0,0 → 1,5090 |
<?xml version="1.0"?> |
<doc> |
<assembly> |
<name>DotSpatial.Projections</name> |
</assembly> |
<members> |
<member name="T:DotSpatial.Projections.Robinson"> |
<summary> |
Robinson |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Transform"> |
<summary> |
TransverseMercator is a class allowing the transverse mercator transform as transcribed |
from the 4.6 version of the Proj4 library (pj_tmerc.c) |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ITransform"> |
<summary> |
ITransform |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ITransform.Init(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the parameters from the projection info |
</summary> |
<param name="proj">The projection information used to control this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.ITransform.Forward(System.Double[],System.Int32,System.Int32)"> |
<summary> |
Transforms all the coordinates by cycling through them in a loop, |
transforming each one. Only the 0 and 1 values of each coordinate will be |
transformed, higher dimensional values will be copied. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ITransform.Inverse(System.Double[],System.Int32,System.Int32)"> |
<summary> |
Transforms all the coordinates by cycling through them in a loop, |
transforming each one. Only the 0 and 1 values of each coordinate will be |
transformed, higher dimensional values will be copied. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ITransform.Special(System.Double[],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.Factors)"> |
<summary> |
Special factor calculations for a factors calculation |
</summary> |
<param name="lp"></param> |
<param name="p"></param> |
<param name="fac"></param> |
</member> |
<member name="P:DotSpatial.Projections.ITransform.Name"> |
<summary> |
Gets or sets the string name of this projection. This should uniquely define the projection, |
and controls what appears in the .prj files. This name is required. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ITransform.Proj4Name"> |
<summary> |
Gets or sets the string name of this projection as it is known to proj4, or should appear |
in a proj4 string. This name is required to read and write to proj4 strings. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ITransform.Proj4Aliases"> |
<summary> |
This is the list of alternate names to check besides the Proj4Name. This will not be used |
for writing Proj4 strings, but may be helpful for reading them. |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.HALF_PI"> |
<summary> |
Pi/2 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.FORT_PI"> |
<summary> |
Math.Pi / 4 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.TWO_PI"> |
<summary> |
2 * Math.Pi |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.EPS10"> |
<summary> |
1E-10 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.IS_ANAL_HK"> |
<summary> |
Analytic Hk |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.IS_ANAL_CONV"> |
<summary> |
Analytic Conv |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.IS_ANAL_XL_YL"> |
<summary> |
Analytic Xl Yl |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.IS_ANAL_XP_YP"> |
<summary> |
Analytic Xp Yp |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.RAD_TO_DEG"> |
<summary> |
Radians to Degrees |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.DEG_TO_RAD"> |
<summary> |
Degrees to Radians |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.LAMBDA"> |
<summary> |
The integer index representing lambda values in arrays representing geodetic coordinates |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.PHI"> |
<summary> |
The integer index representing phi values in arrays representing geodetic coordinates |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.X"> |
<summary> |
The integer index representing X values in arrays representing linear coordinates |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Y"> |
<summary> |
The integer index representing Y values in arrays representing linear coordinates |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.R"> |
<summary> |
The integer index representing real values in arrays representing complex numbers |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.I"> |
<summary> |
The integer index representing immaginary values in arrays representing complex numbers |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.A"> |
<summary> |
The major axis |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Ra"> |
<summary> |
1/a |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.OneEs"> |
<summary> |
1 - e^2; |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.ROneEs"> |
<summary> |
1/OneEs |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.E"> |
<summary> |
Eccentricity |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.IsElliptical"> |
<summary> |
True if the spheroid is flattened |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Es"> |
<summary> |
Eccentricity Squared |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Phi0"> |
<summary> |
Central Latitude |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Lam0"> |
<summary> |
Central Longitude |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.X0"> |
<summary> |
False Easting |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Y0"> |
<summary> |
False Northing |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.K0"> |
<summary> |
Scaling Factor |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.ToMeter"> |
<summary> |
Scaling to meter |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.FromMeter"> |
<summary> |
Scaling from meter |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.B"> |
<summary> |
The B parameter, which should be consisten with the semi-minor axis |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Transform.Init(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the parameters from the projection info |
</summary> |
<param name="proj">The projection information used to control this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.Transform.FromKnownTransform(DotSpatial.Projections.KnownTransform)"> |
<summary> |
Uses an enumeration to generate a new instance of a known transform class |
</summary> |
<param name="value">The member of the KnownTransforms to instantiate</param> |
<returns>A new ITransform interface representing the specific transform</returns> |
</member> |
<member name="M:DotSpatial.Projections.Transform.Forward(System.Double[],System.Int32,System.Int32)"> |
<summary> |
Transforms all the coordinates by cycling through them in a loop, |
transforming each one. Only the 0 and 1 values of each coordinate will be |
transformed, higher dimensional values will be copied. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Transform.Inverse(System.Double[],System.Int32,System.Int32)"> |
<summary> |
Transforms all the coordinates by cycling through them in a loop, |
transforming each one. Only the 0 and 1 values of each coordinate will be |
transformed, higher dimensional values will be copied. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Transform.Special(System.Double[],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.Factors)"> |
<summary> |
Special factor calculations for a factors calculation |
</summary> |
<param name="lp">lambda-phi</param> |
<param name="p">The projection</param> |
<param name="fac">The Factors</param> |
</member> |
<member name="M:DotSpatial.Projections.Transform.OnSpecial(System.Double[],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.Factors)"> |
<summary> |
Allows for some custom code during a process method |
</summary> |
<param name="lp">lambda-phi</param> |
<param name="p">The projection coordinate system information</param> |
<param name="fac">The Factors</param> |
</member> |
<member name="M:DotSpatial.Projections.Transform.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.Transform.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Transforms cartesian x, y to geodetic lambda, phi |
</summary> |
<param name="lp">in -> the lambda, phi coordinates</param> |
<param name="xy">out -> the cartesian x, y</param> |
<param name="startIndex">The zero based starting point index. If this is 1, for instance, reading will skip the x and y of the first point and start at the second point.</param> |
<param name="numPoints">The integer count of the pairs of xy values to consider.</param> |
</member> |
<member name="M:DotSpatial.Projections.Transform.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
The inverse transform from linear units to geodetic units |
</summary> |
<param name="xy">The double values for the input x and y values stored in an array</param> |
<param name="lp">The double values for the output lambda and phi values stored in an array</param> |
<param name="startIndex">The zero based starting point index. If this is 1, for instance, reading will skip the x and y of the first point and start at the second point.</param> |
<param name="numPoints">The integer count of the pairs of xy values to consider</param> |
</member> |
<member name="M:DotSpatial.Projections.Transform.Clone"> |
<summary> |
|
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Transform.OnCopy(DotSpatial.Projections.Transform)"> |
<summary> |
This allows for custom behavior to override the base behavior |
</summary> |
<param name="duplicate"></param> |
</member> |
<member name="P:DotSpatial.Projections.Transform.Name"> |
<summary> |
Gets or sets the string name of this projection as it appears in .prj files and |
ESRI wkt. This can also be several names separated by a semicolon. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Transform.Proj4Name"> |
<summary> |
Gets or sets the string name of this projection as it should appear in proj4 strings. |
This can also be several names deliminated by a semicolon. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Transform.Proj4Aliases"> |
<summary> |
Gets or sets a list of optional aliases that can be used in the place of the Proj4Name. |
This will only be used during reading, and will not be used during writing. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Transform.Modes"> |
<summary> |
For transforms that distinguish between polar, oblique and equitorial modes |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Modes.NorthPole"> |
<summary> |
North Pole |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Modes.SouthPole"> |
<summary> |
South Pole |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Modes.Equitorial"> |
<summary> |
Equitorial |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Transform.Modes.Oblique"> |
<summary> |
Oblique |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Robinson.#ctor"> |
<summary> |
Creates a new instance of Robinson |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Robinson.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Robinson.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.ObliqueStereographicAlternative"> |
<summary> |
ObliqueStereographicAlternative |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueStereographicAlternative.#ctor"> |
<summary> |
Creates a new instance of ObliqueStereographicAlternative |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueStereographicAlternative.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueStereographicAlternative.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueStereographicAlternative.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.McBrydeThomasFlatPolarSine"> |
<summary> |
McBrydeThomasFlatPolarSine is a tweaked version of Qaurtic Authalic |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.QuarticAuthalic"> |
<summary> |
QuarticAuthalic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.QuarticAuthalic.#ctor"> |
<summary> |
Creates a new instance of QuarticAuthalic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.QuarticAuthalic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.QuarticAuthalic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.QuarticAuthalic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.QuarticAuthalic.Setup(System.Double,System.Double,System.Boolean)"> |
<summary> |
Setup |
</summary> |
<param name="p"></param> |
<param name="q"></param> |
<param name="mode"></param> |
</member> |
<member name="M:DotSpatial.Projections.McBrydeThomasFlatPolarSine.#ctor"> |
<summary> |
Creates a new instance of McBrydeThomasFlatPolarSine |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.McBrydeThomasFlatPolarSine.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Loximuthal"> |
<summary> |
Loximuthal |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Loximuthal.#ctor"> |
<summary> |
Creates a new instance of Loximuthal |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Loximuthal.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Loximuthal.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Loximuthal.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Krovak"> |
<summary> |
Krovak |
NOTES: According to EPSG the full Krovak projection method should have |
the following parameters. Within PROJ.4 the azimuth, and pseudo |
standard parallel are hardcoded in the algorithm and can't be |
altered from outside. The others all have defaults to match the |
common usage with Krovak projection. |
|
lat_0 = latitude of centre of the projection |
|
lon_0 = longitude of centre of the projection |
|
** = azimuth (true) of the centre line passing through the centre of the projection |
|
** = latitude of pseudo standard parallel |
|
k = scale factor on the pseudo standard parallel |
|
x_0 = False Easting of the centre of the projection at the apex of the cone |
|
y_0 = False Northing of the centre of the projection at the apex of the cone |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Krovak.#ctor"> |
<summary> |
Creates a new instance of Krovak |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Krovak.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Krovak.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Krovak.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Eckert2"> |
<summary> |
Eckert2 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert2.#ctor"> |
<summary> |
Creates a new instance of Eckert2 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert2.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Eckert2.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.AlbersConicEqualArea"> |
<summary> |
AlbersConicEqualArea |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.AlbersEqualArea"> |
<summary> |
AlbersEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AlbersEqualArea.#ctor"> |
<summary> |
Creates a new instance of AlbersEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AlbersEqualArea.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.AlbersEqualArea.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.AlbersEqualArea.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.AlbersEqualArea.Setup"> |
<summary> |
Internal code handling the setup operations for the transform |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.AlbersEqualArea.Phi1"> |
<summary> |
Gets or sets the Phi1 parameter |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.AlbersEqualArea.Phi2"> |
<summary> |
Gets or sets the Phi2 parameter |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AlbersConicEqualArea.#ctor"> |
<summary> |
Creates a new instance of AlbersConicEqualArea |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Minnesota"> |
<summary> |
Not sure why we have all these county based Minnesota and Wisconsin projections |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.CoordinateSystemCategory"> |
<summary> |
CoordinateSystem |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.CoordinateSystemCategory.#ctor"> |
<summary> |
Creates a new instance of CoordinateSystem |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.CoordinateSystemCategory.GetProjection(System.String)"> |
<summary> |
Retrieves the specified projection given the specified name. |
</summary> |
<param name="name">The string name of the projection to obtain information for</param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.CoordinateSystemCategory.ToArray"> |
<summary> |
Obtains all the members of this category, building a single |
array of the projection info classes. This returns the |
original classes, not a copy. |
</summary> |
<returns>The array of projection info classes</returns> |
</member> |
<member name="P:DotSpatial.Projections.CoordinateSystemCategory.Names"> |
<summary> |
Gets the list of names of all the members on this object |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Minnesota.#ctor"> |
<summary> |
Creates a new instance of Minnesota |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Africa"> |
<summary> |
Africa |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Africa.#ctor"> |
<summary> |
Creates a new instance of Africa |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.Europe"> |
<summary> |
Europe |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.Europe.#ctor"> |
<summary> |
Creates a new instance of Europe |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjPropertyInfoEm"> |
<summary> |
PropertyInfoEM |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjPropertyInfoEm.GetFirst(System.Collections.Generic.IEnumerable{System.Reflection.PropertyInfo},System.String)"> |
<summary> |
Gets the first member in the enumerable collection of property info with the specified name. |
</summary> |
<param name="self"></param> |
<param name="name"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjPropertyInfoEm.Contains(System.Collections.Generic.IEnumerable{System.Reflection.PropertyInfo},System.String)"> |
<summary> |
Determines whether there is a member with the specified name |
</summary> |
<param name="self"></param> |
<param name="name"></param> |
<returns></returns> |
</member> |
<member name="T:DotSpatial.Projections.Wagner6"> |
<summary> |
Wagner6 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Wagner6.#ctor"> |
<summary> |
Creates a new instance of Wagner6 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Wagner6.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Wagner6.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Polyconic"> |
<summary> |
Polygconic |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.EllipticalTransform"> |
<summary> |
Elliptical Transform supports a built in framework for assuming a |
separate function occurs if the spheroid is elliptical |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.EllipticalTransform.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.EllipticalTransform.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Calculates the forward transformation from geodetic lambda and phi coordinates to |
linear xy coordinates for projections that have elliptical earth models. |
</summary> |
<param name="lp">The input interleaved lambda-phi coordinates where lambda is longitude in radians and phi is latitude in radians.</param> |
<param name="xy">The resulting interleaved x-y coordinates</param> |
<param name="startIndex">The zero based integer start index in terms of coordinate pairs</param> |
<param name="numPoints">The integer number of xy pairs to evaluate.</param> |
</member> |
<member name="M:DotSpatial.Projections.EllipticalTransform.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Calculates the forward transformation from geodetic lambda and phi coordinates to |
linear xy coordinates for projections that have spherical earth models. |
</summary> |
<param name="lp">The input interleaved lambda-phi coordinates where lambda is longitude in radians and phi is latitude in radians.</param> |
<param name="xy">The resulting interleaved x-y coordinates</param> |
<param name="startIndex">The zero based integer start index in terms of coordinate pairs</param> |
<param name="numPoints">The integer number of xy pairs to evaluate.</param> |
</member> |
<member name="M:DotSpatial.Projections.EllipticalTransform.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.EllipticalTransform.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Calculates the inverse transformation from linear xy coordinates to geodetic lambda and phi coordinates |
for projections that have elliptical earth models. |
</summary> |
<param name="xy">The input interleaved x-y coordinates</param> |
<param name="lp">The output interleaved lambda-phi coordinates where lambda is longitude in radians and phi is latitude in radians.</param> |
<param name="startIndex">The zero based integer start index in terms of coordinate pairs</param> |
<param name="numPoints">The integer number of xy pairs to evaluate.</param> |
</member> |
<member name="M:DotSpatial.Projections.EllipticalTransform.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Calculates the inverse transformation from linear xy coordinates to geodetic lambda and phi coordinates |
for projections that have spherical earth models. |
</summary> |
<param name="xy">The input interleaved x-y coordinates</param> |
<param name="lp">The output interleaved lambda-phi coordinates where lambda is longitude in radians and phi is latitude in radians.</param> |
<param name="startIndex">The zero based integer start index in terms of coordinate pairs</param> |
<param name="numPoints">The integer number of xy pairs to evaluate.</param> |
</member> |
<member name="M:DotSpatial.Projections.Polyconic.#ctor"> |
<summary> |
Creates a new instance of Polygconic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Polyconic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.Polyconic.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Polyconic.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Polyconic.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Polyconic.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.ObliqueMercator"> |
<summary> |
OrthogonalMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueMercator.#ctor"> |
<summary> |
Creates a new instance of OrthogonalMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueMercator.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueMercator.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueMercator.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.GoodeHomolosine"> |
<summary> |
GoodeHomolosine |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GoodeHomolosine.#ctor"> |
<summary> |
Creates a new instance of GoodeHomolosine |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GoodeHomolosine.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GoodeHomolosine.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GoodeHomolosine.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.EquidistantCylindrical"> |
<summary> |
EquidistantCylindrical |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantCylindrical.#ctor"> |
<summary> |
Creates a new instance of EquidistantCylindrical |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantCylindrical.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantCylindrical.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantCylindrical.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Eckert1"> |
<summary> |
Eckert1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert1.#ctor"> |
<summary> |
Creates a new instance of Eckert1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert1.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Eckert1.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.BipolarObliqueConformalConic"> |
<summary> |
BipolarObliqueConformalConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.BipolarObliqueConformalConic.#ctor"> |
<summary> |
Creates a new instance of BipolarObliqueConformalConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.BipolarObliqueConformalConic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.BipolarObliqueConformalConic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.BipolarObliqueConformalConic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.AzimuthalEquidistant"> |
<summary> |
AzimuthalEquidistant |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AzimuthalEquidistant.#ctor"> |
<summary> |
Creates a new instance of AzimuthalEquidistant |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AzimuthalEquidistant.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.AzimuthalEquidistant.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.AzimuthalEquidistant.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.AzimuthalEquidistant.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.AzimuthalEquidistant.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Aitoff"> |
<summary> |
Aitoff |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Aitoff.#ctor"> |
<summary> |
Creates a new instance of Aitoff |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Aitoff.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.ProjectionInfo"> |
<summary> |
Parameters |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjDescriptor"> |
<summary> |
Descriptors are simple classes that are used for storing symbology or other basic characteristics. |
They are presumed to be made up of value types and other descriptors, and are expected to be serializable. |
This being said, some basic capabilities are supported for randomizing, copying and comparing the |
properties of descriptors. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjCopyBase"> |
<summary> |
CopyBase |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjCopyBase.#ctor"> |
<summary> |
Creates a new instance of CopyBase |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjCopyBase.System#ICloneable#Clone"> |
<summary> |
Creates a duplicate of this descriptor using MemberwiseClone |
</summary> |
<returns>A clone of this object as a duplicate</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjCopyBase.DistinctNames(System.Collections.Generic.IEnumerable{System.Reflection.PropertyInfo})"> |
<summary> |
PropertyInfo returns overridden members as separate entries. We would rather work with each members |
only one time. |
</summary> |
<param name="allProperties">All the properties, including duplicates created by overridden members</param> |
<returns>An Array of PropertyInfo members</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjCopyBase.OnCopy(DotSpatial.Projections.ProjDescriptor)"> |
<summary> |
This occurs during the Copy method and is overridable by sub-classes |
</summary> |
<param name="copy">The duplicate descriptor</param> |
</member> |
<member name="T:DotSpatial.Projections.IProjDescriptor"> |
<summary> |
IDescriptor |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.IProjMatchable"> |
<summary> |
Matching is defined as being a different object, but having properties |
that would make it indistinguishable from the comparision property. |
This is an alternative to overriding the equals behavior in cases |
where you might ALSO need to see if the object reference is the same. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.IProjMatchable.Matches(DotSpatial.Projections.IProjMatchable,System.Collections.Generic.List{System.String}@)"> |
<summary> |
Tests this object against the comparison object. If any of the |
value type members are different, or if any of the properties |
are IMatchable and do not match, then this returns false. |
</summary> |
<param name="other">The other IMatcheable object of the same type</param> |
<param name="mismatchedProperties">The list of property names that do not match</param> |
<returns>Boolean, true if the properties are comparably equal.</returns> |
</member> |
<member name="T:DotSpatial.Projections.IProjRandomizable"> |
<summary> |
IRandomizable |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.IProjRandomizable.Randomize(System.Random)"> |
<summary> |
This method will set the values for this class with random values that are |
within acceptable parameters for this class. |
</summary> |
<param name="generator">An existing random number generator so that the random seed can be controlled</param> |
</member> |
<member name="M:DotSpatial.Projections.IProjDescriptor.CopyProperties(System.Object)"> |
<summary> |
This copies the public descriptor properties from the specified object to |
this object. |
</summary> |
<param name="other">An object that has properties that match the public properties on this object.</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.#ctor"> |
<summary> |
Creates a new instance of MatchableObject |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.CopyProperties(System.Object)"> |
<summary> |
For each of the publicly accessible properties found on this object, this attempts |
to copy a public property from the source object of the same name, if it can find it. |
For each matching property name/type, it will attempt to copy the value. |
</summary> |
<param name="source">The</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.Matches(DotSpatial.Projections.IProjMatchable,System.Collections.Generic.List{System.String}@)"> |
<summary> |
Compares the properties of this object with the specified IMatchable other. |
This does not test every property of other, but does test every property |
of this item. As long as the other item has corresponding properties |
for every property on this item, the items are said to match. |
The IMatchable interface allows custom definitions of matching. |
For collections to match, all of their sub-members must match. |
</summary> |
<param name="other"></param> |
<param name="mismatchedProperties"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.Randomize(System.Random)"> |
<summary> |
The default behavior is to cycle through all the properties of this |
object, and call Randomize on any that implement the IRandomizable interface. |
</summary> |
<param name="generator">The Random seed generator for controling how the random content is created</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.OnCopyProperties(System.Object)"> |
<summary> |
This occurs while copying properties from the specified source, and |
is the default handling for subclasses |
</summary> |
<param name="source"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.OnMatch(DotSpatial.Projections.IProjMatchable,System.Collections.Generic.List{System.String})"> |
<summary> |
This gives sub-classes the chance to directly override, control or otherwise tamper |
with the matching process. This is also where normal matching is performed, |
so to replace it, simply don't call the base.OnMatch method. To tweak the results, |
the base method should be performed first, and the results can then be modified. |
</summary> |
<param name="other"></param> |
<param name="mismatchedProperties"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjDescriptor.OnRandomize(System.Random)"> |
<summary> |
This allows overrideable behavior that can replace or extend the basic behavior, |
which is to call Randomize on any public properties that are listed as randomizeable. |
This does nothing to normal properties or non public members and needs to be overriden |
to provide the special case functionality for sub-classes. |
</summary> |
<param name="generator">The random number generator to be used during randomization</param> |
</member> |
<member name="T:DotSpatial.Projections.IEsriString"> |
<summary> |
EsriString |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.IEsriString.ToEsriString"> |
<summary> |
Writes the value in the format that it would appear in within a prj file |
</summary> |
<returns>The a nested portion of the total esri string.</returns> |
</member> |
<member name="M:DotSpatial.Projections.IEsriString.ReadEsriString(System.String)"> |
<summary> |
This reads the string and attempts to parse the relavent values. |
</summary> |
<param name="esriString">The string to read</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.#ctor"> |
<summary> |
Creates a new instance of Parameters |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.#ctor(System.String)"> |
<summary> |
Creates a new projection and automaticalyl reads in the proj4 string |
</summary> |
<param name="proj4String">THe proj4String to read in while defining the projection</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetUnitText(System.Double)"> |
<summary> |
If this is a geographic coordinate system, this will show decimal degrees. Otherwise, |
this will show the linear unit units. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.Equals(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Gets a boolean that is true if the proj4 string created by the projections matches. |
There are multiple ways to write the same projection, but the output proj4 string |
should be a good indicator of whether or not they are the same. |
</summary> |
<param name="other">The other projection to compare with.</param> |
<returns>Boolean, true if the projections are the same.</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.Open(System.String)"> |
<summary> |
Open a given prj filename |
</summary> |
<param name="prjFilename"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.SaveAs(System.String)"> |
<summary> |
Exports this projection info by saving it to a *.prj file. |
</summary> |
<param name="prjFilename">The prj file to save to</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetLam0"> |
<summary> |
Gets the lambda 0, or central meridian, in radial coordinates |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetPhi0"> |
<summary> |
Gets the phi 0 or latitude of origin in radial coordinates |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetPhi1"> |
<summary> |
Gets the lat_1 parameter multiplied by radians |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetPhi2"> |
<summary> |
Gets the lat_2 parameter multiplied by radians |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetLam1"> |
<summary> |
Gets the lon_1 parameter in radians |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.GetLam2"> |
<summary> |
Gets the lon_2 parameter in radians |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ParamD(System.String)"> |
<summary> |
Obtains the double valued parameter if it is found and can be parsed to a double. |
</summary> |
<param name="parameterName">The name of the parameter to return as a double value.</param> |
<returns>The double valued parameter of the specified name, or zero.</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ParamR(System.String)"> |
<summary> |
Obtains the double valued parameter after converting from degrees to radians. |
</summary> |
<param name="parameterName">The name of the parameter to read</param> |
<returns>The double valued parameter in radians.</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ParamI(System.String)"> |
<summary> |
Obtains the integer valued parameter if it is found and can be parsed to an integer |
</summary> |
<param name="parameterName">The string name of the parameter to find</param> |
<returns>An integer value representing the parameter if it was found.</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.SetLam0(System.Double)"> |
<summary> |
Sets the lambda 0, or central meridian in radial coordinates |
</summary> |
<param name="value">The value of Lambda 0 in radians</param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.SetPhi0(System.Double)"> |
<summary> |
Sets the phi 0 or latitude of origin in radial coordinates |
</summary> |
<param name="value"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ToEsriString"> |
<summary> |
Expresses the entire projection as the ESRI well known text format that can be found in .prj files |
</summary> |
<returns>The generated string</returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ToProj4String"> |
<summary> |
Attempts to generate a new proj4 string based on the current projection parameters, |
regardless of whether they were read from a proj4 file or from an esri projection file. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ReadProj4String(System.String)"> |
<summary> |
Attempts to parse known parameters from the set of proj4 parameters |
</summary> |
<param name="proj4String"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ReadEPSGCode(System.Int32)"> |
<summary> |
Using the specified code, this will attempt to look up the related reference information |
from the appropriate pcs code. |
</summary> |
<param name="code"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionInfo.ReadEsriString(System.String)"> |
<summary> |
Parses the entire projection from an esri string. In some cases, this will have |
default projection information since only geographic information is obtained. |
</summary> |
<param name="esriString">The ESRI string to parse</param> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.AuxiliarySphereType"> |
<summary> |
Gets or sets the auxiliary sphere type. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.EpsgCode"> |
<summary> |
Gets or sets the Reference Code |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Authority"> |
<summary> |
Gets or sets the athority, for example EPSG |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Name"> |
<summary> |
Gets or sets the name of this projection information |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.GeographicInfo"> |
<summary> |
The geographic information |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.FalseEasting"> |
<summary> |
The false easting for this coordinate system |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.FalseNorthing"> |
<summary> |
The false northing for this coordinate system |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.CentralMeridian"> |
<summary> |
The horizontal 0 point in geographic terms |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.ScaleFactor"> |
<summary> |
The scale factor for this coordinate system |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.LatitudeOfOrigin"> |
<summary> |
The zero point in geographic terms |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.StandardParallel1"> |
<summary> |
The line of latitude where the scale information is preserved. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.StandardParallel2"> |
<summary> |
|
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Unit"> |
<summary> |
The unit being used for measurements. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.IsSouth"> |
<summary> |
Gets or sets a boolean indicating whether this projection applies to the |
southern coordinate system or not. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Zone"> |
<summary> |
Gets or sets the integer zone parameter if it is specified. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.IsGeocentric"> |
<summary> |
Gets or sets a boolean that indicates whether or not this |
projection is geocentric. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.IsLatLon"> |
<summary> |
True if this coordinate system is expressed only using geographic coordinates |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Transform"> |
<summary> |
Gets or sets the transform that converts between geodetic coordinates and projected coordinates. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Geoc"> |
<summary> |
Gets or sets a boolean indicating a geocentric latitude parameter |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Over"> |
<summary> |
Gets or sets a boolean for the over-ranging flag |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.Parameters"> |
<summary> |
Gets or sets the parameters, including special parameters, stored by |
the string names. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionInfo.NoDefs"> |
<summary> |
A boolean that indicates whether the proj4 parameter "nodefs" appears. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsJapan"> |
<summary> |
NationalGridsJapan |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsJapan.#ctor"> |
<summary> |
Creates a new instance of NationalGridsJapan |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Meridian"> |
<summary> |
Meridian |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.#ctor"> |
<summary> |
Creates a new instance of Meridian |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.#ctor(System.Double,System.String)"> |
<summary> |
Generates a custom meridian given a name and a longitude |
</summary> |
<param name="longitude">The longitude to use</param> |
<param name="name">The string name for this meridian</param> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.#ctor(DotSpatial.Projections.Proj4Meridian)"> |
<summary> |
Creates a new meridian from one of the known, proj4 meridian locations. |
Presumably the longitudes here correspond to various standard meridians |
rather than some arbitrary longitudes of capital cities. |
</summary> |
<param name="standardMeridian">One of the enumerations listed</param> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.#ctor(System.String)"> |
<summary> |
Creates a new meridian from one of the known, proj4 meridian locations. |
</summary> |
<param name="standardMeridianName">The string name of the meridian to use</param> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.ReadCode(System.Int32)"> |
<summary> |
Reads the integer code (possibly only an internal GDAL code) for the Meridian. |
The value can be from 8901 (Greenwich) to 8913 (Oslo). This will also alter |
the name and longitude for this meridian. |
</summary> |
<param name="code">The integer meridian code.</param> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.AssignMeridian(DotSpatial.Projections.Proj4Meridian)"> |
<summary> |
Changes the longitude to correspond with the specified standard meridian |
</summary> |
<param name="standardMeridian"></param> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.ReadProj4Parameters(System.Collections.Generic.Dictionary{System.String,System.String})"> |
<summary> |
Attempts to parse the parameters in order to read the meridian |
</summary> |
<param name="parameters"></param> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.ToEsriString"> |
<summary> |
Writes the longitude and prime meridian content to the esri string |
</summary> |
<returns>A string that is formatted for an esri prj file</returns> |
</member> |
<member name="M:DotSpatial.Projections.Meridian.ReadEsriString(System.String)"> |
<summary> |
Reads content from an esri string, learning information about the prime meridian |
</summary> |
<param name="esriString"></param> |
</member> |
<member name="P:DotSpatial.Projections.Meridian.Code"> |
<summary> |
Gets or sets the code. Setting this will not impact the longitude or name. |
In order to read a standard code (8901-8913) use the ReadCode method. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Meridian.Name"> |
<summary> |
Gets or sets the string name |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Meridian.Longitude"> |
<summary> |
Gets or sets the longitude where the prime meridian for this geographic coordinate occurs. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.Australia"> |
<summary> |
Australia |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.Australia.#ctor"> |
<summary> |
Creates a new instance of Australia |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeocentricGeodetic"> |
<summary> |
Wenzel, H.-G.(1985): Hochauflösende Kugelfunktionsmodelle für |
das Gravitationspotential der Erde. Wiss. Arb. Univ. Hannover |
Nr. 137, p. 130-131. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeocentricGeodetic.#ctor(DotSpatial.Projections.Spheroid)"> |
<summary> |
Creates a new instance of GeocentricGeodetic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeocentricGeodetic.GeodeticToGeocentric(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Converts lon, lat, height to x, y, z where lon and lat are in radians and everything else is meters |
</summary> |
<param name="xy"></param> |
<param name="z"></param> |
<param name="startIndex"></param> |
<param name="numPoints"></param> |
</member> |
<member name="M:DotSpatial.Projections.GeocentricGeodetic.GeocentricToGeodetic(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Converts x, y, z to lon, lat, height |
</summary> |
<param name="xy"></param> |
<param name="z"></param> |
<param name="startIndex"></param> |
<param name="numPoints"></param> |
</member> |
<member name="M:DotSpatial.Projections.GeocentricGeodetic.GeocentricToGeodetic(System.Double@,System.Double@,System.Double@)"> |
<summary> |
Converts geocentric x, y, z coords to geodetic lon, lat, h |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeocentricGeodetic.GeocentricToGeodeticOld(System.Double@,System.Double@,System.Double@)"> |
<summary> |
Converts geocentric x, y, z coords to geodetic lon, lat, h |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Wagner5"> |
<summary> |
Wagner5 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Mollweide"> |
<summary> |
Mollweide also acts as the base for Wag4 and Wag5 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Mollweide.#ctor"> |
<summary> |
Creates a new instance of Mollweide |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Mollweide.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Mollweide.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Mollweide.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.Mollweide.Setup(System.Double)"> |
<summary> |
Finalizes the setup based on the provided P paraemter |
</summary> |
<param name="p"></param> |
</member> |
<member name="P:DotSpatial.Projections.Mollweide.Cx"> |
<summary> |
Gets or sets the x coefficient |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Mollweide.Cy"> |
<summary> |
Gets or sets the y coefficient value |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Mollweide.Cp"> |
<summary> |
Gets or sets the P coefficient |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Wagner5.#ctor"> |
<summary> |
Creates a new instance of Wagner5 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Wagner5.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.NewZealandMapGrid"> |
<summary> |
NewZealandMapGrid |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NewZealandMapGrid.#ctor"> |
<summary> |
Creates a new instance of NewZealandMapGrid |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NewZealandMapGrid.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.NewZealandMapGrid.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.NewZealandMapGrid.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.MillerCylindrical"> |
<summary> |
MillerCylindrical |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.MillerCylindrical.#ctor"> |
<summary> |
Creates a new instance of MillerCylindrical |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.MillerCylindrical.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.MillerCylindrical.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.LongLat"> |
<summary> |
LongLat |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LongLat.#ctor"> |
<summary> |
Creates a new instance of LongLat |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LongLat.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LongLat.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LongLat.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.LambertAzimuthalEqualArea"> |
<summary> |
LambertAzimuthalEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LambertAzimuthalEqualArea.#ctor"> |
<summary> |
Creates a new instance of LambertAzimuthalEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LambertAzimuthalEqualArea.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LambertAzimuthalEqualArea.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LambertAzimuthalEqualArea.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LambertAzimuthalEqualArea.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LambertAzimuthalEqualArea.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedSystems"> |
<summary> |
Projected |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedSystems.#ctor"> |
<summary> |
Creates a new instance of Projected |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedSystems.GetCategory(System.String)"> |
<summary> |
Given the string name, this will return the specified coordinate category |
</summary> |
<param name="name"></param> |
<returns></returns> |
</member> |
<member name="P:DotSpatial.Projections.ProjectedSystems.Names"> |
<summary> |
Gets an array of all the names of the coordinate system categories |
in this collection of systems. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983Harn"> |
<summary> |
StatePlaneNad1983Harn |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983Harn.#ctor"> |
<summary> |
Creates a new instance of StatePlaneNad1983Harn |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsSweden"> |
<summary> |
NationalGridsSweden |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsSweden.#ctor"> |
<summary> |
Creates a new instance of NationalGridsSweden |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.IReproject"> |
<summary> |
This interface defines how reprojection classes should be accessed |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.IReproject.ReprojectPoints(System.Double[][],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.ProjectionInfo,System.Int32,System.Int32)"> |
<summary> |
Reprojects the specified points. The first is the projection info to start from, while the destination |
is the projection to end with. |
</summary> |
<param name="points"></param> |
<param name="source"></param> |
<param name="dest"></param> |
<param name="startIndex"></param> |
<param name="numPoints"></param> |
<returns></returns> |
</member> |
<member name="T:DotSpatial.Projections.AngularUnit"> |
<summary> |
Unit |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AngularUnit.#ctor"> |
<summary> |
Creates a new instance of Unit |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.AngularUnit.ToEsriString"> |
<summary> |
Generates the Esri string from the values in this class |
</summary> |
<returns>The resulting esri string</returns> |
</member> |
<member name="M:DotSpatial.Projections.AngularUnit.ReadEsriString(System.String)"> |
<summary> |
Reads an esri string to determine the angular unit |
</summary> |
<param name="esriString">The esri string to read</param> |
</member> |
<member name="P:DotSpatial.Projections.AngularUnit.Name"> |
<summary> |
Gets or sets the name of this |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.AngularUnit.Radians"> |
<summary> |
Gets or sets the constant to multiply against this unit to get radians. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Wagner4"> |
<summary> |
Wagner4 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Wagner4.#ctor"> |
<summary> |
Creates a new instance of Wagner4 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Wagner4.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.SwissObliqueMercator"> |
<summary> |
SwissObliqueMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.SwissObliqueMercator.#ctor"> |
<summary> |
Creates a new instance of SwissObliqueMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.SwissObliqueMercator.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.SwissObliqueMercator.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.SwissObliqueMercator.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Cassini"> |
<summary> |
Cassini |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Cassini.#ctor"> |
<summary> |
Creates a new instance of Cassini |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Cassini.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Cassini.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Cassini.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Cassini.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Cassini.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Spheroid"> |
<summary> |
Spheroid (Defaults to WGS84) |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.#ctor"> |
<summary> |
Creates a new instance of Spheroid |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.#ctor(System.Double,System.Double)"> |
<summary> |
Creates a new spheroid using an the equatorial radius in meters and |
a flattening coefficient that is the inverse flattening factor. |
eg. for WGS84 (6378137.0, 298.257223563) |
</summary> |
<param name="equatorialRadius">The semi-major axis</param> |
<param name="inverseFlattening">The inverse of the flattening factor</param> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.#ctor(System.Double)"> |
<summary> |
For perfect spheres, you just need to specify one radius, which will be |
applied to both radii. You can then directly change the polar or |
equatorial radius if necessary using the properties. |
</summary> |
<param name="radius">The radius of the sphere</param> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.#ctor(DotSpatial.Projections.Proj4Ellipsoid)"> |
<summary> |
The ellps parameter in a proj4 string will only work with certain |
pre-defined spheroids, enumerated in the Proj4Ellipsoids enumeration. |
Custom spheroids can be specified but will use the a and b parameters |
when creating a proj4 parameter instead of using the ellps parameter. |
</summary> |
<param name="knownEllipse">Any of several predefined geographic ellipses</param> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.#ctor(System.String)"> |
<summary> |
Given the proj4 code, this will set the radii correctly. |
</summary> |
<param name="proj4Ellips"></param> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.ReadSedrisCode(System.String)"> |
<summary> |
Assigns a known projection that is defined by a two character SEDRIS code, |
using nothing but that code. |
</summary> |
<param name="code">The two character SEDRIS code defining 22 distinct ellipsoids.</param> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.AssignKnownEllipsoid(DotSpatial.Projections.Proj4Ellipsoid)"> |
<summary> |
Given the enumeration of known ellipsoids, this will redefine this spheroid |
so that it matches the A and B coefficients for the known ellipsoids. |
</summary> |
<param name="knownEllipse">The known Ellipse</param> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.FlatteningFactor"> |
<summary> |
Calculates the flattening factor, (a - b) / a. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.GetProj4String"> |
<summary> |
Uses the current known ellipsoid to return a code name for the proj4 string if possible. |
Otherwise, this returns the radial parameters a and b. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.Eccentricity"> |
<summary> |
Calculates the eccentrity according to e = sqrt(2f - f^2) where f is the flattening factor. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.EccentricitySquared"> |
<summary> |
Calculates the square of eccentricity according to es = (2f - f^2) where f is the flattening factor. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.GetInverseFlattening"> |
<summary> |
Calculates the inverse of the flattening factor, commonly saved to ESRI projections, |
or else provided as the "rf" parameter for Proj4 strings. This is simply calculated |
as a / (a - b) where a is the semi-major axis and b is the semi-minor axis. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.IsOblate"> |
<summary> |
Gets a boolean that is true if the spheroid has been flattened. |
</summary> |
<returns>Boolean, true if the spheroid is oblate (or flattened)</returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.SetInverseFlattening(System.Double)"> |
<summary> |
Sets the value by using the current semi-major axis (Equatorial Radius) in order to |
calculate the semi-minor axis (Polar Radius). |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.ToEsriString"> |
<summary> |
Converts the spheroid parameters into a valid esri expression that uses the semi-major axis |
and the reciprocal flattening factor |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Spheroid.ReadEsriString(System.String)"> |
<summary> |
Reads the ESRI string to define the spheroid, which controls how flattened the earth's radius is |
</summary> |
<param name="esriString"></param> |
</member> |
<member name="P:DotSpatial.Projections.Spheroid.Code"> |
<summary> |
Gets or sets the two character Synthetic Environment Data |
Representation and Interchange Specification (SEDRIS) code |
eg. AA represents Airy 1830. Setting this will not modify the values, |
To read a SEDRIS Code use the constructor or AssignKnownEllipsoid overload. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Spheroid.Proj4Names"> |
<summary> |
Each of the enumerated known ellipsoids is encoded by an ellps parameter specified by |
the corresponding string value. Ellipsoids that are not found here or are specified |
as "Custom" in the enuemration will be replaced with an 'a' and a 'b' parameter instead. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Spheroid.Name"> |
<summary> |
Gets or sets the string name of the spheroid. |
e.g.: WGS_1984 |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Spheroid.EquatorialRadius"> |
<summary> |
A spheroid is a pole flattened (oblate) sphere, with the radii of two axes being equal and longer |
than the third. This is the radial measure of one of these major axes in meters. |
e.g. 6,378,137 for WGS 84 |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Spheroid.PolarRadius"> |
<summary> |
A spheroid is a pole flattened (oblate) sphere, with the radii of two axes being equal and longer |
than the third. This is the radial measure of the smaller polar axis in meters. One option is |
to specify this directly, but it can also be calculated using the major axis and the flattening factor. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Spheroid.KnownEllipsoid"> |
<summary> |
|
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.WorldSpheroid"> |
<summary> |
WorldSpheroid |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.WorldSpheroid.#ctor"> |
<summary> |
Creates a new instance of WorldSpheroid |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.UtmNad1983"> |
<summary> |
UtmNad1983 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.UtmNad1983.#ctor"> |
<summary> |
Creates a new instance of UtmNad1983 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsIndia"> |
<summary> |
IndianSubcontinent |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsIndia.#ctor"> |
<summary> |
Creates a new instance of IndianSubcontinent |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.GaussKrugerPulkovo1942"> |
<summary> |
GaussKrugerPulkovo1942 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.GaussKrugerPulkovo1942.#ctor"> |
<summary> |
Creates a new instance of GaussKrugerPulkovo1942 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.PhiLam"> |
<summary> |
PhiLam has two double values and is used like a coordinate. |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.PhiLam.Phi"> |
<summary> |
Geodetic Phi coordinate (latitude) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.PhiLam.Lambda"> |
<summary> |
Geodetic Lambda coordinate (longitude) |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.LinearUnit"> |
<summary> |
Unit |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LinearUnit.#ctor"> |
<summary> |
Creates a new instance of Unit |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LinearUnit.ToEsriString"> |
<summary> |
Generates the part of the ESRI well known text for this linear unit |
</summary> |
<returns>A string that contains the name and conversion factor to meters </returns> |
</member> |
<member name="M:DotSpatial.Projections.LinearUnit.ReadEsriString(System.String)"> |
<summary> |
Parses the UNIT member of ESRI well known text into a linear unit |
</summary> |
<param name="esriString"></param> |
</member> |
<member name="M:DotSpatial.Projections.LinearUnit.ReadCode(System.Int32)"> |
<summary> |
Interprets a UOM code. For instance 9001 = meters. |
These codes and ratios were from GDAL unit_of_measure.csv, and I'm not |
sure if the numeric code is used outside of GDAL internal references. |
</summary> |
<param name="uomCode"></param> |
</member> |
<member name="P:DotSpatial.Projections.LinearUnit.Name"> |
<summary> |
Gets or sets the name of this |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.LinearUnit.Meters"> |
<summary> |
Gets or sets the constant to multiply with maps distances to get the distances in meters |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.Asia"> |
<summary> |
Asia |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.Asia.#ctor"> |
<summary> |
Creates a new instance of Asia |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Proj"> |
<summary> |
Proj contains frequently used static helper methods for doing projection calculations |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj.ONE_TOL"> |
<summary> |
Effectively 1 but with a tolerance of 1E-14 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj.ATOL"> |
<summary> |
1E-50 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Aasin(System.Double)"> |
<summary> |
Tolerant Arcsin |
</summary> |
<param name="v"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Aacos(System.Double)"> |
<summary> |
Tolerant ArcCosine |
</summary> |
<param name="v"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Asqrt(System.Double)"> |
<summary> |
Tollerant Sqrt |
</summary> |
<param name="v"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Aatan2(System.Double,System.Double)"> |
<summary> |
Tollerant Math.Atan method. |
</summary> |
<param name="n"></param> |
<param name="d"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Hypot(System.Double,System.Double)"> |
<summary> |
Calculates the hypotenuse of a triangle: Sqrt(x*x + y*y); |
</summary> |
<param name="x">The length of one orthogonal leg of the triangle</param> |
<param name="y">The length of the other orthogonal leg of the triangle</param> |
<returns>The length of the diagonal.</returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Adjlon(System.Double)"> |
<summary> |
|
</summary> |
<param name="lon"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Authset(System.Double)"> |
<summary> |
Determines latitude from authalic latitude |
</summary> |
<param name="es">Epsilon squared</param> |
<returns>The array of double values for the apa parameter</returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.AuthLat(System.Double,System.Double[])"> |
<summary> |
Obtains the authalic latitude |
</summary> |
<param name="beta"></param> |
<param name="apa"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Enfn(System.Double)"> |
<summary> |
Obtains the EN parameters for the Meridional distance |
</summary> |
<param name="es"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Mlfn(System.Double,System.Double,System.Double,System.Double[])"> |
<summary> |
Meridonal length function |
</summary> |
<param name="phi"></param> |
<param name="sphi"></param> |
<param name="cphi"></param> |
<param name="en"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.InvMlfn(System.Double,System.Double,System.Double[])"> |
<summary> |
|
</summary> |
<param name="arg"></param> |
<param name="es"></param> |
<param name="en"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Qsfn(System.Double,System.Double,System.Double)"> |
<summary> |
|
</summary> |
<param name="sinphi"></param> |
<param name="e"></param> |
<param name="oneEs"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Tsfn(System.Double,System.Double,System.Double)"> |
<summary> |
|
</summary> |
<param name="phi"></param> |
<param name="sinphi"></param> |
<param name="e"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Msfn(System.Double,System.Double,System.Double)"> |
<summary> |
|
</summary> |
<param name="sinphi"></param> |
<param name="cosphi"></param> |
<param name="es"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Phi2(System.Double,System.Double)"> |
<summary> |
|
</summary> |
<param name="ts"></param> |
<param name="e"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Zpoly1(System.Double[],System.Double[][],System.Int32)"> |
<summary> |
</summary> |
<param name="z"></param> |
<param name="c"></param> |
<param name="n"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.Proj.Zpolyd1(System.Double[],System.Double[][],System.Int32,System.Double[]@)"> |
<summary> |
</summary> |
<param name="z"></param> |
<param name="c"></param> |
<param name="n"></param> |
<param name="der"></param> |
<returns></returns> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Wisconsin"> |
<summary> |
Wisconsin |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Wisconsin.#ctor"> |
<summary> |
Creates a new instance of Wisconsin |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Proj4Meridian"> |
<summary> |
Proj4Meridians |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Greenwich"> |
<summary> |
Greenwich, England |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Lisbon"> |
<summary> |
Lisbon, Portugal |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Paris"> |
<summary> |
Paris, France |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Bogota"> |
<summary> |
Bogota, Colombia |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Madrid"> |
<summary> |
Madrid, Spain |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Rome"> |
<summary> |
Rome, Italy |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Bern"> |
<summary> |
Berne, Switzerland |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Jakarta"> |
<summary> |
Jakarta, Indonesia |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Ferro"> |
<summary> |
Brasil |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Brussels"> |
<summary> |
Brussels, Belgiuum |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Stockholm"> |
<summary> |
Stockholm, Sweden |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Athens"> |
<summary> |
Athens, Greece |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Meridian.Oslo"> |
<summary> |
Oslo, Norway |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.SouthAmerica"> |
<summary> |
SouthAmerica |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.SouthAmerica.#ctor"> |
<summary> |
Creates a new instance of SouthAmerica |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.VanderGrinten1"> |
<summary> |
VanderGrinten1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.VanderGrinten1.#ctor"> |
<summary> |
Creates a new instance of VanderGrinten1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.VanderGrinten1.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.VanderGrinten1.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.LambertEqualAreaConic"> |
<summary> |
LambertEqualAreaConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LambertEqualAreaConic.#ctor"> |
<summary> |
Creates a new instance of LambertEqualAreaConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LambertEqualAreaConic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.LambertConformalConic"> |
<summary> |
LambertConformalConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LambertConformalConic.#ctor"> |
<summary> |
Creates a new instance of the Lambert Conformal Conic projection |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LambertConformalConic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LambertConformalConic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.LambertConformalConic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.LambertConformalConic.OnSpecial(System.Double[],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.Factors)"> |
<summary> |
Special factor calculations for a factors calculation |
</summary> |
<param name="lp">lambda-phi</param> |
<param name="p">The projection</param> |
<param name="fac">The Factors</param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StatePlaneOther"> |
<summary> |
StatePlaneOther |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StatePlaneOther.#ctor"> |
<summary> |
Creates a new instance of StatePlaneOther |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Nad1983IntlFeet"> |
<summary> |
Nad1983IntlFeet |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Nad1983IntlFeet.#ctor"> |
<summary> |
Creates a new instance of Nad1983IntlFeet |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.KrugerXian1980"> |
<summary> |
KrugerZian1980 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.KrugerXian1980.#ctor"> |
<summary> |
Creates a new instance of KrugerZian1980 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.GaussKrugerPulkovo1995"> |
<summary> |
GaussKrugerPulkovo1995 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.GaussKrugerPulkovo1995.#ctor"> |
<summary> |
Creates a new instance of GaussKrugerPulkovo1995 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Proj4Datum"> |
<summary> |
Proj4Datums |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.WGS84"> |
<summary> |
World Geodetic System 1984 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.GGRS87"> |
<summary> |
Greek Geodetic Reference system 1987 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.NAD83"> |
<summary> |
North American Datum 1983 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.NAD27"> |
<summary> |
North American Datum 1927 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.Potsdam"> |
<summary> |
Potsdam Rauenburg 1950 DHDN |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.Carthage"> |
<summary> |
Carthage 1934 Tunisia |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.Hermannskogel"> |
<summary> |
Hermannskogel |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.Ire65"> |
<summary> |
Ireland 1965 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.Nzgd49"> |
<summary> |
New Zealand Grid |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Datum.OSGB36"> |
<summary> |
Airy 1830 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.Africa"> |
<summary> |
Africa |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.GeographicCategories.Africa.Abidjan1987"> |
<summary> |
Abidjan 1987 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.Africa.#ctor"> |
<summary> |
Creates a new instance of Africa |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjMatchableEM"> |
<summary> |
MatchableEM |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjMatchableEM.Matches(DotSpatial.Projections.IProjMatchable,DotSpatial.Projections.IProjMatchable)"> |
<summary> |
This tests the public properties from the two objects. If any properties implement |
the IMatchable interface, and do not match, this returns false. If any public |
properties are value types, and they are not equal, then this returns false. |
</summary> |
<param name="self">This matchable item </param> |
<param name="other">The other item to compare to this item</param> |
<returns>Boolean, true if there is a match</returns> |
</member> |
<member name="T:DotSpatial.Projections.ProjectionException"> |
<summary> |
ProjectionErrorCodes |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionException.#ctor(System.Int32)"> |
<summary> |
Creates a new projection exception with the appropriate message code |
</summary> |
<param name="errorCode"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionException.#ctor(System.String)"> |
<summary> |
Creates a new projection exception with the specified message |
</summary> |
<param name="message"></param> |
</member> |
<member name="M:DotSpatial.Projections.ProjectionException.GetMessage(System.Int32)"> |
<summary> |
Returns a string message given the correct numeric code. |
</summary> |
<param name="projectionCode"></param> |
<returns></returns> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionException.ErrorCode"> |
<summary> |
Gets the error code that was used when this exception was created |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.World"> |
<summary> |
World |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.World.#ctor"> |
<summary> |
Creates a new instance of World |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.SouthAmerica"> |
<summary> |
SouthAmerica |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.SouthAmerica.#ctor"> |
<summary> |
Creates a new instance of SouthAmerica |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.NadTable"> |
<summary> |
NadRecord is a single entry from an lla file |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable.DEG_TO_RAD"> |
<summary> |
Converts degree values into radians |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable.USecToRad"> |
<summary> |
I think this converts micro-seconds of arc to radians |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable._name"> |
<summary> |
The character based id for this record |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable._lowerLeft"> |
<summary> |
The lower left coordinate |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable._cellSize"> |
<summary> |
The delta lambda and delta phi for a single cell |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable._numLambdas"> |
<summary> |
The total count of coordinates in the lambda direction |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable._numPhis"> |
<summary> |
The total count of coordinates in the phi direction |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.NadTable._cvs"> |
<summary> |
The set of conversion matrix coefficients for lambda |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.#ctor"> |
<summary> |
Creates a blank nad Table |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.#ctor(System.String)"> |
<summary> |
This initializes a new table with the assumption that the offset is 0 |
</summary> |
<param name="resourceLocation">The resource location</param> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.#ctor(System.String,System.Int64)"> |
<summary> |
This initializes a new table with the assumption that the offset needs to be specified |
because in gsb files, more than one table is listed, and this is a subtable. |
</summary> |
<param name="resourceLocation">The resource location</param> |
<param name="offset">The offset marking the start of the header in the file</param> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.ReadHeader"> |
<summary> |
Given the resource setup, this causes the file to read the |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.FillData"> |
<summary> |
|
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.ReadDouble(System.IO.BinaryReader)"> |
<summary> |
Reads a double in BigEndian format (consistent with ntv1 and ntv2 formats.) |
</summary> |
<param name="br">The binary reader</param> |
<returns>The double value parsed from the binary in big endian byte order.</returns> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.GetDouble(System.Byte[],System.Int32)"> |
<summary> |
Gets the double value from the specified position in the byte array |
Using BigEndian format. |
</summary> |
<param name="array"></param> |
<param name="offset"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.NadTable.FromSourceName(System.String)"> |
<summary> |
This method parses the extension of a resource location and |
creates the new resource type. |
</summary> |
<param name="resourceLocation"></param> |
<returns></returns> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.Name"> |
<summary> |
Gets or sets the string name for this record |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.LowerLeft"> |
<summary> |
Gets or sets the lower left corner in radians |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.CellSize"> |
<summary> |
Gets or sets the angular cell size in radians |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.NumPhis"> |
<summary> |
Gets or sets the integer count of phi coefficients |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.NumLambdas"> |
<summary> |
Gets or sets the integer count of lambda coefficients |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.SubGrids"> |
<summary> |
These represent smaller, higher resolution subgrids that should fall within the extents |
of the larger grid. If this list exists, and there is a fit here, it should be used |
in preference to the low-resolution main grid. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.Cvs"> |
<summary> |
Gets or sets the array of lambda coefficients organized |
in a spatial Table (phi major) |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.Filled"> |
<summary> |
Gets or sets a boolean indicating whether or not the values have been filled. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.ManifestResourceString"> |
<summary> |
Gets or sets the location this table should look for source data. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.DataOffset"> |
<summary> |
Gets or sets the long integer data offset where the stream should skip to to begin reading data |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTable.Format"> |
<summary> |
Gets or sets the format being used. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.World"> |
<summary> |
World |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.World.#ctor"> |
<summary> |
Creates a new instance of World |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.LlaNadTable"> |
<summary> |
Overrides the NadTable methods in the context of an lla resource file. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.LlaNadTable.#ctor(System.String)"> |
<summary> |
An LlaNadTable constructor |
</summary> |
<param name="resourceLocation">The Manifest Assembly resource location</param> |
</member> |
<member name="M:DotSpatial.Projections.LlaNadTable.ReadHeader"> |
<inheritdoc></inheritdoc> |
</member> |
<member name="M:DotSpatial.Projections.LlaNadTable.FillData"> |
<inheritdoc></inheritdoc> |
</member> |
<member name="T:DotSpatial.Projections.ProjShallowCopy"> |
<summary> |
Normally, cloning an object starts with MemberwiseClone, which |
creates a shallow copy of the object. For any members that |
derive from the Descriptor, however, any public properties |
or fields that implement ICloneable are copied (deep copy behavior). |
This is not always desirable, even if the member CAN be copied. |
This attribute causes the deep copy behavior to skip over |
properties marked with this attribute. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.PutinsP1"> |
<summary> |
PutinsP1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.PutinsP1.#ctor"> |
<summary> |
Creates a new instance of PutinsP1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.PutinsP1.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.PutinsP1.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.GeneralSinusoidal"> |
<summary> |
GeneralSinusoidal |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Sinusoidal"> |
<summary> |
Sinusoidal |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.#ctor"> |
<summary> |
Creates a new instance of Sinusoidal |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.Setup"> |
<summary> |
Handles the original configuration of sinusoidal transforms |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Sinusoidal.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="P:DotSpatial.Projections.Sinusoidal.M"> |
<summary> |
Gets or sets the double M value |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Sinusoidal.N"> |
<summary> |
Gets or sets the N value |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeneralSinusoidal.#ctor"> |
<summary> |
Creates a new instance of GeneralSinusoidal |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeneralSinusoidal.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983HarnFeet"> |
<summary> |
StatePlaneNad1983HarnFeet |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983HarnFeet.#ctor"> |
<summary> |
Creates a new instance of StatePlaneNad1983HarnFeet |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983"> |
<summary> |
StatePlaneNad1983 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983.MichiganGeoRef2008"> |
<summary> |
Michigan Geo Ref 2008 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983.NAD1983Maine2000CentralZone"> |
<summary> |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983.#ctor"> |
<summary> |
Creates a new instance of StatePlaneNad1983 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.GaussKrugerOther"> |
<summary> |
GaussKrugerOther |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.GaussKrugerOther.#ctor"> |
<summary> |
Creates a new instance of GaussKrugerOther |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.SolarSystem"> |
<summary> |
SolarSystem |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.SolarSystem.#ctor"> |
<summary> |
Creates a new instance of SolarSystem |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.CountySystems"> |
<summary> |
CountySystems |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.CountySystems.#ctor"> |
<summary> |
Creates a new instance of CountySystems |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjFieldInfoEM"> |
<summary> |
FieldInfo |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjFieldInfoEM.GetFirst(System.Collections.Generic.IEnumerable{System.Reflection.FieldInfo},System.String)"> |
<summary> |
|
</summary> |
<param name="self"></param> |
<param name="name"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.ProjFieldInfoEM.Contains(System.Collections.Generic.IEnumerable{System.Reflection.FieldInfo},System.String)"> |
<summary> |
Determines whether there is a member with the specified name |
</summary> |
<param name="self"></param> |
<param name="name"></param> |
<returns></returns> |
</member> |
<member name="T:DotSpatial.Projections.UniversalTransverseMercator"> |
<summary> |
UniversalTransverseMercator |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.TransverseMercator"> |
<summary> |
TransverseMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.TransverseMercator.#ctor"> |
<summary> |
Creates a new instance of TransverseMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.TransverseMercator.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.TransverseMercator.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
The forward transform in the special case where there is no flattening of the spherical model of the earth. |
</summary> |
<param name="lp">The input lambda and phi geodetic values organized in an array</param> |
<param name="xy">The output x and y values organized in an array</param> |
<param name="startIndex">The zero based integer start index</param> |
<param name="numPoints">The integer count of the number of xy pairs in the lp and xy arrays</param> |
</member> |
<member name="M:DotSpatial.Projections.TransverseMercator.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
The forward transform where the spheroidal model of the earth has a flattening factor, |
matching more closely with the oblique spheroid of the actual earth |
</summary> |
<param name="lp">The double values for geodetic lambda and phi organized into a one dimensional array</param> |
<param name="xy">The double values for linear x and y organized into a one dimensional array</param> |
<param name="startIndex">The zero based integer start index</param> |
<param name="numPoints">The integer count of the number of xy pairs in the lp and xy arrays</param> |
</member> |
<member name="M:DotSpatial.Projections.TransverseMercator.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Performs the inverse transform from a single coordinate of linear units to the same coordinate in geodetic lambda and |
phi units in the special case where the shape of the earth is being approximated as a perfect sphere. |
</summary> |
<param name="xy">The double linear input x and y values organized into a 1 dimensional array</param> |
<param name="lp">The double geodetic output lambda and phi values organized into a 1 dimensional array</param> |
<param name="startIndex">The zero based integer start index</param> |
<param name="numPoints">The integer count of the number of xy pairs in the lp and xy arrays</param> |
</member> |
<member name="M:DotSpatial.Projections.TransverseMercator.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<summary> |
Performs the inverse transfrom from a single coordinate of linear units to the same coordinate in geodetic units |
</summary> |
<param name="xy">The double linear input x and y values organized into a 1 dimensional array</param> |
<param name="lp">The double geodetic output lambda and phi values organized into a 1 dimensional array</param> |
<param name="startIndex">The zero based integer start index</param> |
<param name="numPoints">The integer count of the number of xy pairs in the lp and xy arrays</param> |
</member> |
<member name="M:DotSpatial.Projections.UniversalTransverseMercator.#ctor"> |
<summary> |
Creates a new instance of UniversalTransverseMercator. The only difference |
for this one is that the proj4 name is a little different and when reading |
from proj4, we have to parse the zone and south parameters in order to |
create the transverse mercator projection. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.UniversalTransverseMercator.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Mercator"> |
<summary> |
Mercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Mercator.#ctor"> |
<summary> |
Creates a new instance of Mercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Mercator.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Mercator.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Mercator.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Mercator.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Mercator.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Kavraisky7"> |
<summary> |
Kavraisky6 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Kavraisky7.#ctor"> |
<summary> |
Creates a new instance of Kavraisky6 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Kavraisky7.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Kavraisky7.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.GeostationarySatellite"> |
<summary> |
GeostationarySatellite |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeostationarySatellite.#ctor"> |
<summary> |
Creates a new instance of GeostationarySatellite |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeostationarySatellite.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GeostationarySatellite.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GeostationarySatellite.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GeostationarySatellite.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GeostationarySatellite.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.GaussKruger"> |
<summary> |
Gauss Kruger is basically transverse mercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GaussKruger.#ctor"> |
<summary> |
Creates a new instance of GaussKruger |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.IProjectionCategory"> |
<summary> |
IProjectionCategory |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.IProjectionCategory.MainCategory"> |
<summary> |
Gets or sets the main category for this projection |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.IProjectionCategory.Category"> |
<summary> |
Gets or sets the category for this projection |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.IProjectionCategory.Name"> |
<summary> |
Gets or sets the string name |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.IProjectionCategory.Proj4String"> |
<summary> |
Gets or sets the proj4 string that defines this projection |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.Antarctica"> |
<summary> |
Antarctica |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.Antarctica.#ctor"> |
<summary> |
Creates a new instance of Antarctica |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Datum"> |
<summary> |
Datum |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Datum.#ctor"> |
<summary> |
Creates a new instance of Datum |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Datum.#ctor(System.String)"> |
<summary> |
uses a string name of a standard datum to create a new instance of the Datum class |
</summary> |
<param name="standardDatum">The string name of the datum to use</param> |
</member> |
<member name="M:DotSpatial.Projections.Datum.#ctor(DotSpatial.Projections.Proj4Datum)"> |
<summary> |
Uses a Proj4Datums enumeration in order to specify a known datum to |
define the spheroid and to WGS calculation method and parameters |
</summary> |
<param name="standardDatum">The Proj4Datums enumeration specifying the known datum</param> |
</member> |
<member name="M:DotSpatial.Projections.Datum.Matches(DotSpatial.Projections.Datum)"> |
<summary> |
Compares two datums to see if they are actually describing the same thing and |
therefore don't need to be transformed. |
</summary> |
<param name="otherDatum">The other datum to compare against</param> |
<returns>The boolean result of the operation.</returns> |
</member> |
<member name="M:DotSpatial.Projections.Datum.ToEsriString"> |
<summary> |
Creates an esri well known text string for the datum part of the string |
</summary> |
<returns>The datum portion of the esri well known text</returns> |
</member> |
<member name="M:DotSpatial.Projections.Datum.ReadEsriString(System.String)"> |
<summary> |
parses the datum from the esri string |
</summary> |
<param name="esriString">The string to parse values from</param> |
</member> |
<member name="M:DotSpatial.Projections.Datum.ReadProj4Params(System.Collections.Generic.Dictionary{System.String,System.String})"> |
<summary> |
Reads the proj4 parameters and parses out the ones that control the |
datum. |
</summary> |
<param name="parameters"></param> |
<remarks>Originally ported from pj_datum_set.c</remarks> |
</member> |
<member name="P:DotSpatial.Projections.Datum.Name"> |
<summary> |
Gets or sets the name of the datum defining the spherical characteristics of the model of the earth |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Datum.Spheroid"> |
<summary> |
The spheroid of the earth, defining the maximal radius and the flattening factor |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Datum.ToWGS84"> |
<summary> |
Gets or sets the set of double parameters, (this can either be 3 or 7 parameters) |
used to transform this |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Datum.DatumType"> |
<summary> |
Gets or sets the datum type, which clarifies how to perform transforms to WGS84 |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Datum.Description"> |
<summary> |
Gets or sets an english description for this datum |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.Datum.NadGrids"> |
<summary> |
Gets or sets the array of string nadGrid |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.TransformManager"> |
<summary> |
TransformManager |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.TransformManager.#ctor"> |
<summary> |
Creates a new instance of TransformManager |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.TransformManager.GetProj4(System.String)"> |
<summary> |
Given the proj4 string, returns the matching transform eg: tmerc. |
</summary> |
<param name="name">The string name</param> |
<returns>The ITransform that has the matching proj4 name</returns> |
</member> |
<member name="M:DotSpatial.Projections.TransformManager.GetProjection(System.String)"> |
<summary> |
Given the .prj name (ESRI wkt), returns the matching transform |
</summary> |
<param name="name">The string name for the trnasform eg. Transverse_Mercator</param> |
<returns>The ITransform that has the matching ESRI wkt name</returns> |
</member> |
<member name="P:DotSpatial.Projections.TransformManager.Transforms"> |
<summary> |
The entire list of transforms |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.TransformManager.DefaultTransformManager"> |
<summary> |
Gets the default instance of the transform manager |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ObliqueCylindricalEqualArea"> |
<summary> |
ObliqueCylindricalEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueCylindricalEqualArea.#ctor"> |
<summary> |
Creates a new instance of ObliqueCylindricalEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueCylindricalEqualArea.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueCylindricalEqualArea.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.ObliqueCylindricalEqualArea.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.GallStereographic"> |
<summary> |
GallStereographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GallStereographic.#ctor"> |
<summary> |
Creates a new instance of GallStereographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GallStereographic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.GallStereographic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Foucaut"> |
<summary> |
Foucaut is a tweaked version of QuarticAuthalic that uses tan mode. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Foucaut.#ctor"> |
<summary> |
Creates a new instance of Foucaut |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Foucaut.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.CylindricalEqualArea"> |
<summary> |
CylindricalEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.CylindricalEqualArea.#ctor"> |
<summary> |
Creates a new instance of CylindricalEqualArea |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.CylindricalEqualArea.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.CylindricalEqualArea.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.CylindricalEqualArea.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.CylindricalEqualArea.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.CylindricalEqualArea.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Bonne"> |
<summary> |
Bonne |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Bonne.#ctor"> |
<summary> |
Creates a new instance of Bonne |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Bonne.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Bonne.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Bonne.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Bonne.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Bonne.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StateSystems"> |
<summary> |
StateSystems |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StateSystems.#ctor"> |
<summary> |
Creates a new instance of StateSystems |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsAustralia"> |
<summary> |
NatGridsAustralia |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsAustralia.#ctor"> |
<summary> |
Creates a new instance of NatGridsAustralia |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Orthographic"> |
<summary> |
Orthographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Orthographic.#ctor"> |
<summary> |
Creates a new instance of Orthographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Orthographic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Orthographic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Orthographic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Kavraisky5"> |
<summary> |
Kavraisky5 is just a tweaked version of Quartic Authalic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Kavraisky5.#ctor"> |
<summary> |
Creates a new instance of Kavraisky5 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Kavraisky5.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.EquidistantConic"> |
<summary> |
EquidistantConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantConic.#ctor"> |
<summary> |
Creates a new instance of EquidistantConic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantConic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantConic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantConic.OnSpecial(System.Double[],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.Factors)"> |
<summary> |
This exists in the case that we ever develop code to perform the special proj4 calculations |
</summary> |
<param name="lp"></param> |
<param name="p"></param> |
<param name="fac"></param> |
</member> |
<member name="M:DotSpatial.Projections.EquidistantConic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.AnalyticModes"> |
<summary> |
AnalyticCodes |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AnalyticModes.IsAnalXlYl"> |
<summary> |
Derivatives of lon analytic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AnalyticModes.IsAnalXpYp"> |
<summary> |
Derivatives of lat analytic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AnalyticModes.IsAnalHk"> |
<summary> |
h and k are analytic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AnalyticModes.IsAnalConv"> |
<summary> |
convergence analytic |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectionMessages"> |
<summary> |
A strongly-typed resource class, for looking up localized strings, etc. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.ResourceManager"> |
<summary> |
Returns the cached ResourceManager instance used by this class. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Culture"> |
<summary> |
Overrides the current thread's CurrentUICulture property for all |
resource lookups using this strongly typed resource class. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.DuplicateTableName"> |
<summary> |
Looks up a localized string similar to The name %S was found for more than one lla Table in the Nad folder.. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err1_NoArguments"> |
<summary> |
Looks up a localized string similar to No arguments in initialization list. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err10_ZeroRecFlattening"> |
<summary> |
Looks up a localized string similar to The reciprocal flattening (1/f) = 0. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err11_LatitudeOutOfBounds"> |
<summary> |
Looks up a localized string similar to The Latitude was greater than 90 or less than -90. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err12_ESquareNegative"> |
<summary> |
Looks up a localized string similar to The square of eccentricity cannot be a negative value.. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err13_NoMajorRadius"> |
<summary> |
Looks up a localized string similar to The given semi-major axis was 0 or not given.. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err14_LatLonOutOfBounds"> |
<summary> |
Looks up a localized string similar to The Latitude or Longitude exceeded limits. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err15_InvalidXY"> |
<summary> |
Looks up a localized string similar to The cartesian X or Y coordinate was invalid. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err16_ImproperDMS"> |
<summary> |
Looks up a localized string similar to The Degree Minute Second value is formed imporperly. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err17_NonConvergentRMeridDist"> |
<summary> |
Looks up a localized string similar to The inverse meridinal distance was non-convergent. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err18_NonConvergentRPhi2"> |
<summary> |
Looks up a localized string similar to The inverse Phi2 value was non-converngent. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err19_TrigException"> |
<summary> |
Looks up a localized string similar to The ArcCosign or ArcSign value was too large.. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err2_NoOptions"> |
<summary> |
Looks up a localized string similar to No options found in 'init' file. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err20_ToleranceConditionError"> |
<summary> |
Looks up a localized string similar to Tolerance Condition Error. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err21_ConicLatitudeError"> |
<summary> |
Looks up a localized string similar to The conic lat_1 value cannot be its -lat_2. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err22_Lat1TooLarge"> |
<summary> |
Looks up a localized string similar to Latitude 1 cannot be greater than or equal to 90. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err23_Lat1TooSmall"> |
<summary> |
Looks up a localized string similar to Latitude 2 cannot be equal to 0. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err24_Lat_tsTooLarge"> |
<summary> |
Looks up a localized string similar to The lat_ts parameter cannot be greater than or equal to 90. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err25_NoControlPtSeparation"> |
<summary> |
Looks up a localized string similar to There was no distance between the control points. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err26_ProjectionNotRotated"> |
<summary> |
Looks up a localized string similar to Projection not selected to be rotated. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err27_WorMTooSmall"> |
<summary> |
Looks up a localized string similar to W <= 0 or M <= 0. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err28_LsatOutOfBounds"> |
<summary> |
Looks up a localized string similar to lsat not in 1-5 range. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err29_PathNotInRange"> |
<summary> |
Looks up a localized string similar to Path not in range. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err3_NoColon"> |
<summary> |
Looks up a localized string similar to No colon in init= string. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err30_HTooSmall"> |
<summary> |
Looks up a localized string similar to H was negative or 0. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err31_KTooSmall"> |
<summary> |
Looks up a localized string similar to K was less than 0. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err32_LatOutOfBounds"> |
<summary> |
Looks up a localized string similar to The central latitude was 0 or 90 or alpha = 90. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err33_InvalidLatitudes"> |
<summary> |
Looks up a localized string similar to Lat_1 = lat_2 or lat_1 = 0 or lat_2 = 90. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err34_EllipticalRequired"> |
<summary> |
Looks up a localized string similar to Elliptical Usage Required. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err35_InvalidUTMZone"> |
<summary> |
Looks up a localized string similar to The UTM zone parameter was invalid. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err36_TchebyException"> |
<summary> |
Looks up a localized string similar to The arguments were out of range for Tcheby eval. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err37_ProjNotFound"> |
<summary> |
Looks up a localized string similar to Failed to find projection to be rotated. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err38_CorrectionNotFound"> |
<summary> |
Looks up a localized string similar to Failed to load NAD27-83 correction file. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err39_NorMnotSpecified"> |
<summary> |
Looks up a localized string similar to Both n and m must be specified and > 0. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err4_NotNamed"> |
<summary> |
Looks up a localized string similar to Projection not named. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err40_InvalidN"> |
<summary> |
Looks up a localized string similar to N<= 0, n > 1 or not specified. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err41_Lat1OrLat2Missing"> |
<summary> |
Looks up a localized string similar to lat_1 or lat_2 not specified. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err42_Lat1EqualsLat2"> |
<summary> |
Looks up a localized string similar to |lat_1| =|lat_2| . |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err43_MeanLatError"> |
<summary> |
Looks up a localized string similar to lat_0 is pi/2 from mean lat. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err44_CoordinateUnreadable"> |
<summary> |
Looks up a localized string similar to Failed to parse coordinate system definition. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err45_GeocentricMissingZ"> |
<summary> |
Looks up a localized string similar to Geocentric transformation missing z or ellips. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err46_UknownPMID"> |
<summary> |
Looks up a localized string similar to Uknown prime meridian conversion ID. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err5_UknownProjection"> |
<summary> |
Looks up a localized string similar to UnknownProjectionId. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err6_EffectiveEccentricity1"> |
<summary> |
Looks up a localized string similar to Effective eccentricity = 1. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err7_UknownUnitID"> |
<summary> |
Looks up a localized string similar to Unkown unit conversion ID. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err8_Invalidboolean"> |
<summary> |
Looks up a localized string similar to Invalid boolean parameter argument. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.Err9_UknownEllipse"> |
<summary> |
Looks up a localized string similar to The elliptical parameter ellps= was unkown. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.IndexMismatch"> |
<summary> |
Looks up a localized string similar to There was an index mismatch problem with the specified file.. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.InverseShiftFailed"> |
<summary> |
Looks up a localized string similar to Inverse grid shift iteration faield, presumably at grid edge. Using first approximation.. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionMessages.InvShiftConvergeFailed"> |
<summary> |
Looks up a localized string similar to Inverse grid shift iterator failed to converge.. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.UtmNad1927"> |
<summary> |
UtmNad1927 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.UtmNad1927.#ctor"> |
<summary> |
Creates a new instance of UtmNad1927 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.TransverseMercatorSystems"> |
<summary> |
TransverseMercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.TransverseMercatorSystems.#ctor"> |
<summary> |
Creates a new instance of TransverseMercator |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsNewZealand"> |
<summary> |
NationalGridsNewZealand |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsNewZealand.#ctor"> |
<summary> |
Creates a new instance of NationalGridsNewZealand |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicSystems"> |
<summary> |
GeographicSystems |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicSystems.#ctor"> |
<summary> |
Creates a new instance of GeographicSystems |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicSystems.GetCategory(System.String)"> |
<summary> |
Given the string name, this will return the specified coordinate category |
</summary> |
<param name="name"></param> |
<returns></returns> |
</member> |
<member name="P:DotSpatial.Projections.GeographicSystems.Names"> |
<summary> |
Gets an array of all the names of the coordinate system categories |
in this collection of systems. |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.KnownTransform"> |
<summary> |
KnownTransforms |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Aitoff"> |
<summary> |
Aitoff |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Albers_Equal_Area"> |
<summary> |
Albers Equal Area |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Azimuthal_Equidistant"> |
<summary> |
Azimuthal Equidistant |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Bipolar_Oblique_Conformal_Conic"> |
<summary> |
Bipolar Oblique Conformal Conic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Bonne"> |
<summary> |
Bonne |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Cassini"> |
<summary> |
Cassini |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Craster_Parabolic"> |
<summary> |
Craster Parabolic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Cylindrical_Equal_Area"> |
<summary> |
Cylindrical Equal Area |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Eckert_I"> |
<summary> |
Eckert 1 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Eckert_II"> |
<summary> |
Eckert 2 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Eckert_III"> |
<summary> |
Eckert 3 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Eckert_IV"> |
<summary> |
Eckert 4 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Eckert_V"> |
<summary> |
Eckert 5 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Eckert_VI"> |
<summary> |
Eckert 6 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Elliptical_Transform"> |
<summary> |
Elliptical Transform |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Equidistant_Conic"> |
<summary> |
Equidistant Conic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Equidistant_Cylindrical"> |
<summary> |
Equidistant_Cylindrical |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Foucaut"> |
<summary> |
Foucaut |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Gall_Stereographic"> |
<summary> |
Gall Stereographic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.General_Sinusoidal"> |
<summary> |
General Sinusoidal |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Geostationary_Satellite"> |
<summary> |
Geostationary Satellite |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Gnomonic"> |
<summary> |
Gnomonic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Goode_Homolosine"> |
<summary> |
Goode Homolosine |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Hammer_Aitoff"> |
<summary> |
Hammer Aitoff |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Kavraisky_V"> |
<summary> |
Kavraisky 5 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Kavraisky_VII"> |
<summary> |
Kavraisky 7 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Krovak"> |
<summary> |
Krovak |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Lambert_Azimuthal_Equal_Area"> |
<summary> |
Lambert Azimuthal Equal Area |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Lambert_Conformal_Conic"> |
<summary> |
Lambert Conformal Conic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Lambert_Equal_Area_Conic"> |
<summary> |
Lambert Equal Area Conic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.LongLat"> |
<summary> |
Latitude / Longitude |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Loximuthal"> |
<summary> |
Loximuthal |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.McBryde_Thomas_Flat_Polar_Sine"> |
<summary> |
McBryde Thomas Flat Polar Sine |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Mercator"> |
<summary> |
Mercator |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Miller_Cylindrical"> |
<summary> |
Miller Cylindrical |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Mollweide"> |
<summary> |
Mollweide |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.New_Zealand_Map_Grid"> |
<summary> |
New Zealand Map Grid |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Oblique_Cylindrical_Equal_Area"> |
<summary> |
Oblique Cylindrical Equal Area |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Oblique_Mercator"> |
<summary> |
Oblique Mercator |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Oblique_Stereographic_Alternative"> |
<summary> |
Oblique Stereographic Alternative |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Orthographic"> |
<summary> |
Orthographic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Polyconic"> |
<summary> |
Polyconic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Putins_P1"> |
<summary> |
PutinsP1 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Quartic_Authalic"> |
<summary> |
Quartic Authalic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Robinson"> |
<summary> |
Robinson |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Sinusoidal"> |
<summary> |
Sinusoidal |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Stereographic"> |
<summary> |
Stereographic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Swiss_Oblique_Mercator"> |
<summary> |
Swiss Oblique Mercator |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Transverse_Mercator"> |
<summary> |
Transverse Mercator |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Two_Point_Equidistant"> |
<summary> |
Two Point Equidistant |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Universal_Polar_Stereographic"> |
<summary> |
Universal Polar Stereographic |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Universal_Transverse_Mercator"> |
<summary> |
Universal Transverse Mercator |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Vander_Grinten_I"> |
<summary> |
Vander Grinten 1 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Wagner_IV"> |
<summary> |
Wagner 4 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Wagner_V"> |
<summary> |
Wagner 5 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Wagner6"> |
<summary> |
Wagner 6 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Winkel_I"> |
<summary> |
Winkel 1 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Winkel_II"> |
<summary> |
Winkel 2 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownTransform.Winkel_Tripel"> |
<summary> |
Winkel Tripel |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.HotineObliqueMercatorAzimuthCenter"> |
<summary> |
HotineObliqueMercatorAzimuthalCenter - Used to properly direct the Swiss Oblique Mercator |
when it appears as Hotine Oblique Mercator Azimuthal Center. At current, the Azimuth |
parameter is ignored as I don't know how to send it into Proj4. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.HotineObliqueMercatorAzimuthCenter.#ctor"> |
<summary> |
Creates a new instance of HotineObliqueMercatorAzimuthalCenter |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.HammerAitoff"> |
<summary> |
HammerAitoff |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.HammerAitoff.#ctor"> |
<summary> |
Creates a new instance of HammerAitoff |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.HammerAitoff.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.HammerAitoff.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.GaussKrugerBeijing1954"> |
<summary> |
GaussKrugerBeijing1954 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.GaussKrugerBeijing1954.#ctor"> |
<summary> |
Creates a new instance of GaussKrugerBeijing1954 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.NadTables"> |
<summary> |
NadTables |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.NadTables.#ctor"> |
<summary> |
Creates a new instance of NadTables |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.NadTables.Tables"> |
<summary> |
Gets an array of the lla tables that have been added as a resource |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.MeridionalDistance"> |
<summary> |
MeridinalDistance |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.MeridionalDistance.GetEn(System.Double)"> |
<summary> |
Formerly pj_enfn from Proj4 |
</summary> |
<param name="es"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.MeridionalDistance.MeridionalLength(System.Double,System.Double,System.Double,System.Double[])"> |
<summary> |
Formerly pj_mlfn |
Given geodetic angular displacement phi, this calculates the equivalent meridional distance |
</summary> |
<param name="phi">The geodetic angular displacement</param> |
<param name="sphi"></param> |
<param name="cphi"></param> |
<param name="en"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.MeridionalDistance.AngularDistance(System.Double,System.Double,System.Double[])"> |
<summary> |
Formerly pj_inv_mlfn |
Given the linear distance, this calculates the equivalent geodetic angular displacement |
</summary> |
<param name="arg"></param> |
<param name="es"></param> |
<param name="en"></param> |
<returns></returns> |
</member> |
<member name="T:DotSpatial.Projections.GridShift"> |
<summary> |
GridShift |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GridShift.Apply(System.String[],System.Boolean,System.Double[],System.Int32,System.Int64)"> |
<summary> |
Applies either a forward or backward gridshift based on the specified name |
</summary> |
<param name="names"></param> |
<param name="inverse"></param> |
<param name="xy"></param> |
<param name="startIndex"></param> |
<param name="numPoints"></param> |
</member> |
<member name="M:DotSpatial.Projections.GridShift.NadInterpolate(DotSpatial.Projections.PhiLam,DotSpatial.Projections.NadTable)"> |
<summary> |
|
</summary> |
<param name="t"></param> |
<param name="ct"></param> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.GridShift.GetValue(System.Int32,System.Int32,DotSpatial.Projections.NadTable)"> |
<summary> |
Checks the edges to make sure that we are not attempting to interpolate |
from cells that don't exist. |
</summary> |
<param name="iPhi">The cell index in the phi direction</param> |
<param name="iLam">The cell index in the lambda direction</param> |
<param name="table">The Table with the values</param> |
<returns>A PhiLam that has the shift coefficeints.</returns> |
</member> |
<member name="T:DotSpatial.Projections.ProjCloneableEM"> |
<summary> |
CloneableEM |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjCloneableEM.Copy``1(``0)"> |
<summary> |
The type parameter T is optional, so the intended use would be like: |
ObjectType copy = myObject.Copy(); |
</summary> |
<typeparam name="T">The type of the object</typeparam> |
<param name="original">The original object</param> |
<returns>A new object of the same type as the type being copied.</returns> |
</member> |
<member name="T:DotSpatial.Projections.AuxiliarySphereType"> |
<summary> |
AuxiliarySphereTypes |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AuxiliarySphereType.NotSpecified"> |
<summary> |
This indicates that this parameter should not appear in the projection string. |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AuxiliarySphereType.SemimajorAxis"> |
<summary> |
Use semimajor axis or radius of the geographic coordinate system |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AuxiliarySphereType.SemiminorAxis"> |
<summary> |
Use semiminor axis or radius |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AuxiliarySphereType.Authalic"> |
<summary> |
Calculate and use authalic radius |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.AuxiliarySphereType.AuthalicWithConvertedLatitudes"> |
<summary> |
Use authalic radius and convert geodetic latitudes to authalic latitudes |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Winkel2"> |
<summary> |
Winkel2 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Winkel2.#ctor"> |
<summary> |
Creates a new instance of Winkel2 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Winkel2.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.Winkel2.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.StereographicNorthPole"> |
<summary> |
StereographicNorthPole |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Stereographic"> |
<summary> |
Stereographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Stereographic.#ctor"> |
<summary> |
Creates a new instance of Stereographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Stereographic.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Stereographic.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Stereographic.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Stereographic.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Stereographic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.StereographicNorthPole.#ctor"> |
<summary> |
Creates a new instance of StereographicNorthPole |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Gnomonic"> |
<summary> |
Gnomonic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Gnomonic.#ctor"> |
<summary> |
Creates a new instance of Gnomonic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Gnomonic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Gnomonic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Gnomonic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Factors"> |
<summary> |
Factors |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Xl"> |
<summary> |
derivatives of x for lambda |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Xp"> |
<summary> |
derivatives of x for phi |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Yl"> |
<summary> |
derivatives of y for lambda |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Yp"> |
<summary> |
derivatives of y for phi |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.H"> |
<summary> |
Meridinal scale |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.K"> |
<summary> |
parallel scale |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Omega"> |
<summary> |
Angular distortion |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Thetap"> |
<summary> |
theta prime |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Conv"> |
<summary> |
Convergence |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.S"> |
<summary> |
Areal scale factor |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.A"> |
<summary> |
max scale error |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.B"> |
<summary> |
min scale error |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Factors.Code"> |
<summary> |
Info as to analytics |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.MercatorAuxiliarySphere"> |
<summary> |
Mercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.#ctor"> |
<summary> |
Creates a new instance of Mercator |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.EllipticalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.SphericalForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.EllipticalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.SphericalInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.Np(System.Double)"> |
<summary> |
n' is a calculation based on the eccentricity |
</summary> |
<param name="phi"></param> |
</member> |
<member name="M:DotSpatial.Projections.MercatorAuxiliarySphere.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.UtmOther"> |
<summary> |
UtmOther |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.UtmOther.#ctor"> |
<summary> |
Creates a new instance of UtmOther |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983Feet"> |
<summary> |
StatePlaneNad1983Feet |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1983Feet.#ctor"> |
<summary> |
Creates a new instance of StatePlaneNad1983Feet |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.SpheroidBased"> |
<summary> |
SpheroidBased |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.ProjectedCategories.SpheroidBased.Lambert2"> |
<summary> |
Lambert 2 (Central France) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.ProjectedCategories.SpheroidBased.Lambert2Wide"> |
<summary> |
Lambert 2 (Étendu) |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.SpheroidBased.#ctor"> |
<summary> |
Creates a new instance of SpheroidBased |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGrids"> |
<summary> |
NationalGrids |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGrids.#ctor"> |
<summary> |
Creates a new instance of NationalGrids |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Europe"> |
<summary> |
Europe |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Europe.#ctor"> |
<summary> |
Creates a new instance of Europe |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GridShiftTableFormat"> |
<summary> |
GridShiftTableFormats |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.GridShiftTableFormat.DAT"> |
<summary> |
The data format used by ntv1 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.GridShiftTableFormat.GSB"> |
<summary> |
The data format used by ntv2 and many others |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.GridShiftTableFormat.LLA"> |
<summary> |
The data format use by several other grid types |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.DatNadTable"> |
<summary> |
Handles the specific case of dat files like the ntv1 file format. |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.DatNadTable.#ctor(System.String)"> |
<summary> |
Creates a new instance of GsbNadTable |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.DatNadTable.ReadHeader"> |
<inheritdoc></inheritdoc> |
</member> |
<member name="M:DotSpatial.Projections.DatNadTable.FillData"> |
<inheritdoc></inheritdoc> |
</member> |
<member name="T:DotSpatial.Projections.Winkel1"> |
<summary> |
Winkel1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Winkel1.#ctor"> |
<summary> |
Creates a new instance of Winkel1 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Winkel1.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.Winkel1.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Winkel1.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Gauss"> |
<summary> |
Gauss |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Gauss.#ctor(System.Double,System.Double,System.Double@,System.Double@)"> |
<summary> |
Creates a new instance of Gauss |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Gauss.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Gauss.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Eckert6"> |
<summary> |
Eckert6 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert6.#ctor"> |
<summary> |
Creates a new instance of Eckert6 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert6.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.CrasterParabolic"> |
<summary> |
CrasterParabolic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.CrasterParabolic.#ctor"> |
<summary> |
Creates a new instance of CrasterParabolic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.CrasterParabolic.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.CrasterParabolic.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.ProjectionNames"> |
<summary> |
A strongly-typed resource class, for looking up localized strings, etc. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionNames.ResourceManager"> |
<summary> |
Returns the cached ResourceManager instance used by this class. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionNames.Culture"> |
<summary> |
Overrides the current thread's CurrentUICulture property for all |
resource lookups using this strongly typed resource class. |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.ProjectionNames.Michigan"> |
<summary> |
Looks up a localized string similar to Michigan GeoRef (2008). |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Polar"> |
<summary> |
Polar |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Polar.#ctor"> |
<summary> |
Creates a new instance of Polar |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsCanada"> |
<summary> |
NationalGridsCanada |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsCanada.#ctor"> |
<summary> |
Creates a new instance of NationalGridsCanada |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.Asia"> |
<summary> |
Asia |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.Asia.#ctor"> |
<summary> |
Creates a new instance of Asia |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Proj4Ellipsoid"> |
<summary> |
Proj4Ellipsoids |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Custom"> |
<summary> |
Custom will use the a parameter for the major axis and the |
rf parameter for the flattening divisor |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Merit_1983"> |
<summary> |
MERIT 1983 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.SovietGeodeticSystem_1985"> |
<summary> |
Soviet Geodetic System 85 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.GRS_1980"> |
<summary> |
Geodetic Reference System 1980(IUGG, 1980) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.IAU_1976"> |
<summary> |
International Astronomical Union 1976 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Airy_1830"> |
<summary> |
Sir George Biddell Airy 1830 (Britain) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.AppPhysics_1965"> |
<summary> |
App. Physics. 1965 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.NavalWeaponsLab_1965"> |
<summary> |
Naval Weapons Lab., 1965 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.AiryModified"> |
<summary> |
Modified Airy |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Andrae_1876"> |
<summary> |
Andrae 1876 (Den., Iclnd.) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Austrailia_SouthAmerica"> |
<summary> |
Austrailian National and South American 1969 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.GRS_1967"> |
<summary> |
Geodetic Reference System 67 (IUGG 1967) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Bessel_1841"> |
<summary> |
Bessel 1841 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.BesselNamibia"> |
<summary> |
Bessel 1841 (Namibia) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Clarke_1866"> |
<summary> |
Clarke 1866 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.ClarkeModified_1880"> |
<summary> |
Clarke 1880 Modified |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.CPM_1799"> |
<summary> |
Comm. des Poids et Mesures 1799 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Delambre_1810"> |
<summary> |
Delambre 1810 (Belgium) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Engelis_1985"> |
<summary> |
Engelis 1985 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Everest_1830"> |
<summary> |
Everest 1830 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Everest_1948"> |
<summary> |
Everest 1948 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Everest_1956"> |
<summary> |
Everest 1956 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Everest_1969"> |
<summary> |
Everest 1969 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Everest_SS"> |
<summary> |
Everest (Sabah and Sarawak) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Everest_Pakistan"> |
<summary> |
Everest (Pakistan) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Fischer_1960"> |
<summary> |
Fischer (Mercury Datum) 1960 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.FischerModified_1960"> |
<summary> |
Modified Fischer 1960 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Fischer_1968"> |
<summary> |
Fischer 1968 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Helmert_1906"> |
<summary> |
Helmert 1906 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Hough"> |
<summary> |
Hough |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Indonesian_1974"> |
<summary> |
Indonesian 1974 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.International_1909"> |
<summary> |
International 1909 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Krassovsky_1942"> |
<summary> |
Krassovsky 1942 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Kaula_1961"> |
<summary> |
Kaula 1961 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Lerch_1979"> |
<summary> |
Lerch 1979 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Maupertius_1738"> |
<summary> |
Maupertius 1738 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.InternationalNew_1967"> |
<summary> |
New International 1967 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Plessis_1817"> |
<summary> |
Plessis 1817 (France) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.SoutheastAsia"> |
<summary> |
Southeast Asia |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Walbeck"> |
<summary> |
Walbekc (Germany) |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.WGS_1960"> |
<summary> |
World Geodetic System 1960 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.WGS_1966"> |
<summary> |
World Geodetic System 1966 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.WGS_1972"> |
<summary> |
World Geodetic System 1972 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.WGS_1984"> |
<summary> |
World Geodetic System 1984 |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.Proj4Ellipsoid.Sphere"> |
<summary> |
Normal Sphere |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.KnownCoordinateSystems"> |
<summary> |
KnownCoordinateSystems |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownCoordinateSystems.Geographic"> |
<summary> |
Geographic systems operate in angular units, but can use different |
spheroid definitions or angular offsets. |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.KnownCoordinateSystems.Projected"> |
<summary> |
Projected systems are systems that use linear units like meters or feet |
rather than angular units like degrees or radians |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.SpheroidBased"> |
<summary> |
SpheroidBased |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.SpheroidBased.#ctor"> |
<summary> |
Creates a new instance of SpheroidBased |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.NorthAmerica"> |
<summary> |
NorthAmerica |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.NorthAmerica.#ctor"> |
<summary> |
Creates a new instance of NorthAmerica |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GsbNadTable"> |
<summary> |
This is a special case of a NadTable and has specific reading techniques that need to be handled |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GsbNadTable.#ctor(System.String,System.Int64)"> |
<summary> |
Creates a new instance of GsbNadTable |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GsbNadTable.ReadHeader"> |
<inheritdoc/> |
</member> |
<member name="M:DotSpatial.Projections.GsbNadTable.Initialize"> |
<summary> |
This handles the creation of the |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GsbNadTable.FillData"> |
<inheritdoc/> |
</member> |
<member name="M:DotSpatial.Projections.GsbNadTable.GetDouble(System.Byte[],System.Int32)"> |
<summary> |
Gets the double value from the specified position in the byte array |
Using BigEndian format. |
</summary> |
<param name="array"></param> |
<param name="offset"></param> |
<returns></returns> |
</member> |
<member name="T:DotSpatial.Projections.WinkelTripel"> |
<summary> |
WinkelTripel |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.WinkelTripel.#ctor"> |
<summary> |
Creates a new instance of WinkelTripel |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.WinkelTripel.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.WinkelTripel.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.TwoPointEquidistant"> |
<summary> |
TwoPointEquidistant |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.TwoPointEquidistant.#ctor"> |
<summary> |
Creates a new instance of TwoPointEquidistant |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.TwoPointEquidistant.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="M:DotSpatial.Projections.TwoPointEquidistant.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.TwoPointEquidistant.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Eckert5"> |
<summary> |
Eckert5 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert5.#ctor"> |
<summary> |
Creates a new instance of Eckert5 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert5.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Eckert5.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1927"> |
<summary> |
StatePlaneNad1927 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.StatePlaneNad1927.#ctor"> |
<summary> |
Creates a new instance of StatePlaneNad1927 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NationalGridsNorway"> |
<summary> |
NationalGridsNorway |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NationalGridsNorway.#ctor"> |
<summary> |
Creates a new instance of NationalGridsNorway |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.UniversalPolarStereographic"> |
<summary> |
UniversalPolarStereographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.UniversalPolarStereographic.#ctor"> |
<summary> |
Creates a new instance of UniversalPolarStereographic |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.UniversalPolarStereographic.OnInit(DotSpatial.Projections.ProjectionInfo)"> |
<summary> |
Initializes the transform using the parameters from the specified coordinate system information |
</summary> |
<param name="projInfo">A ProjectionInfo class contains all the standard and custom parameters needed to initialize this transform</param> |
</member> |
<member name="T:DotSpatial.Projections.Eckert4"> |
<summary> |
Eckert4 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert4.#ctor"> |
<summary> |
Creates a new instance of Eckert4 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert4.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Eckert4.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.Reproject"> |
<summary> |
Reproject |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Reproject.ReprojectPoints(System.Double[],System.Double[],DotSpatial.Projections.ProjectionInfo,DotSpatial.Projections.ProjectionInfo,System.Int32,System.Int32)"> |
<summary> |
|
</summary> |
<param name="xy">The xy array should be in interleaved set of xy coordinates like [x1, y1, x2, y2, ... xn, yn]</param> |
<param name="z">The z array is the array of all the z values</param> |
<param name="source"></param> |
<param name="dest"></param> |
<param name="startIndex"></param> |
<param name="numPoints"></param> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.UtmWgs1984"> |
<summary> |
UtmWgs1984 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.UtmWgs1984.#ctor"> |
<summary> |
Creates a new instance of UtmWgs1984 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.NorthAmerica"> |
<summary> |
NorthAmerica |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.NorthAmerica.#ctor"> |
<summary> |
Creates a new instance of NorthAmerica |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicInfo"> |
<summary> |
GeographicInfo |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicInfo.#ctor"> |
<summary> |
Creates a new instance of GeographicInfo |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicInfo.ToEsriString"> |
<summary> |
Generates an esri string from the information in this geographic info class, including the name, datum, meridian, and unit. |
</summary> |
<returns></returns> |
</member> |
<member name="M:DotSpatial.Projections.GeographicInfo.ReadEsriString(System.String)"> |
<summary> |
Reads an esri string in order to parse the datum, meridian and unit as well as the name. |
</summary> |
<param name="esriString">The string to parse</param> |
</member> |
<member name="M:DotSpatial.Projections.GeographicInfo.ReadProj4Parameters(System.Collections.Generic.Dictionary{System.String,System.String})"> |
<summary> |
Reads in parameters from the proj4 string that control the datum and prime meridian |
</summary> |
<param name="parameters">The dictionary of all the parameter names and values in string form</param> |
</member> |
<member name="P:DotSpatial.Projections.GeographicInfo.Datum"> |
<summary> |
Gets or sets the datum |
eg: D_WGS_1984 |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.GeographicInfo.Meridian"> |
<summary> |
Gets or sets the prime meridian longitude of the 0 mark, relative to Greenwitch |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.GeographicInfo.Name"> |
<summary> |
Gets or sets the geographic coordinate system name |
eg: GCS_WGS_1984 |
</summary> |
</member> |
<member name="P:DotSpatial.Projections.GeographicInfo.Unit"> |
<summary> |
Gets or sets the units |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.GeographicCategories.Oceans"> |
<summary> |
Oceans |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.GeographicCategories.Oceans.#ctor"> |
<summary> |
Creates a new instance of Oceans |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.Eckert3"> |
<summary> |
Eckert3 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert3.#ctor"> |
<summary> |
Creates a new instance of Eckert3 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.Eckert3.OnForward(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="M:DotSpatial.Projections.Eckert3.OnInverse(System.Double[],System.Double[],System.Int32,System.Int32)"> |
<inheritdoc /> |
</member> |
<member name="T:DotSpatial.Projections.ProjectedCategories.UtmWgs1972"> |
<summary> |
UtmWgs1972 |
</summary> |
</member> |
<member name="M:DotSpatial.Projections.ProjectedCategories.UtmWgs1972.#ctor"> |
<summary> |
Creates a new instance of UtmWgs1972 |
</summary> |
</member> |
<member name="T:DotSpatial.Projections.DatumType"> |
<summary> |
DatumTypes |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.DatumType.Unknown"> |
<summary> |
The datum type is not with a well defined ellips or grid-shift |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.DatumType.Param3"> |
<summary> |
The datum transform to WGS84 can be defined using 3 double parameters |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.DatumType.Param7"> |
<summary> |
The datum transform to WGS84 can be defined using 7 double parameters |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.DatumType.GridShift"> |
<summary> |
The transform requires a special nad gridshift |
</summary> |
</member> |
<member name="F:DotSpatial.Projections.DatumType.WGS84"> |
<summary> |
The datum is already the WGS84 datum |
</summary> |
</member> |
</members> |
</doc> |