9 implicit real*8 (a-h,o-z)
10 include
'afrt_rt2.cmn'
11 real*8 tma(nsz),tmb(nsz),tmc(nsz),tmfd(nsz),tmfu(nsz),tms(nsz),tmt
12 real*8 tmg(nsz),tmh(nsz),tmp(nsz),tmq(nsz),tmpp(nsz),tmqq(nsz),
13 1 oraddir(nph,nth,nsz)
29 tmpp(i)=tmq(i)/(tmb(i)+tmfd(i))
30 tmqq(i)=tms(i)-tmpp(i)
31 tmt(i)=(fdirc(m)+fdown(m))/
pi
40 write(iprn,6660)tma(i),
pi
41 write(iprn,6661)tmb(i),tmfd(i)
42 if(iref.eq.1 .or. iref.eq.2)
then
43 write(iprn,6662)tmfu(i),tms(i)
44 write(iprn,7663)tmg(i),tmh(i)
45 write(iprn,7664)tmp(i),tmq(i)
46 write(iprn,7665)tmpp(i),tmqq(i)
48 if(iref.eq.3)
write(iprn,6665)tmfu(i),tms(i)
50 write(iprn,6664)(the(ir),ir=1,(nx-1))
52 write(iprn,6667)jphi(is),
53 1 (raddir(it,ir,is)*
pi,ir=1,(nx-1))
55 oraddir(is,ir,it) = raddir(it,ir,is)*
pi
62 6659
format(t1,
'fluxes')
63 6660
format(t8,
'sza',t32,f6.1,t40,
'f0_top',t64,1pe12.4)
64 6661
format(t8,
'fdir_btm',t26,1pe12.4,t40,
'fdif_btm',t64,1pe12.4)
65 6662
format(t8,
'fdif_up',t26,1pe12.4,t40,
'hem. ref(ocean)',t64,1pe12.4)
66 6664
format(
'phi theta',7(2x,f5.1,3x)/3(9x,7(2x,f5.1,3x)/))
67 6665
format(t8,
'fdif_up',t26,1pe12.4,t40,
'hem. ref(surf)',t64,1pe12.4)
68 6667
format(i3,6x,1p7e10.3/3(9x,1p7e10.3/))
69 6668
format(t1,
'radiances (f0=pi)')
70 6672
format(t8,
'fdif_up',t26,1pe12.4,t40,
'sbar',t64,1pe12.4)
71 7663
format(t8,
'ftw_dir(ocn)',t26,1pe12.4,
72 1 t40,
'ftw_difdn(ocn)',t64,1pe12.4)
73 7664
format(t8,
'ftw_difup(blow_ocn)',t27,1pe11.4,
74 1 t40,
'ftw_difup(above_ocn)',t64,1pe12.4)
75 7665
format(t8,
'hem_ref(ocn_trans)',t26,1pe12.4,
76 1 t40,
'hem_ref(ocn_refl)',t64,1pe12.4)