vdcosqf - tation with only odd wave numbers. The VCOSQ operations are normal- ized, so a call of VCOSQF followed by a call of VCOSQB will return the original sequence.
SUBROUTINE VDCOSQF(M, N, X, XT, MDIMX, WSAVE) INTEGER M, N, MDIMX DOUBLE PRECISION X(MDIMX,*), XT(MDIMX,*), WSAVE(*) SUBROUTINE VDCOSQF_64(M, N, X, XT, MDIMX, WSAVE) INTEGER*8 M, N, MDIMX DOUBLE PRECISION X(MDIMX,*), XT(MDIMX,*), WSAVE(*) F95 INTERFACE SUBROUTINE COSQF(M, N, X, XT, MDIMX, WSAVE) INTEGER :: M, N, MDIMX REAL(8), DIMENSION(:) :: WSAVE REAL(8), DIMENSION(:,:) :: X, XT SUBROUTINE COSQF_64(M, N, X, XT, MDIMX, WSAVE) INTEGER(8) :: M, N, MDIMX REAL(8), DIMENSION(:) :: WSAVE REAL(8), DIMENSION(:,:) :: X, XT C INTERFACE #include <sunperf.h> void vdcosqf(int m, int n, double *x, double *xt, int mdimx, double *wsave); void vdcosqf_64(long m, long n, double *x, double *xt, long mdimx, dou- ble *wsave);
Oracle Solaris Studio Performance Library vdcosqf(3P)
NAME
vdcosqf - compute the Fourier coefficients in a cosine series represen-
tation with only odd wave numbers. The VCOSQ operations are normal-
ized, so a call of VCOSQF followed by a call of VCOSQB will return the
original sequence.
SYNOPSIS
SUBROUTINE VDCOSQF(M, N, X, XT, MDIMX, WSAVE)
INTEGER M, N, MDIMX
DOUBLE PRECISION X(MDIMX,*), XT(MDIMX,*), WSAVE(*)
SUBROUTINE VDCOSQF_64(M, N, X, XT, MDIMX, WSAVE)
INTEGER*8 M, N, MDIMX
DOUBLE PRECISION X(MDIMX,*), XT(MDIMX,*), WSAVE(*)
F95 INTERFACE
SUBROUTINE COSQF(M, N, X, XT, MDIMX, WSAVE)
INTEGER :: M, N, MDIMX
REAL(8), DIMENSION(:) :: WSAVE
REAL(8), DIMENSION(:,:) :: X, XT
SUBROUTINE COSQF_64(M, N, X, XT, MDIMX, WSAVE)
INTEGER(8) :: M, N, MDIMX
REAL(8), DIMENSION(:) :: WSAVE
REAL(8), DIMENSION(:,:) :: X, XT
C INTERFACE
#include <sunperf.h>
void vdcosqf(int m, int n, double *x, double *xt, int mdimx, double
*wsave);
void vdcosqf_64(long m, long n, double *x, double *xt, long mdimx, dou-
ble *wsave);
ARGUMENTS
M (input)
The number of sequences to be transformed. M >= 0.
N (input) Length of the sequence to be transformed. These subroutines
are most efficient when N is a product of small primes. N >=
0.
X (input/output)
On entry, an array of length N containing the sequence to be
transformed. For VCOSQF, a real two-dimensional array with
dimensions of (MDIMX x N) whose rows contain the sequences to
be transformed. On exit, the quarter-wave cosine transform
of the input.
XT (input)
A real two-dimensional work array with dimensions of (MDIMX x
N).
MDIMX (input)
Leading dimension of the arrays X and XT as specified in a
dimension or type statement. MDIMX >= M.
WSAVE (input)
On entry, an array of dimension (2 * N + 15) or greater ini-
tialized by VCOSQI.
7 Nov 2015 vdcosqf(3P)