;+ ; NAME: ; GAUSS2 ; ; AUTHOR: ; Craig B. Markwardt, NASA/GSFC Code 662, Greenbelt, MD 20770 ; craigm@lheamail.gsfc.nasa.gov ; ; PURPOSE: ; Compute Gaussian curve given the mean, sigma and area. ; ; MAJOR TOPICS: ; Curve and Surface Fitting ; ; CALLING SEQUENCE: ; YVALS = GAUSS2(X, Y, [XCENT, YCENT, SIGMA, PEAK]) ; ; DESCRIPTION: ; ; This routine computes the values of a Gaussian function whose ; X-values, mean, sigma, and total area are given. It is meant to be ; a demonstration for curve-fitting. ; ; XVALS can be an array of X-values, in which case the returned ; Y-values are an array as well. The second parameter to GAUSS1 ; should be an array containing the MEAN, SIGMA, and total AREA, in ; that order. ; ; INPUTS: ; X - 2-dimensional array of "X"-values. ; Y - 2-dimensional array of "Y"-values. ; ; XCENT - X-position of gaussian centroid. ; YCENT - Y-position of gaussian centroid. ; ; SIGMA - sigma of the curve (X and Y widths are the same). ; ; PEAK - the peak value of the gaussian function. ; ; RETURNS: ; ; Returns the array of Y-values. ; ; EXAMPLE: ; ; p = [2.2D, -0.7D, 1.4D, 3000.D] ; x = (dindgen(200)*0.1 - 10.) # (dblarr(200) + 1) ; y = (dblarr(200) + 1) # (dindgen(200)*0.1 - 10.) ; z = gauss2(x, y, p) ; ; Computes the values of the Gaussian at equispaced intervals in X ; and Y (spacing is 0.1). The gaussian has a centroid position of ; (2.2, -0.7), standard deviation of 1.4, and peak value of 3000. ; ; REFERENCES: ; ; MODIFICATION HISTORY: ; Written, 02 Oct 1999, CM ; ;- function gauss2, x, y, p, _EXTRA=extra u = ((x-p(0))/p(2))^2 + ((y-p(1))/p(2))^2 mask = u LT 100 f = p(3) * mask * exp(-0.5D * temporary(u) * mask) mask = 0 return, f end