;+
;Procedure: tt01
;
;Purpose: tplot wrapper for the functional interface to the IDL Geopack
; implementation of the Tsyganenko 2001 and IGRF model.
;
;Input:
; pos_gsm_tvar: the tplot variable storing the position in
; gsm coordinates
;
;Keywords:
; pdyn(optional): Solar wind pressure(nanoPascals) should either be a
; string naming a tplot variable or an array or a single
; value. If a tplot input is used it will be interpolated to
; match the time inputs from the position var. Non-tplot array values
; must match the number of times in the tplot input for pos_gsm_tvar
;
; dsti(optional): DST index(nanoTeslas) should either be a
; string naming a tplot variable or an array or a single
; value. If a tplot input is used it will be interpolated to
; match the time inputs from the position var. Non-tplot array values
; must match the number of times in the tplot input for pos_gsm_tvar
;
; yimf(optional): y component of the interplanetary magnetic field
; should either be a string naming a tplot variable or an
; array or a single value. If a tplot input is used it will
; be interpolated to match the time inputs from the position
; var. Non-tplot array values must match the number of times in the
; tplot input for pos_gsm_tvar
;
; zimf(optional): z component of the interplanetary magnetic field
; should either be a string naming a tplot variable or an
; array or a single value. If a tplot input is used it will
; be interpolated to match the time inputs from the position
; var. Non-tplot array values must match the number of times in the
; tplot input for pos_gsm_tvar
;
; g1(optional): index describes solar wind conditions in the
; previous hour, should either be a string naming a tplot variable or an
; array or a single value. If a tplot input is used it will
; be interpolated to match the time inputs from the position
; var. Non-tplot array values must match the number of times in the
; tplot input for pos_gsm_tvar
;
; g2(optional): index describes solar wind conditions in the
; previous hour should either be a string naming a tplot variable or an
; array or a single value. If a tplot input is used it will
; be interpolated to match the time inputs from the position
; var. Non-tplot array values must match the number of times in the
; tplot input for pos_gsm_tvar
;
; parmod(optional): can input the Nx10 parmod array used by the
; Fortran Tsyganenko model. If passed as a raw array it will not be
; modified or interpolated so be sure its has the correct
; number of entries. It can also be passed as a tplot variable
; name in which case it will be interpolated. If values are
; passed individually and as par the par values will be overwritten.
;
; period(optional): the amount of time between recalculations of
; geodipole tilt in seconds(default: 60) increase this
; value to decrease run time
;
; get_nperiod(optional): Return the number of periods used in the time interval
;
; newname(optional):the name of the output variable.
; (default: pos_gsm_tvar+'_bt01') This option is ignored if globbing is used.
;
; error(optional): named variable in which to return the
; error state of this procedure call. 1 = success, 0 = failure
;
; get_tilt(optional): Set this value to a tplot variable name in which the geodipole
; tilt for each period will be returned. One sample will be returned for each period
; with time at the center of the period.
;
; set_tilt(optional): Set this to a tplot variable name or an array of values containing the dipole tilt that should be used.
; If a tplot input is used it will be interpolated to match the time inputs from the position
; var. Non-tplot array values must match the number of times in the tplot input for pos_gsm_tvar
; Notes:
; 1) set_tilt will cause add_tilt to be ignored
; 2) Due to this routine adding IGRF to the returned field, you cannot use set_tilt = 0 and give input
; position values in SM coordinates; input position values are required to be in GSM coordinates due to the
; IGRF calculation
;
; add_tilt(optional): Set this to a tplot variable name or an array of values containing the values to be added to the dipole tilt
; that should be used for each period. If a tplot input is used it will be interpolated to match the time inputs from the position
;
; storm(optional): Set this to use the storm-time version of the T01 model
;
; geopack_2008 (optional): Set this keyword to use the latest version (2008) of the Geopack
; library. Version 9.2 of the IDL Geopack DLM is required for this keyword to work.
;
; Output: Stores the result of the field model calculations in tplot variables
;
; Notes:
; 1. converts from normal gsm to rgsm by dividing vectors by earth's
; radius(6371.2 km) ie inputs should be in km
; 6371.2 = the value used in the GEOPACK FORTRAN code for Re
; 2. Input must be in GSM coordinates
; 3. Haje Korth's IDL/Geopack DLM must be installed for this
; procedure to work
; 4. either the variables setting parmod or the variables
; setting the individual parameter arrays should be set because
; the defaults aren't scientifically accurate
; 5. model parameters that are input as tplot variables they
; will be interpolated to match the time values on the input
; position
; 6.Find more documentation on the inner workings of the model,
; any gotchas, and the meaning of the arguments at:
; http://geo.phys.spbu.ru/~tsyganenko/modeling.html
; -or-
; http://ampere.jhuapl.edu/code/idl_geopack.html
; 7. Definition of G1 and G2 can be found at:
; http://modelweb.gsfc.nasa.gov/magnetos/data-based/Paper220.pdf
; http://modelweb.gsfc.nasa.gov/magnetos/data-based/Paper219.pdf
;
; $LastChangedBy: egrimes $
; $LastChangedDate: 2015-03-20 08:27:55 -0700 (Fri, 20 Mar 2015) $
; $LastChangedRevision: 17153 $
; $URL: svn+ssh://thmsvn@ambrosia.ssl.berkeley.edu/repos/spdsoft/tags/spedas_3_1/external/IDL_GEOPACK/t01/tt01.pro $
;-
pro tt01, pos_gsm_tvar, pdyn=pdyn, dsti=dsti, yimf=yimf, zimf=zimf, $
g1=g1, g2=g2, parmod=parmod, period=period, get_nperiod=get_nperiod, $
newname=newname, error=error, get_tilt=get_tilt, set_tilt=set_tilt, $
add_tilt=add_tilt, storm=storm, geopack_2008=geopack_2008
error = 0
if not keyword_set(pos_gsm_tvar) then begin
message, /continue, 'pos_gsm_tvar must be set'
return
endif
var_names = tnames(pos_gsm_tvar)
if(var_names[0] eq '') then begin
message, /continue, 'No valid tplot_variables match pos_gsm_tvar'
return
endif else if(n_elements(var_names) ne 1) then begin
message, /continue, 'tt01 only accepts one position tplot variable as input'
return
end
var_name = var_names[0];just in case
if n_elements(parmod) gt 0 then begin
; check that parmod is a valid tplot variable
if size(parmod,/type) eq 7 then begin
if tnames(parmod) eq '' then message,'parmod variable not valid tplot variable'
tinterpol_mxn,parmod,var_name,newname='par_out'
get_data,'par_out',data=dat
par_temp = dat.y
endif else par_temp = parmod
if n_elements(pdyn_dat) gt 0 then begin
pdyn_dat = tsy_valid_param(pdyn, var_name)
if(size(pdyn_dat, /n_dim) eq 0 && pdyn_dat[0] eq -1L) then return
endif else begin
pdyn_dat = par_temp[*,0]
endelse
if n_elements(dsti_dat) gt 0 then begin
dsti_dat = tsy_valid_param(dsti, var_name)
if(size(dsti_dat, /n_dim) eq 0 && dsti_dat[0] eq -1L) then return
endif else begin
dsti_dat = par_temp[*,1]
endelse
if n_elements(yimf_dat) gt 0 then begin
yimf_dat = tsy_valid_param(yimf, var_name)
if(size(yimf_dat, /n_dim) eq 0 && yimf_dat[0] eq -1L) then return
endif else begin
yimf_dat = par_temp[*,2]
endelse
if n_elements(zimf_dat) gt 0 then begin
zimf_dat = tsy_valid_param(zimf, var_name)
if(size(zimf_dat, /n_dim) eq 0 && zimf_dat[0] eq -1L) then return
endif else begin
zimf_dat = par_temp[*,3]
endelse
if n_elements(g1_dat) gt 0 then begin
g1_dat = tsy_valid_param(g1, var_name)
if(size(g1_dat, /n_dim) eq 0 && g1_dat[0] eq -1L) then return
endif else begin
g1_dat = par_temp[*,4]
endelse
if n_elements(g2_dat) gt 0 then begin
g2_dat = tsy_valid_param(g2, var_name)
if(size(g2_dat, /n_dim) eq 0 && g2_dat[0] eq -1L) then return
endif else begin
g2_dat = par_temp[*,5]
endelse
endif else begin
; the user didn't provide a parameter array (parmod), need to check
; the individual parameter keywords
if undefined(pdyn) || undefined(dsti) || undefined(yimf) || $
undefined(zimf) || undefined(g1) || undefined(g2) then begin
dprint, dlevel = 1, 'Error, missing one or more of the required model parameters'
return
endif
pdyn_dat = tsy_valid_param(pdyn, var_name)
if(size(pdyn_dat, /n_dim) eq 0 && pdyn_dat[0] eq -1L) then return
dsti_dat = tsy_valid_param(dsti, var_name)
if(size(dsti_dat, /n_dim) eq 0 && dsti_dat[0] eq -1L) then return
yimf_dat = tsy_valid_param(yimf, var_name)
if(size(yimf_dat, /n_dim) eq 0 && yimf_dat[0] eq -1L) then return
zimf_dat = tsy_valid_param(zimf, var_name)
if(size(zimf_dat, /n_dim) eq 0 && zimf_dat[0] eq -1L) then return
g1_dat = tsy_valid_param(g1, var_name)
if(size(g1_dat, /n_dim) eq 0 && g1_dat[0] eq -1L) then return
g2_dat = tsy_valid_param(g2, var_name)
if(size(g2_dat, /n_dim) eq 0 && g2_dat[0] eq -1L) then return
endelse
get_data, var_name, data = d, dlimits = dl, limits = l
; check the variable's coordinate system
if tsy_valid_coords(dl, geopack_2008 = geopack_2008) eq -1 then return
if n_elements(add_tilt) gt 0 then begin
add_tilt_dat = tsy_valid_param(add_tilt, var_name)
if(size(add_tilt, /n_dim) eq 0 && add_tilt_dat[0] eq -1L) then return
endif
if n_elements(set_tilt) gt 0 then begin
set_tilt_dat = tsy_valid_param(set_tilt, var_name)
if(size(set_tilt, /n_dim) eq 0 && set_tilt_dat[0] eq -1L) then return
endif
;do the calculation, division (by 6371.2) converts position into earth radii units
;various types for various tilt control options
if n_elements(set_tilt) gt 0 then begin
mag_array = t01(d.x, d.y/6371.2, pdyn_dat, dsti_dat, yimf_dat, zimf_dat, g1_dat, g2_dat, $
period = period,get_nperiod=get_nperiod,get_period_times=period_times_dat, $
get_tilt=tilt_dat,set_tilt=set_tilt_dat,storm=storm,geopack_2008=geopack_2008)
endif else if n_elements(add_tilt) gt 0 then begin
mag_array = t01(d.x, d.y/6371.2, pdyn_dat, dsti_dat, yimf_dat, zimf_dat, g1_dat, g2_dat, $
period = period,get_nperiod=get_nperiod,get_period_times=period_times_dat, $
get_tilt=tilt_dat,add_tilt=add_tilt_dat,storm=storm,geopack_2008=geopack_2008)
endif else begin
mag_array = t01(d.x, d.y/6371.2, pdyn_dat, dsti_dat, yimf_dat, zimf_dat, g1_dat, g2_dat, $
period = period,get_nperiod=get_nperiod,get_period_times=period_times_dat, $
get_tilt=tilt_dat,storm=storm,geopack_2008=geopack_2008)
endelse
if size(mag_array, /n_dim) eq 0 && mag_array[0] eq -1L then begin
message, /continue, 'Tsyganenko model query failed, returning'
return
endif
if is_string(get_tilt) then begin
store_data,get_tilt,data={x:period_times_dat,y:tilt_dat}
endif
;sometimes v element is present, sometimes not
;if it is around it is stored in output so information is not lost
str_element, d, 'v', success = s
if s eq 1 then $
d_out = {x:d.x, y:mag_array, v:d.v} $
else $
d_out = {x:d.x, y:mag_array}
if keyword_set(newname) then $
store_data, newname, data = d_out, dlimits = dl, limits = l $
else $
store_data, var_name +'_bt01', data = d_out, dlimits = dl, limits = l
;signal success
error = 1
return
end