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2 .\" Copyright (c) 2003, Andrey Kiselev <dron@ak4719.spb.edu>
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23 .if n .po 0
24 .TH COLOR 3TIFF "December 21, 2003" "libtiff"
25 .SH NAME
26 TIFFYCbCrToRGBInit, TIFFYCbCrtoRGB, TIFFCIELabToRGBInit, TIFFCIELabToXYZ,
27 TIFFXYZToRGB \- color conversion routines.
28 .SH SYNOPSIS
29 .B "#include <tiffio.h>"
30 .sp
31 .BI "int TIFFYCbCrToRGBInit(TIFFYCbCrToRGB *" ycbcr ", float *" luma ", float *"refBlackWhite" );"
32 .br
33 .BI "void TIFFYCbCrtoRGB(TIFFYCbCrToRGB *" ycbcr ", uint32 " Y ", int32 " Cb ", int32 " Cr ", uint32 *" R ", uint32 *" G ", uint32 *" B " );"
34 .sp
35 .BI "int TIFFCIELabToRGBInit(TIFFCIELabToRGB *" cielab ", const TIFFDisplay *" display ", float *" refWhite ");"
36 .br
37 .BI "void TIFFCIELabToXYZ(TIFFCIELabToRGB *" cielab ", uint32 " L ", int32 " a ", int32 " b ", float *" X ", float *" Y ", float *" Z ");"
38 .br
39 .BI "void TIFFXYZToRGB(TIFFCIELabToRGB *" cielab ", float " X ", float " Y ", float " Z" , uint32 *" R ", uint32 *" G ", uint32 *" B ");"
40 .SH DESCRIPTION
41 TIFF supports several color spaces for images stored in that format. There is
42 usually a problem of application to handle the data properly and convert
43 between different colorspaces for displaying and printing purposes. To
44 simplify this task libtiff implements several color conversion routines
45 itself. In particular, these routines used in
46 .B TIFFRGBAImage(3TIFF)
47 interface.
48 .PP
49 .B TIFFYCbCrToRGBInit()
50 used to initialize
51 .I YCbCr
52 to
53 .I RGB
54 conversion state. Allocating and freeing of the
55 .I ycbcr
56 structure belongs to programmer.
57 .I TIFFYCbCrToRGB
58 defined in
59 .B tiffio.h
60 as
61 .PP
62 .RS
63 .nf
64 typedef struct { /* YCbCr->RGB support */
65 TIFFRGBValue* clamptab; /* range clamping table */
66 int* Cr_r_tab;
67 int* Cb_b_tab;
68 int32* Cr_g_tab;
69 int32* Cb_g_tab;
70 int32* Y_tab;
71 } TIFFYCbCrToRGB;
72 .fi
73 .RE
74 .PP
75 .I luma
76 is a float array of three values representing proportions of the red, green
77 and blue in luminance, Y (see section 21 of the TIFF 6.0 specification, where
78 the YCbCr images discussed).
79 .I TIFFTAG_YCBCRCOEFFICIENTS
80 holds that values in TIFF file.
81 .I refBlackWhite
82 is a float array of 6 values which specifies a pair of headroom and footroom
83 image data values (codes) for each image component (see section 20 of the
84 TIFF 6.0 specification where the colorinmetry fields discussed).
85 .I TIFFTAG_REFERENCEBLACKWHITE
86 is responsible for storing these values in TIFF file. Following code snippet
87 should helps to understand the the technique:
88 .PP
89 .RS
90 .nf
91 float *luma, *refBlackWhite;
92 uint16 hs, vs;
93
94 /* Initialize structures */
95 ycbcr = (TIFFYCbCrToRGB*)
96 _TIFFmalloc(TIFFroundup(sizeof(TIFFYCbCrToRGB), sizeof(long))
97 + 4*256*sizeof(TIFFRGBValue)
98 + 2*256*sizeof(int)
99 + 3*256*sizeof(int32));
100 if (ycbcr == NULL) {
101 TIFFError("YCbCr->RGB",
102 "No space for YCbCr->RGB conversion state");
103 exit(0);
104 }
105
106 TIFFGetFieldDefaulted(tif, TIFFTAG_YCBCRCOEFFICIENTS, &luma);
107 TIFFGetFieldDefaulted(tif, TIFFTAG_REFERENCEBLACKWHITE, &refBlackWhite);
108 if (TIFFYCbCrToRGBInit(ycbcr, luma, refBlackWhite) < 0)
109 exit(0);
110
111 /* Start conversion */
112 uint32 r, g, b;
113 uint32 Y;
114 int32 Cb, Cr;
115
116 for each pixel in image
117 TIFFYCbCrtoRGB(img->ycbcr, Y, Cb, Cr, &r, &g, &b);
118
119 /* Free state structure */
120 _TIFFfree(ycbcr);
121 .fi
122 .RE
123 .PP
124
125 .PP
126 .B TIFFCIELabToRGBInit()
127 initializes the
128 .I CIE L*a*b* 1976
129 to
130 .I RGB
131 conversion state.
132 .B TIFFCIELabToRGB
133 defined as
134 .PP
135 .RS
136 .nf
137 #define CIELABTORGB_TABLE_RANGE 1500
138
139 typedef struct { /* CIE Lab 1976->RGB support */
140 int range; /* Size of conversion table */
141 float rstep, gstep, bstep;
142 float X0, Y0, Z0; /* Reference white point */
143 TIFFDisplay display;
144 float Yr2r[CIELABTORGB_TABLE_RANGE + 1]; /* Conversion of Yr to r */
145 float Yg2g[CIELABTORGB_TABLE_RANGE + 1]; /* Conversion of Yg to g */
146 float Yb2b[CIELABTORGB_TABLE_RANGE + 1]; /* Conversion of Yb to b */
147 } TIFFCIELabToRGB;
148 .fi
149 .RE
150 .PP
151 .I display
152 is a display device description, declared as
153 .PP
154 .RS
155 .nf
156 typedef struct {
157 float d_mat[3][3]; /* XYZ -> luminance matrix */
158 float d_YCR; /* Light o/p for reference white */
159 float d_YCG;
160 float d_YCB;
161 uint32 d_Vrwr; /* Pixel values for ref. white */
162 uint32 d_Vrwg;
163 uint32 d_Vrwb;
164 float d_Y0R; /* Residual light for black pixel */
165 float d_Y0G;
166 float d_Y0B;
167 float d_gammaR; /* Gamma values for the three guns */
168 float d_gammaG;
169 float d_gammaB;
170 } TIFFDisplay;
171 .fi
172 .RE
173 .PP
174 For example, the one can use sRGB device, which has the following parameters:
175 .PP
176 .RS
177 .nf
178 TIFFDisplay display_sRGB = {
179 { /* XYZ -> luminance matrix */
180 { 3.2410F, -1.5374F, -0.4986F },
181 { -0.9692F, 1.8760F, 0.0416F },
182 { 0.0556F, -0.2040F, 1.0570F }
183 },
184 100.0F, 100.0F, 100.0F, /* Light o/p for reference white */
185 255, 255, 255, /* Pixel values for ref. white */
186 1.0F, 1.0F, 1.0F, /* Residual light o/p for black pixel */
187 2.4F, 2.4F, 2.4F, /* Gamma values for the three guns */
188 };
189 .fi
190 .RE
191 .PP
192 .I refWhite
193 is a color temperature of the reference white. The
194 .I TIFFTAG_WHITEPOINT
195 contains the chromaticity of the white point of the image from where the
196 reference white can be calculated using following formulae:
197 .PP
198 .RS
199 refWhite_Y = 100.0
200 .br
201 refWhite_X = whitePoint_x / whitePoint_y * refWhite_Y
202 .br
203 refWhite_Z = (1.0 - whitePoint_x - whitePoint_y) / whitePoint_y * refWhite_X
204 .br
205 .RE
206 .PP
207 The conversion itself performed in two steps: at the first one we will convert
208 .I CIE L*a*b* 1976
209 to
210 .I CIE XYZ
211 using
212 .B TIFFCIELabToXYZ()
213 routine, and at the second step we will convert
214 .I CIE XYZ
215 to
216 .I RGB
217 using
218 .B TIFFXYZToRGB().
219 Look at the code sample below:
220 .PP
221 .RS
222 .nf
223 float *whitePoint;
224 float refWhite[3];
225
226 /* Initialize structures */
227 img->cielab = (TIFFCIELabToRGB *)
228 _TIFFmalloc(sizeof(TIFFCIELabToRGB));
229 if (!cielab) {
230 TIFFError("CIE L*a*b*->RGB",
231 "No space for CIE L*a*b*->RGB conversion state.");
232 exit(0);
233 }
234
235 TIFFGetFieldDefaulted(tif, TIFFTAG_WHITEPOINT, &whitePoint);
236 refWhite[1] = 100.0F;
237 refWhite[0] = whitePoint[0] / whitePoint[1] * refWhite[1];
238 refWhite[2] = (1.0F - whitePoint[0] - whitePoint[1])
239 / whitePoint[1] * refWhite[1];
240 if (TIFFCIELabToRGBInit(cielab, &display_sRGB, refWhite) < 0) {
241 TIFFError("CIE L*a*b*->RGB",
242 "Failed to initialize CIE L*a*b*->RGB conversion state.");
243 _TIFFfree(cielab);
244 exit(0);
245 }
246
247 /* Now we can start to convert */
248 uint32 r, g, b;
249 uint32 L;
250 int32 a, b;
251 float X, Y, Z;
252
253 for each pixel in image
254 TIFFCIELabToXYZ(cielab, L, a, b, &X, &Y, &Z);
255 TIFFXYZToRGB(cielab, X, Y, Z, &r, &g, &b);
256
257 /* Don't forget to free the state structure */
258 _TIFFfree(cielab);
259 .fi
260 .RE
261 .PP
262 .SH "SEE ALSO"
263 .BR TIFFRGBAImage (3TIFF)
264 .BR libtiff (3TIFF),
265 .PP
266 Libtiff library home page:
267 .BR http://www.remotesensing.org/libtiff/