#include <AIR2.h>
Definition at line 24 of file AIR2.h.
Public Member Functions | |
virtual void | adjustValues (AxisModelBase &model, hippodraw::Axes::Type axes, const Range &limit) |
Sets the range of given axis to be a new "nice" within the limits given. | |
AIR2 (const AIR2 &) | |
The copy constructor. | |
AIR2 (UnaryTransform *z) | |
The constructor. | |
virtual double | aspectRatio () const |
Returns the aspect ratio. | |
virtual Rect | calcRectangle (const Range &x, const Range &y) |
Returns a rectangle enclosing the transformed data space. | |
virtual AIR2 * | clone () const |
Creates a new Transform object by copying an existing one. | |
virtual bool | inverseTransform (double &lon, double &lat) const |
Transform the transformed coordinates on X and Y axis back to the original true data space. | |
void | inverseTransformZ (double &z) const |
Inverse transforms the z coordinate. | |
virtual bool | isLinearInXY () const |
Returns true if the transform would be one to one on both the X and Y axes. | |
virtual bool | isLinearInZ () const |
Returns true if the transform would be one to one on Z axes. | |
bool | isPeriodic () const |
Sets whether this transform is periodic. | |
virtual const Range & | limitX () const |
Returns the Range limits of the first coordinate. | |
virtual const Range & | limitY () const |
Returns the Range limits of the second coordinate. | |
const Range & | limitZ () const |
Returns the Range limits on the third coordinate. | |
double | moduloAdd (double a1, double a2, hippodraw::Axes::Type axis) const |
Modulo Addition along either X or Y axis. | |
double | moduloAddX (double x1, double x2) const |
Modulo Addition along X axis. | |
double | moduloAddY (double y1, double y2) const |
Modulo Addition along Y axis. | |
double | moduloSub (double s1, double s2, hippodraw::Axes::Type axis) const |
Modulo Subtraction along either X or Y axis. | |
double | moduloSubX (double x1, double x2) const |
Modulo Subtraction along X axis. | |
double | moduloSubY (double y1, double y2) const |
Modulo Subtraction along Y axis. | |
const std::string & | name () const |
Returns the name of the Transform. | |
bool | needsGrid () const |
Returns whether this transform needs grid. | |
bool | needsXTicks () const |
Returns whether this transform needs x ticks. | |
bool | needsYTicks () const |
Returns whether this transform needs y ticks. | |
void | setNeedsGrid (bool needs_grid) |
Sets whether this transform needs grid. | |
void | setNeedsXTicks (bool needs_x_ticks) |
Sets whether this transform needs x ticks. | |
void | setNeedsYTicks (bool needs_y_ticks) |
Sets whether this transform needs y yicks. | |
virtual const std::vector < AxisTick > & | setTicks (AxisModelBase &axis_model, hippodraw::Axes::Type axis) |
void | setXOffset (double x_offset) |
Sets the xOffset of the (periodic) transform. | |
void | setYOffset (double y_offset) |
Sets the yOffset of the (periodic) transform. | |
void | setZTransform (TransformBase *transform) |
Sets the transform function on the Z axis. | |
virtual void | transform (std::vector< double > &lon, std::vector< double > &lat) const |
A transform on two axes. | |
virtual void | transform (double &lon, double &lat) const |
Transform the coordinates on the X and Y axes. | |
void | transformZ (double &z) const |
Transforms the z coordinate. | |
virtual void | validate (Range &lat, Range &lon) const |
Validates the Ranges. | |
double | xOffset () const |
Returns the xOffset of the (periodic) transform. | |
double | yOffset () const |
Returns the yOffset of the (periodic) transform. | |
TransformBase * | zTransform () const |
Returns the transform function on the Z axis. | |
virtual | ~AIR2 () |
The virtual destructor. | |
Protected Member Functions | |
const std::vector < AxisTick > & | genTicks (AxisModelBase &axis, hippodraw::Axes::Type axistype) |
Generates the ticks in the axis. | |
void | initwcs (const std::string &transformName, double *crpix, double *crval, double *cdelt, double crota2, bool galactic) |
Initialize the WCS transform type. | |
void | setFirstTick (AxisModelBase &axis) |
Sets the first tick on the axis. | |
void | setTickStep (AxisModelBase &axis) |
Helps to decide the tick size for the corresponding axis. | |
void | throwWCSMissing () const |
Throws an exception if WCSLIB support is missing. | |
Protected Attributes | |
bool | m_is_periodic |
Is this transform periodic. | |
std::string | m_name |
Name of the Transform. | |
bool | m_needs_grid |
Does this binary transform needs grid? | |
bool | m_needs_x_ticks |
Does this binary transform x ticks? | |
bool | m_needs_y_ticks |
Does this binary transform y ticks? | |
std::vector< AxisTick > | m_ticks |
The ticks last generated by this transform. | |
wcsprm * | m_wcs |
char | m_wcs_struct [2000] |
Range | m_x_limits |
The limits on X axis of the transform. | |
double | m_x_offset |
The xoffset of this periodic transform. | |
Range | m_y_limits |
The limits on Y axis of the transform. | |
double | m_y_offset |
The yoffset of this periodic transform. | |
UnaryTransform * | m_z |
The transform on the Z axis. |
AIR2 | ( | UnaryTransform * | z | ) |
The constructor.
The constructor taking a UnaryTransform for its Z axis.
Definition at line 18 of file AIR2.cxx.
References PeriodicBinaryTransform::initwcs(), and TransformBase::m_name.
Referenced by AIR2::clone().
The copy constructor.
Definition at line 29 of file AIR2.cxx.
References PeriodicBinaryTransform::initwcs().
void adjustValues | ( | AxisModelBase & | model, | |
hippodraw::Axes::Type | axes, | |||
const Range & | limit | |||
) | [virtual, inherited] |
Sets the range of given axis to be a new "nice" within the limits given.
Sets the range of given axis to be a new "nice" within the limits given.
Implements BinaryTransform.
Definition at line 302 of file PeriodicBinaryTransform.cxx.
double aspectRatio | ( | ) | const [virtual] |
Returns the aspect ratio.
Some transforms require a specific ration of the width to the height of the display. Returning a value of 2.0, for example, means that the width should be twice the height. Returning a value of 0.0 means any aspect ratio may be used.
Reimplemented from BinaryTransform.
Returns a rectangle enclosing the transformed data space.
Implements BinaryTransform.
Definition at line 201 of file PeriodicBinaryTransform.cxx.
References Range::high(), Range::low(), and PeriodicBinaryTransform::transform().
AIR2 * clone | ( | ) | const [virtual] |
Creates a new Transform object by copying an existing one.
Implements BinaryTransform.
Definition at line 44 of file AIR2.cxx.
References AIR2::AIR2().
const vector< AxisTick > & genTicks | ( | AxisModelBase & | axis, | |
hippodraw::Axes::Type | axistype | |||
) | [protected, inherited] |
Generates the ticks in the axis.
Do not use sprintf, it cause warnings from VS 8.
Definition at line 353 of file PeriodicBinaryTransform.cxx.
References hippodraw::FLT_EQUAL(), AxisModelBase::getFirstTick(), AxisModelBase::getPMag(), AxisModelBase::getRange(), AxisModelBase::getRMag(), AxisModelBase::getScaleFactor(), AxisModelBase::getTickStep(), Range::high(), PeriodicBinaryTransform::m_ticks, PeriodicBinaryTransform::moduloAddX(), PeriodicBinaryTransform::moduloAddY(), AxisModelBase::setUsePMag(), hippodraw::Axes::X, PeriodicBinaryTransform::xOffset(), hippodraw::Axes::Y, and PeriodicBinaryTransform::yOffset().
Referenced by PeriodicBinaryTransform::setTicks().
void initwcs | ( | const std::string & | transformName, | |
double * | crpix, | |||
double * | crval, | |||
double * | cdelt, | |||
double | crota2, | |||
bool | galactic | |||
) | [protected, inherited] |
Initialize the WCS transform type.
Definition at line 472 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_wcs, PeriodicBinaryTransform::m_wcs_struct, and PeriodicBinaryTransform::throwWCSMissing().
Referenced by AIR::AIR(), AIR2::AIR2(), ARC::ARC(), ARC2::ARC2(), Cartesian::Cartesian(), Cartesian2::Cartesian2(), GlobalSinusoidal::GlobalSinusoidal(), GlobalSinusoidal2::GlobalSinusoidal2(), HammerAito::HammerAito(), HammerAito2::HammerAito2(), Lambert::Lambert(), Lambert2::Lambert2(), Mercator::Mercator(), Mercator2::Mercator2(), SIN::SIN(), SIN2::SIN2(), STG::STG(), STG2::STG2(), TAN::TAN(), and TAN2::TAN2().
bool inverseTransform | ( | double & | x, | |
double & | y | |||
) | const [virtual, inherited] |
Transform the transformed coordinates on X and Y axis back to the original true data space.
Return true if success, else return false.
Implements BinaryTransform.
Definition at line 544 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_wcs, and PeriodicBinaryTransform::throwWCSMissing().
void inverseTransformZ | ( | double & | z | ) | const [inherited] |
Inverse transforms the z coordinate.
Definition at line 106 of file BinaryTransform.cxx.
References UnaryTransform::inverseTransform(), and BinaryTransform::m_z.
bool isLinearInXY | ( | ) | const [virtual, inherited] |
Returns true
if the transform would be one to one on both the X and Y axes.
Clients can use this function to avoid calling the transform in for loops.
Implements BinaryTransform.
Definition at line 459 of file PeriodicBinaryTransform.cxx.
bool isLinearInZ | ( | ) | const [virtual, inherited] |
Returns true
if the transform would be one to one on Z axes.
Clients can use this function to avoid calling the transform in for loops.
Definition at line 153 of file BinaryTransform.cxx.
References UnaryTransform::isLinear(), and BinaryTransform::m_z.
Referenced by ContourPointRep::getContour().
bool isPeriodic | ( | ) | const [inherited] |
Sets whether this transform is periodic.
Definition at line 148 of file BinaryTransform.cxx.
References BinaryTransform::m_is_periodic.
Referenced by BinaryTransform::BinaryTransform(), AxisRepBase::drawCrossHairs(), ContourPointRep::drawProjectedValues(), CompositePlotter::fillPickedPoint(), XyPlotter::getZValues(), Inspector::setHighRange(), and Inspector::updateTransformTab().
const Range & limitX | ( | ) | const [virtual, inherited] |
Returns the Range limits of the first coordinate.
Implements BinaryTransform.
Definition at line 86 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_x_limits.
const Range & limitY | ( | ) | const [virtual, inherited] |
Returns the Range limits of the second coordinate.
Implements BinaryTransform.
Definition at line 92 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_y_limits.
const Range & limitZ | ( | ) | const [inherited] |
Returns the Range limits on the third coordinate.
Definition at line 112 of file BinaryTransform.cxx.
References UnaryTransform::limits(), and BinaryTransform::m_z.
Referenced by CompositePlotter::autoScaleZ(), and CompositePlotter::setRangePrivate().
double moduloAdd | ( | double | a1, | |
double | a2, | |||
hippodraw::Axes::Type | axis | |||
) | const [inherited] |
Modulo Addition along either X or Y axis.
Definition at line 122 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::moduloAddX(), PeriodicBinaryTransform::moduloAddY(), hippodraw::Axes::X, and hippodraw::Axes::Y.
double moduloAddX | ( | double | x1, | |
double | x2 | |||
) | const [inherited] |
Modulo Addition along X axis.
Definition at line 146 of file PeriodicBinaryTransform.cxx.
References Range::high(), Range::low(), PeriodicBinaryTransform::m_x_limits, and PeriodicBinaryTransform::moduloSubX().
Referenced by CompositePlotter::fillPickedPoint(), PeriodicBinaryTransform::genTicks(), PeriodicBinaryTransform::moduloAdd(), PeriodicBinaryTransform::moduloSubX(), and Inspector::setHighRange().
double moduloAddY | ( | double | y1, | |
double | y2 | |||
) | const [inherited] |
Modulo Addition along Y axis.
Definition at line 175 of file PeriodicBinaryTransform.cxx.
References Range::high(), Range::low(), PeriodicBinaryTransform::m_y_limits, and PeriodicBinaryTransform::moduloSubY().
Referenced by CompositePlotter::fillPickedPoint(), PeriodicBinaryTransform::genTicks(), PeriodicBinaryTransform::moduloAdd(), PeriodicBinaryTransform::moduloSubY(), and Inspector::setHighRange().
double moduloSub | ( | double | s1, | |
double | s2, | |||
hippodraw::Axes::Type | axis | |||
) | const [inherited] |
Modulo Subtraction along either X or Y axis.
Definition at line 135 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::moduloSubX(), PeriodicBinaryTransform::moduloSubY(), hippodraw::Axes::X, and hippodraw::Axes::Y.
double moduloSubX | ( | double | x1, | |
double | x2 | |||
) | const [inherited] |
Modulo Subtraction along X axis.
Definition at line 161 of file PeriodicBinaryTransform.cxx.
References Range::high(), Range::low(), PeriodicBinaryTransform::m_x_limits, and PeriodicBinaryTransform::moduloAddX().
Referenced by AxisRepBase::drawCrossHairs(), PeriodicBinaryTransform::moduloAddX(), and PeriodicBinaryTransform::moduloSub().
double moduloSubY | ( | double | y1, | |
double | y2 | |||
) | const [inherited] |
Modulo Subtraction along Y axis.
Definition at line 190 of file PeriodicBinaryTransform.cxx.
References Range::high(), Range::low(), PeriodicBinaryTransform::m_y_limits, and PeriodicBinaryTransform::moduloAddY().
Referenced by AxisRepBase::drawCrossHairs(), PeriodicBinaryTransform::moduloAddY(), and PeriodicBinaryTransform::moduloSub().
const string & name | ( | ) | const [inherited] |
Returns the name of the Transform.
Definition at line 45 of file TransformBase.cxx.
References TransformBase::m_name.
Referenced by BinaryTransform::BinaryTransform(), TransformXML::createElement(), DisplayController::getLog(), DisplayController::setLog(), Inspector::updateTransformTab(), and XYTransform::XYTransform().
bool needsGrid | ( | ) | const [inherited] |
Returns whether this transform needs grid.
Definition at line 118 of file BinaryTransform.cxx.
References BinaryTransform::m_needs_grid.
Referenced by BinaryTransform::BinaryTransform().
bool needsXTicks | ( | ) | const [inherited] |
Returns whether this transform needs x ticks.
Definition at line 128 of file BinaryTransform.cxx.
References BinaryTransform::m_needs_x_ticks.
Referenced by BinaryTransform::BinaryTransform(), and CompositePlotter::drawAxisRep().
bool needsYTicks | ( | ) | const [inherited] |
Returns whether this transform needs y ticks.
Definition at line 138 of file BinaryTransform.cxx.
References BinaryTransform::m_needs_y_ticks.
Referenced by BinaryTransform::BinaryTransform(), and CompositePlotter::drawAxisRep().
void setFirstTick | ( | AxisModelBase & | axis | ) | [protected, inherited] |
Sets the first tick on the axis.
Definition at line 339 of file PeriodicBinaryTransform.cxx.
References AxisModelBase::getRange(), Range::low(), and AxisModelBase::setFirstTick().
Referenced by PeriodicBinaryTransform::setTicks().
void setNeedsGrid | ( | bool | needs_grid | ) | [inherited] |
Sets whether this transform needs grid.
Definition at line 123 of file BinaryTransform.cxx.
References BinaryTransform::m_needs_grid.
void setNeedsXTicks | ( | bool | needs_x_ticks | ) | [inherited] |
Sets whether this transform needs x ticks.
Definition at line 133 of file BinaryTransform.cxx.
References BinaryTransform::m_needs_x_ticks.
void setNeedsYTicks | ( | bool | needs_y_ticks | ) | [inherited] |
Sets whether this transform needs y yicks.
Definition at line 143 of file BinaryTransform.cxx.
References BinaryTransform::m_needs_y_ticks.
const vector< AxisTick > & setTicks | ( | AxisModelBase & | model, | |
hippodraw::Axes::Type | axis | |||
) | [virtual, inherited] |
Implements BinaryTransform.
Definition at line 288 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::genTicks(), BinaryTransform::m_z, PeriodicBinaryTransform::setFirstTick(), PeriodicBinaryTransform::setTickStep(), and hippodraw::Axes::Z.
void setTickStep | ( | AxisModelBase & | axis | ) | [protected, inherited] |
Helps to decide the tick size for the corresponding axis.
Definition at line 316 of file PeriodicBinaryTransform.cxx.
References AxisModelBase::getRange(), AxisModelBase::getScaleFactor(), Range::high(), Range::length(), Range::low(), AxisModelBase::setPMag(), AxisModelBase::setRMag(), and AxisModelBase::setTickStep().
Referenced by PeriodicBinaryTransform::setTicks().
void setXOffset | ( | double | x_offset | ) | [inherited] |
Sets the xOffset of the (periodic) transform.
Definition at line 103 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_x_offset.
Referenced by Inspector::autoScale_clicked(), Inspector::rotateY(), Inspector::setHighRange(), and Inspector::setYRotateText().
void setYOffset | ( | double | y_offset | ) | [inherited] |
Sets the yOffset of the (periodic) transform.
Definition at line 113 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_y_offset.
Referenced by Inspector::autoScale_clicked(), Inspector::rotateX(), Inspector::setHighRange(), and Inspector::setXRotateText().
void setZTransform | ( | TransformBase * | transform | ) | [inherited] |
Sets the transform function on the Z axis.
The transform object must be derived class of UnaryTransform, otherwise the transform object pointer is set to null.
Definition at line 93 of file BinaryTransform.cxx.
References BinaryTransform::m_z.
void throwWCSMissing | ( | ) | const [protected, inherited] |
Throws an exception if WCSLIB support is missing.
Definition at line 505 of file PeriodicBinaryTransform.cxx.
Referenced by PeriodicBinaryTransform::initwcs(), PeriodicBinaryTransform::inverseTransform(), and PeriodicBinaryTransform::transform().
void transform | ( | std::vector< double > & | x, | |
std::vector< double > & | y | |||
) | const [virtual, inherited] |
A transform on two axes.
Implements BinaryTransform.
Definition at line 578 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_wcs, num_util::size(), and PeriodicBinaryTransform::throwWCSMissing().
void transform | ( | double & | x, | |
double & | y | |||
) | const [virtual, inherited] |
Transform the coordinates on the X and Y axes.
Implements BinaryTransform.
Definition at line 517 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_wcs, and PeriodicBinaryTransform::throwWCSMissing().
Referenced by PeriodicBinaryTransform::calcRectangle().
void transformZ | ( | double & | z | ) | const [inherited] |
Transforms the z coordinate.
Definition at line 100 of file BinaryTransform.cxx.
References BinaryTransform::m_z, and UnaryTransform::transform().
Referenced by ContourPointRep::drawContourTicks(), AxisRepColor::drawZTickLabels(), AxisRepColor::drawZTickLines(), and CompositePlotter::prepareToDraw().
Validates the Ranges.
Adjusts Ranges to be restricted to that which is valid for the transform.
Implements BinaryTransform.
Definition at line 274 of file PeriodicBinaryTransform.cxx.
References Range::high(), Range::low(), PeriodicBinaryTransform::m_x_limits, PeriodicBinaryTransform::m_y_limits, Range::setHigh(), and Range::setLow().
double xOffset | ( | ) | const [inherited] |
Returns the xOffset of the (periodic) transform.
Definition at line 98 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_x_offset.
Referenced by AxisRepBase::drawCrossHairs(), CompositePlotter::fillPickedPoint(), PeriodicBinaryTransform::genTicks(), Inspector::setHighRange(), and Inspector::updateTransformTab().
double yOffset | ( | ) | const [inherited] |
Returns the yOffset of the (periodic) transform.
Definition at line 108 of file PeriodicBinaryTransform.cxx.
References PeriodicBinaryTransform::m_y_offset.
Referenced by AxisRepBase::drawCrossHairs(), CompositePlotter::fillPickedPoint(), PeriodicBinaryTransform::genTicks(), Inspector::setHighRange(), and Inspector::updateTransformTab().
TransformBase * zTransform | ( | ) | const [inherited] |
Returns the transform function on the Z axis.
Definition at line 86 of file BinaryTransform.cxx.
References BinaryTransform::m_z.
Referenced by DisplayController::getLog(), and DisplayController::setLog().
bool m_is_periodic [protected, inherited] |
Is this transform periodic.
Definition at line 57 of file BinaryTransform.h.
Referenced by BinaryTransform::BinaryTransform(), and BinaryTransform::isPeriodic().
std::string m_name [protected, inherited] |
Name of the Transform.
Definition at line 42 of file TransformBase.h.
Referenced by AIR::AIR(), AIR2::AIR2(), ARC::ARC(), ARC2::ARC2(), BinaryTransform::BinaryTransform(), Cartesian::Cartesian(), Cartesian2::Cartesian2(), GlobalSinusoidal::GlobalSinusoidal(), GlobalSinusoidal2::GlobalSinusoidal2(), HammerAito::HammerAito(), HammerAito2::HammerAito2(), Lambert::Lambert(), Lambert2::Lambert2(), LinearTransform::LinearTransform(), LogTransform::LogTransform(), Mercator::Mercator(), Mercator2::Mercator2(), TransformBase::name(), SIN::SIN(), SIN2::SIN2(), STG::STG(), STG2::STG2(), TAN::TAN(), TAN2::TAN2(), TransformBase::TransformBase(), XYTransform::XYTransform(), XYZTransform::XYZTransform(), and XYZTransformBase::XYZTransformBase().
bool m_needs_grid [protected, inherited] |
Does this binary transform needs grid?
Definition at line 48 of file BinaryTransform.h.
Referenced by BinaryTransform::BinaryTransform(), BinaryTransform::needsGrid(), and BinaryTransform::setNeedsGrid().
bool m_needs_x_ticks [protected, inherited] |
Does this binary transform x ticks?
Definition at line 51 of file BinaryTransform.h.
Referenced by BinaryTransform::BinaryTransform(), BinaryTransform::needsXTicks(), and BinaryTransform::setNeedsXTicks().
bool m_needs_y_ticks [protected, inherited] |
Does this binary transform y ticks?
Definition at line 54 of file BinaryTransform.h.
Referenced by BinaryTransform::BinaryTransform(), BinaryTransform::needsYTicks(), and BinaryTransform::setNeedsYTicks().
The ticks last generated by this transform.
Definition at line 94 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::genTicks().
wcsprm* m_wcs [protected, inherited] |
Definition at line 55 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::initwcs(), PeriodicBinaryTransform::inverseTransform(), and PeriodicBinaryTransform::transform().
char m_wcs_struct[2000] [protected, inherited] |
Definition at line 56 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::initwcs().
Range m_x_limits [protected, inherited] |
The limits on X axis of the transform.
Definition at line 60 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::limitX(), PeriodicBinaryTransform::moduloAddX(), PeriodicBinaryTransform::moduloSubX(), and PeriodicBinaryTransform::validate().
double m_x_offset [protected, inherited] |
The xoffset of this periodic transform.
Definition at line 66 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::setXOffset(), and PeriodicBinaryTransform::xOffset().
Range m_y_limits [protected, inherited] |
The limits on Y axis of the transform.
Definition at line 63 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::limitY(), PeriodicBinaryTransform::moduloAddY(), PeriodicBinaryTransform::moduloSubY(), and PeriodicBinaryTransform::validate().
double m_y_offset [protected, inherited] |
The yoffset of this periodic transform.
Definition at line 69 of file PeriodicBinaryTransform.h.
Referenced by PeriodicBinaryTransform::setYOffset(), and PeriodicBinaryTransform::yOffset().
UnaryTransform* m_z [protected, inherited] |
The transform on the Z axis.
Definition at line 45 of file BinaryTransform.h.
Referenced by XYTransform::adjustValues(), BinaryTransform::BinaryTransform(), BinaryTransform::inverseTransformZ(), BinaryTransform::isLinearInZ(), BinaryTransform::limitZ(), XYTransform::setTicks(), PeriodicBinaryTransform::setTicks(), BinaryTransform::setZTransform(), BinaryTransform::transformZ(), BinaryTransform::zTransform(), and BinaryTransform::~BinaryTransform().