MathTransform (Geotools modules 15-SNAPSHOT API)

For example, if the input dimension is 4 and the output dimension is 3, then a small displacement (x0, x1, x2, x3) in the input space will result in a displacement (y0, y1, y2) in the output space computed as below (en,m are the matrix's elements): , where some of the operational parameters are derived from observations, the transformation is accurate to within the limitations of those observations. If a client application wishes to query the source and target Transforms a list of coordinate point ordinal values. This method is provided for efficiently transforming many points. The supplied array of ordinal values will contain packed ordinal values. For example, if the source dimension is 3, then the ordinals will be packed in this order: ( - if a point can't be transformed. Some implementations will stop at the first failure, wile some other implementations will fill the untransformable points with Transforms a list of coordinate point ordinal values. This method is provided for efficiently transforming many points. The supplied array of ordinal values will contain packed ordinal values. For example, if the source dimension is 3, then the ordinals will be packed in this order: ( - if a point can't be transformed. Some implementations will stop at the first failure, wile some other implementations will fill the untransformable points with Transforms a list of coordinate point ordinal values. This method is provided for efficiently transforming many points. The supplied array of ordinal values will contain packed ordinal values. For example, if the source dimension is 3, then the ordinals will be packed in this order: ( - if a point can't be transformed. Some implementations will stop at the first failure, wile some other implementations will fill the untransformable points with Transforms a list of coordinate point ordinal values. This method is provided for efficiently transforming many points. The supplied array of ordinal values will contain packed ordinal values. For example, if the source dimension is 3, then the ordinals will be packed in this order: ( - if a point can't be transformed. Some implementations will stop at the first failure, wile some other implementations will fill the untransformable points with Gets the derivative of this transform at a point. The derivative is the matrix of the non-translating portion of the approximate affine map at the point. The matrix will have dimensions corresponding to the source and target coordinate systems. If the input dimension is - The coordinate point where to evaluate the derivative. Null value is accepted only if the derivative is the same everywhere. For example affine transform accept null value since they produces identical derivative no matter the coordinate value. But most map projection will requires a non-null value. Creates the inverse transform of this object. The target of the inverse transform is the source of the original. The source of the inverse transform is the target of the original. Using the original transform followed by the inverse's transform will result in an identity map on the source coordinate space, when allowances for error are made. This method may fail if the transform is not one to one. However, all cartographic projections should succeed. Source.


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Last Modified: April 18, 2016 @ 4:05 am