;+ ; Project : STEREO ; ; Name : WCS_INV_PROJ_F2A ; ; Purpose : Inverse of WCS_PROJ_F2A ; ; Category : FITS, Coordinates, WCS ; ; Explanation : This routine is called from WCS_GET_PIXEL to apply the inverse ; frequency-to-air-wavelength (F2A) projection to convert from ; spectral coordinates to intermediate relative coordinates. ; ; Syntax : WCS_INV_PROJ_F2A, WCS, COORD, I_AXIS ; ; Examples : See WCS_GET_PIXEL ; ; Inputs : WCS = A World Coordinate System structure, from FITSHEAD2WCS. ; COORD = The coordinates, e.g. from WCS_GET_COORD. ; I_AXIS= The axis to apply the projection to. ; ; Opt. Inputs : None. ; ; Outputs : The de-projected coordinates are returned in the COORD array. ; ; Opt. Outputs: None. ; ; Keywords : None. ; ; Calls : TAG_EXIST, NTRIM ; ; Common : None. ; ; Restrictions: Because this routine is intended to be called only from ; WCS_GET_PIXEL, no error checking is performed. ; ; Side effects: None. ; ; Prev. Hist. : None. ; ; History : Version 1, 08-Jun-2005, William Thompson, GSFC ; ; Contact : WTHOMPSON ;- ; pro wcs_inv_proj_f2a, wcs, coord, i_axis on_error, 2 c = 2.99792458D8 ;Speed of light param = [287.6155d0, 1.62887d-12, 0.01360d-24] pder = [287.6155d0, -1.62887d-12, -0.04080d-24] ; ; Get the final variable type. ; coord_type = strupcase( strmid(wcs.ctype[i_axis], 0, 4) ) ; ; Parse the units specification. ; cunit = wcs.cunit[i_axis] wcs_parse_units, cunit, base_units, factor ; ; Convert the reference value into the associated variable type, and get the ; derivative dP/dS at the reference point. ; case coord_type of 'AWAV': begin if (base_units ne 'm') and (cunit ne '') then begin message = 'Illegal units specification ' + cunit goto, handle_error endif p0 = factor * wcs.crval[i_axis] dpds = 1.d0 end else: begin message = 'Invalid projection ' + wcs.ctype[i_axis] + ' -- ignored' goto, handle_error endcase endcase ; ; Convert the reference value from the associated variable (p=air wavelength) ; into the sampled variable (x=frequency), and calculate dX/dw ; l0 = p0 * (1.d0 + 1.d-6 * (param[0] + param[1]/p0^2 + param[2]/p0^4)) x0 = c / l0 dxdw = -dpds * x0^2 / c * $ (1.d0 + 1.d-6 * (pder[0] + pder[1]/p0^2 + pder[2]/p0^4)) ; ; Apply the appropriate units conversion. ; p = factor * coord[i_axis,*] ; ; Convert into the sampled variable (frequency) ; x = c / (p * (1.d0 + 1.d-6 * (param[0] + param[1]/p^2 + param[2]/p^4))) ; ; Calculate the intermediate relative values. ; w = (x - x0) / dxdw ; ; Apply the appropriate units conversion, and return. ; coord[i_axis,*] = w / factor return ; ; Error handling point. ; handle_error: message, message, /continue coord[i_axis,*] = coord[i_axis,*] - wcs.crval[i_axis] ; return end