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QCPColorMapData Class Reference

Holds the two-dimensional data of a QCPColorMap plottable. More...

Public Functions

 QCPColorMapData (int keySize, int valueSize, const QCPRange &keyRange, const QCPRange &valueRange)
 
 QCPColorMapData (const QCPColorMapData &other)
 
QCPColorMapDataoperator= (const QCPColorMapData &other)
 
int keySize () const
 
int valueSize () const
 
QCPRange keyRange () const
 
QCPRange valueRange () const
 
QCPRange dataBounds () const
 
double data (double key, double value)
 
double cell (int keyIndex, int valueIndex)
 
unsigned char alpha (int keyIndex, int valueIndex)
 
void setSize (int keySize, int valueSize)
 
void setKeySize (int keySize)
 
void setValueSize (int valueSize)
 
void setRange (const QCPRange &keyRange, const QCPRange &valueRange)
 
void setKeyRange (const QCPRange &keyRange)
 
void setValueRange (const QCPRange &valueRange)
 
void setData (double key, double value, double z)
 
void setCell (int keyIndex, int valueIndex, double z)
 
void setAlpha (int keyIndex, int valueIndex, unsigned char alpha)
 
void recalculateDataBounds ()
 
void clear ()
 
void clearAlpha ()
 
void fill (double z)
 
void fillAlpha (unsigned char alpha)
 
bool isEmpty () const
 
void coordToCell (double key, double value, int *keyIndex, int *valueIndex) const
 
void cellToCoord (int keyIndex, int valueIndex, double *key, double *value) const
 

Protected Functions

bool createAlpha (bool initializeOpaque=true)
 

Detailed Description

Holds the two-dimensional data of a QCPColorMap plottable.

This class is a data storage for QCPColorMap. It holds a two-dimensional array, which QCPColorMap then displays as a 2D image in the plot, where the array values are represented by a color, depending on the value.

The size of the array can be controlled via setSize (or setKeySize, setValueSize). Which plot coordinates these cells correspond to can be configured with setRange (or setKeyRange, setValueRange).

The data cells can be accessed in two ways: They can be directly addressed by an integer index with setCell. This is the fastest method. Alternatively, they can be addressed by their plot coordinate with setData. plot coordinate to cell index transformations and vice versa are provided by the functions coordToCell and cellToCoord.

A QCPColorMapData also holds an on-demand two-dimensional array of alpha values which (if allocated) has the same size as the data map. It can be accessed via setAlpha, fillAlpha and clearAlpha. The memory for the alpha map is only allocated if needed, i.e. on the first call of setAlpha. clearAlpha restores full opacity and frees the alpha map.

This class also buffers the minimum and maximum values that are in the data set, to provide QCPColorMap::rescaleDataRange with the necessary information quickly. Setting a cell to a value that is greater than the current maximum increases this maximum to the new value. However, setting the cell that currently holds the maximum value to a smaller value doesn't decrease the maximum again, because finding the true new maximum would require going through the entire data array, which might be time consuming. The same holds for the data minimum. This functionality is given by recalculateDataBounds, such that you can decide when it is sensible to find the true current minimum and maximum. The method QCPColorMap::rescaleDataRange offers a convenience parameter recalculateDataBounds which may be set to true to automatically call recalculateDataBounds internally.

Constructor & Destructor Documentation

§ QCPColorMapData() [1/2]

QCPColorMapData::QCPColorMapData ( int  keySize,
int  valueSize,
const QCPRange keyRange,
const QCPRange valueRange 
)

Constructs a new QCPColorMapData instance. The instance has keySize cells in the key direction and valueSize cells in the value direction. These cells will be displayed by the QCPColorMap at the coordinates keyRange and valueRange.

See also
setSize, setKeySize, setValueSize, setRange, setKeyRange, setValueRange

§ QCPColorMapData() [2/2]

QCPColorMapData::QCPColorMapData ( const QCPColorMapData other)

Constructs a new QCPColorMapData instance copying the data and range of other.

Member Function Documentation

§ operator=()

QCPColorMapData & QCPColorMapData::operator= ( const QCPColorMapData other)

Overwrites this color map data instance with the data stored in other. The alpha map state is transferred, too.

§ alpha()

unsigned char QCPColorMapData::alpha ( int  keyIndex,
int  valueIndex 
)

Returns the alpha map value of the cell with the indices keyIndex and valueIndex.

If this color map data doesn't have an alpha map (because setAlpha was never called after creation or after a call to clearAlpha), returns 255, which corresponds to full opacity.

See also
setAlpha

§ setSize()

void QCPColorMapData::setSize ( int  keySize,
int  valueSize 
)

Resizes the data array to have keySize cells in the key dimension and valueSize cells in the value dimension.

The current data is discarded and the map cells are set to 0, unless the map had already the requested size.

Setting at least one of keySize or valueSize to zero frees the internal data array and isEmpty returns true.

See also
setRange, setKeySize, setValueSize

§ setKeySize()

void QCPColorMapData::setKeySize ( int  keySize)

Resizes the data array to have keySize cells in the key dimension.

The current data is discarded and the map cells are set to 0, unless the map had already the requested size.

Setting keySize to zero frees the internal data array and isEmpty returns true.

See also
setKeyRange, setSize, setValueSize

§ setValueSize()

void QCPColorMapData::setValueSize ( int  valueSize)

Resizes the data array to have valueSize cells in the value dimension.

The current data is discarded and the map cells are set to 0, unless the map had already the requested size.

Setting valueSize to zero frees the internal data array and isEmpty returns true.

See also
setValueRange, setSize, setKeySize

§ setRange()

void QCPColorMapData::setRange ( const QCPRange keyRange,
const QCPRange valueRange 
)

Sets the coordinate ranges the data shall be distributed over. This defines the rectangular area covered by the color map in plot coordinates.

The outer cells will be centered on the range boundaries given to this function. For example, if the key size (setKeySize) is 3 and keyRange is set to QCPRange(2, 3) there will be cells centered on the key coordinates 2, 2.5 and 3.

See also
setSize

§ setKeyRange()

void QCPColorMapData::setKeyRange ( const QCPRange keyRange)

Sets the coordinate range the data shall be distributed over in the key dimension. Together with the value range, This defines the rectangular area covered by the color map in plot coordinates.

The outer cells will be centered on the range boundaries given to this function. For example, if the key size (setKeySize) is 3 and keyRange is set to QCPRange(2, 3) there will be cells centered on the key coordinates 2, 2.5 and 3.

See also
setRange, setValueRange, setSize

§ setValueRange()

void QCPColorMapData::setValueRange ( const QCPRange valueRange)

Sets the coordinate range the data shall be distributed over in the value dimension. Together with the key range, This defines the rectangular area covered by the color map in plot coordinates.

The outer cells will be centered on the range boundaries given to this function. For example, if the value size (setValueSize) is 3 and valueRange is set to QCPRange(2, 3) there will be cells centered on the value coordinates 2, 2.5 and 3.

See also
setRange, setKeyRange, setSize

§ setData()

void QCPColorMapData::setData ( double  key,
double  value,
double  z 
)

Sets the data of the cell, which lies at the plot coordinates given by key and value, to z.

Note
The QCPColorMap always displays the data at equal key/value intervals, even if the key or value axis is set to a logarithmic scaling. If you want to use QCPColorMap with logarithmic axes, you shouldn't use the QCPColorMapData::setData method as it uses a linear transformation to determine the cell index. Rather directly access the cell index with QCPColorMapData::setCell.
See also
setCell, setRange

§ setCell()

void QCPColorMapData::setCell ( int  keyIndex,
int  valueIndex,
double  z 
)

Sets the data of the cell with indices keyIndex and valueIndex to z. The indices enumerate the cells starting from zero, up to the map's size-1 in the respective dimension (see setSize).

In the standard plot configuration (horizontal key axis and vertical value axis, both not range-reversed), the cell with indices (0, 0) is in the bottom left corner and the cell with indices (keySize-1, valueSize-1) is in the top right corner of the color map.

See also
setData, setSize

§ setAlpha()

void QCPColorMapData::setAlpha ( int  keyIndex,
int  valueIndex,
unsigned char  alpha 
)

Sets the alpha of the color map cell given by keyIndex and valueIndex to alpha. A value of 0 for alpha results in a fully transparent cell, and a value of 255 results in a fully opaque cell.

If an alpha map doesn't exist yet for this color map data, it will be created here. If you wish to restore full opacity and free any allocated memory of the alpha map, call clearAlpha.

Note that the cell-wise alpha which can be configured here is independent of any alpha configured in the color map's gradient (QCPColorGradient). If a cell is affected both by the cell-wise and gradient alpha, the alpha values will be blended accordingly during rendering of the color map.

See also
fillAlpha, clearAlpha

§ recalculateDataBounds()

void QCPColorMapData::recalculateDataBounds ( )

Goes through the data and updates the buffered minimum and maximum data values.

Calling this method is only advised if you are about to call QCPColorMap::rescaleDataRange and can not guarantee that the cells holding the maximum or minimum data haven't been overwritten with a smaller or larger value respectively, since the buffered maximum/minimum values have been updated the last time. Why this is the case is explained in the class description (QCPColorMapData).

Note that the method QCPColorMap::rescaleDataRange provides a parameter recalculateDataBounds for convenience. Setting this to true will call this method for you, before doing the rescale.

§ clear()

void QCPColorMapData::clear ( )

Frees the internal data memory.

This is equivalent to calling setSize(0, 0).

§ clearAlpha()

void QCPColorMapData::clearAlpha ( )

Frees the internal alpha map. The color map will have full opacity again.

§ fill()

void QCPColorMapData::fill ( double  z)

Sets all cells to the value z.

§ fillAlpha()

void QCPColorMapData::fillAlpha ( unsigned char  alpha)

Sets the opacity of all color map cells to alpha. A value of 0 for alpha results in a fully transparent color map, and a value of 255 results in a fully opaque color map.

If you wish to restore opacity to 100% and free any used memory for the alpha map, rather use clearAlpha.

See also
setAlpha

§ isEmpty()

bool QCPColorMapData::isEmpty ( ) const
inline

Returns whether this instance carries no data. This is equivalent to having a size where at least one of the dimensions is 0 (see setSize).

§ coordToCell()

void QCPColorMapData::coordToCell ( double  key,
double  value,
int *  keyIndex,
int *  valueIndex 
) const

Transforms plot coordinates given by key and value to cell indices of this QCPColorMapData instance. The resulting cell indices are returned via the output parameters keyIndex and valueIndex.

The retrieved key/value cell indices can then be used for example with setCell.

If you are only interested in a key or value index, you may pass nullptr as valueIndex or keyIndex.

Note
The QCPColorMap always displays the data at equal key/value intervals, even if the key or value axis is set to a logarithmic scaling. If you want to use QCPColorMap with logarithmic axes, you shouldn't use the QCPColorMapData::coordToCell method as it uses a linear transformation to determine the cell index.
See also
cellToCoord, QCPAxis::coordToPixel

§ cellToCoord()

void QCPColorMapData::cellToCoord ( int  keyIndex,
int  valueIndex,
double *  key,
double *  value 
) const

Transforms cell indices given by keyIndex and valueIndex to cell indices of this QCPColorMapData instance. The resulting coordinates are returned via the output parameters key and value.

If you are only interested in a key or value coordinate, you may pass nullptr as key or value.

Note
The QCPColorMap always displays the data at equal key/value intervals, even if the key or value axis is set to a logarithmic scaling. If you want to use QCPColorMap with logarithmic axes, you shouldn't use the QCPColorMapData::cellToCoord method as it uses a linear transformation to determine the cell index.
See also
coordToCell, QCPAxis::pixelToCoord

§ createAlpha()

bool QCPColorMapData::createAlpha ( bool  initializeOpaque = true)
protected

Allocates the internal alpha map with the current data map key/value size and, if initializeOpaque is true, initializes all values to 255. If initializeOpaque is false, the values are not initialized at all. In this case, the alpha map should be initialized manually, e.g. with fillAlpha.

If an alpha map exists already, it is deleted first. If this color map is empty (has either key or value size zero, see isEmpty), the alpha map is cleared.

The return value indicates the existence of the alpha map after the call. So this method returns true if the data map isn't empty and an alpha map was successfully allocated.


The documentation for this class was generated from the following files: