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SUBROUTINE RADB4 (IDO, L1, CC, CH, WA1, WA2, WA3)
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C***BEGIN PROLOGUE RADB4
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C***PURPOSE Calculate the fast Fourier transform of subvectors of
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C***LIBRARY SLATEC (FFTPACK)
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C***TYPE SINGLE PRECISION (RADB4-S)
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C***AUTHOR Swarztrauber, P. N., (NCAR)
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C***ROUTINES CALLED (NONE)
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C***REVISION HISTORY (YYMMDD)
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C 830401 Modified to use SLATEC library source file format.
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C 860115 Modified by Ron Boisvert to adhere to Fortran 77 by
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C (a) changing dummy array size declarations (1) to (*),
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C (b) changing definition of variable SQRT2 by using
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C FORTRAN intrinsic function SQRT instead of a DATA
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C 881128 Modified by Dick Valent to meet prologue standards.
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C 890831 Modified array declarations. (WRB)
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C 891214 Prologue converted to Version 4.0 format. (BAB)
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C 900402 Added TYPE section. (WRB)
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C***END PROLOGUE RADB4
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DIMENSION CC(IDO,4,*), CH(IDO,L1,4), WA1(*), WA2(*), WA3(*)
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C***FIRST EXECUTABLE STATEMENT RADB4
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TR1 = CC(1,1,K)-CC(IDO,4,K)
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TR2 = CC(1,1,K)+CC(IDO,4,K)
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TR3 = CC(IDO,2,K)+CC(IDO,2,K)
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TR4 = CC(1,3,K)+CC(1,3,K)
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IF (IDO-2) 107,105,102
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IF((IDO-1)/2.LT.L1) GO TO 108
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TI1 = CC(I,1,K)+CC(IC,4,K)
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TI2 = CC(I,1,K)-CC(IC,4,K)
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TI3 = CC(I,3,K)-CC(IC,2,K)
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TR4 = CC(I,3,K)+CC(IC,2,K)
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TR1 = CC(I-1,1,K)-CC(IC-1,4,K)
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TR2 = CC(I-1,1,K)+CC(IC-1,4,K)
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TI4 = CC(I-1,3,K)-CC(IC-1,2,K)
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TR3 = CC(I-1,3,K)+CC(IC-1,2,K)
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CH(I-1,K,2) = WA1(I-2)*CR2-WA1(I-1)*CI2
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CH(I,K,2) = WA1(I-2)*CI2+WA1(I-1)*CR2
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CH(I-1,K,3) = WA2(I-2)*CR3-WA2(I-1)*CI3
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CH(I,K,3) = WA2(I-2)*CI3+WA2(I-1)*CR3
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CH(I-1,K,4) = WA3(I-2)*CR4-WA3(I-1)*CI4
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CH(I,K,4) = WA3(I-2)*CI4+WA3(I-1)*CR4
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TI1 = CC(I,1,K)+CC(IC,4,K)
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TI2 = CC(I,1,K)-CC(IC,4,K)
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TI3 = CC(I,3,K)-CC(IC,2,K)
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TR4 = CC(I,3,K)+CC(IC,2,K)
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TR1 = CC(I-1,1,K)-CC(IC-1,4,K)
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TR2 = CC(I-1,1,K)+CC(IC-1,4,K)
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TI4 = CC(I-1,3,K)-CC(IC-1,2,K)
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TR3 = CC(I-1,3,K)+CC(IC-1,2,K)
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CH(I-1,K,2) = WA1(I-2)*CR2-WA1(I-1)*CI2
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CH(I,K,2) = WA1(I-2)*CI2+WA1(I-1)*CR2
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CH(I-1,K,3) = WA2(I-2)*CR3-WA2(I-1)*CI3
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CH(I,K,3) = WA2(I-2)*CI3+WA2(I-1)*CR3
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CH(I-1,K,4) = WA3(I-2)*CR4-WA3(I-1)*CI4
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CH(I,K,4) = WA3(I-2)*CI4+WA3(I-1)*CR4
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111 IF (MOD(IDO,2) .EQ. 1) RETURN
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TI1 = CC(1,2,K)+CC(1,4,K)
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TI2 = CC(1,4,K)-CC(1,2,K)
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TR1 = CC(IDO,1,K)-CC(IDO,3,K)
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TR2 = CC(IDO,1,K)+CC(IDO,3,K)
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CH(IDO,K,1) = TR2+TR2
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CH(IDO,K,2) = SQRT2*(TR1-TI1)
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CH(IDO,K,3) = TI2+TI2
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CH(IDO,K,4) = -SQRT2*(TR1+TI1)