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203 lines
8.9 KiB
ObjectPascal
203 lines
8.9 KiB
ObjectPascal
// Upgraded to Delphi 2009: Sebastian Zierer
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(* ***** BEGIN LICENSE BLOCK *****
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* Version: MPL 1.1
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*
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* The contents of this file are subject to the Mozilla Public License Version
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* 1.1 (the "License"); you may not use this file except in compliance with
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* the License. You may obtain a copy of the License at
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* http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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* for the specific language governing rights and limitations under the
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* License.
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*
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* The Original Code is TurboPower SysTools
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*
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* The Initial Developer of the Original Code is
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* TurboPower Software
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*
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* Portions created by the Initial Developer are Copyright (C) 1996-2002
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* the Initial Developer. All Rights Reserved.
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*
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* Contributor(s):
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*
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* ***** END LICENSE BLOCK ***** *)
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{*********************************************************}
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{* SysTools: StPluto.pas 4.04 *}
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{*********************************************************}
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{* SysTools: Astronomical Routines (for Pluto) *}
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{*********************************************************}
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{$IFDEF FPC}
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{$mode DELPHI}
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{$ENDIF}
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//{$I StDefine.inc}
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unit StPluto;
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interface
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uses
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StAstroP, StMath;
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function ComputePluto(JD : Double) : TStEclipticalCord;
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implementation
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function ComputePluto(JD : Double) : TStEclipticalCord;
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var
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T,
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J, S, P,
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L,
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B,
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R : Double;
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begin
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T := (JD - 2451545.0) / 36525.0;
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J := ( 34.35 + 3034.9057 * T) / radcor;
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S := ( 50.08 + 1222.1138 * T) / radcor;
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P := (238.96 + 144.9600 * T) / radcor;
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L :=
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- 19798886 * sin(P) + 19848454 * cos(P)
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+ 897499 * sin(2*P) - 4955707 * cos(2*P)
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+ 610820 * sin(3*P) + 1210521 * cos(3*P)
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- 341639 * sin(4*P) - 189719 * cos(4*P)
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+ 129027 * sin(5*P) - 34863 * cos(5*P)
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- 38215 * sin(6*P) + 31061 * cos(6*P)
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+ 20349 * sin(S-P) - 9886 * cos(S-P)
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- 4045 * sin(S) - 4904 * cos(S)
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- 5885 * sin(S+P) - 3238 * cos(S+P)
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- 3812 * sin(S+2*P) + 3011 * cos(s+2*P)
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- 601 * sin(S+3*P) + 3468 * cos(S+3*P)
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+ 1237 * sin(2*(S-P)) + 463 * cos(2*(S-P))
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+ 1086 * sin(2*S-P) - 911 * cos(2*S-P)
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+ 595 * sin(2*S) - 1229 * cos(2*S)
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+ 2484 * sin(J-S) - 485 * cos(J-S)
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+ 839 * sin(J-S+P) - 1414 * cos(J-S+P)
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- 964 * sin(J-3*P) + 1059 * cos(J-3*P)
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- 2303 * sin(J-2*P) - 1038 * cos(J-2*P)
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+ 7049 * sin(J-P) + 747 * cos(J-P)
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+ 1179 * sin(J) - 358 * cos(J)
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+ 393 * sin(J+P) - 63 * cos(J+P)
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+ 111 * sin(J+2*P) - 268 * cos(J+2*P)
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- 52 * sin(J+3*P) - 154 * cos(J+3*P)
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- 78 * sin(J+4*P) - 30 * cos(J+4*P)
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- 34 * sin(J+S-3*P) - 26 * cos(J+S-3*P)
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- 43 * sin(J+S-2*P) + 1 * cos(J+S-2*P)
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- 15 * sin(J+S-P) + 21 * cos(J+S-P)
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- 1 * sin(J+S) + 15 * cos(J+S)
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+ 4 * sin(J+S+P) + 7 * cos(J+S+P)
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+ 1 * sin(J+S+3*P) + 5 * cos(J+S+3*P)
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+ 8 * sin(2*J-6*P) + 3 * cos(2*J-6*P)
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- 3 * sin(2*J-5*P) + 6 * cos(2*J-5*P)
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+ 6 * sin(2*J-4*P) - 13 * cos(2*J-4*P)
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+ 10 * sin(2*J-3*P) + 22 * cos(2*J-3*P)
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- 57 * sin(2*J-2*P) - 32 * cos(2*J-2*P)
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+ 157 * sin(2*J-P) - 46 * cos(2*J-P)
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+ 12 * sin(2*J) - 18 * cos(2*J)
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- 4 * sin(2*J-P) + 8 * cos(2*J-P)
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- 5 * sin(2*(J+P)) + 0 * sin(2*(J+P))
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+ 3 * sin(2*J+3*P) + 4 * cos(2*J+3*P)
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- 1 * sin(3*J-2*P) - 1 * cos(3*J-2*P)
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+ 6 * sin(3*J-P) - 3 * cos(3*J-P)
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- 1 * sin(3*J) - 2 * cos(3*J);
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Result.L0 := (238.956785 + 144.96*T + (L/1000000)) / radcor;
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B := -5453098 * sin(P) - 14974876 * cos(P)
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+ 3527363 * sin(2*P) + 1672673 * cos(2*P)
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- 1050939 * sin(3*P) + 327763 * cos(3*P)
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+ 178691 * sin(4*P) - 291925 * cos(4*P)
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+ 18763 * sin(5*P) + 100448 * cos(5*P)
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- 30594 * sin(6*P) - 25838 * cos(6*P)
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+ 4965 * sin(S-P) + 11263 * cos(S-P)
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+ 310 * sin(S) - 132 * cos(S)
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+ 2036 * sin(S+P) - 947 * cos(S+P)
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- 2 * sin(S+2*P) - 674 * cos(S+2*P)
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- 329 * sin(S+3*P) - 563 * cos(S+3*P)
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- 64 * sin(2*(S-P)) + 39 * cos(2*(S-P))
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- 94 * sin(2*S-P) + 210 * cos(2*S-P)
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- 8 * sin(2*S) - 160 * cos(2*S)
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+ 177 * sin(J-S) + 259 * cos(J-S)
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+ 17 * sin(J-S+P) + 234 * cos(J-S+P)
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+ 582 * sin(J-3*P) - 285 * cos(J-3*P)
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- 298 * sin(J-2*P) + 692 * cos(J-2*P)
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+ 157 * sin(J-P) + 201 * cos(J-P)
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+ 304 * sin(J) + 825 * cos(J)
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- 124 * sin(J+P) - 29 * cos(J+P)
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+ 15 * sin(J+2*P) + 8 * cos(J+2*P)
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+ 7 * sin(J+3*P) + 15 * cos(J+3*P)
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+ 2 * sin(J+4*P) + 2 * cos(J+4*P)
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+ 4 * sin(J+S-3*P) + 2 * cos(J+S-3*P)
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+ 3 * sin(J+S-2*P) + 0 * cos(J+S-2*P)
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+ 1 * sin(J+S-P) - 1 * cos(J+S-P)
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+ 0 * sin(J+S) - 2 * cos(J+S)
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+ 1 * sin(J+S+P) - 0 * cos(J+S+P)
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+ 1 * sin(J+S+3*P) - 1 * cos(J+S+3*P)
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- 2 * sin(2*J-6*P) - 3 * cos(2*J-6*P)
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+ 1 * sin(2*J-5*P) + 2 * cos(2*J-5*P)
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- 8 * sin(2*J-4*P) + 2 * cos(2*J-4*P)
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+ 10 * sin(2*J-3*P) - 7 * cos(2*J-3*P)
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+ 0 * sin(2*J-2*P) + 21 * cos(2*J-2*P)
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+ 8 * sin(2*J-P) + 5 * cos(2*J-P)
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+ 13 * sin(2*J) + 16 * cos(2*J)
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- 2 * sin(2*J-P) - 3 * cos(2*J-P)
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+ 0 * sin(2*(J+P)) + 0 * cos(2*(J+P))
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+ 0 * sin(2*J+3*P) + 1 * cos(2*J+3*P)
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+ 0 * sin(3*J-2*P) + 1 * cos(3*J-2*P)
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+ 0 * sin(3*J-P) + 0 * cos(3*J-P)
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+ 0 * sin(3*J) + 1 * cos(3*J);
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Result.B0 := (-3.908202 + B/1000000) / radcor;
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R := 66867334 * sin(P) + 68955876 * cos(P)
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- 11826086 * sin(2*P) - 333765 * cos(2*P)
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+ 1593657 * sin(3*P) - 1439953 * cos(3*P)
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- 18948 * sin(4*P) + 482443 * cos(4*P)
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- 66634 * sin(5*P) - 85576 * cos(5*P)
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+ 30841 * sin(6*P) - 5765 * cos(6*P)
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- 6140 * sin(S-P) + 22254 * cos(S-P)
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+ 4434 * sin(S) + 4443 * cos(S)
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- 1518 * sin(S+P) + 641 * cos(S+P)
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- 5 * sin(S+2*P) + 792 * cos(s+2*P)
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+ 518 * sin(S+3*P) + 518 * cos(S+3*P)
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- 13 * sin(2*(S-P)) - 221 * cos(2*(S-P))
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+ 837 * sin(2*S-P) - 494 * cos(2*S-P)
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- 281 * sin(2*S) + 616 * cos(2*S)
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+ 260 * sin(J-S) - 395 * cos(J-S)
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- 191 * sin(J-S+P) - 396 * cos(J-S+P)
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- 3218 * sin(J-3*P) + 370 * cos(J-3*P)
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+ 8019 * sin(J-2*P) - 7689 * cos(J-2*P)
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+ 105 * sin(J-P) + 45637 * cos(J-P)
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+ 8623 * sin(J) + 8444 * cos(J)
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- 896 * sin(J+P) - 801 * cos(J+P)
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+ 208 * sin(J+2*P) - 122 * cos(J+2*P)
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- 133 * sin(J+3*P) + 65 * cos(J+3*P)
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- 16 * sin(J+4*P) + 1 * cos(J+4*P)
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- 22 * sin(J+S-3*P) + 7 * cos(J+S-3*P)
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- 8 * sin(J+S-2*P) + 16 * cos(J+S-2*P)
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+ 2 * sin(J+S-P) + 9 * cos(J+S-P)
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+ 12 * sin(J+S) + 5 * cos(J+S)
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+ 1 * sin(J+S+P) - 3 * cos(J+S+P)
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+ 1 * sin(J+S+3*P) + 0 * cos(J+S+3*P)
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+ 9 * sin(2*J-6*P) + 5 * cos(2*J-6*P)
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+ 2 * sin(2*J-5*P) - 1 * cos(2*J-5*P)
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+ 14 * sin(2*J-4*P) + 10 * cos(2*J-4*P)
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- 65 * sin(2*J-3*P) + 12 * cos(2*J-3*P)
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+ 126 * sin(2*J-2*P) - 233 * cos(2*J-2*P)
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+ 270 * sin(2*J-P) + 1068 * cos(2*J-P)
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+ 254 * sin(2*J) + 155 * cos(2*J)
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- 26 * sin(2*J-P) - 2 * cos(2*J-P)
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+ 7 * sin(2*(J+P)) + 0 * cos(2*(J+P))
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- 11 * sin(2*J+3*P) + 4 * cos(2*J+3*P)
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+ 4 * sin(3*J-2*P) - 14 * cos(3*J-2*P)
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+ 18 * sin(3*J-P) + 35 * cos(3*J-P)
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+ 13 * sin(3*J) + 3 * cos(3*J);
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Result.R0 := 40.7247248 + R / 10000000;
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end;
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end.
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