ColourConversion::ColourConversion ()
: dcp::ColourConversion (dcp::ColourConversion::srgb_to_xyz ())
{
-
+
}
ColourConversion::ColourConversion (dcp::ColourConversion conversion_)
: dcp::ColourConversion (conversion_)
{
-
+
}
ColourConversion::ColourConversion (cxml::NodePtr node, int version)
} else {
/* Version 1.x */
-
+
if (node->bool_child ("InputGammaLinearised")) {
_in.reset (new dcp::ModifiedGammaTransferFunction (node->number_child<float> ("InputGamma"), 0.04045, 0.055, 12.92));
} else {
}
_yuv_to_rgb = static_cast<dcp::YUVToRGB> (node->optional_number_child<int>("YUVToRGB").get_value_or (dcp::YUV_TO_RGB_REC601));
-
+
list<cxml::NodePtr> m = node->node_children ("Matrix");
if (!m.empty ()) {
/* Read in old <Matrix> nodes and convert them to chromaticities */
node->number_child<double> ("AdjustedWhiteX"), node->number_child<double> ("AdjustedWhiteY")
);
}
- }
-
+ }
+
_out.reset (new dcp::GammaTransferFunction (node->number_child<double> ("OutputGamma")));
}
}
digester.add (dynamic_pointer_cast<const dcp::GammaTransferFunction> (_out)->gamma ());
-
+
return digester.get ();
}