/**@class android.graphics.ColorSpace.Named @extends java.lang.Enum {@usesMathJax} <p>List of common, named color spaces. A corresponding instance of {@link android.graphics.ColorSpace} can be obtained by calling {@link android.graphics.ColorSpace#get(Named)}:</p> <pre class="prettyprint"> ColorSpace cs = ColorSpace.get(ColorSpace.Named.DCI_P3); </pre> <p>The properties of each color space are described below (see {@link #SRGB sRGB} for instance). When applicable, the color gamut of each color space is compared to the color gamut of sRGB using a CIE 1931 xy chromaticity diagram. This diagram shows the location of the color space's primaries and white point.</p> @see ColorSpace#get(Named) */ var Named = { /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space sRGB standardized as IEC 61966-2.1:1999.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.640</td><td>0.300</td><td>0.150</td><td>0.3127</td></tr> <tr><td>y</td><td>0.330</td><td>0.600</td><td>0.060</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">sRGB IEC61966-2.1</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{sRGB} = \begin{cases} 12.92 \times C_{linear} & C_{linear} \lt 0.0031308 \\\ 1.055 \times C_{linear}^{\frac{1}{2.4}} - 0.055 & C_{linear} \ge 0.0031308 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{sRGB}}{12.92} & C_{sRGB} \lt 0.04045 \\\ \left( \frac{C_{sRGB} + 0.055}{1.055} \right) ^{2.4} & C_{sRGB} \ge 0.04045 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_srgb.png" /> <figcaption style="text-align: center;">sRGB</figcaption> </p> */ SRGB : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space sRGB standardized as IEC 61966-2.1:1999.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.640</td><td>0.300</td><td>0.150</td><td>0.3127</td></tr> <tr><td>y</td><td>0.330</td><td>0.600</td><td>0.060</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">sRGB IEC61966-2.1 (Linear)</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(C_{sRGB} = C_{linear}\)</td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(C_{linear} = C_{sRGB}\)</td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_srgb.png" /> <figcaption style="text-align: center;">sRGB</figcaption> </p> */ LINEAR_SRGB : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space scRGB-nl standardized as IEC 61966-2-2:2003.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.640</td><td>0.300</td><td>0.150</td><td>0.3127</td></tr> <tr><td>y</td><td>0.330</td><td>0.600</td><td>0.060</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">scRGB-nl IEC 61966-2-2:2003</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{scRGB} = \begin{cases} sign(C_{linear}) 12.92 \times \left| C_{linear} \right| & \left| C_{linear} \right| \lt 0.0031308 \\\ sign(C_{linear}) 1.055 \times \left| C_{linear} \right| ^{\frac{1}{2.4}} - 0.055 & \left| C_{linear} \right| \ge 0.0031308 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}sign(C_{scRGB}) \frac{\left| C_{scRGB} \right|}{12.92} & \left| C_{scRGB} \right| \lt 0.04045 \\\ sign(C_{scRGB}) \left( \frac{\left| C_{scRGB} \right| + 0.055}{1.055} \right) ^{2.4} & \left| C_{scRGB} \right| \ge 0.04045 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([-0.799..2.399[\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_scrgb.png" /> <figcaption style="text-align: center;">Extended sRGB (orange) vs sRGB (white)</figcaption> </p> */ EXTENDED_SRGB : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space scRGB standardized as IEC 61966-2-2:2003.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.640</td><td>0.300</td><td>0.150</td><td>0.3127</td></tr> <tr><td>y</td><td>0.330</td><td>0.600</td><td>0.060</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">scRGB IEC 61966-2-2:2003</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(C_{scRGB} = C_{linear}\)</td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(C_{linear} = C_{scRGB}\)</td> </tr> <tr><td>Range</td><td colspan="4">\([-0.5..7.499[\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_scrgb.png" /> <figcaption style="text-align: center;">Extended sRGB (orange) vs sRGB (white)</figcaption> </p> */ LINEAR_EXTENDED_SRGB : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space BT.709 standardized as Rec. ITU-R BT.709-5.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.640</td><td>0.300</td><td>0.150</td><td>0.3127</td></tr> <tr><td>y</td><td>0.330</td><td>0.600</td><td>0.060</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Rec. ITU-R BT.709-5</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{BT709} = \begin{cases} 4.5 \times C_{linear} & C_{linear} \lt 0.018 \\\ 1.099 \times C_{linear}^{\frac{1}{2.2}} - 0.099 & C_{linear} \ge 0.018 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{BT709}}{4.5} & C_{BT709} \lt 0.081 \\\ \left( \frac{C_{BT709} + 0.099}{1.099} \right) ^{2.2} & C_{BT709} \ge 0.081 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_bt709.png" /> <figcaption style="text-align: center;">BT.709</figcaption> </p> */ BT709 : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space BT.2020 standardized as Rec. ITU-R BT.2020-1.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.708</td><td>0.170</td><td>0.131</td><td>0.3127</td></tr> <tr><td>y</td><td>0.292</td><td>0.797</td><td>0.046</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Rec. ITU-R BT.2020-1</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{BT2020} = \begin{cases} 4.5 \times C_{linear} & C_{linear} \lt 0.0181 \\\ 1.0993 \times C_{linear}^{\frac{1}{2.2}} - 0.0993 & C_{linear} \ge 0.0181 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{BT2020}}{4.5} & C_{BT2020} \lt 0.08145 \\\ \left( \frac{C_{BT2020} + 0.0993}{1.0993} \right) ^{2.2} & C_{BT2020} \ge 0.08145 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_bt2020.png" /> <figcaption style="text-align: center;">BT.2020 (orange) vs sRGB (white)</figcaption> </p> */ BT2020 : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space DCI-P3 standardized as SMPTE RP 431-2-2007.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.680</td><td>0.265</td><td>0.150</td><td>0.314</td></tr> <tr><td>y</td><td>0.320</td><td>0.690</td><td>0.060</td><td>0.351</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">SMPTE RP 431-2-2007 DCI (P3)</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">N/A</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(C_{P3} = C_{linear}^{\frac{1}{2.6}}\)</td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(C_{linear} = C_{P3}^{2.6}\)</td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_dci_p3.png" /> <figcaption style="text-align: center;">DCI-P3 (orange) vs sRGB (white)</figcaption> </p> */ DCI_P3 : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space Display P3 based on SMPTE RP 431-2-2007 and IEC 61966-2.1:1999.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.680</td><td>0.265</td><td>0.150</td><td>0.3127</td></tr> <tr><td>y</td><td>0.320</td><td>0.690</td><td>0.060</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Display P3</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{DisplayP3} = \begin{cases} 12.92 \times C_{linear} & C_{linear} \lt 0.0030186 \\\ 1.055 \times C_{linear}^{\frac{1}{2.4}} - 0.055 & C_{linear} \ge 0.0030186 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{DisplayP3}}{12.92} & C_{sRGB} \lt 0.04045 \\\ \left( \frac{C_{DisplayP3} + 0.055}{1.055} \right) ^{2.4} & C_{sRGB} \ge 0.04045 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_display_p3.png" /> <figcaption style="text-align: center;">Display P3 (orange) vs sRGB (white)</figcaption> </p> */ DISPLAY_P3 : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space NTSC, 1953 standard.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.67</td><td>0.21</td><td>0.14</td><td>0.310</td></tr> <tr><td>y</td><td>0.33</td><td>0.71</td><td>0.08</td><td>0.316</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">NTSC (1953)</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">C</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{BT709} = \begin{cases} 4.5 \times C_{linear} & C_{linear} \lt 0.018 \\\ 1.099 \times C_{linear}^{\frac{1}{2.2}} - 0.099 & C_{linear} \ge 0.018 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{BT709}}{4.5} & C_{BT709} \lt 0.081 \\\ \left( \frac{C_{BT709} + 0.099}{1.099} \right) ^{2.2} & C_{BT709} \ge 0.081 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_ntsc_1953.png" /> <figcaption style="text-align: center;">NTSC 1953 (orange) vs sRGB (white)</figcaption> </p> */ NTSC_1953 : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space SMPTE C.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.630</td><td>0.310</td><td>0.155</td><td>0.3127</td></tr> <tr><td>y</td><td>0.340</td><td>0.595</td><td>0.070</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">SMPTE-C RGB</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{BT709} = \begin{cases} 4.5 \times C_{linear} & C_{linear} \lt 0.018 \\\ 1.099 \times C_{linear}^{\frac{1}{2.2}} - 0.099 & C_{linear} \ge 0.018 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{BT709}}{4.5} & C_{BT709} \lt 0.081 \\\ \left( \frac{C_{BT709} + 0.099}{1.099} \right) ^{2.2} & C_{BT709} \ge 0.081 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_smpte_c.png" /> <figcaption style="text-align: center;">SMPTE-C (orange) vs sRGB (white)</figcaption> </p> */ SMPTE_C : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space Adobe RGB (1998).</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.64</td><td>0.21</td><td>0.15</td><td>0.3127</td></tr> <tr><td>y</td><td>0.33</td><td>0.71</td><td>0.06</td><td>0.3290</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Adobe RGB (1998)</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D65</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(C_{RGB} = C_{linear}^{\frac{1}{2.2}}\)</td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(C_{linear} = C_{RGB}^{2.2}\)</td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_adobe_rgb.png" /> <figcaption style="text-align: center;">Adobe RGB (orange) vs sRGB (white)</figcaption> </p> */ ADOBE_RGB : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space ProPhoto RGB standardized as ROMM RGB ISO 22028-2:2013.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.7347</td><td>0.1596</td><td>0.0366</td><td>0.3457</td></tr> <tr><td>y</td><td>0.2653</td><td>0.8404</td><td>0.0001</td><td>0.3585</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">ROMM RGB ISO 22028-2:2013</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D50</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(\begin{equation} C_{ROMM} = \begin{cases} 16 \times C_{linear} & C_{linear} \lt 0.001953 \\\ C_{linear}^{\frac{1}{1.8}} & C_{linear} \ge 0.001953 \end{cases} \end{equation}\) </td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(\begin{equation} C_{linear} = \begin{cases}\frac{C_{ROMM}}{16} & C_{ROMM} \lt 0.031248 \\\ C_{ROMM}^{1.8} & C_{ROMM} \ge 0.031248 \end{cases} \end{equation}\) </td> </tr> <tr><td>Range</td><td colspan="4">\([0..1]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_pro_photo_rgb.png" /> <figcaption style="text-align: center;">ProPhoto RGB (orange) vs sRGB (white)</figcaption> </p> */ PRO_PHOTO_RGB : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space ACES standardized as SMPTE ST 2065-1:2012.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.73470</td><td>0.00000</td><td>0.00010</td><td>0.32168</td></tr> <tr><td>y</td><td>0.26530</td><td>1.00000</td><td>-0.07700</td><td>0.33767</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">SMPTE ST 2065-1:2012 ACES</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D60</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(C_{ACES} = C_{linear}\)</td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(C_{linear} = C_{ACES}\)</td> </tr> <tr><td>Range</td><td colspan="4">\([-65504.0, 65504.0]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_aces.png" /> <figcaption style="text-align: center;">ACES (orange) vs sRGB (white)</figcaption> </p> */ ACES : "null", /** <p>{@link android.graphics.ColorSpace.Rgb RGB} color space ACEScg standardized as Academy S-2014-004.</p> <table summary="Color space definition"> <tr> <th>Chromaticity</th><th>Red</th><th>Green</th><th>Blue</th><th>White point</th> </tr> <tr><td>x</td><td>0.713</td><td>0.165</td><td>0.128</td><td>0.32168</td></tr> <tr><td>y</td><td>0.293</td><td>0.830</td><td>0.044</td><td>0.33767</td></tr> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Academy S-2014-004 ACEScg</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D60</td></tr> <tr> <td>Opto-electronic transfer function (OETF)</td> <td colspan="4">\(C_{ACEScg} = C_{linear}\)</td> </tr> <tr> <td>Electro-optical transfer function (EOTF)</td> <td colspan="4">\(C_{linear} = C_{ACEScg}\)</td> </tr> <tr><td>Range</td><td colspan="4">\([-65504.0, 65504.0]\)</td></tr> </table> <p> <img style="display: block; margin: 0 auto;" src="{@docRoot}reference/android/images/graphics/colorspace_acescg.png" /> <figcaption style="text-align: center;">ACEScg (orange) vs sRGB (white)</figcaption> </p> */ ACESCG : "null", /** <p>{@link android.graphics.ColorSpace.Model#XYZ XYZ} color space CIE XYZ. This color space assumes standard illuminant D50 as its white point.</p> <table summary="Color space definition"> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Generic XYZ</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D50</td></tr> <tr><td>Range</td><td colspan="4">\([-2.0, 2.0]\)</td></tr> </table> */ CIE_XYZ : "null", /** <p>{@link android.graphics.ColorSpace.Model#LAB Lab} color space CIE L*a*b*. This color space uses CIE XYZ D50 as a profile conversion space.</p> <table summary="Color space definition"> <tr><th>Property</th><th colspan="4">Value</th></tr> <tr><td>Name</td><td colspan="4">Generic L*a*b*</td></tr> <tr><td>CIE standard illuminant</td><td colspan="4">D50</td></tr> <tr><td>Range</td><td colspan="4">\(L: [0.0, 100.0], a: [-128, 128], b: [-128, 128]\)</td></tr> </table> */ CIE_LAB : "null", /** */ values : function( ) {}, /** */ valueOf : function( ) {}, };