/*This module contributed by Doug Heisterkamp Modified by Jim Hugunin More modifications by Jeff Whitaker */ #include "Python.h" #include "Numeric/arrayobject.h" #ifdef NO_APPEND_FORTRAN # define FNAME(x) x #else # define FNAME(x) x##_ #endif typedef struct { float r, i; } f2c_complex; typedef struct { double r, i; } f2c_doublecomplex; /* typedef long int (*L_fp)(); */ extern void FNAME(dgeev)(char *jobvl, char *jobvr, int *n, double a[], int *lda, double wr[], double wi[], double vl[], int *ldvl, double vr[], int *ldvr, double work[], int lwork[], int *info); extern void FNAME(zgeev)(char *jobvl, char *jobvr, int *n, f2c_doublecomplex a[], int *lda, f2c_doublecomplex w[], f2c_doublecomplex vl[], int *ldvl, f2c_doublecomplex vr[], int *ldvr, f2c_doublecomplex work[], int *lwork, double rwork[], int *info); extern void FNAME(dsyevd)(char *jobz, char *uplo, int *n, double a[], int *lda, double w[], double work[], int *lwork, int iwork[], int *liwork, int *info); extern void FNAME(zheevd)(char *jobz, char *uplo, int *n, f2c_doublecomplex a[], int *lda, double w[], f2c_doublecomplex work[], int *lwork, double rwork[], int *lrwork, int iwork[], int *liwork, int *info); extern void FNAME(dgelsd)(int *m, int *n, int *nrhs, double a[], int *lda, double b[], int *ldb, double s[], double *rcond, int *rank, double work[], int *lwork, int iwork[], int *info); extern void FNAME(zgelsd)(int *m, int *n, int *nrhs, f2c_doublecomplex a[], int *lda, f2c_doublecomplex b[], int *ldb, double s[], double *rcond, int *rank, f2c_doublecomplex work[], int *lwork, double rwork[], int iwork[], int *info); extern void FNAME(dgesv)(int *n, int *nrhs, double a[], int *lda, int ipiv[], double b[], int *ldb, int *info); extern void FNAME(zgesv)(int *n, int *nrhs, f2c_doublecomplex a[], int *lda, int ipiv[], f2c_doublecomplex b[], int *ldb, int *info); extern void FNAME(dgetrf)(int *m, int *n, double a[], int *lda, int ipiv[], int *info); extern void FNAME(zgetrf)(int *m, int *n, f2c_doublecomplex a[], int *lda, int ipiv[], int *info); extern void FNAME(dpotrf)(char *uplo, int *n, double a[], int *lda, int *info); extern void FNAME(zpotrf)(char *uplo, int *n, f2c_doublecomplex a[], int *lda, int *info); extern void FNAME(dgesdd)(char *jobz, int *m, int *n, double a[], int *lda, double s[], double u[], int *ldu, double vt[], int *ldvt, double work[], int *lwork, int iwork[], int *info); extern void FNAME(zgesdd)(char *jobz, int *m, int *n, f2c_doublecomplex a[], int *lda, double s[], f2c_doublecomplex u[], int *ldu, f2c_doublecomplex vt[], int *ldvt, f2c_doublecomplex work[], int *lwork, double rwork[], int iwork[], int *info); static PyObject *LapackError; #define TRY(E) if (!(E)) return NULL static int check_object(PyObject *ob, int t, char *obname, char *tname, char *funname) { if (!PyArray_Check(ob)) { PyErr_Format(LapackError, "Expected an array for parameter %s in lapack_lite.%s", obname, funname); return 0; } else if (!(((PyArrayObject *)ob)->flags & CONTIGUOUS)) { PyErr_Format(LapackError, "Parameter %s is not contiguous in lapack_lite.%s", obname, funname); return 0; } else if (!(((PyArrayObject *)ob)->descr->type_num == t)) { PyErr_Format(LapackError, "Parameter %s is not of type %s in lapack_lite.%s", obname, tname, funname); return 0; } else { return 1; } } #define CHDATA(p) ((char *) (((PyArrayObject *)p)->data)) #define SHDATA(p) ((short int *) (((PyArrayObject *)p)->data)) #define DDATA(p) ((double *) (((PyArrayObject *)p)->data)) #define FDATA(p) ((float *) (((PyArrayObject *)p)->data)) #define CDATA(p) ((f2c_complex *) (((PyArrayObject *)p)->data)) #define ZDATA(p) ((f2c_doublecomplex *) (((PyArrayObject *)p)->data)) #define IDATA(p) ((int *) (((PyArrayObject *)p)->data)) static PyObject * lapack_lite_dgeev(PyObject *self, PyObject *args) { int lapack_lite_status__; char jobvl; char jobvr; int n; PyObject *a; int lda; PyObject *wr; PyObject *wi; PyObject *vl; int ldvl; PyObject *vr; int ldvr; PyObject *work; int lwork; int info; TRY(PyArg_ParseTuple(args,"cciOiOOOiOiOii", &jobvl,&jobvr,&n,&a,&lda,&wr,&wi,&vl,&ldvl, &vr,&ldvr,&work,&lwork,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dgeev")); TRY(check_object(wr,PyArray_DOUBLE,"wr","PyArray_DOUBLE","dgeev")); TRY(check_object(wi,PyArray_DOUBLE,"wi","PyArray_DOUBLE","dgeev")); TRY(check_object(vl,PyArray_DOUBLE,"vl","PyArray_DOUBLE","dgeev")); TRY(check_object(vr,PyArray_DOUBLE,"vr","PyArray_DOUBLE","dgeev")); TRY(check_object(work,PyArray_DOUBLE,"work","PyArray_DOUBLE","dgeev")); lapack_lite_status__ = 0; FNAME(dgeev)(&jobvl,&jobvr,&n,DDATA(a),&lda,DDATA(wr),DDATA(wi), DDATA(vl),&ldvl,DDATA(vr),&ldvr,DDATA(work),&lwork,&info); return Py_BuildValue("{s:i,s:c,s:c,s:i,s:i,s:i,s:i,s:i,s:i}","dgeev_", lapack_lite_status__,"jobvl",jobvl,"jobvr",jobvr, "n",n,"lda",lda,"ldvl",ldvl,"ldvr",ldvr, "lwork",lwork,"info",info); } static PyObject * lapack_lite_dsyevd(PyObject *self, PyObject *args) { /* Arguments */ /* ========= */ char jobz; /* JOBZ (input) CHARACTER*1 */ /* = 'N': Compute eigenvalues only; */ /* = 'V': Compute eigenvalues and eigenvectors. */ char uplo; /* UPLO (input) CHARACTER*1 */ /* = 'U': Upper triangle of A is stored; */ /* = 'L': Lower triangle of A is stored. */ int n; /* N (input) INTEGER */ /* The order of the matrix A. N >= 0. */ PyObject *a; /* A (input/output) DOUBLE PRECISION array, dimension (LDA, N) */ /* On entry, the symmetric matrix A. If UPLO = 'U', the */ /* leading N-by-N upper triangular part of A contains the */ /* upper triangular part of the matrix A. If UPLO = 'L', */ /* the leading N-by-N lower triangular part of A contains */ /* the lower triangular part of the matrix A. */ /* On exit, if JOBZ = 'V', then if INFO = 0, A contains the */ /* orthonormal eigenvectors of the matrix A. */ /* If JOBZ = 'N', then on exit the lower triangle (if UPLO='L') */ /* or the upper triangle (if UPLO='U') of A, including the */ /* diagonal, is destroyed. */ int lda; /* LDA (input) INTEGER */ /* The leading dimension of the array A. LDA >= max(1,N). */ PyObject *w; /* W (output) DOUBLE PRECISION array, dimension (N) */ /* If INFO = 0, the eigenvalues in ascending order. */ PyObject *work; /* WORK (workspace/output) DOUBLE PRECISION array, dimension (LWORK) */ /* On exit, if INFO = 0, WORK(1) returns the optimal LWORK. */ int lwork; /* LWORK (input) INTEGER */ /* The length of the array WORK. LWORK >= max(1,3*N-1). */ /* For optimal efficiency, LWORK >= (NB+2)*N, */ /* where NB is the blocksize for DSYTRD returned by ILAENV. */ PyObject *iwork; int liwork; int info; /* INFO (output) INTEGER */ /* = 0: successful exit */ /* < 0: if INFO = -i, the i-th argument had an illegal value */ /* > 0: if INFO = i, the algorithm failed to converge; i */ /* off-diagonal elements of an intermediate tridiagonal */ /* form did not converge to zero. */ int lapack_lite_status__; TRY(PyArg_ParseTuple(args,"cciOiOOiOii", &jobz,&uplo,&n,&a,&lda,&w,&work,&lwork, &iwork,&liwork,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dsyevd")); TRY(check_object(w,PyArray_DOUBLE,"w","PyArray_DOUBLE","dsyevd")); TRY(check_object(work,PyArray_DOUBLE,"work","PyArray_DOUBLE","dsyevd")); TRY(check_object(iwork,PyArray_INT,"iwork","PyArray_INT","dsyevd")); lapack_lite_status__ = 0; FNAME(dsyevd)(&jobz,&uplo,&n,DDATA(a),&lda,DDATA(w),DDATA(work), &lwork,IDATA(iwork),&liwork,&info); return Py_BuildValue("{s:i,s:c,s:c,s:i,s:i,s:i,s:i,s:i}","dsyevd_", lapack_lite_status__,"jobz",jobz,"uplo",uplo, "n",n,"lda",lda,"lwork",lwork,"liwork",liwork,"info",info); } static PyObject * lapack_lite_zheevd(PyObject *self, PyObject *args) { /* Arguments */ /* ========= */ char jobz; /* JOBZ (input) CHARACTER*1 */ /* = 'N': Compute eigenvalues only; */ /* = 'V': Compute eigenvalues and eigenvectors. */ char uplo; /* UPLO (input) CHARACTER*1 */ /* = 'U': Upper triangle of A is stored; */ /* = 'L': Lower triangle of A is stored. */ int n; /* N (input) INTEGER */ /* The order of the matrix A. N >= 0. */ PyObject *a; /* A (input/output) COMPLEX*16 array, dimension (LDA, N) */ /* On entry, the Hermitian matrix A. If UPLO = 'U', the */ /* leading N-by-N upper triangular part of A contains the */ /* upper triangular part of the matrix A. If UPLO = 'L', */ /* the leading N-by-N lower triangular part of A contains */ /* the lower triangular part of the matrix A. */ /* On exit, if JOBZ = 'V', then if INFO = 0, A contains the */ /* orthonormal eigenvectors of the matrix A. */ /* If JOBZ = 'N', then on exit the lower triangle (if UPLO='L') */ /* or the upper triangle (if UPLO='U') of A, including the */ /* diagonal, is destroyed. */ int lda; /* LDA (input) INTEGER */ /* The leading dimension of the array A. LDA >= max(1,N). */ PyObject *w; /* W (output) DOUBLE PRECISION array, dimension (N) */ /* If INFO = 0, the eigenvalues in ascending order. */ PyObject *work; /* WORK (workspace/output) COMPLEX*16 array, dimension (LWORK) */ /* On exit, if INFO = 0, WORK(1) returns the optimal LWORK. */ int lwork; /* LWORK (input) INTEGER */ /* The length of the array WORK. LWORK >= max(1,3*N-1). */ /* For optimal efficiency, LWORK >= (NB+2)*N, */ /* where NB is the blocksize for DSYTRD returned by ILAENV. */ PyObject *rwork; /* RWORK (workspace) DOUBLE PRECISION array, dimension (max(1, 3*N-2)) */ int lrwork; PyObject *iwork; int liwork; int info; /* INFO (output) INTEGER */ /* = 0: successful exit */ /* < 0: if INFO = -i, the i-th argument had an illegal value */ /* > 0: if INFO = i, the algorithm failed to converge; i */ /* off-diagonal elements of an intermediate tridiagonal */ /* form did not converge to zero. */ int lapack_lite_status__; TRY(PyArg_ParseTuple(args,"cciOiOOiOiOii", &jobz,&uplo,&n,&a,&lda,&w,&work,&lwork,&rwork, &lrwork,&iwork,&liwork,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zheevd")); TRY(check_object(w,PyArray_DOUBLE,"w","PyArray_DOUBLE","zheevd")); TRY(check_object(work,PyArray_CDOUBLE,"work","PyArray_CDOUBLE","zheevd")); TRY(check_object(w,PyArray_DOUBLE,"rwork","PyArray_DOUBLE","zheevd")); TRY(check_object(iwork,PyArray_INT,"iwork","PyArray_INT","zheevd")); lapack_lite_status__ = 0; FNAME(zheevd)(&jobz,&uplo,&n,ZDATA(a),&lda,DDATA(w),ZDATA(work), &lwork,DDATA(rwork),&lrwork,IDATA(iwork),&liwork,&info); return Py_BuildValue("{s:i,s:c,s:c,s:i,s:i,s:i,s:i,s:i,s:i}","zheevd_", lapack_lite_status__,"jobz",jobz,"uplo",uplo,"n",n, "lda",lda,"lwork",lwork,"lrwork",lrwork, "liwork",liwork,"info",info); } static PyObject * lapack_lite_dgelsd(PyObject *self, PyObject *args) { int lapack_lite_status__; int m; int n; int nrhs; PyObject *a; int lda; PyObject *b; int ldb; PyObject *s; double rcond; int rank; PyObject *work; PyObject *iwork; int lwork; int info; TRY(PyArg_ParseTuple(args,"iiiOiOiOdiOiOi", &m,&n,&nrhs,&a,&lda,&b,&ldb,&s,&rcond, &rank,&work,&lwork,&iwork,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dgelsd")); TRY(check_object(b,PyArray_DOUBLE,"b","PyArray_DOUBLE","dgelsd")); TRY(check_object(s,PyArray_DOUBLE,"s","PyArray_DOUBLE","dgelsd")); TRY(check_object(work,PyArray_DOUBLE,"work","PyArray_DOUBLE","dgelsd")); TRY(check_object(iwork,PyArray_INT,"iwork","PyArray_INT","dgelsd")); lapack_lite_status__ = 0; FNAME(dgelsd)(&m,&n,&nrhs,DDATA(a),&lda,DDATA(b),&ldb, DDATA(s),&rcond,&rank,DDATA(work),&lwork,IDATA(iwork),&info); return Py_BuildValue("{s:i,s:i,s:i,s:i,s:i,s:i,s:d,s:i,s:i,s:i}","dgelsd_", lapack_lite_status__,"m",m,"n",n,"nrhs",nrhs, "lda",lda,"ldb",ldb,"rcond",rcond,"rank",rank, "lwork",lwork,"info",info); } static PyObject * lapack_lite_dgesv(PyObject *self, PyObject *args) { int lapack_lite_status__; int n; int nrhs; PyObject *a; int lda; PyObject *ipiv; PyObject *b; int ldb; int info; TRY(PyArg_ParseTuple(args,"iiOiOOii",&n,&nrhs,&a,&lda,&ipiv,&b,&ldb,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dgesv")); TRY(check_object(ipiv,PyArray_INT,"ipiv","PyArray_INT","dgesv")); TRY(check_object(b,PyArray_DOUBLE,"b","PyArray_DOUBLE","dgesv")); lapack_lite_status__ = 0; FNAME(dgesv)(&n,&nrhs,DDATA(a),&lda,IDATA(ipiv),DDATA(b),&ldb,&info); return Py_BuildValue("{s:i,s:i,s:i,s:i,s:i,s:i}","dgesv_", lapack_lite_status__,"n",n,"nrhs",nrhs,"lda",lda, "ldb",ldb,"info",info); } static PyObject * lapack_lite_dgesdd(PyObject *self, PyObject *args) { int lapack_lite_status__; char jobz; int m; int n; PyObject *a; int lda; PyObject *s; PyObject *u; int ldu; PyObject *vt; int ldvt; PyObject *work; int lwork; PyObject *iwork; int info; TRY(PyArg_ParseTuple(args,"ciiOiOOiOiOiOi", &jobz,&m,&n,&a,&lda,&s,&u,&ldu,&vt,&ldvt, &work,&lwork,&iwork,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dgesdd")); TRY(check_object(s,PyArray_DOUBLE,"s","PyArray_DOUBLE","dgesdd")); TRY(check_object(u,PyArray_DOUBLE,"u","PyArray_DOUBLE","dgesdd")); TRY(check_object(vt,PyArray_DOUBLE,"vt","PyArray_DOUBLE","dgesdd")); TRY(check_object(work,PyArray_DOUBLE,"work","PyArray_DOUBLE","dgesdd")); TRY(check_object(iwork,PyArray_INT,"iwork","PyArray_INT","dgesdd")); lapack_lite_status__ = 0; FNAME(dgesdd)(&jobz,&m,&n,DDATA(a),&lda,DDATA(s),DDATA(u),&ldu, DDATA(vt),&ldvt,DDATA(work),&lwork,IDATA(iwork),&info); return Py_BuildValue("{s:i,s:c,s:i,s:i,s:i,s:i,s:i,s:i,s:i}","dgesdd_", lapack_lite_status__,"jobz",jobz,"m",m,"n",n, "lda",lda,"ldu",ldu,"ldvt",ldvt,"lwork",lwork, "info",info); } static PyObject * lapack_lite_dgetrf(PyObject *self, PyObject *args) { int lapack_lite_status__; int m; int n; PyObject *a; int lda; PyObject *ipiv; int info; TRY(PyArg_ParseTuple(args,"iiOiOi",&m,&n,&a,&lda,&ipiv,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dgetrf")); TRY(check_object(ipiv,PyArray_INT,"ipiv","PyArray_INT","dgetrf")); lapack_lite_status__ = 0; FNAME(dgetrf)(&m,&n,DDATA(a),&lda,IDATA(ipiv),&info); return Py_BuildValue("{s:i,s:i,s:i,s:i,s:i}","dgetrf_",lapack_lite_status__, "m",m,"n",n,"lda",lda,"info",info); } static PyObject * lapack_lite_dpotrf(PyObject *self, PyObject *args) { int lapack_lite_status__; int n; PyObject *a; int lda; char uplo; int info; TRY(PyArg_ParseTuple(args,"ciOii",&uplo,&n,&a,&lda,&info)); TRY(check_object(a,PyArray_DOUBLE,"a","PyArray_DOUBLE","dpotrf")); lapack_lite_status__ = 0; FNAME(dpotrf)(&uplo,&n,DDATA(a),&lda,&info); return Py_BuildValue("{s:i,s:i,s:i,s:i}","dpotrf_",lapack_lite_status__, "n",n,"lda",lda,"info",info); } static PyObject * lapack_lite_zgeev(PyObject *self, PyObject *args) { int lapack_lite_status__; char jobvl; char jobvr; int n; PyObject *a; int lda; PyObject *w; PyObject *vl; int ldvl; PyObject *vr; int ldvr; PyObject *work; int lwork; PyObject *rwork; int info; TRY(PyArg_ParseTuple(args,"cciOiOOiOiOiOi", &jobvl,&jobvr,&n,&a,&lda,&w,&vl,&ldvl, &vr,&ldvr,&work,&lwork,&rwork,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zgeev")); TRY(check_object(w,PyArray_CDOUBLE,"w","PyArray_CDOUBLE","zgeev")); TRY(check_object(vl,PyArray_CDOUBLE,"vl","PyArray_CDOUBLE","zgeev")); TRY(check_object(vr,PyArray_CDOUBLE,"vr","PyArray_CDOUBLE","zgeev")); TRY(check_object(work,PyArray_CDOUBLE,"work","PyArray_CDOUBLE","zgeev")); TRY(check_object(rwork,PyArray_DOUBLE,"rwork","PyArray_DOUBLE","zgeev")); lapack_lite_status__ = 0; FNAME(zgeev)(&jobvl,&jobvr,&n,ZDATA(a),&lda,ZDATA(w),ZDATA(vl),&ldvl, ZDATA(vr),&ldvr,ZDATA(work),&lwork,DDATA(rwork),&info); return Py_BuildValue("{s:i,s:c,s:c,s:i,s:i,s:i,s:i,s:i,s:i}","zgeev_", lapack_lite_status__,"jobvl",jobvl,"jobvr",jobvr, "n",n,"lda",lda,"ldvl",ldvl,"ldvr",ldvr, "lwork",lwork,"info",info); } static PyObject * lapack_lite_zgelsd(PyObject *self, PyObject *args) { int lapack_lite_status__; int m; int n; int nrhs; PyObject *a; int lda; PyObject *b; int ldb; PyObject *s; double rcond; int rank; PyObject *work; int lwork; PyObject *rwork; PyObject *iwork; int info; TRY(PyArg_ParseTuple(args,"iiiOiOiOdiOiOOi", &m,&n,&nrhs,&a,&lda,&b,&ldb,&s,&rcond, &rank,&work,&lwork,&rwork,&iwork,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zgelsd")); TRY(check_object(b,PyArray_CDOUBLE,"b","PyArray_CDOUBLE","zgelsd")); TRY(check_object(s,PyArray_DOUBLE,"s","PyArray_DOUBLE","zgelsd")); TRY(check_object(work,PyArray_CDOUBLE,"work","PyArray_CDOUBLE","zgelsd")); TRY(check_object(rwork,PyArray_DOUBLE,"rwork","PyArray_DOUBLE","zgelsd")); TRY(check_object(iwork,PyArray_INT,"iwork","PyArray_INT","zgelsd")); lapack_lite_status__ = 0; FNAME(zgelsd)(&m,&n,&nrhs,ZDATA(a),&lda,ZDATA(b),&ldb,DDATA(s),&rcond, &rank,ZDATA(work),&lwork,DDATA(rwork),IDATA(iwork),&info); return Py_BuildValue("{s:i,s:i,s:i,s:i,s:i,s:i,s:i,s:i,s:i}","zgelsd_", lapack_lite_status__,"m",m,"n",n,"nrhs",nrhs,"lda",lda, "ldb",ldb,"rank",rank,"lwork",lwork,"info",info); } static PyObject * lapack_lite_zgesv(PyObject *self, PyObject *args) { int lapack_lite_status__; int n; int nrhs; PyObject *a; int lda; PyObject *ipiv; PyObject *b; int ldb; int info; TRY(PyArg_ParseTuple(args,"iiOiOOii",&n,&nrhs,&a,&lda,&ipiv,&b,&ldb,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zgesv")); TRY(check_object(ipiv,PyArray_INT,"ipiv","PyArray_INT","zgesv")); TRY(check_object(b,PyArray_CDOUBLE,"b","PyArray_CDOUBLE","zgesv")); lapack_lite_status__ = 0; FNAME(zgesv)(&n,&nrhs,ZDATA(a),&lda,IDATA(ipiv),ZDATA(b),&ldb,&info); return Py_BuildValue("{s:i,s:i,s:i,s:i,s:i,s:i}","zgesv_", lapack_lite_status__,"n",n,"nrhs",nrhs,"lda",lda, "ldb",ldb,"info",info); } static PyObject * lapack_lite_zgesdd(PyObject *self, PyObject *args) { int lapack_lite_status__; char jobz; int m; int n; PyObject *a; int lda; PyObject *s; PyObject *u; int ldu; PyObject *vt; int ldvt; PyObject *work; int lwork; PyObject *rwork; PyObject *iwork; int info; TRY(PyArg_ParseTuple(args,"ciiOiOOiOiOiOOi", &jobz,&m,&n,&a,&lda,&s,&u,&ldu, &vt,&ldvt,&work,&lwork,&rwork,&iwork,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zgesdd")); TRY(check_object(s,PyArray_DOUBLE,"s","PyArray_DOUBLE","zgesdd")); TRY(check_object(u,PyArray_CDOUBLE,"u","PyArray_CDOUBLE","zgesdd")); TRY(check_object(vt,PyArray_CDOUBLE,"vt","PyArray_CDOUBLE","zgesdd")); TRY(check_object(work,PyArray_CDOUBLE,"work","PyArray_CDOUBLE","zgesdd")); TRY(check_object(rwork,PyArray_DOUBLE,"rwork","PyArray_DOUBLE","zgesdd")); TRY(check_object(iwork,PyArray_INT,"iwork","PyArray_INT","zgesdd")); lapack_lite_status__ = 0; FNAME(zgesdd)(&jobz,&m,&n,ZDATA(a),&lda,DDATA(s),ZDATA(u),&ldu, ZDATA(vt),&ldvt,ZDATA(work),&lwork,DDATA(rwork), IDATA(iwork),&info); return Py_BuildValue("{s:i,s:c,s:i,s:i,s:i,s:i,s:i,s:i,s:i}","zgesdd_", lapack_lite_status__,"jobz",jobz,"m",m,"n",n, "lda",lda,"ldu",ldu,"ldvt",ldvt,"lwork",lwork, "info",info); } static PyObject * lapack_lite_zgetrf(PyObject *self, PyObject *args) { int lapack_lite_status__; int m; int n; PyObject *a; int lda; PyObject *ipiv; int info; TRY(PyArg_ParseTuple(args,"iiOiOi",&m,&n,&a,&lda,&ipiv,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zgetrf")); TRY(check_object(ipiv,PyArray_INT,"ipiv","PyArray_INT","zgetrf")); lapack_lite_status__ = 0; FNAME(zgetrf)(&m,&n,ZDATA(a),&lda,IDATA(ipiv),&info); return Py_BuildValue("{s:i,s:i,s:i,s:i,s:i}","zgetrf_", lapack_lite_status__,"m",m,"n",n,"lda",lda,"info",info); } static PyObject * lapack_lite_zpotrf(PyObject *self, PyObject *args) { int lapack_lite_status__; int n; PyObject *a; int lda; char uplo; int info; TRY(PyArg_ParseTuple(args,"ciOii",&uplo,&n,&a,&lda,&info)); TRY(check_object(a,PyArray_CDOUBLE,"a","PyArray_CDOUBLE","zpotrf")); lapack_lite_status__ = 0; FNAME(zpotrf)(&uplo,&n,ZDATA(a),&lda,&info); return Py_BuildValue("{s:i,s:i,s:i,s:i}","zpotrf_", lapack_lite_status__,"n",n,"lda",lda,"info",info); } #define STR(x) #x #define lameth(name) {STR(name), lapack_lite_##name, METH_VARARGS, NULL} static struct PyMethodDef lapack_lite_module_methods[] = { lameth(zheevd), lameth(dsyevd), lameth(dgeev), lameth(dgelsd), lameth(dgesv), lameth(dgesdd), lameth(dgetrf), lameth(dpotrf), lameth(zgeev), lameth(zgelsd), lameth(zgesv), lameth(zgesdd), lameth(zgetrf), lameth(zpotrf), { NULL,NULL,0} }; DL_EXPORT(void) initlapack_lite(void) { PyObject *m,*d; m = Py_InitModule("lapack_lite", lapack_lite_module_methods); import_array(); d = PyModule_GetDict(m); LapackError = PyErr_NewException("lapack_lite.LapackError", NULL, NULL); PyDict_SetItemString(d, "LapackError", LapackError); }