NAME zgbdi - compute the determinant of a general matrix A in banded storage, which has been LU-factored by xGBCO or xGBFA. SYNOPSIS SUBROUTINE DGBDI (DA, LDA, N, NSUB, NSUPER, IPIVOT, DDET) SUBROUTINE SGBDI (SA, LDA, N, NSUB, NSUPER, IPIVOT, SDET) SUBROUTINE ZGBDI (ZA, LDA, N, NSUB, NSUPER, IPIVOT, ZDET) SUBROUTINE CGBDI (CA, LDA, N, NSUB, NSUPER, IPIVOT, CDET) #include <sunperf.h> void dgbdi(double *abd, int lda, int n, int ml, int mu, int *ipivot, double *det) ; void sgbdi(float *abd, int lda, int n, int ml, int mu, int *ipivot, float *det) ; void zgbdi(doublecomplex *abd, int lda, int n, int ml, int mu, int *ipivot, doublecomplex *det) ; void cgbdi(complex *abd, int lda, int n, int ml, int mu, int *ipivot, complex *det) ; ARGUMENTS xA LU factorization of the matrix A, as computed by xGBCO or xGBFA. LDA Leading dimension of the array A as specified in a dimension or type statement. LDA >= 2 * NSUB + NSUPER + 1. N Order of the original matrix A. N >= 0. NSUB Number of subdiagonals of A. N-1 >= NSUB >= 0 but if N = 0 then NSUB = 0. NSUPER Number of superdiagonals of A. N-1 >= NSUPER >= 0 but if N = 0 then NSUPER = 0. IPIVOT Pivot vector as computed by xGBCO or xGBFA. xDET On exit, the determinant of the matrix A. The determinant is stored as b * (10**expon) where b is stored in DET(1) and expon is stored in DET(2). 1.0 <= |DET(1)| <= 10.0 or DET(1) = 0.0. SAMPLE PROGRAM PROGRAM TEST IMPLICIT NONE C INTEGER LDA, N, NDIAG, NSUB, NSUPER PARAMETER (N = 5) PARAMETER (NSUB = 4) PARAMETER (NSUPER = 0) PARAMETER (NDIAG = NSUB + 1 + NSUPER) PARAMETER (LDA = NSUB + NDIAG) C DOUBLE PRECISION A(LDA,N), DET(2) INTEGER ICOL, INFO, IPIVOT(N), IROW C EXTERNAL DGBDI, DGBFA C C Initialize the array A to store the 5x5 matrix A with four C subdiagonals and no superdiagonals shown below. C C 1 C 1 -1 C A = 1 -2 1 C 1 -3 3 -1 C 1 -4 6 -4 1 C DATA A / 4*8D8, 5*1.0D0, 4*8D8, -1.0D0, -2.0D0, -3.0D0, -4.0D0, $ 5*8D8,1.0D0, 3.0D0, 6.0D0, 6*8D8, -1.0D0, -4.0D0, $ 7*8D8, 1.0D0, 4*8D8 / C C Print the initial values of the arrays. C PRINT 1000 PRINT 1010, A(5,1) PRINT 1010, A(6,1), A(5,2) PRINT 1010, A(7,1), A(6,2), A(5,3) PRINT 1010, A(8,1), A(7,2), A(6,3), A(5,4) PRINT 1010, A(9,1), A(8,2), A(7,3), A(6,4), A(5,5) PRINT 1020 PRINT 1010, ((A(IROW,ICOL), ICOL = 1, N), $ IROW = 1, 2 * NSUB + 1 + NSUPER) C C Factor the matrix in banded form. C CALL DGBFA (A, LDA, N, NSUB, NSUPER, IPIVOT, INFO) IF (INFO .EQ. 0) THEN CALL DGBDI (A, LDA, N, NSUB, NSUPER, IPIVOT, DET) PRINT 1030, DET(1) * (1.0D1 ** DET(2)) ELSE PRINT 1040, INFO END IF C 1000 FORMAT (1X, 'A in full form:') 1010 FORMAT (5(3X, F4.1)) 1020 FORMAT (/1X, 'A in banded form: (* in unused elements)') 1030 FORMAT (/1X, 'det(A) = ', F4.1) 1040 FORMAT (/1X, 'A appears singular at ', I2) C END SAMPLE OUTPUT A in full form: 1.0 1.0 -1.0 1.0 -2.0 1.0 1.0 -3.0 3.0 -1.0 1.0 -4.0 6.0 -4.0 1.0 A in banded form: (* in unused elements) **** **** **** **** **** **** **** **** **** **** **** **** **** **** **** **** **** **** **** **** 1.0 -1.0 1.0 -1.0 1.0 1.0 -2.0 3.0 -4.0 **** 1.0 -3.0 6.0 **** **** 1.0 -4.0 **** **** **** 1.0 **** **** **** **** det(A) = 1.0
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