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dspace.go
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package satellite
import (
"math"
)
// A struct returned from the dsinit function
type DeepSpaceInitResult struct {
em, argpm, inclm, mm, nm, nodem, irez, atime, d2201, d2211, d3210, d3222, d4410, d4422, d5220, d5232, d5421, d5433, dedt, didt, dmdt, dndt, dnodt, domdt, del1, del2, del3, xfact, xlamo, xli, xni float64
}
// A struct returned from the dspace function
type DeepSpaceResult struct {
atime, em, argpm, inclm, xli, mm, xni, nodem, dndt, nm float64
}
// this procedure provides deep space contributions to mean motion dot due to geopotential resonance with half day and one day orbits.
func dsinit(whichconst GravConst, cosim, emsq, argpo, s1, s2, s3, s4, s5, sinim, ss1, ss2, ss3, ss4, ss5, sz1, sz3, sz11, sz13, sz21, sz23, sz31, sz33, t, tc, gsto, mo, mdot, no, nodeo, nodedot, xpidot, z1, z3, z11, z13, z21, z23, z31, z33, ecco, eccsq, em, argpm, inclm, mm, nm, nodem, irez, atime, d2201, d2211, d3210, d3222, d4410, d4422, d5220, d5232, d5421, d5433, dedt, didt, dmdt, dnodt, domdt, del1, del2, del3, xfact, xlamo, xli, xni float64) (res DeepSpaceInitResult) {
var f220, f221, f311, f321, f322, f330, f441, f442, f522, f523, f542, f543, g200, g201, g211, g300, g310, g322, g410, g422, g520, g521, g532, g533, sini2, temp, temp1, theta, xno2, ainv2, aonv, cosisq, eoc float64
q22 := 1.7891679e-6
q31 := 2.1460748e-6
q33 := 2.2123015e-7
root22 := 1.7891679e-6
root44 := 7.3636953e-9
root54 := 2.1765803e-9
rptim := 4.37526908801129966e-3
root32 := 3.7393792e-7
root52 := 1.1428639e-7
x2o3 := 2.0 / 3.0
znl := 1.5835218e-4
zns := 1.19459e-5
xke := whichconst.xke
irez = 0
if 0.0034906585 < nm && nm < 0.0052359877 {
irez = 1
}
if 8.26e-3 <= nm && nm <= 9.24e-3 && em >= 0.5 {
irez = 2
}
ses := ss1 * zns * ss5
sis := ss2 * zns * (sz11 + sz13)
sls := -zns * ss3 * (sz1 + sz3 - 14.0 - 6.0*emsq)
sghs := ss4 * zns * (sz31 + sz33 - 6.0)
shs := -zns * ss2 * (sz21 + sz23)
if inclm < 5.2359877e-2 || inclm > math.Pi-5.2359877e-2 {
shs = 0.0
}
if sinim != 0.0 {
shs = shs / sinim
}
sgs := sghs - cosim*shs
dedt = ses + s1*znl*s5
didt = sis + s2*znl*(z11+z13)
dmdt = sls - znl*s3*(z1+z3-14.0-6.0*emsq)
sghl := s4 * znl * (z31 + z33 - 6.0)
shll := -znl * s2 * (z21 + z23)
if inclm < 5.2359877e-2 || inclm > math.Pi-5.2359877e-2 {
shll = 0.0
}
domdt = sgs + sghl
dnodt = shs
if sinim != 0.0 {
domdt = domdt - cosim/sinim*shll
dnodt = dnodt + shll/sinim
}
dndt := 0.0
theta = math.Mod(gsto+tc*rptim, TWOPI)
em = em + dedt*t
inclm = inclm + didt*t
argpm = argpm + domdt*t
nodem = nodem + dnodt*t
mm = mm + dmdt*t
if irez != 0 {
aonv = math.Pow(nm/xke, x2o3)
if irez == 2 {
cosisq = cosim * cosim
emo := em
em = ecco
emsqo := emsq
emsq = eccsq
eoc = em * emsq
g201 = -0.306 - (em-0.64)*0.440
if em <= 0.65 {
g211 = 3.616 - 13.2470*em + 16.2900*emsq
g310 = -19.302 + 117.3900*em - 228.4190*emsq + 156.5910*eoc
g322 = -18.9068 + 109.7927*em - 214.6334*emsq + 146.5816*eoc
g410 = -41.122 + 242.6940*em - 471.0940*emsq + 313.9530*eoc
g422 = -146.407 + 841.8800*em - 1629.014*emsq + 1083.4350*eoc
g520 = -532.114 + 3017.977*em - 5740.032*emsq + 3708.2760*eoc
} else {
g211 = -72.099 + 331.819*em - 508.738*emsq + 266.724*eoc
g310 = -346.844 + 1582.851*em - 2415.925*emsq + 1246.113*eoc
g322 = -342.585 + 1554.908*em - 2366.899*emsq + 1215.972*eoc
g410 = -1052.797 + 4758.686*em - 7193.992*emsq + 3651.957*eoc
g422 = -3581.690 + 16178.110*em - 24462.770*emsq + 12422.520*eoc
if em > 0.715 {
g520 = -5149.66 + 29936.92*em - 54087.36*emsq + 31324.56*eoc
} else {
g520 = 1464.74 - 4664.75*em + 3763.64*emsq
}
}
if em < 0.7 {
g533 = -919.22770 + 4988.6100*em - 9064.7700*emsq + 5542.21*eoc
g521 = -822.71072 + 4568.6173*em - 8491.4146*emsq + 5337.524*eoc
g532 = -853.66600 + 4690.2500*em - 8624.7700*emsq + 5341.4*eoc
} else {
g533 = -37995.780 + 161616.52*em - 229838.20*emsq + 109377.94*eoc
g521 = -51752.104 + 218913.95*em - 309468.16*emsq + 146349.42*eoc
g532 = -40023.880 + 170470.89*em - 242699.48*emsq + 115605.82*eoc
}
sini2 = sinim * sinim
f220 = 0.75 * (1.0 + 2.0*cosim + cosisq)
f221 = 1.5 * sini2
f321 = 1.875 * sinim * (1.0 - 2.0*cosim - 3.0*cosisq)
f322 = -1.875 * sinim * (1.0 + 2.0*cosim - 3.0*cosisq)
f441 = 35.0 * sini2 * f220
f442 = 39.3750 * sini2 * sini2
f522 = 9.84375 * sinim * (sini2*(1.0-2.0*cosim-5.0*cosisq) + 0.33333333*(-2.0+4.0*cosim+6.0*cosisq))
f523 = sinim * (4.92187512*sini2*(-2.0-4.0*cosim+10.0*cosisq) + 6.56250012*(1.0+2.0*cosim-3.0*cosisq))
f542 = 29.53125 * sinim * (2.0 - 8.0*cosim + cosisq*(-12.0+8.0*cosim+10.0*cosisq))
f543 = 29.53125 * sinim * (-2.0 - 8.0*cosim + cosisq*(12.0+8.0*cosim-10.0*cosisq))
xno2 = nm * nm
ainv2 = aonv * aonv
temp1 = 3.0 * xno2 * ainv2
temp = temp1 * root22
d2201 = temp * f220 * g201
d2211 = temp * f221 * g211
temp1 = temp1 * aonv
temp = temp1 * root32
d3210 = temp * f321 * g310
d3222 = temp * f322 * g322
temp1 = temp1 * aonv
temp = 2.0 * temp1 * root44
d4410 = temp * f441 * g410
d4422 = temp * f442 * g422
temp1 = temp1 * aonv
temp = temp1 * root52
d5220 = temp * f522 * g520
d5232 = temp * f523 * g532
temp = 2.0 * temp1 * root54
d5421 = temp * f542 * g521
d5433 = temp * f543 * g533
xlamo = math.Mod(mo+nodeo+nodeo-theta-theta, TWOPI)
xfact = mdot + dmdt + 2.0*(nodedot+dnodt-rptim) - no
em = emo
emsq = emsqo
}
if irez == 1 {
g200 = 1.0 + emsq*(-2.5+0.8125*emsq)
g310 = 1.0 + 2.0*emsq
g300 = 1.0 + emsq*(-6.0+6.60937*emsq)
f220 = 0.75 * (1.0 + cosim) * (1.0 + cosim)
f311 = 0.9375*sinim*sinim*(1.0+3.0*cosim) - 0.75*(1.0+cosim)
f330 = 1.0 + cosim
f330 = 1.875 * f330 * f330 * f330
del1 = 3.0 * nm * nm * aonv * aonv
del2 = 2.0 * del1 * f220 * g200 * q22
del3 = 3.0 * del1 * f330 * g300 * q33 * aonv
del1 = del1 * f311 * g310 * q31 * aonv
xlamo = math.Mod(mo+nodeo+argpo-theta, TWOPI)
xfact = mdot + xpidot - rptim + dmdt + domdt + dnodt - no
}
xli = xlamo
xni = no
atime = 0.0
nm = no + dndt
}
res.em = em
res.argpm = argpm
res.inclm = inclm
res.mm = mm
res.nm = nm
res.nodem = nodem
res.irez = irez
res.atime = atime
res.d2201 = d2201
res.d2211 = d2211
res.d3210 = d3210
res.d3222 = d3222
res.d4410 = d4410
res.d4422 = d4422
res.d5220 = d5220
res.d5232 = d5232
res.d5421 = d5421
res.d5433 = d5433
res.dedt = dedt
res.didt = didt
res.dmdt = dmdt
res.dndt = dndt
res.dnodt = dnodt
res.domdt = domdt
res.del1 = del1
res.del2 = del2
res.del3 = del3
res.xfact = xfact
res.xlamo = xlamo
res.xli = xli
res.xni = xni
return
}
// this procedure provides deep space contributions to mean elements for perturbing third body. these effects have been averaged over one revolution of the sun and moon. for earth resonance effects, the effects have been averaged over no revolutions of the satellite. (mean motion)
func dspace(irez, d2201, d2211, d3210, d3222, d4410, d4422, d5220, d5232, d5421, d5433, dedt, del1, del2, del3, didt, dmdt, dnodt, domdt, argpo, argpdot, t, tc, gsto, xfact, xlamo, no, atime, em, argpm, inclm, xli, mm, xni, nodem, nm float64) (result DeepSpaceResult) {
var delt, ft, theta, x2li, x2omi, xl, xldot, xnddt, xndt, xomi float64
fasx2 := 0.13130908
fasx4 := 2.8843198
fasx6 := 0.37448087
g22 := 5.7686396
g32 := 0.95240898
g44 := 1.8014998
g52 := 1.0508330
g54 := 4.4108898
rptim := 4.37526908801129966e-3
stepp := 720.0
stepn := -720.0
step2 := 259200.0
dndt := 0.0
theta = math.Mod((gsto + tc*rptim), TWOPI)
em = em + dedt*t
inclm = inclm + didt*t
argpm = argpm + domdt*t
nodem = nodem + dnodt*t
mm = mm + dmdt*t
ft = 0.0
if irez != 0.0 {
if atime == 0.0 || t*atime <= 0.0 || math.Abs(t) < math.Abs(atime) {
atime = 0.0
xni = no
xli = xlamo
}
if t > 0.0 {
delt = stepp
} else {
delt = stepn
}
iretn := 381
for iretn == 381 {
if irez != 2 {
xndt = del1*math.Sin(xli-fasx2) + del2*math.Sin(2.0*(xli-fasx4)) + del3*math.Sin(3.0*(xli-fasx6))
xldot = xni + xfact
xnddt = del1*math.Cos(xli-fasx2) + 2.0*del2*math.Cos(2.0*(xli-fasx4)) + 3.0*del3*math.Cos(3.0*(xli-fasx6))
xnddt = xnddt * xldot
} else {
xomi = argpo + argpdot*atime
x2omi = xomi + xomi
x2li = xli + xli
xndt = (d2201*math.Sin(x2omi+xli-g22) + d2211*math.Sin(xli-g22) + d3210*math.Sin(xomi+xli-g32) + d3222*math.Sin(-xomi+xli-g32) + d4410*math.Sin(x2omi+x2li-g44) + d4422*math.Sin(x2li-g44) + d5220*math.Sin(xomi+xli-g52) + d5232*math.Sin(-xomi+xli-g52) + d5421*math.Sin(xomi+x2li-g54) + d5433*math.Sin(-xomi+x2li-g54))
xldot = xni + xfact
xnddt = (d2201*math.Cos(x2omi+xli-g22) + d2211*math.Cos(xli-g22) + d3210*math.Cos(xomi+xli-g32) + d3222*math.Cos(-xomi+xli-g32) + d5220*math.Cos(xomi+xli-g52) + d5232*math.Cos(-xomi+xli-g52) + 2.0*(d4410*math.Cos(x2omi+x2li-g44)+d4422*math.Cos(x2li-g44)+d5421*math.Cos(xomi+x2li-g54)+d5433*math.Cos(-xomi+x2li-g54)))
xnddt = xnddt * xldot
}
if math.Abs(t-atime) >= stepp {
iretn = 381
} else {
ft = t - atime
iretn = 0
}
if iretn == 381 {
xli = xli + xldot*delt + xndt*step2
xni = xni + xndt*delt + xnddt*step2
atime = atime + delt
}
}
nm = xni + xndt*ft + xnddt*ft*ft*0.5
xl = xli + xldot*ft + xndt*ft*ft*0.5
if irez != 1 {
mm = xl - 2.0*nodem + 2.0*theta
dndt = nm - no
} else {
mm = xl - nodem - argpm + theta
dndt = nm - no
}
nm = no + dndt
}
result.atime = atime
result.em = em
result.argpm = argpm
result.inclm = inclm
result.xli = xli
result.mm = mm
result.xni = xni
result.nodem = nodem
result.dndt = dndt
result.nm = nm
return
}
// A struct returned from the dpper function
type DpperResult struct {
ep, inclp, nodep, argpp, mp float64
}
// this procedure provides deep space long period periodic contributions to the mean elements. by design, these periodics are zero at epoch. this used to be dscom which included initialization, but it's really a recurring function.
func dpper(satrec *Satellite, inclo float64, init string, ep, inclp, nodep, argpp, mp float64, opsmode string) (result DpperResult) {
e3 := satrec.e3
ee2 := satrec.ee2
peo := satrec.peo
pgho := satrec.pgho
pho := satrec.pho
pinco := satrec.pinco
plo := satrec.plo
se2 := satrec.se2
se3 := satrec.se3
sgh2 := satrec.sgh2
sgh3 := satrec.sgh3
sgh4 := satrec.sgh4
sh2 := satrec.sh2
sh3 := satrec.sh3
si2 := satrec.si2
si3 := satrec.si3
sl2 := satrec.sl2
sl3 := satrec.sl3
sl4 := satrec.sl4
t := satrec.t
xgh2 := satrec.xgh2
xgh3 := satrec.xgh3
xgh4 := satrec.xgh4
xh2 := satrec.xh2
xh3 := satrec.xh3
xi2 := satrec.xi2
xi3 := satrec.xi3
xl2 := satrec.xl2
xl3 := satrec.xl3
xl4 := satrec.xl4
zmol := satrec.zmol
zmos := satrec.zmos
zns := 1.19459e-5
zes := 0.01675
znl := 1.5835218e-4
zel := 0.05490
zm := zmos + zns*t
if init == "y" {
zm = zmos
}
zf := zm + 2.0*zes*math.Sin(zm)
sinzf := math.Sin(zf)
f2 := 0.5*sinzf*sinzf - 0.25
f3 := -0.5 * sinzf * math.Cos(zf)
ses := se2*f2 + se3*f3
sis := si2*f2 + si3*f3
sls := sl2*f2 + sl3*f3 + sl4*sinzf
sghs := sgh2*f2 + sgh3*f3 + sgh4*sinzf
shs := sh2*f2 + sh3*f3
zm = zmol + znl*t
if init == "y" {
zm = zmol
}
zf = zm + 2.0*zel*math.Sin(zm)
sinzf = math.Sin(zf)
f2 = 0.5*sinzf*sinzf - 0.25
f3 = -0.5 * sinzf * math.Cos(zf)
sel := ee2*f2 + e3*f3
sil := xi2*f2 + xi3*f3
sll := xl2*f2 + xl3*f3 + xl4*sinzf
sghl := xgh2*f2 + xgh3*f3 + xgh4*sinzf
shll := xh2*f2 + xh3*f3
pe := ses + sel
pinc := sis + sil
pl := sls + sll
pgh := sghs + sghl
ph := shs + shll
if init == "n" {
pe = pe - peo
pinc = pinc - pinco
pl = pl - plo
pgh = pgh - pgho
ph = ph - pho
inclp = inclp + pinc
ep = ep + pe
sinip := math.Sin(inclp)
cosip := math.Cos(inclp)
if inclp >= 0.2 {
ph /= sinip
pgh -= cosip * ph
argpp += pgh
nodep += ph
mp += pl
} else {
sinop := math.Sin(nodep)
cosop := math.Cos(nodep)
alfdp := sinip * sinop
betdp := sinip * cosop
dalf := ph*cosop + pinc*cosip*sinop
dbet := -ph*sinop + pinc*cosip*cosop
alfdp = alfdp + dalf
betdp = betdp + dbet
nodep = math.Mod(nodep, TWOPI)
if nodep < 0.0 && opsmode == "a" {
nodep = nodep + TWOPI
}
xls := mp + argpp + pl + pgh + (cosip-pinc*sinip)*nodep
xnoh := nodep
nodep = math.Atan2(alfdp, betdp)
if nodep < 0.0 && opsmode == "a" {
nodep = nodep + TWOPI
}
if math.Abs(xnoh-nodep) > math.Pi {
if nodep < xnoh {
nodep = nodep + TWOPI
} else {
nodep = nodep - TWOPI
}
}
mp += pl
argpp = xls - mp - cosip*nodep
}
}
result.ep = ep
result.inclp = inclp
result.nodep = nodep
result.argpp = argpp
result.mp = mp
return
}
// A struct returned from the dscom function
type DSComResults struct {
snodm, cnodm, sinim, cosim, sinomm, cosomm, day, e3, ee2, em, emsq, gam, peo, pgho, pho, pinco, plo, rtemsq, se2, se3, sgh2, sgh3, sgh4, sh2, sh3, si2, si3, sl2, sl3, sl4, s1, s2, s3, s4, s5, s6, s7, ss1, ss2, ss3, ss4, ss5, ss6, ss7, sz1, sz2, sz3, sz11, sz12, sz13, sz21, sz22, sz23, sz31, sz32, sz33, xgh2, xgh3, xgh4, xh2, xh3, xi2, xi3, xl2, xl3, xl4, nm, z1, z2, z3, z11, z12, z13, z21, z22, z23, z31, z32, z33, zmol, zmos float64
}
// this procedure provides deep space common items used by both the secular and periodics subroutines. input is provided as shown. this routine used to be called dpper, but the functions inside weren't well organized.
func dscom(epoch, ep, argpp, tc, inclp, nodep, np, e3, ee2, peo, pgho, pho, pinco, plo, se2, se3, sgh2, sgh3, sgh4, sh2, sh3, si2, si3, sl2, sl3, sl4, xgh2, xgh3, xgh4, xh2, xh3, xi2, xi3, xl2, xl3, xl4, zmol, zmos float64) (res DSComResults) {
var a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, betasq, cc, ctem, stem, x1, x2, x3, x4, x5, x6, x7, x8, xnodce, xnoi, zcosg, zsing, zcosgl, zsingl, zcosh, zsinh, zcoshl, zsinhl, zcosi, zsini, zcosil, zsinil, zx, zy, ss1, ss2, ss3, ss4, ss5, ss6, ss7, sz1, sz2, sz3, sz11, sz12, sz13, sz21, sz22, sz23, sz31, sz32, sz33, s1, s2, s3, s4, s5, s6, s7, z1, z2, z3, z11, z12, z13, z21, z22, z23, z31, z32, z33 float64
zes := 0.01675
zel := 0.05490
c1ss := 2.9864797e-6
c1l := 4.7968065e-7
zsinis := 0.39785416
zcosis := 0.91744867
zcosgs := 0.1945905
zsings := -0.98088458
nm := np
em := ep
snodm := math.Sin(nodep)
cnodm := math.Cos(nodep)
sinomm := math.Sin(argpp)
cosomm := math.Cos(argpp)
sinim := math.Sin(inclp)
cosim := math.Cos(inclp)
emsq := em * em
betasq = 1.0 - emsq
rtemsq := math.Sqrt(betasq)
peo = 0.0
pinco = 0.0
plo = 0.0
pgho = 0.0
pho = 0.0
day := epoch + 18261.5 + tc/1440.0
xnodce = math.Mod(4.5236020-9.2422029e-4*day, TWOPI)
stem = math.Sin(xnodce)
ctem = math.Cos(xnodce)
zcosil = 0.91375164 - 0.03568096*ctem
zsinil = math.Sqrt(1.0 - zcosil*zcosil)
zsinhl = 0.089683511 * stem / zsinil
zcoshl = math.Sqrt(1.0 - zsinhl*zsinhl)
gam := 5.8351514 + 0.0019443680*day
zx = 0.39785416 * stem / zsinil
zy = zcoshl*ctem + 0.91744867*zsinhl*stem
zx = math.Atan2(zx, zy)
zx = gam + zx - xnodce
zcosgl = math.Cos(zx)
zsingl = math.Sin(zx)
zcosg = zcosgs
zsing = zsings
zcosi = zcosis
zsini = zsinis
zcosh = cnodm
zsinh = snodm
cc = c1ss
xnoi = 1.0 / nm
for lsflg := 1; lsflg <= 2; lsflg++ {
a1 = zcosg*zcosh + zsing*zcosi*zsinh
a3 = -zsing*zcosh + zcosg*zcosi*zsinh
a7 = -zcosg*zsinh + zsing*zcosi*zcosh
a8 = zsing * zsini
a9 = zsing*zsinh + zcosg*zcosi*zcosh
a10 = zcosg * zsini
a2 = cosim*a7 + sinim*a8
a4 = cosim*a9 + sinim*a10
a5 = -sinim*a7 + cosim*a8
a6 = -sinim*a9 + cosim*a10
x1 = a1*cosomm + a2*sinomm
x2 = a3*cosomm + a4*sinomm
x3 = -a1*sinomm + a2*cosomm
x4 = -a3*sinomm + a4*cosomm
x5 = a5 * sinomm
x6 = a6 * sinomm
x7 = a5 * cosomm
x8 = a6 * cosomm
z31 = 12.0*x1*x1 - 3.0*x3*x3
z32 = 24.0*x1*x2 - 6.0*x3*x4
z33 = 12.0*x2*x2 - 3.0*x4*x4
z1 = 3.0*(a1*a1+a2*a2) + z31*emsq
z2 = 6.0*(a1*a3+a2*a4) + z32*emsq
z3 = 3.0*(a3*a3+a4*a4) + z33*emsq
z11 = -6.0*a1*a5 + emsq*(-24.0*x1*x7-6.0*x3*x5)
z12 = -6.0*(a1*a6+a3*a5) + emsq*(-24.0*(x2*x7+x1*x8)-6.0*(x3*x6+x4*x5))
z13 = -6.0*a3*a6 + emsq*(-24.0*x2*x8-6.0*x4*x6)
z21 = 6.0*a2*a5 + emsq*(24.0*x1*x5-6.0*x3*x7)
z22 = 6.0*(a4*a5+a2*a6) + emsq*(24.0*(x2*x5+x1*x6)-6.0*(x4*x7+x3*x8))
z23 = 6.0*a4*a6 + emsq*(24.0*x2*x6-6.0*x4*x8)
z1 = z1 + z1 + betasq*z31
z2 = z2 + z2 + betasq*z32
z3 = z3 + z3 + betasq*z33
s3 = cc * xnoi
s2 = -0.5 * s3 / rtemsq
s4 = s3 * rtemsq
s1 = -15.0 * em * s4
s5 = x1*x3 + x2*x4
s6 = x2*x3 + x1*x4
s7 = x2*x4 - x1*x3
if lsflg == 1 {
ss1 = s1
ss2 = s2
ss3 = s3
ss4 = s4
ss5 = s5
ss6 = s6
ss7 = s7
sz1 = z1
sz2 = z2
sz3 = z3
sz11 = z11
sz12 = z12
sz13 = z13
sz21 = z21
sz22 = z22
sz23 = z23
sz31 = z31
sz32 = z32
sz33 = z33
zcosg = zcosgl
zsing = zsingl
zcosi = zcosil
zsini = zsinil
zcosh = zcoshl*cnodm + zsinhl*snodm
zsinh = snodm*zcoshl - cnodm*zsinhl
cc = c1l
}
}
zmol = math.Mod(4.7199672+0.22997150*day-gam, TWOPI)
zmos = math.Mod(6.2565837+0.017201977*day, TWOPI)
se2 = 2.0 * ss1 * ss6
se3 = 2.0 * ss1 * ss7
si2 = 2.0 * ss2 * sz12
si3 = 2.0 * ss2 * (sz13 - sz11)
sl2 = -2.0 * ss3 * sz2
sl3 = -2.0 * ss3 * (sz3 - sz1)
sl4 = -2.0 * ss3 * (-21.0 - 9.0*emsq) * zes
sgh2 = 2.0 * ss4 * sz32
sgh3 = 2.0 * ss4 * (sz33 - sz31)
sgh4 = -18.0 * ss4 * zes
sh2 = -2.0 * ss2 * sz22
sh3 = -2.0 * ss2 * (sz23 - sz21)
ee2 = 2.0 * s1 * s6
e3 = 2.0 * s1 * s7
xi2 = 2.0 * s2 * z12
xi3 = 2.0 * s2 * (z13 - z11)
xl2 = -2.0 * s3 * z2
xl3 = -2.0 * s3 * (z3 - z1)
xl4 = -2.0 * s3 * (-21.0 - 9.0*emsq) * zel
xgh2 = 2.0 * s4 * z32
xgh3 = 2.0 * s4 * (z33 - z31)
xgh4 = -18.0 * s4 * zel
xh2 = -2.0 * s2 * z22
xh3 = -2.0 * s2 * (z23 - z21)
res.snodm = snodm
res.cnodm = cnodm
res.sinim = sinim
res.cosim = cosim
res.sinomm = sinomm
res.cosomm = cosomm
res.day = day
res.e3 = e3
res.ee2 = ee2
res.em = em
res.emsq = emsq
res.gam = gam
res.peo = peo
res.pgho = pgho
res.pho = pho
res.pinco = pinco
res.plo = plo
res.rtemsq = rtemsq
res.se2 = se2
res.se3 = se3
res.sgh2 = sgh2
res.sgh3 = sgh3
res.sgh4 = sgh4
res.sh2 = sh2
res.sh3 = sh3
res.si2 = si2
res.si3 = si3
res.sl2 = sl2
res.sl3 = sl3
res.sl4 = sl4
res.s1 = s1
res.s2 = s2
res.s3 = s3
res.s4 = s4
res.s5 = s5
res.s6 = s6
res.s7 = s7
res.ss1 = ss1
res.ss2 = ss2
res.ss3 = ss3
res.ss4 = ss4
res.ss5 = ss5
res.ss6 = ss6
res.ss7 = ss7
res.sz1 = sz1
res.sz2 = sz2
res.sz3 = sz3
res.sz11 = sz11
res.sz12 = sz12
res.sz13 = sz13
res.sz21 = sz21
res.sz22 = sz22
res.sz23 = sz23
res.sz31 = sz31
res.sz32 = sz32
res.sz33 = sz33
res.xgh2 = xgh2
res.xgh3 = xgh3
res.xgh4 = xgh4
res.xh2 = xh2
res.xh3 = xh3
res.xi2 = xi2
res.xi3 = xi3
res.xl2 = xl2
res.xl3 = xl3
res.xl4 = xl4
res.nm = nm
res.z1 = z1
res.z2 = z2
res.z3 = z3
res.z11 = z11
res.z12 = z12
res.z13 = z13
res.z21 = z21
res.z22 = z22
res.z23 = z23
res.z31 = z31
res.z32 = z32
res.z33 = z33
res.zmol = zmol
res.zmos = zmos
return
}