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RGBValue< VALUETYPE, RED_IDX, GREEN_IDX, BLUE_IDX > | ![]() |
Class for a single RGB value. More...
#include <vigra/rgbvalue.hxx>
Public Types | |
enum | |
typedef Base::const_iterator | const_iterator |
typedef Base::iterator | iterator |
typedef Base::NormType | NormType |
typedef Base::SquaredNormType | SquaredNormType |
typedef Base::value_type | value_type |
Public Member Functions | |
value_type const & | blue () const |
value_type & | blue () |
value_type const & | green () const |
value_type & | green () |
value_type | luminance () const |
NormType | magnitude () const |
RGBValue | operator- () const |
RGBValue & | operator= (TinyVector< value_type, 3 > const &r) |
template<class U , unsigned int R, unsigned int G, unsigned int B> | |
RGBValue & | operator= (RGBValue< U, R, G, B > const &r) |
value_type const & | red () const |
value_type & | red () |
RGBValue (TinyVector< value_type, 3 > const &r) | |
template<class U , unsigned int R, unsigned int G, unsigned int B> | |
RGBValue (RGBValue< U, R, G, B > const &r) | |
RGBValue () | |
template<class Iterator > | |
RGBValue (Iterator i, Iterator end) | |
RGBValue (value_type gray) | |
RGBValue (value_type first, value_type second, value_type third) | |
template<class V > | |
void | setBlue (V value) |
template<class V > | |
void | setGreen (V value) |
template<class V > | |
void | setRed (V value) |
SquaredNormType | squaredMagnitude () const |
Class for a single RGB value.
This class contains three values (of the specified type) that represent red, green, and blue color channels. By means of the template parameters RED_IDX, GREEN_IDX, BLUE_IDX
, the indices 0, 1, 2 can be assigned to the three colors arbitrarily, so that, for example, a BGR type can be created as
typedef RGBValue<unsigned char, 2,1,0> BGRValue;
The standard order red=0, green=1, blue=2 is the default. There are three possibilities to access the color values: accessor functions (red(), green(), blue()), index operator (operator[](dx), where the rgb[RED_IDX]
returns red etc.) and iterator (STL-compatible random access iterator that references the three colors in turn). The latter two methods, together with the necessary embedded typedefs, ensure compatibility of a RGBValue with a STL vector.
Arithmetic operations are defined as component-wise applications of these operations. Addition, subtraction, and multiplication of two RGBValues (+=, -=, *=, +, -, *, unary -), multiplication and division of an RGBValue with a double, and NumericTraits/PromoteTraits are defined, so that RGBValue fulfills the requirements of a Linear Algebra.
A number of accessors are provided that support access to RGBValues as a whole, to a selected color component, or to the luminance value.
#include <vigra/rgbvalue.hxx>
Namespace: vigra
invert.cxx, invert_explicitly.cxx, palette.cxx, and watershed.cxx.
typedef Base::value_type value_type |
STL-compatible definition of valuetype
Reimplemented from TinyVector< VALUETYPE, 3 >.
typedef Base::iterator iterator |
STL-compatible definition of iterator
Reimplemented from TinyVector< VALUETYPE, 3 >.
typedef Base::const_iterator const_iterator |
STL-compatible definition of const iterator
Reimplemented from TinyVector< VALUETYPE, 3 >.
typedef Base::SquaredNormType SquaredNormType |
squared norm type (result of squaredManitude())
Reimplemented from TinyVector< VALUETYPE, 3 >.
typedef Base::NormType NormType |
norm type (result of magnitude())
Reimplemented from TinyVector< VALUETYPE, 3 >.
anonymous enum |
Color index positions
RGBValue | ( | value_type | first, | |
value_type | second, | |||
value_type | third | |||
) |
Construct from explicit color values. first, second, third are written in this order, irrespective of how the color indices are specified.
RGBValue | ( | value_type | gray | ) |
Construct gray value
RGBValue | ( | Iterator | i, | |
Iterator | end | |||
) |
Construct from another sequence (must have length 3!)
RGBValue | ( | ) |
Default constructor (sets all components to 0)
RGBValue | ( | TinyVector< value_type, 3 > const & | r | ) |
construct from TinyVector
RGBValue& operator= | ( | TinyVector< value_type, 3 > const & | r | ) |
assign TinyVector.
value_type& red | ( | ) |
Access red component.
value_type& green | ( | ) |
Access green component.
value_type& blue | ( | ) |
Access blue component.
value_type const& red | ( | ) | const |
Get red component.
value_type const& green | ( | ) | const |
Get green component.
value_type const& blue | ( | ) | const |
Get blue component.
value_type luminance | ( | ) | const |
Calculate luminance.
NormType magnitude | ( | ) | const |
Calculate magnitude.
Reimplemented from TinyVectorBase< VALUETYPE, SIZE, VALUETYPE[SIZE], TinyVector< VALUETYPE, SIZE > >.
SquaredNormType squaredMagnitude | ( | ) | const |
Calculate squared magnitude.
Reimplemented from TinyVectorBase< VALUETYPE, SIZE, VALUETYPE[SIZE], TinyVector< VALUETYPE, SIZE > >.
void setRed | ( | V | value | ) |
Set red component. The type V
of the passed in value
is automatically converted to VALUETYPE
.
void setGreen | ( | V | value | ) |
Set green component.The type V
of the passed in value
is automatically converted to VALUETYPE
.
void setBlue | ( | V | value | ) |
Set blue component.The type V
of the passed in value
is automatically converted to VALUETYPE
.
© Ullrich Köthe (ullrich.koethe@iwr.uni-heidelberg.de) |
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