
194 		{
195 
196 		if (r < kTempTable [index + 1] . r || index == 29)
197 			{
198 
199 			// Find relative weight of first line.
200 
201 			real64 f = (kTempTable [index + 1] . r - r) /
202 					   (kTempTable [index + 1] . r - kTempTable [index] . r);
203 
204 			// Interpolate the black body coordinates.
205 
206 			real64 u = kTempTable [index    ] . u * f +
207 					   kTempTable [index + 1] . u * (1.0 - f);
208 
209 			real64 v = kTempTable [index    ] . v * f +
210 					   kTempTable [index + 1] . v * (1.0 - f);
211 
212 			// Find vectors along slope for each line.
213 
214 			real64 uu1 = 1.0;
215 			real64 vv1 = kTempTable [index] . t;
216 
217 			real64 uu2 = 1.0;
218 			real64 vv2 = kTempTable [index + 1] . t;
219 
220 			real64 len1 = sqrt (1.0 + vv1 * vv1);
221 			real64 len2 = sqrt (1.0 + vv2 * vv2);
222 
223 			uu1 /= len1;
224 			vv1 /= len1;
225 
226 			uu2 /= len2;
227 			vv2 /= len2;
228 
229 			// Find vector from black body point.
230 
231 			real64 uu3 = uu1 * f + uu2 * (1.0 - f);
232 			real64 vv3 = vv1 * f + vv2 * (1.0 - f);
233 
234 			real64 len3 = sqrt (uu3 * uu3 + vv3 * vv3);
235 
236 			uu3 /= len3;
237 			vv3 /= len3;
238 
239 			// Adjust coordinate along this vector.
240 
241 			u += uu3 * offset;
242 			v += vv3 * offset;
243 
244 			// Convert to xy coordinates.
245 
246 			result.x = 1.5 * u / (u - 4.0 * v + 2.0);
247 			result.y =       v / (u - 4.0 * v + 2.0);
248 
249 			break;
250 
251 			}
252 
253 		}
254 
255 	return result;
256 
257 	}
258 
259 /*****************************************************************************/
260