The TRI_SURF function interpolates a regularly- or irregularly-gridded set of points with a smooth quintic surface. The result is s a two-dimensional floating-point array containing the interpolated surface, sampled at the grid points.
TRI_SURF is similar to MIN_CURVE_SURF but the surface fitted is a smooth surface, not a minimum curvature surface. TRI_SURF has the advantage of being much more efficient for larger numbers of points.
The TRI_SURF function is designed to interpolate low resolution data. Large arrays may cause TRI_SURF to issue the following error message:
Partial Derivative Approximation Failed to Converge
In such cases, interpolation is most likely unnecessary.
This routine is written in the IDL language. Its source code can be found in the file
subdirectory of the IDL distribution.
arrays containing the X, Y, and Z coordinates of the data points on the surface. Points need not be regularly gridded. For regularly gridded input data, X and Y are not used: the grid spacing is specified via the XGRID and YGRID (or XVALUES and YVALUES) keywords, and Z must be a two dimensional array. For irregular grids, all three parameters must be present and have the same number of elements.
Set this keyword to use linear interpolation, without gradient estimates, instead of quintic interpolation. Linear interpolation does not extrapolate, although it is faster and more numerically stable.
If set, the Z parameter is a two-dimensional array of dimensions ( n,m ), containing measurements over a regular grid. If any of XGRID, YGRID, XVALUES, or YVALUES are specified, REGULAR is implied. REGULAR is also implied if there is only one parameter, Z . If REGULAR is set, and no grid specifications are present, the grid is set to (0, 1, 2, ...).
The output grid spacing. If present, GS must be a two-element vector [ xs, ys ], where xs is the horizontal spacing between grid points and ys is the vertical spacing. The default is based on the extents of x and y . If the grid starts at x value xmin and ends at xmax , then the default horizontal spacing is ( xmax - xmin )/(NX-1). YS is computed in the same way. The default grid size, if neither NX or NY are specified, is 26 by 26.
If present, BOUNDS must be a four-element array containing the grid limits in x and y of the output grid: [ xmin, ymin, xmax, ymax ]. If not specified, the grid limits are set to the extent of x and y .