Isis Developer Reference
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Simple Cylindrical Map Projection. More...
#include <SimpleCylindrical.h>
Public Types | |
enum | LatitudeType { Planetocentric , Planetographic } |
This enum defines the types of Latitude supported in this class. More... | |
enum | LongitudeDirection { PositiveEast , PositiveWest } |
This enum defines the types of Longitude directions supported in this class. More... | |
enum | ProjectionType { Triaxial , RingPlane } |
This enum defines the subclasses of Projection supported in Isis. More... | |
Public Member Functions | |
SimpleCylindrical (Pvl &label, bool allowDefaults=false) | |
Constructs a SimpleCylindrical object. | |
~SimpleCylindrical () | |
Destroys the SimpleCylindrical object. | |
bool | operator== (const Projection &proj) |
Compares two Projection objects to see if they are equal. | |
QString | Name () const |
Returns the name of the map projection, "SimpleCylindrical". | |
QString | Version () const |
Returns the version of the map projection. | |
bool | IsEquatorialCylindrical () |
Indicates whether the projection is Equitorial Cylindrical. | |
bool | SetGround (const double lat, const double lon) |
This method is used to set the latitude/longitude (assumed to be of the correct LatitudeType, LongitudeDirection, and LongitudeDomain. | |
bool | SetCoordinate (const double x, const double y) |
This method is used to set the projection x/y. | |
bool | XYRange (double &minX, double &maxX, double &minY, double &maxY) |
This method is used to determine the x/y range which completely covers the area of interest specified by the lat/lon range. | |
PvlGroup | Mapping () |
This function returns the keywords that this projection uses. | |
PvlGroup | MappingLatitudes () |
This function returns the latitude keywords that this projection uses. | |
PvlGroup | MappingLongitudes () |
This function returns the longitude keywords that this projection uses. | |
double | EquatorialRadius () const |
This returns the equatorial radius of the target. | |
double | PolarRadius () const |
This returns the polar radius of the target. | |
double | Eccentricity () const |
This returns the eccentricity of the target,. | |
double | LocalRadius (double lat) const |
This method returns the local radius in meters at the specified latitude position. | |
double | LocalRadius () const |
This method returns the local radius in meters at the current latitude position. | |
virtual double | TrueScaleLatitude () const |
This method returns the latitude of true scale. | |
bool | IsPlanetocentric () const |
This indicates if the latitude type is planetocentric (as opposed to planetographic). | |
bool | IsPlanetographic () const |
This indicates if the latitude type is planetographic (as opposed to planetocentric). | |
QString | LatitudeTypeString () const |
This method returns the latitude type as a string. | |
double | ToPlanetocentric (const double lat) const |
This method converts a planetographic latitude to a planetocentric latitude. | |
double | ToPlanetographic (const double lat) const |
This method converts a planetocentric latitude to a planetographic latitude. | |
bool | IsPositiveEast () const |
This indicates if the longitude direction type is positive west (as opposed to postive east). | |
bool | IsPositiveWest () const |
This indicates if the longitude direction type is positive east (as opposed to postive west). | |
QString | LongitudeDirectionString () const |
This method returns the longitude direction as a string. | |
bool | Has180Domain () const |
This indicates if the longitude domain is -180 to 180 (as opposed to 0 to 360). | |
bool | Has360Domain () const |
This indicates if the longitude domain is 0 to 360 (as opposed to -180 to 180). | |
QString | LongitudeDomainString () const |
This method returns the longitude domain as a string. | |
virtual double | MinimumLatitude () const |
This returns the minimum latitude of the area of interest. | |
virtual double | MaximumLatitude () const |
This returns the maximum latitude of the area of interest. | |
virtual double | MinimumLongitude () const |
This returns the minimum longitude of the area of interest. | |
virtual double | MaximumLongitude () const |
This returns the maximum longitude of the area of interest. | |
virtual double | Latitude () const |
This returns a latitude with correct latitude type as specified in the label object. | |
virtual double | Longitude () const |
This returns a longitude with correct longitude direction and domain as specified in the label object. | |
virtual bool | SetUniversalGround (const double lat, const double lon) |
This method is used to set the latitude/longitude which must be Planetocentric (latitude) and PositiveEast/Domain360 (longitude). | |
bool | SetUnboundUniversalGround (const double coord1, const double coord2) |
This method is used to set the latitude/longitude. | |
virtual double | UniversalLatitude () |
This returns a universal latitude (planetocentric). | |
virtual double | UniversalLongitude () |
This returns a universal longitude (positive east in 0 to 360 domain). | |
double | Scale () const |
This method returns the scale for mapping world coordinates into projection coordinates. | |
bool | operator!= (const Projection &proj) |
This method determines whether two map projection objects are not equal. | |
void | setProjectionType (const ProjectionType ptype) |
Sets the projection subclass type. | |
ProjectionType | projectionType () const |
Returns an enum value for the projection type. | |
bool | IsSky () const |
Returns true if projection is sky and false if it is land. | |
virtual bool | HasGroundRange () const |
This indicates if the longitude direction type is positive west (as opposed to postive east). | |
double | Rotation () const |
Returns the value of the Rotation keyword from the mapping group. | |
void | SetWorldMapper (WorldMapper *mapper) |
If desired the programmer can use this method to set a world mapper to be used in the SetWorld, WorldX, and WorldY methods. | |
bool | IsGood () const |
This indicates if the last invocation of SetGround, SetCoordinate, SetUniversalGround, or SetWorld was with successful or not. | |
double | XCoord () const |
This returns the projection X provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success. | |
double | YCoord () const |
This returns the projection Y provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success. | |
virtual bool | SetWorld (const double x, const double y) |
This method is used to set a world coordinate. | |
virtual double | WorldX () const |
This returns the world X coordinate provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success. | |
virtual double | WorldY () const |
This returns the world Y coordinate provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success. | |
double | ToWorldX (const double projectionX) const |
This method converts a projection x value to a world x value. | |
double | ToWorldY (const double projectionY) const |
This method converts a projection y value to a world y value. | |
double | ToProjectionX (const double worldX) const |
This method converts a world x value to a projection x value. | |
double | ToProjectionY (const double worldY) const |
This method converts a world y value to a projection y value. | |
double | Resolution () const |
This method returns the resolution for mapping world coordinates into projection coordinates. | |
void | SetUpperLeftCorner (const Displacement &x, const Displacement &y) |
This method searches for extreme (min/max/discontinuity) coordinate values along the constBorder line between minBorder and maxBorder (that is, across latitudes/longitudes). | |
Static Public Member Functions | |
static double | ToPlanetocentric (double lat, double eRadius, double pRadius) |
This method converts a planetographic latitude to a planetocentric latitude. | |
static double | ToPlanetographic (double lat, double eRadius, double pRadius) |
This method converts a planetocentric latitude to a planetographic latitude. | |
static double | ToPositiveEast (const double lon, const int domain) |
This method converts a longitude into the positive east direction. | |
static double | ToPositiveWest (const double lon, const int domain) |
This method converts a longitude into the positive west direction. | |
static double | To180Domain (const double lon) |
This method converts a longitude into the -180 to 180 domain. | |
static double | To360Domain (const double lon) |
This method converts a longitude into the 0 to 360 domain. | |
static double | ToHours (double angle) |
Converts the given angle (in degrees) to hours by using the ratio 15 degrees per hour. | |
static QString | ToDMS (double angle) |
Converts the given angle (in degrees) to degrees, minutes, seconds. | |
static QString | ToHMS (double angle) |
Converts the given angle (in degrees) to hours, minutes, seconds. | |
Protected Member Functions | |
void | XYRangeCheck (const double latitude, const double longitude) |
This convience function is established to assist in the development of the XYRange virtual method. | |
bool | inLongitudeRange (double longitude) |
Determine whether the given longitude is within the range of the MinimumLongitude and MaximumLongitude range of this projection. | |
bool | inLongitudeRange (double minLon, double maxLon, double longitude) |
Determine whether the given longitude is within the range of the given min and max longitudes. | |
bool | inLatitudeRange (double latitude) |
Determine whether the given latitude is within the range of the MinimumLatitude and MaximumLatitude range of this projection. | |
bool | xyRangeOblique (double &minX, double &maxX, double &minY, double &maxY) |
This method is used to find the XY range for oblique aspect projections (non-polar projections) by "walking" around each of the min/max lat/lon. | |
double | qCompute (const double sinPhi) const |
A convience method to compute Snyder's q equation (3-12) for a given latitude, \(\phi\). | |
double | phi2Compute (const double t) const |
A convience method to compute latitude angle phi2 given small t, from Syder's recursive equation (7-9) | |
double | mCompute (const double sinphi, const double cosphi) const |
A convience method to compute Snyder's m equation (14-15) for a given latitude, \(\phi\). | |
double | tCompute (const double phi, const double sinphi) const |
A convience method to compute Snyder's t equation (15-9) for a given latitude, \(\phi\). | |
double | e4Compute () const |
A convience method to compute. | |
void | SetXY (double x, double y) |
This protected method is a helper for derived classes. | |
void | SetComputedXY (double x, double y) |
This protected method is a helper for derived classes. | |
double | GetX () const |
Calculates the unrotated form of current x value. | |
double | GetY () const |
Calculates the unrotated form of the current y value. | |
double | PixelResolution () const |
Returns the pixel resolution value from the PVL mapping group in meters/pixel. | |
Protected Attributes | |
double | m_latitude |
This contains the currently set latitude value. | |
double | m_longitude |
This contains the currently set longitude value. | |
LatitudeType | m_latitudeType |
An enumerated type indicating the LatitudeType read from the labels. | |
LongitudeDirection | m_longitudeDirection |
An enumerated type indicating the LongitudeDirection read from the labels. | |
int | m_longitudeDomain |
This integer is either 180 or 360 and is read from the labels. | |
double | m_equatorialRadius |
Polar radius of the target. | |
double | m_polarRadius |
Polar radius of the target. | |
double | m_eccentricity |
The eccentricity of the target body. | |
double | m_minimumLatitude |
Contains the minimum latitude for the entire ground range. | |
double | m_maximumLatitude |
Contains the maximum latitude for the entire ground range. | |
double | m_minimumLongitude |
Contains the minimum longitude for the entire ground range. | |
double | m_maximumLongitude |
Contains the maximum longitude for the entire ground range. | |
WorldMapper * | m_mapper |
This points to a mapper passed into the SetWorldMapper method. | |
bool | m_good |
Indicates if the contents of m_x, m_y, m_latitude, and m_longitude are valid. | |
bool | m_sky |
Indicates whether projection is sky or land. | |
bool | m_groundRangeGood |
Indicates if the ground range (min/max lat/lons) were read from the labels. | |
double | m_minimumX |
The data elements m_minimumX, m_minimumY, m_maximumX, and m_maximumY are convience data elements when you write the XYRange virtual function. | |
double | m_maximumX |
See minimumX description. | |
double | m_minimumY |
See minimumX description. | |
double | m_maximumY |
See minimumX description. | |
PvlGroup | m_mappingGrp |
Mapping group that created this projection. | |
Simple Cylindrical Map Projection.
This class provides methods for the forward and inverse equations of a Simple Cylindrical map projection (for a sphere).
The Simple Cylindrical projection is an Equidistant Cylindrical projection with the standard parallel at the equator of the target planet. Poles, latitudes and longitudes are represented as straight lines. The longitudes and latitudes are equally spaced and intersect at right angles.
The code was converted to C++ from the Fortran version of the USGS General Cartographic Transformation Package (GCTP). In particular it was modified from the Equidistant Cylindrical code. This class inherits Projection and provides the two virtual methods SetGround (forward) and SetCoordinate (inverse) and a third virtual method, XYRange, for obtaining projection coordinate coverage for a latitude/longitude window.
Please see the Projection class for a full accounting of all the methods available.
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This enum defines the types of Latitude supported in this class.
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This enum defines the subclasses of Projection supported in Isis.
Enumerator | |
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Triaxial | These projections are used to map triaxial and irregular-shaped bodies. |
RingPlane | These projections are used to map ring planes. |
Isis::SimpleCylindrical::SimpleCylindrical | ( | Pvl & | label, |
bool | allowDefaults = false ) |
Constructs a SimpleCylindrical object.
label | This argument must be a Label containing the proper mapping information as indicated in the Projection class. Additionally, the simple cylindrical projection requires the center longitude to be defined in the keyword CenterLongitude. |
allowDefaults | If set to false, the constructor requires that the keyword CenterLongitude exist in the label. Otherwise if it does not exist it will be computed and written to the label using the middle of the longitude range as specified in the labels. Defaults to false |
IException |
References _FILEINFO_, Isis::PvlObject::findGroup(), Isis::IException::Io, Isis::TProjection::m_longitudeDirection, Isis::TProjection::m_maximumLongitude, Isis::TProjection::m_minimumLongitude, Isis::PI, Isis::TProjection::PositiveWest, Isis::toString(), and Isis::PvlObject::Traverse.
Isis::SimpleCylindrical::~SimpleCylindrical | ( | ) |
Destroys the SimpleCylindrical object.
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A convience method to compute.
\[ e4 = \sqrt{(1+e )^{1+e}(1-e)^{1-e}} \]
where e is the eccentricity of the body.
References Isis::TProjection::Eccentricity().
Referenced by Isis::PolarStereographic::PolarStereographic().
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This returns the eccentricity of the target,.
\[ e = \sqrt{1 - \frac{PR^2}{ER^2}} \]
where PR is the polar radius and ER is the equatorial radius. Since polar and equatorial radii are required to be greater than zero, it follows that \( 0 \le e < 1 \) . Note that if the body is spherical, then PR = ER and so e = 0.
References Isis::TProjection::m_eccentricity.
Referenced by Isis::TProjection::e4Compute(), Isis::TProjection::mCompute(), Isis::Mercator::Mercator(), Isis::TProjection::phi2Compute(), Isis::TProjection::tCompute(), and Isis::TransverseMercator::TransverseMercator().
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This returns the equatorial radius of the target.
The radius was obtained from the label during object construction.
References Isis::TProjection::m_equatorialRadius.
Referenced by Isis::TProjection::operator==().
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Calculates the unrotated form of current x value.
References Isis::PI.
Referenced by Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::RingCylindrical::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), and Isis::TransverseMercator::SetCoordinate().
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Calculates the unrotated form of the current y value.
References Isis::PI.
Referenced by Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::RingCylindrical::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), and Isis::TransverseMercator::SetCoordinate().
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This indicates if the longitude domain is -180 to 180 (as opposed to 0 to 360).
The longitude domain was obtained from the label during object construction.
References Isis::TProjection::m_longitudeDomain.
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This indicates if the longitude domain is 0 to 360 (as opposed to -180 to 180).
The longitude domain was obtained from the label during object construction.
References Isis::TProjection::m_longitudeDomain.
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This indicates if the longitude direction type is positive west (as opposed to postive east).
The longitude type was obtained from the label during object construction.
lon | Longitude to convert into the -180 to 180 domain. |
IException::Unknown | - "The given longitude is invalid." |
lon | Longitude to convert into the 0 to 360 domain. |
References Isis::Projection::m_groundRangeGood.
Referenced by Isis::RingPlaneProjection::Mapping(), Isis::TProjection::MappingLatitudes(), Isis::TProjection::MappingLongitudes(), Isis::Planar::MappingRingLongitudes(), Isis::RingCylindrical::MappingRingLongitudes(), Isis::RingPlaneProjection::MappingRingLongitudes(), Isis::Planar::MappingRingRadii(), Isis::RingCylindrical::MappingRingRadii(), Isis::RingPlaneProjection::MappingRingRadii(), and Isis::TProjection::xyRangeOblique().
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Determine whether the given latitude is within the range of the MinimumLatitude and MaximumLatitude range of this projection.
Note: It is a good habit to call this function to verify that a value is in range before passing it to XYRangeCheck.
latitude | The latitude to check. |
References Isis::TProjection::MaximumLatitude(), and Isis::TProjection::MinimumLatitude().
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Determine whether the given longitude is within the range of the MinimumLongitude and MaximumLongitude range of this projection.
Note: It is a good habit to call this function to verify that a value is in range before passing it to XYRangeCheck.
longitude | The longitude to check. |
References Isis::TProjection::inLongitudeRange(), Isis::TProjection::MaximumLongitude(), and Isis::TProjection::MinimumLongitude().
Referenced by Isis::TProjection::inLongitudeRange().
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Determine whether the given longitude is within the range of the given min and max longitudes.
Note: It is a good habit to call this function to verify that a value is in range before passing it to XYRangeCheck.
minLon | The lower end of longitude range. |
maxLon | The upper end of longitude range. |
longitude | The longitude to check. |
References Isis::TProjection::To360Domain().
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Indicates whether the projection is Equitorial Cylindrical.
Reimplemented from Isis::TProjection.
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This indicates if the last invocation of SetGround, SetCoordinate, SetUniversalGround, or SetWorld was with successful or not.
If there was success then the Latitude, Longitude, XCoord, YCoord, UniversalLatitude, UniversalLongitude, WorldX, and WorldY methods can be utilized.
References Isis::Projection::m_good.
Referenced by Isis::TProjection::XYRangeCheck(), and Isis::RingPlaneProjection::XYRangeCheck().
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This indicates if the latitude type is planetocentric (as opposed to planetographic).
The latitude type was obtained from the label during object construction.
References Isis::TProjection::m_latitudeType, and Isis::TProjection::Planetocentric.
Referenced by Isis::LambertConformal::LambertConformal(), Isis::Mercator::Mercator(), Isis::ObliqueCylindrical::ObliqueCylindrical(), Isis::TProjection::operator==(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::TransverseMercator::SetGround(), and Isis::TransverseMercator::TransverseMercator().
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This indicates if the latitude type is planetographic (as opposed to planetocentric).
The latitude type was obtained from the label during object construction.
References Isis::TProjection::m_latitudeType, and Isis::TProjection::Planetographic.
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This indicates if the longitude direction type is positive west (as opposed to postive east).
The longitude type was obtained from the label during object construction.
References Isis::TProjection::m_longitudeDirection, and Isis::TProjection::PositiveEast.
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This indicates if the longitude direction type is positive east (as opposed to postive west).
The longitude type was obtained from the label during object construction.
References Isis::TProjection::m_longitudeDirection, and Isis::TProjection::PositiveWest.
Referenced by Isis::TProjection::operator==().
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Returns true if projection is sky and false if it is land.
References Isis::Projection::m_sky.
Referenced by Isis::Camera::SetImage(), Isis::Camera::SetImage(), and Isis::Camera::SetRightAscensionDeclination().
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This returns a latitude with correct latitude type as specified in the label object.
The method can only be used if SetGround, SetCoordinate, SetUniversalGround, or SetWorld return with success. Success can also be checked using the IsGood method.
References Isis::TProjection::m_latitude.
Referenced by Isis::PolygonTools::XYToLatLon().
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This method returns the latitude type as a string.
It will return either Planetocentric or Planetographic.
References Isis::TProjection::m_latitudeType, and Isis::TProjection::Planetographic.
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This method returns the local radius in meters at the current latitude position.
This is only usable if the use of SetGround or SetCoordinate was successful.
Implements Isis::Projection.
References Isis::TProjection::LocalRadius(), and Isis::TProjection::m_latitude.
Referenced by Isis::Equirectangular::Equirectangular(), and Isis::TProjection::LocalRadius().
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This method returns the local radius in meters at the specified latitude position.
For this method, the local radius is defined as the distance from the center of the planet to the surface of the planet at the given latitude.
\[ LR = \frac{ER*PR}{\sqrt{PR^2 \cos^2(LAT)+ER^2 \sin^2(LAT)}} \]
latitude | A latitude in degrees (assumed to be of the correct LatitudeType). |
IException::Unknown | - "The given latitude is invalid." |
References _FILEINFO_, Isis::TProjection::m_equatorialRadius, Isis::TProjection::m_polarRadius, Isis::Null, Isis::PI, Isis::toString(), and Isis::IException::Unknown.
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This returns a longitude with correct longitude direction and domain as specified in the label object.
The method can only be used if SetGround, SetCoordinate, SetUniversalGround, or SetWorld return with success. Success can also be checked using the IsGood method.
References Isis::TProjection::m_longitude.
Referenced by Isis::PolygonTools::XYToLatLon().
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This method returns the longitude direction as a string.
It will return either PositiveEast or PositiveWest.
References Isis::TProjection::m_longitudeDirection, and Isis::TProjection::PositiveEast.
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This method returns the longitude domain as a string.
It will return either 180 or 360.
References Isis::TProjection::m_longitudeDomain.
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This function returns the keywords that this projection uses.
Reimplemented from Isis::TProjection.
References Isis::Projection::m_mappingGrp, and Isis::TProjection::Mapping().
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This function returns the latitude keywords that this projection uses.
Reimplemented from Isis::TProjection.
References Isis::TProjection::MappingLatitudes().
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This function returns the longitude keywords that this projection uses.
Reimplemented from Isis::TProjection.
References Isis::Projection::m_mappingGrp, and Isis::TProjection::MappingLongitudes().
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This returns the maximum latitude of the area of interest.
The value was obtained from the labels during object construction. This method can only be used if HasGroundRange returns a true.
References Isis::TProjection::m_maximumLatitude.
Referenced by Isis::TProjection::inLatitudeRange(), and Isis::TProjection::xyRangeOblique().
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virtualinherited |
This returns the maximum longitude of the area of interest.
The value was obtained from the labels during object construction. This method can only be used if HasGroundRange returns a true.
References Isis::TProjection::m_maximumLongitude.
Referenced by Isis::TProjection::inLongitudeRange(), Isis::Orthographic::XYRange(), and Isis::TProjection::xyRangeOblique().
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A convience method to compute Snyder's m equation (14-15) for a given latitude, \(\phi\).
\[ m = \frac{\cos(\phi)}{\sqrt{1-e^2 \sin^2(\phi)}} \]
where \(e\) is the eccentricity for the body.
sinphi | sine of phi |
cosphi | cosine of phi |
References Isis::TProjection::Eccentricity().
Referenced by Isis::LambertConformal::LambertConformal(), and Isis::PolarStereographic::PolarStereographic().
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This returns the minimum latitude of the area of interest.
The value was obtained from the labels during object construction. This method can only be used if HasGroundRange returns a true.
References Isis::TProjection::m_minimumLatitude.
Referenced by Isis::TProjection::inLatitudeRange(), and Isis::TProjection::xyRangeOblique().
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virtualinherited |
This returns the minimum longitude of the area of interest.
The value was obtained from the labels during object construction. This method can only be used if HasGroundRange returns a true.
References Isis::TProjection::m_minimumLongitude.
Referenced by Isis::TProjection::inLongitudeRange(), Isis::Orthographic::XYRange(), and Isis::TProjection::xyRangeOblique().
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Returns the name of the map projection, "SimpleCylindrical".
Implements Isis::TProjection.
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This method determines whether two map projection objects are not equal.
True is returned if they have at least some differences in the radii, latitude type, longitude direction, resolution, or projection name.
proj | A reference to a Projection object to which this Projection will be compared. |
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Compares two Projection objects to see if they are equal.
proj | Projection object to do comparison on |
Reimplemented from Isis::TProjection.
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A convience method to compute latitude angle phi2 given small t, from Syder's recursive equation (7-9)
\[ \phi_{i+1} = \frac{\pi}{2} - 2\arctan\left(t \left[\frac{1-e\sin(\phi_i)}{1+e\sin(\phi_i)}\right]^{e/2}\right) \]
where \(e\) is the eccentricity for the body and \( \phi_0 = \frac{\pi}{2} - 2\arctan(t) \) .
t | small t |
IException::Unknown | - "Failed to converge in Projection::phi2Compute()" |
References _FILEINFO_, Isis::TProjection::Eccentricity(), Isis::HALFPI, and Isis::IException::Unknown.
Referenced by Isis::LambertConformal::SetCoordinate(), Isis::Mercator::SetCoordinate(), and Isis::PolarStereographic::SetCoordinate().
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Returns the pixel resolution value from the PVL mapping group in meters/pixel.
Referenced by Isis::Planar::XYRange(), and Isis::RingCylindrical::XYRange().
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This returns the polar radius of the target.
The radius was obtained from the label during object construction.
References Isis::TProjection::m_polarRadius.
Referenced by Isis::TProjection::operator==().
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inherited |
Returns an enum value for the projection type.
Referenced by Isis::MosaicFindTool::getUserGroundPoint(), Isis::GridGraphicsItem::GridGraphicsItem(), Isis::UniversalGroundMap::GroundRange(), Isis::MosaicControlNetTool::mouseButtonRelease(), Isis::MosaicFindTool::mouseButtonRelease(), Isis::Projection::SetUnboundUniversalGround(), Isis::Projection::SetUniversalGround(), Isis::UniversalGroundMap::UniversalLatitude(), Isis::UniversalGroundMap::UniversalLongitude(), and Isis::MosaicAreaTool::userChangedBox().
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protectedinherited |
A convience method to compute Snyder's q equation (3-12) for a given latitude, \(\phi\).
\[ q = (1 - e^2) \left[ \frac{\sin(\phi)}{1 - e^2 \sin^2(\phi)} - \frac{1}{2e} \ln\left(\frac{1 - e \sin(\phi)}{1 + e \sin(\phi)}\right) \right] \]
where \(e\) is the eccentricity for the body.
sinPhi | The sine value for a latitude, phi. |
IException::Unknown | - "Snyder's q variable should only be computed for ellipsoidal projections." |
References _FILEINFO_, Isis::TProjection::m_eccentricity, and Isis::IException::Unknown.
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inherited |
This method returns the resolution for mapping world coordinates into projection coordinates.
For example, if the world coordinate system is an image then this routine returns the number of meters per pixel. Likewise, if the world coordinate system is a piece of paper, it might return the number of meters per inch of paper. If the SetWorldMapper method is not invoked then this method returns 1.0
References Isis::Projection::m_mapper, and Isis::WorldMapper::Resolution().
Referenced by Isis::Projection::operator==(), and Isis::UniversalGroundMap::Resolution().
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inherited |
Returns the value of the Rotation keyword from the mapping group.
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virtualinherited |
This method returns the scale for mapping world coordinates into projection coordinates.
For example, if the world coordinate system is an image then this routine returns the number of pixels per degree. Likewise, if the world coordinate system is a piece of paper, it might return the number of inches of paper per degree. If the SetWorldMapper method is not invoked then this method returns 1.0
Implements Isis::Projection.
References Isis::TProjection::m_equatorialRadius, Isis::Projection::m_mapper, Isis::TProjection::m_polarRadius, Isis::PI, Isis::WorldMapper::Resolution(), and Isis::TProjection::TrueScaleLatitude().
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protectedinherited |
This protected method is a helper for derived classes.
It takes unrotated x and y values, rotates them using the rotation angle data member, and stores the results in the current x and y data members.
x | The unrotated x coordinate. |
y | The unrotated y coordinate. |
References Isis::Projection::m_good, Isis::Null, and Isis::PI.
Referenced by Isis::Equirectangular::SetGround(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::ObliqueCylindrical::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::Robinson::SetGround(), SetGround(), Isis::Sinusoidal::SetGround(), Isis::TProjection::SetGround(), Isis::TransverseMercator::SetGround(), Isis::Planar::SetGround(), Isis::RingCylindrical::SetGround(), and Isis::RingPlaneProjection::SetGround().
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virtual |
This method is used to set the projection x/y.
The Set forces an attempted calculation of the corresponding latitude/longitude position. This may or may not be successful and a status is returned as such.
x | X coordinate of the projection in units that are the same as the radii in the label |
y | Y coordinate of the projection in units that are the same as the radii in the label |
Reimplemented from Isis::TProjection.
References Isis::Projection::GetX(), Isis::Projection::GetY(), Isis::HALFPI, Isis::TProjection::m_equatorialRadius, Isis::Projection::m_good, Isis::TProjection::m_latitude, Isis::TProjection::m_longitude, Isis::TProjection::m_longitudeDirection, Isis::PI, Isis::TProjection::PositiveWest, and Isis::Projection::SetXY().
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virtual |
This method is used to set the latitude/longitude (assumed to be of the correct LatitudeType, LongitudeDirection, and LongitudeDomain.
The Set forces an attempted calculation of the projection X/Y values. This may or may not be successful and a status is returned as such.
Reimplemented from Isis::TProjection.
References Isis::TProjection::m_equatorialRadius, Isis::Projection::m_good, Isis::TProjection::m_latitude, Isis::TProjection::m_longitude, Isis::TProjection::m_longitudeDirection, Isis::PI, Isis::TProjection::PositiveWest, and Isis::Projection::SetComputedXY().
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inherited |
Sets the projection subclass type.
ptype | The projection subclass type |
Referenced by Isis::RingPlaneProjection::RingPlaneProjection(), and Isis::TProjection::TProjection().
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virtualinherited |
This method is used to set the latitude/longitude.
The Set forces an attempted calculation of the projection X/Y values. This may or may not be successful and a status is returned as such. This version does not adjust the longitude based on the longitude domain.
lat | Planetocentric Latitude value to project |
lon | PositiveEast, Domain360 Longitude value to project |
Reimplemented from Isis::Projection.
References Isis::Projection::m_good, Isis::TProjection::m_latitude, Isis::TProjection::m_latitudeType, Isis::TProjection::m_longitude, Isis::TProjection::m_longitudeDirection, Isis::Null, Isis::TProjection::Planetographic, Isis::TProjection::PositiveWest, Isis::TProjection::SetGround(), and Isis::TProjection::ToPlanetographic().
Referenced by Isis::Projection::SetUnboundUniversalGround().
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virtualinherited |
This method is used to set the latitude/longitude which must be Planetocentric (latitude) and PositiveEast/Domain360 (longitude).
The Set forces an attempted calculation of the projection X/Y values. This may or may not be successful and a status is returned as such.
lat | Planetocentric Latitude value to project |
lon | PositiveEast, Domain360 Longitude value to project |
Reimplemented from Isis::Projection.
References Isis::Projection::m_good, Isis::TProjection::m_latitude, Isis::TProjection::m_latitudeType, Isis::TProjection::m_longitude, Isis::TProjection::m_longitudeDirection, Isis::TProjection::m_longitudeDomain, Isis::Null, Isis::TProjection::Planetographic, Isis::TProjection::PositiveWest, Isis::TProjection::SetGround(), Isis::TProjection::To180Domain(), Isis::TProjection::To360Domain(), and Isis::TProjection::ToPlanetographic().
Referenced by Isis::Projection::SetUniversalGround().
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inherited |
This method searches for extreme (min/max/discontinuity) coordinate values along the constBorder line between minBorder and maxBorder (that is, across latitudes/longitudes).
This method locates the extrema by utilizing the findExtreme() method until the coordinate values converge. Then, extremeVal parameter is updated with this value before returning.
Discontinuities are stored in m_specialLatCases and m_specialLonCases so they may be checked again later, which creates significantly more accuracy in some cases.
minBorder | Minimum latitude or longitude to search between. |
maxBorder | Maximum latitude or longitude to search between. |
extremeVal | The resulting global coordinate value (min or max value for x or y, depending on findMin and searchX) on the constBorder. |
constBorder | The latitude or longitude that remains constant. The method will step along this border. |
searchX | Indicates whether the method is searching for a min or max x-coordinate. If false the method searches for min or max y-coordinate. |
searchLongitude | Indicates whether the method will search along a longitude. If true, constBorder is longitude and all other borders are latitudes. If false, the method searches a latitude (constBorder is a lat, other borders lons). |
findMin | Indicates whether the method is looking for a minimum coordinate value. If false, the method is looking for a maximum value. |
This method looks for these extrema along the constBorder between minBorder and maxBorder by stepping along constBorder (10 times) from the minBorder and maxBorder. Then, the range of this extreme value is recorded in minBorder and maxBorder and the coordinate values corresponding to these new borders are stored in minBorderX, minBorderY, maxBorderX and maxBorderY.
This function should be used by calling it repeatedly until minBorderX and minBorderY do not equal maxBorderX and maxBorderY, respectively. Discontinuities will cause the minBorderX, minBorderY, maxBorderX and maxBorderY to never converge. If minBorderX never comes close to maxBorderX or minBorderY never comes close to maxBorderY, then between minBorder and maxBorder is the value of the most extreme value. In this case, either the smaller or larger of the x or y values found will be correct, depending on the values of findMin and searchX.
minBorder | Minimum latitude or longitude to search between. This value gets updated to a more precise range. |
maxBorder | Maximum latitude or longitude to search between. This value gets updated to a more precise range. |
minBorderX | The x-value corresponding to the lower resultant minBorder and the constBorder, which is more accurate when nearly equal to maxBorderX. |
minBorderY | The y-value corresponding to the lower resultant minBorder and the constBorder, which is more accurate when nearly equal to maxBorderY. |
maxBorderX | The x-value corresponding to the higher resultant maxBorder and the constBorder, which is more accurate when nearly equal to minBorderX. |
maxBorderY | The y-value corresponding to the higher resultant maxBorder and the constBorder, which is more accurate when nearly equal to minBorderY. |
constBorder | The latitude or longitude that remains constant. The method will step along this border. |
searchX | Indicates whether the method is searching for a min or max x-coordinate. If false the method searches for min or max y-coordinate. |
searchLongitude | Indicates whether the method will search along a longitude. If true, constBorder is longitude and all other borders are latitudes. If false, the method searches a latitude (constBorder is a lat, other borders lons). |
findMin | Indicates whether the method is looking for a minimum coordinate value. If false, the method is looking for a maximum value. |
This method is used by doSearch and findExtreme in order to set the ground correctly each time.
variableBorder | The latitude or longitude that is variable in the search methods. |
constBorder | The latitude or longitude that is constant in the search methods. |
variableIsLat | Indicates whether variableBorder is the latittude value and constBorder is the longitude value. If false, variableBorder is the longitude value and constBorder is the latitude value. |
x | the upper left corner x value |
y | the upper left corner y value |
References Isis::PvlContainer::addKeyword(), Isis::Projection::m_mappingGrp, Isis::Displacement::meters(), Isis::PvlContainer::Replace, and Isis::toString().
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virtualinherited |
This method is used to set a world coordinate.
A world coordinate is a different coordinate type that has a one-to-one mapping to the projection coordinate system. For example, mapping pixel samples and lines to projection x's and y's. The Set forces an attempted calculation of the corresponding latitude/longitude position. This may or may not be successful and a status is returned as such. Note that is only applies if the Projection object was given an WorldMapper object during construction. If an WorldMapper was not supplied then SetWorld operates exactly the same as SetCoordinate (impling that world coordinate and projection coordinate are identical).
worldX | World X coordinate in units that are specified by the WorldMapper object (e.g., pixels, millimeters, etc) |
worldY | World Y coordinate in units that are specified by the WorldMapper object (e.g., pixels, millimeters, etc) |
References Isis::Projection::m_mapper, Isis::WorldMapper::ProjectionX(), Isis::WorldMapper::ProjectionY(), and Isis::Projection::SetCoordinate().
Referenced by Isis::ProcessExport::CreateWorldFile(), Isis::UniversalGroundMap::SetImage(), Isis::SubArea::UpdateLabel(), and Isis::PolygonTools::XYToLatLon().
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inherited |
If desired the programmer can use this method to set a world mapper to be used in the SetWorld, WorldX, and WorldY methods.
Mappers typically transform a projection coordinate (x/y) into the desired working coordinate system, for example, cube pixels or inches on a piece of paper. They transform in both directions (world to projection and projection to world). This allows for conversions from line/sample to latitude/longitude and vice versa. This projection will take ownership of the WorldMapper pointer.
mapper | Pointer to the mapper |
References Isis::Projection::m_mapper.
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protectedinherited |
This protected method is a helper for derived classes.
It takes a rotated x,y and stores them in the current x and y data members.
x | The rotated x coordinate. |
y | The rotated y coordinate. |
References Isis::Projection::m_good, and Isis::Null.
Referenced by Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::Planar::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::RingCylindrical::SetCoordinate(), Isis::RingPlaneProjection::SetCoordinate(), Isis::Robinson::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), Isis::TProjection::SetCoordinate(), and Isis::TransverseMercator::SetCoordinate().
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protectedinherited |
A convience method to compute Snyder's t equation (15-9) for a given latitude, \(\phi\).
\[ t = \frac{\tan\left(\frac{\pi}{4} - \frac{\phi}{2}\right)} {\left[\frac{1-e\sin(\phi)} {1+e\sin(\phi)}\right]^{e/2}} \]
where \(e\) is the eccentricity for the body.
phi | phi |
sinphi | sin of phi |
References Isis::TProjection::Eccentricity(), and Isis::HALFPI.
Referenced by Isis::LambertConformal::LambertConformal(), Isis::PolarStereographic::PolarStereographic(), Isis::LambertConformal::SetGround(), Isis::Mercator::SetGround(), and Isis::PolarStereographic::SetGround().
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staticinherited |
This method converts a longitude into the -180 to 180 domain.
It will leave the longitude unchanged if it is already in the domain.
lon | Longitude to convert into the -180 to 180 domain. |
IException::Unknown | - "The given longitude is invalid." |
References _FILEINFO_, Isis::Angle::Degrees, Isis::Angle::degrees(), Isis::Longitude::force180Domain(), Isis::Null, Isis::toString(), and Isis::IException::Unknown.
Referenced by Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::TProjection::SetUniversalGround(), Isis::TProjection::ToPositiveEast(), Isis::TProjection::ToPositiveWest(), and Isis::ProcessImportPds::TranslatePdsProjection().
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staticinherited |
This method converts a longitude into the 0 to 360 domain.
It will leave the longitude unchanged if it is already in the domain.
lon | Longitude to convert into the 0 to 360 domain. |
References _FILEINFO_, Isis::Angle::Degrees, Isis::Angle::degrees(), Isis::Longitude::force360Domain(), Isis::Null, Isis::toString(), and Isis::IException::Unknown.
Referenced by Isis::TProjection::inLongitudeRange(), Isis::Stereo::rectangular(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::TProjection::SetUniversalGround(), Isis::TProjection::ToPositiveEast(), Isis::TProjection::ToPositiveWest(), Isis::ProcessImportPds::TranslatePdsProjection(), Isis::TProjection::UniversalLongitude(), and Isis::Orthographic::XYRange().
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staticinherited |
Converts the given angle (in degrees) to degrees, minutes, seconds.
Outputs in the form xxx yym zz.zzzs, for example, 206.291 degrees is 206 17m 27.6s
angle | Angle in degrees to be converted to degrees, minutes, seconds |
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staticinherited |
Converts the given angle (in degrees) to hours, minutes, seconds.
Outputs in the form xxh yym zz.zzzs For example, 206.291 will be 13h 45m 09.84s
angle | Angle in degrees to be converted to hours, minutes, seconds |
References Isis::Projection::ToHours().
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staticinherited |
Converts the given angle (in degrees) to hours by using the ratio 15 degrees per hour.
angle | Angle in degrees to be converted to hours |
Referenced by Isis::Projection::ToHMS().
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inherited |
This method converts a planetographic latitude to a planetocentric latitude.
It utilizes the equatorial and polar radii found in the labels to perform the computation.
lat | Planetographic latitude to convert. |
References Isis::TProjection::m_equatorialRadius, Isis::TProjection::m_polarRadius, and Isis::TProjection::ToPlanetocentric().
Referenced by Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::TProjection::ToPlanetocentric(), and Isis::TProjection::UniversalLatitude().
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staticinherited |
This method converts a planetographic latitude to a planetocentric latitude.
lat | Planetographic latitude to convert. |
eRadius | Equatorial radius. |
pRadius | Polar radius |
IException::Unknown | - "The given latitude is invalid." |
References _FILEINFO_, Isis::Null, Isis::PI, Isis::toString(), and Isis::IException::Unknown.
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inherited |
This method converts a planetocentric latitude to a planetographic latitude.
It utilizes the equatorial and polar radii found in the labels to perform the computation.
lat | Planetocentric latitude to convert. |
References Isis::TProjection::m_equatorialRadius, Isis::TProjection::m_polarRadius, and Isis::TProjection::ToPlanetographic().
Referenced by Isis::LambertConformal::LambertConformal(), Isis::Mercator::Mercator(), Isis::ObliqueCylindrical::ObliqueCylindrical(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::TransverseMercator::SetGround(), Isis::TProjection::SetUnboundUniversalGround(), Isis::TProjection::SetUniversalGround(), Isis::TProjection::ToPlanetographic(), and Isis::TransverseMercator::TransverseMercator().
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staticinherited |
This method converts a planetocentric latitude to a planetographic latitude.
It is static so that a projection object does not need to exist.
lat | Planetocentric latitude to convert. |
eRadius | Equatorial radius. |
pRadius | Polar radius |
IException::Unknown | - "The given latitude is invalid." |
References _FILEINFO_, Isis::Null, Isis::PI, Isis::toString(), and Isis::IException::Unknown.
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staticinherited |
This method converts a longitude into the positive east direction.
lon | Longitude to convert into the positive east direction. |
domain | Must be an integer value of 180 (for -180 to 180) or 360 (for 0 to 360). |
IException::Unknown | - "The given longitude is invalid." |
IException::Unknown | - "Unable to convert longitude. Domain is not 180 or 360." |
References _FILEINFO_, Isis::Null, Isis::TProjection::To180Domain(), Isis::TProjection::To360Domain(), Isis::toString(), and Isis::IException::Unknown.
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staticinherited |
This method converts a longitude into the positive west direction.
lon | Longitude to convert into the positive west direction. |
domain | Must be an integer value of 180 (for -180 to 180) or 360 (for 0 to 360). |
IException::Unknown | - "The given longitude is invalid." |
IException::Unknown | - "Unable to convert longitude. Domain is not 180 or 360." |
References _FILEINFO_, Isis::Null, Isis::TProjection::To180Domain(), Isis::TProjection::To360Domain(), Isis::toString(), and Isis::IException::Unknown.
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inherited |
This method converts a world x value to a projection x value.
For example, if the world coordinate system is an image then this method converts a sample position to a projection x value. Note that if SetWorldMapper is not used then this routine simply returns the value of the argument. That is, no mapping occurs.
worldX | World x coordinate |
IException::Unknown | - "The given x-value is invalid." |
References _FILEINFO_, Isis::Projection::m_mapper, Isis::Null, Isis::WorldMapper::ProjectionX(), and Isis::IException::Unknown.
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inherited |
This method converts a world y value to a projection y value.
For example, if the world coordinate system is an image then this method converts a line position to a projection y value. Note that if SetWorldMapper is not used then this routine simply returns the value of the argument. That is, no mapping occurs.
worldY | World y coordinate |
IException::Unknown | - "The given y-value is invalid." |
References _FILEINFO_, Isis::Projection::m_mapper, Isis::Null, Isis::WorldMapper::ProjectionY(), and Isis::IException::Unknown.
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inherited |
This method converts a projection x value to a world x value.
For example, if the world coordinate system is an image then this method converts a projection x to a sample position. Note that if SetWorldMapper is not used then this routine simply returns the value of the argument. That is, no mapping occurs.
projectionX | Projection x value in meters |
IException::Unknown | - "The given x-value is invalid." |
References _FILEINFO_, Isis::Projection::m_mapper, Isis::Null, Isis::IException::Unknown, and Isis::WorldMapper::WorldX().
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inherited |
This method converts a projection y value to a world y value.
For example, if the world coordinate system is an image then this method converts a projection y to a line position. Note that if SetWorldMapper is not used then this routine simply returns the value of the argument. That is, no mapping occurs.
projectionY | Projection y value in meters |
IException::Unknown | - "The given y-value is invalid." |
References _FILEINFO_, Isis::Projection::m_mapper, Isis::Null, Isis::IException::Unknown, and Isis::WorldMapper::WorldY().
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virtualinherited |
This method returns the latitude of true scale.
It is a virtual function and if it is not overriden the default latitude of true scale is 0 (at the equator). Otherwise it is projection specific. For example, the center latitude for Mercator, Equidistant, or a parallel for conic projections. This method is used by the Scale routine to ensure the local radius is used in the computation.
Reimplemented in Isis::Equirectangular, Isis::LambertAzimuthalEqualArea, Isis::LambertConformal, Isis::Mercator, Isis::Orthographic, Isis::PointPerspective, and Isis::PolarStereographic.
Referenced by Isis::TProjection::Scale().
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virtualinherited |
This returns a universal latitude (planetocentric).
The method can only be used if SetGround, SetCoordinate, SetUniversalGround, or SetWorld return with success. Success can also be checked using the IsGood method.
References Isis::TProjection::m_latitude, Isis::TProjection::m_latitudeType, Isis::TProjection::Planetographic, and Isis::TProjection::ToPlanetocentric().
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virtualinherited |
This returns a universal longitude (positive east in 0 to 360 domain).
The method can only be used if SetGround, SetCoordinate, SetUniversalGround, or SetWorld return with success. Success can also be checked using the IsGood method.
References Isis::TProjection::m_longitude, Isis::TProjection::m_longitudeDirection, Isis::TProjection::PositiveWest, and Isis::TProjection::To360Domain().
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virtual |
Returns the version of the map projection.
Implements Isis::TProjection.
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virtualinherited |
This returns the world X coordinate provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success.
Success can also be checked using the IsGood method. The units of X will be in the units as specified by the WorldMapper object which was given to the SetWorldMapper method. If a mapper object was not given then world coordinates are the same as the projection coordinates (i.e., WorldX and XCoord will return the same value).
References Isis::Projection::m_mapper, and Isis::WorldMapper::WorldX().
Referenced by Isis::DemShape::localRadius(), Isis::UniversalGroundMap::Sample(), and Isis::Camera::SetRightAscensionDeclination().
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virtualinherited |
This returns the world Y coordinate provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success.
Success can also be checked using the IsGood method. The units of Y will be in the units as specified by the WorldMapper object which was given to the SetWorldMapper. If a mapper object was not given then world coordinates are the same as the projection coordinates (i.e., WorldY and YCoord will return the same value).
References Isis::Projection::m_mapper, and Isis::WorldMapper::WorldY().
Referenced by Isis::UniversalGroundMap::Line(), Isis::DemShape::localRadius(), and Isis::Camera::SetRightAscensionDeclination().
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inherited |
This returns the projection X provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success.
Success can also be checked using the IsGood method. The units of X will be in the same . units as the radii obtained from the label.
Referenced by Isis::MosaicFindTool::getUserGroundPoint(), Isis::PolygonTools::LatLonToXY(), Isis::RingPlaneProjection::SetCoordinate(), Isis::TProjection::SetCoordinate(), Isis::MosaicAreaTool::userChangedBox(), Isis::LambertConformal::XYRange(), Isis::PointPerspective::XYRange(), Isis::TProjection::XYRangeCheck(), and Isis::RingPlaneProjection::XYRangeCheck().
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virtual |
This method is used to determine the x/y range which completely covers the area of interest specified by the lat/lon range.
The latitude/longitude range may be obtained from the labels. The purpose of this method is to return the x/y range so it can be used to compute how large a map may need to be. For example, how big a piece of paper is needed or how large of an image needs to be created. The method may fail as indicated by its return value.
minX | Minimum x projection coordinate which covers the latitude longitude range specified in the labels. |
maxX | Maximum x projection coordinate which covers the latitude longitude range specified in the labels. |
minY | Minimum y projection coordinate which covers the latitude longitude range specified in the labels. |
maxY | Maximum y projection coordinate which covers the latitude longitude range specified in the labels. |
Reimplemented from Isis::TProjection.
References Isis::TProjection::m_maximumLatitude, Isis::TProjection::m_maximumLongitude, Isis::Projection::m_maximumX, Isis::Projection::m_maximumY, Isis::TProjection::m_minimumLatitude, Isis::TProjection::m_minimumLongitude, Isis::Projection::m_minimumX, Isis::Projection::m_minimumY, and Isis::TProjection::XYRangeCheck().
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protectedvirtualinherited |
This convience function is established to assist in the development of the XYRange virtual method.
It allows the developer to test ground points (lat/lon) to see if they produce a minimum/maximum projection coordinate.
This method will first verify that the given latitude and longitude values are not Null. If so, the method will change the status of the object to good=false before returning (i.e IsGood() returns false).
If both of those test pass, it attempts to set the ground to the given latitude and longitude and, if successful, compares the new x and y with the saved min/max x and y values.
For example in Sinusoidal this method is called in the following way:
Note: It is a good habit to call the inLatitudeRange and inLongitudeRange functions to verify that the values are in range before passing it to XYRangeCheck.
latitude | Test for min/max projection coordinates at this latitude |
longitude | Test for min/max projection coordinates at this longitude |
Implements Isis::Projection.
References Isis::Projection::IsGood(), Isis::Projection::m_good, Isis::Projection::m_maximumX, Isis::Projection::m_maximumY, Isis::Projection::m_minimumX, Isis::Projection::m_minimumY, Isis::Null, Isis::TProjection::SetGround(), Isis::Projection::XCoord(), and Isis::Projection::YCoord().
Referenced by Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::PolarStereographic::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), and Isis::TransverseMercator::XYRange().
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protectedinherited |
This method is used to find the XY range for oblique aspect projections (non-polar projections) by "walking" around each of the min/max lat/lon.
minX | Minimum x projection coordinate which covers the latitude longitude range specified in the labels. |
maxX | Maximum x projection coordinate which covers the latitude longitude range specified in the labels. |
minY | Minimum y projection coordinate which covers the latitude longitude range specified in the labels. |
maxY | Maximum y projection coordinate which covers the latitude longitude range specified in the labels. |
References Isis::Projection::HasGroundRange(), Isis::Projection::m_maximumX, Isis::Projection::m_maximumY, Isis::Projection::m_minimumX, Isis::Projection::m_minimumY, Isis::TProjection::MaximumLatitude(), Isis::TProjection::MaximumLongitude(), Isis::TProjection::MinimumLatitude(), Isis::TProjection::MinimumLongitude(), and Isis::Null.
Referenced by Isis::ObliqueCylindrical::XYRange().
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inherited |
This returns the projection Y provided SetGround, SetCoordinate, SetUniversalGround, or SetWorld returned with success.
Success can also be checked using the IsGood method. The units of Y will be in the same units as the radii obtained from the label.
Referenced by Isis::MosaicFindTool::getUserGroundPoint(), Isis::PolygonTools::LatLonToXY(), Isis::RingPlaneProjection::SetCoordinate(), Isis::TProjection::SetCoordinate(), Isis::MosaicAreaTool::userChangedBox(), Isis::LambertConformal::XYRange(), Isis::PointPerspective::XYRange(), Isis::TProjection::XYRangeCheck(), and Isis::RingPlaneProjection::XYRangeCheck().
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The eccentricity of the target body.
Referenced by Isis::TProjection::Eccentricity(), Isis::TProjection::qCompute(), and Isis::TProjection::TProjection().
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Polar radius of the target.
This is a unitless value so that if the radii are in inches then the m_x and m_y will be in inches. This value is set on construction. It is either read directly from the mapping group of the given PVL label or it is found in NAIF kernels by using the Target value in the given label. When pulled from NAIF kernels, the equatorial radius is the first value of NAIF's radii array.
Referenced by Isis::TProjection::EquatorialRadius(), Isis::LambertConformal::LambertConformal(), Isis::TProjection::LocalRadius(), Isis::PointPerspective::PointPerspective(), Isis::TProjection::Scale(), Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::Robinson::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::ObliqueCylindrical::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::Robinson::SetGround(), SetGround(), Isis::Sinusoidal::SetGround(), Isis::TransverseMercator::SetGround(), Isis::TProjection::ToPlanetocentric(), Isis::TProjection::ToPlanetographic(), Isis::TProjection::TProjection(), Isis::TransverseMercator::TransverseMercator(), Isis::Orthographic::XYRange(), and Isis::PointPerspective::XYRange().
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Indicates if the contents of m_x, m_y, m_latitude, and m_longitude are valid.
Referenced by Isis::Projection::IsGood(), Isis::Projection::Projection(), Isis::Projection::SetComputedXY(), Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::Planar::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::RingCylindrical::SetCoordinate(), Isis::RingPlaneProjection::SetCoordinate(), Isis::Robinson::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), Isis::TProjection::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::Equirectangular::SetGround(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::ObliqueCylindrical::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::Robinson::SetGround(), SetGround(), Isis::Sinusoidal::SetGround(), Isis::TProjection::SetGround(), Isis::TransverseMercator::SetGround(), Isis::Planar::SetGround(), Isis::RingCylindrical::SetGround(), Isis::RingPlaneProjection::SetGround(), Isis::Projection::SetUnboundUniversalGround(), Isis::TProjection::SetUnboundUniversalGround(), Isis::Projection::SetUniversalGround(), Isis::TProjection::SetUniversalGround(), Isis::RingPlaneProjection::SetUniversalGround(), Isis::Projection::SetXY(), Isis::LambertConformal::XYRange(), Isis::TProjection::XYRangeCheck(), and Isis::RingPlaneProjection::XYRangeCheck().
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Indicates if the ground range (min/max lat/lons) were read from the labels.
Referenced by Isis::Projection::HasGroundRange(), Isis::RingPlaneProjection::RingPlaneProjection(), Isis::TProjection::TProjection(), Isis::RingPlaneProjection::XYRange(), and Isis::TProjection::XYRange().
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This contains the currently set latitude value.
The value is only usable if m_good is true.
Referenced by Isis::TProjection::Latitude(), Isis::TProjection::LocalRadius(), Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::Robinson::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), Isis::TProjection::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::Equirectangular::SetGround(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::ObliqueCylindrical::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::Robinson::SetGround(), SetGround(), Isis::Sinusoidal::SetGround(), Isis::TProjection::SetGround(), Isis::TransverseMercator::SetGround(), Isis::TProjection::SetUnboundUniversalGround(), Isis::TProjection::SetUniversalGround(), Isis::TProjection::TProjection(), Isis::TProjection::UniversalLatitude(), Isis::LambertConformal::XYRange(), and Isis::Orthographic::XYRange().
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An enumerated type indicating the LatitudeType read from the labels.
It can be either Planetographic or Planetocentric.
Referenced by Isis::TProjection::IsPlanetocentric(), Isis::TProjection::IsPlanetographic(), Isis::TProjection::LatitudeTypeString(), Isis::TProjection::SetUnboundUniversalGround(), Isis::TProjection::SetUniversalGround(), Isis::TProjection::TProjection(), and Isis::TProjection::UniversalLatitude().
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This contains the currently set longitude value.
The value is only usable if m_good is true.
Referenced by Isis::TProjection::Longitude(), Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::LunarAzimuthalEqualArea::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::Robinson::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), Isis::TProjection::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::Equirectangular::SetGround(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::ObliqueCylindrical::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::Robinson::SetGround(), SetGround(), Isis::Sinusoidal::SetGround(), Isis::TProjection::SetGround(), Isis::TransverseMercator::SetGround(), Isis::TProjection::SetUnboundUniversalGround(), Isis::TProjection::SetUniversalGround(), Isis::TProjection::TProjection(), Isis::TProjection::UniversalLongitude(), Isis::LambertConformal::XYRange(), and Isis::Orthographic::XYRange().
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An enumerated type indicating the LongitudeDirection read from the labels.
It can be either PositiveEast or PositiveWest. Indicating which direction the positive axis for longitude is.
Referenced by Isis::Equirectangular::Equirectangular(), Isis::TProjection::IsPositiveEast(), Isis::TProjection::IsPositiveWest(), Isis::LambertConformal::LambertConformal(), Isis::TProjection::LongitudeDirectionString(), Isis::Mercator::Mercator(), Isis::Mollweide::Mollweide(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::Robinson::Robinson(), Isis::Equirectangular::SetCoordinate(), Isis::LambertConformal::SetCoordinate(), Isis::Mercator::SetCoordinate(), Isis::ObliqueCylindrical::SetCoordinate(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::Robinson::SetCoordinate(), SetCoordinate(), Isis::Sinusoidal::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::Equirectangular::SetGround(), Isis::LambertConformal::SetGround(), Isis::LunarAzimuthalEqualArea::SetGround(), Isis::Mercator::SetGround(), Isis::ObliqueCylindrical::SetGround(), Isis::Orthographic::SetGround(), Isis::PointPerspective::SetGround(), Isis::PolarStereographic::SetGround(), Isis::Robinson::SetGround(), SetGround(), Isis::Sinusoidal::SetGround(), Isis::TransverseMercator::SetGround(), Isis::TProjection::SetUnboundUniversalGround(), Isis::TProjection::SetUniversalGround(), SimpleCylindrical(), Isis::Sinusoidal::Sinusoidal(), Isis::TProjection::TProjection(), Isis::TransverseMercator::TransverseMercator(), Isis::TProjection::UniversalLongitude(), Isis::LambertConformal::XYRange(), and Isis::PolarStereographic::XYRange().
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This integer is either 180 or 360 and is read from the labels.
It represents the longitude domain when returning values through Longitude method. The domain is either -180 to 180 or 0 to 360.
Referenced by Isis::TProjection::Has180Domain(), Isis::TProjection::Has360Domain(), Isis::TProjection::LongitudeDomainString(), Isis::Orthographic::SetCoordinate(), Isis::PointPerspective::SetCoordinate(), Isis::PolarStereographic::SetCoordinate(), Isis::TransverseMercator::SetCoordinate(), Isis::TProjection::SetUniversalGround(), and Isis::TProjection::TProjection().
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This points to a mapper passed into the SetWorldMapper method.
This mapper allows the programmer to specify a different world coordinate system. Thus the programmer could pass in line/sample positions in order to obtain a latitude/longitude or set a lat/lon and get a line/sample.
Referenced by Isis::Projection::Projection(), Isis::Projection::Resolution(), Isis::RingPlaneProjection::Scale(), Isis::TProjection::Scale(), Isis::Projection::SetWorld(), Isis::Projection::SetWorldMapper(), Isis::Projection::ToProjectionX(), Isis::Projection::ToProjectionY(), Isis::Projection::ToWorldX(), Isis::Projection::ToWorldY(), Isis::Projection::WorldX(), Isis::Projection::WorldY(), and Isis::Projection::~Projection().
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Mapping group that created this projection.
Referenced by Isis::Equirectangular::Mapping(), Isis::LambertConformal::Mapping(), Isis::LunarAzimuthalEqualArea::Mapping(), Isis::Mercator::Mapping(), Isis::ObliqueCylindrical::Mapping(), Isis::Orthographic::Mapping(), Isis::PointPerspective::Mapping(), Isis::PolarStereographic::Mapping(), Isis::RingPlaneProjection::Mapping(), Isis::Robinson::Mapping(), Mapping(), Isis::Sinusoidal::Mapping(), Isis::TProjection::Mapping(), Isis::TransverseMercator::Mapping(), Isis::Equirectangular::MappingLatitudes(), Isis::LambertConformal::MappingLatitudes(), Isis::Mercator::MappingLatitudes(), Isis::Orthographic::MappingLatitudes(), Isis::PointPerspective::MappingLatitudes(), Isis::PolarStereographic::MappingLatitudes(), Isis::TProjection::MappingLatitudes(), Isis::TransverseMercator::MappingLatitudes(), Isis::Equirectangular::MappingLongitudes(), Isis::LambertConformal::MappingLongitudes(), Isis::Mercator::MappingLongitudes(), Isis::Orthographic::MappingLongitudes(), Isis::PointPerspective::MappingLongitudes(), Isis::PolarStereographic::MappingLongitudes(), Isis::Robinson::MappingLongitudes(), MappingLongitudes(), Isis::Sinusoidal::MappingLongitudes(), Isis::TProjection::MappingLongitudes(), Isis::TransverseMercator::MappingLongitudes(), Isis::Planar::MappingRingLongitudes(), Isis::RingCylindrical::MappingRingLongitudes(), Isis::RingPlaneProjection::MappingRingLongitudes(), Isis::Planar::MappingRingRadii(), Isis::RingCylindrical::MappingRingRadii(), Isis::RingPlaneProjection::MappingRingRadii(), Isis::Projection::Projection(), Isis::RingPlaneProjection::RingPlaneProjection(), Isis::Projection::SetUpperLeftCorner(), and Isis::TProjection::TProjection().
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Contains the maximum latitude for the entire ground range.
Only usable if m_groundRangeGood is true.
Referenced by Isis::Equirectangular::Equirectangular(), Isis::LambertConformal::LambertConformal(), Isis::TProjection::MaximumLatitude(), Isis::Mercator::Mercator(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::TProjection::TProjection(), Isis::TransverseMercator::TransverseMercator(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::PolarStereographic::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TProjection::XYRange(), and Isis::TransverseMercator::XYRange().
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Contains the maximum longitude for the entire ground range.
Only usable if m_groundRangeGood is true.
Referenced by Isis::Equirectangular::Equirectangular(), Isis::LambertConformal::LambertConformal(), Isis::TProjection::MaximumLongitude(), Isis::Mercator::Mercator(), Isis::Mollweide::Mollweide(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::Robinson::Robinson(), SimpleCylindrical(), Isis::Sinusoidal::Sinusoidal(), Isis::TProjection::TProjection(), Isis::TransverseMercator::TransverseMercator(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::PolarStereographic::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TProjection::XYRange(), and Isis::TransverseMercator::XYRange().
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See minimumX description.
Referenced by Isis::Projection::Projection(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::Planar::XYRange(), Isis::PolarStereographic::XYRange(), Isis::RingCylindrical::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TransverseMercator::XYRange(), Isis::TProjection::XYRangeCheck(), Isis::RingPlaneProjection::XYRangeCheck(), and Isis::TProjection::xyRangeOblique().
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See minimumX description.
Referenced by Isis::Projection::Projection(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::Planar::XYRange(), Isis::PolarStereographic::XYRange(), Isis::RingCylindrical::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TransverseMercator::XYRange(), Isis::TProjection::XYRangeCheck(), Isis::RingPlaneProjection::XYRangeCheck(), and Isis::TProjection::xyRangeOblique().
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Contains the minimum latitude for the entire ground range.
Only usable if m_groundRangeGood is true.
Referenced by Isis::Equirectangular::Equirectangular(), Isis::LambertConformal::LambertConformal(), Isis::Mercator::Mercator(), Isis::TProjection::MinimumLatitude(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::TProjection::TProjection(), Isis::TransverseMercator::TransverseMercator(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::PolarStereographic::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TProjection::XYRange(), and Isis::TransverseMercator::XYRange().
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Contains the minimum longitude for the entire ground range.
Only usable if m_groundRangeGood is true.
Referenced by Isis::Equirectangular::Equirectangular(), Isis::LambertConformal::LambertConformal(), Isis::Mercator::Mercator(), Isis::TProjection::MinimumLongitude(), Isis::Mollweide::Mollweide(), Isis::Orthographic::Orthographic(), Isis::PointPerspective::PointPerspective(), Isis::PolarStereographic::PolarStereographic(), Isis::Robinson::Robinson(), SimpleCylindrical(), Isis::Sinusoidal::Sinusoidal(), Isis::TProjection::TProjection(), Isis::TransverseMercator::TransverseMercator(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::PolarStereographic::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TProjection::XYRange(), and Isis::TransverseMercator::XYRange().
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The data elements m_minimumX, m_minimumY, m_maximumX, and m_maximumY are convience data elements when you write the XYRange virtual function.
They are used in conjuction with the XYRangeCheck convience method. After utilizing XYRangeCheck to test boundary conditions in the XYRange method these values will contain the projection x/y coverage for the ground range specified by min/max lat/lon.
Referenced by Isis::Projection::Projection(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::Planar::XYRange(), Isis::PolarStereographic::XYRange(), Isis::RingCylindrical::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TransverseMercator::XYRange(), Isis::TProjection::XYRangeCheck(), Isis::RingPlaneProjection::XYRangeCheck(), and Isis::TProjection::xyRangeOblique().
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See minimumX description.
Referenced by Isis::Projection::Projection(), Isis::Equirectangular::XYRange(), Isis::LambertConformal::XYRange(), Isis::LunarAzimuthalEqualArea::XYRange(), Isis::Mercator::XYRange(), Isis::Orthographic::XYRange(), Isis::Planar::XYRange(), Isis::PolarStereographic::XYRange(), Isis::RingCylindrical::XYRange(), Isis::Robinson::XYRange(), XYRange(), Isis::Sinusoidal::XYRange(), Isis::TransverseMercator::XYRange(), Isis::TProjection::XYRangeCheck(), Isis::RingPlaneProjection::XYRangeCheck(), and Isis::TProjection::xyRangeOblique().
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protectedinherited |
Polar radius of the target.
This is a unitless value so that if the radii are in inches then the m_x and m_y will be in inches. Of course the units must be the same as the equatorial radius. This value is set on construction. It is either read directly from the mapping group of the given PVL label or it is found in NAIF kernels by using the Target value in the given label.When pulled from NAIF kernels, the equatorial radius is the third value of NAIF's radii array.
Referenced by Isis::TProjection::LocalRadius(), Isis::TProjection::PolarRadius(), Isis::TProjection::Scale(), Isis::TProjection::ToPlanetocentric(), Isis::TProjection::ToPlanetographic(), and Isis::TProjection::TProjection().
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Indicates whether projection is sky or land.
Referenced by Isis::Projection::IsSky(), and Isis::Projection::Projection().