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subroutine stats
c******************************************************************************
c This routine does abundance statistics for a single species
c******************************************************************************
implicit real*8 (a-h,o-z)
include 'Atmos.com'
include 'Linex.com'
include 'Pstuff.com'
c*****compute the average and standard deviation
average = 0.
kount = 0
do l=lim1obs,lim2obs
if (abundout(l) /= 999.99) then
average = average + abundout(l)
kount = kount + 1
endif
enddo
if (kount > 0) then
average = average/kount
endif
deviate = 0.
if (kount > 1) then
do l=lim1obs,lim2obs
if (abundout(l) /= 999.99) then
deviate = deviate + (abundout(l)-average)**2
endif
enddo
deviate = dsqrt(deviate/(kount-1))
endif
c*****correlate the abundances with excitation potential, equivalent width,
c and wavelength
if (kount > 2) then
epmin = 999.
epmax = -999.
rwmin = 999.
rwmax = -999.
wvmin = 999999.
wvmax = -999999.
x1 = 0.
x2 = 0.
x3 = 0.
x4 = 0.
x5 = 0.
x6 = 0.
y1 = 0.
y2 = 0.
xy = 0.
yz = 0.
za = 0.
do l=lim1obs,lim2obs
if (abundout(l) /= 999.99) then
c rw = dlog10(wid1comp(l)/wave1(l))
rw = dlog10(width(l)/wave1(l))
x1 = x1 + e(l,1)
x2 = x2 + e(l,1)**2
x3 = x3 + rw
x4 = x4 + rw**2
x5 = x5 + wave1(l)
x6 = x6 + wave1(l)**2
y1 = y1 + abundout(l)
y2 = y2 + abundout(l)**2
xy = xy + e(l,1)*abundout(l)
yz = yz + rw*abundout(l)
za = za + wave1(l)*abundout(l)
if (e(l,1) < epmin) epmin = e(l,1)
if (e(l,1) > epmax) epmax = e(l,1)
if (rw < rwmin) rwmin = rw
if (rw > rwmax) rwmax = rw
if (wave1(l) < wvmin) wvmin = wave1(l)
if (wave1(l) > wvmax) wvmax = wave1(l)
endif
enddo
xxm1 = (kount*xy - x1*y1)/(kount*x2 - x1**2)
xxb1 = (y1*x2 - xy*x1)/(kount*x2 - x1**2)
xxr1 = (kount*xy - x1*y1)/dsqrt((kount*x2 - x1**2)*
. (kount*y2 - y1**2))
deltaep = epmax - epmin
xxm2 = (kount*yz - x3*y1)/(kount*x4 - x3**2)
xxb2 = (y1*x4 - yz*x3)/(kount*x4 - x3**2)
xxr2 = (kount*yz - x3*y1)/dsqrt((kount*x4 - x3**2)*
. (kount*y2 - y1**2))
deltarw = rwmax - rwmin
xxm3 = (kount*za - x5*y1)/(kount*x6 - x5**2)
xxb3 = (y1*x6 - za*x5)/(kount*x6 - x5**2)
xxr3 = (kount*za - x5*y1)/dsqrt((kount*x6 - x5**2)*
. (kount*y2 - y1**2))
deltawv = wvmax - wvmin
endif
return
end
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