Converting from one channel type to anotherConversion is done as a simple linear mapping of one channel range to the other, such that the minimum/maximum value of the source maps to the minimum/maximum value of the destination. One implication of this is that the value 0 of signed channels may not be preserved! More...
Modules | |
channel_converter_unsigned | |
Convert one unsigned/floating point channel to another. Converts both the channel type and range. | |
Classes | |
struct | channel_converter< SrcChannelV, DstChannelV > |
A unary function object converting between channel types. More... | |
struct | default_channel_converter |
Same as channel_converter, except it takes the destination channel by reference, which allows us to move the templates from the class level to the method level. This is important when invoking it on heterogeneous pixels. More... | |
Functions | |
template<typename DstChannel , typename SrcChannel > | |
channel_traits< DstChannel >::value_type | channel_convert (const SrcChannel &src) |
Converting from one channel type to another. | |
Converting from one channel type to another
Conversion is done as a simple linear mapping of one channel range to the other, such that the minimum/maximum value of the source maps to the minimum/maximum value of the destination. One implication of this is that the value 0 of signed channels may not be preserved!
When creating new channel models, it is often a good idea to provide specializations for the channel conversion algorithms, for example, for performance optimizations. If the new model is an integral type that can be signed, it is easier to define the conversion only for the unsigned type (channel_converter_unsigned
) and provide specializations of detail::channel_convert_to_unsigned
and detail::channel_convert_from_unsigned
to convert between the signed and unsigned type.
Example: