4 files changed, 161 insertions, 2 deletions
diff --git a/packages/base/src/Internal/Algorithms.hs b/packages/base/src/Internal/Algorithms.hs
index 6027c46..1ca373f 100644
--- a/packages/base/src/Internal/Algorithms.hs
+++ b/packages/base/src/Internal/Algorithms.hs
@@ -70,8 +70,10 @@ class (Numeric t,
    linearSolveSVD' :: Matrix t -> Matrix t -> Matrix t
    linearSolveLS'  :: Matrix t -> Matrix t -> Matrix t
    eig'         :: Matrix t -> (Vector (Complex Double), Matrix (Complex Double))
+    geig'        :: Matrix t -> Matrix t -> (Vector (Complex Double), Vector t, Matrix (Complex Double))
    eigSH''      :: Matrix t -> (Vector Double, Matrix t)
    eigOnly      :: Matrix t -> Vector (Complex Double)
+    geigOnly     :: Matrix t -> Matrix t -> (Vector (Complex Double), Vector t)
    eigOnlySH    :: Matrix t -> Vector Double
    cholSH'      :: Matrix t -> Matrix t
    mbCholSH'    :: Matrix t -> Maybe (Matrix t)
@@ -96,7 +98,9 @@ instance Field Double where
    linearSolveSVD' = linearSolveSVDR Nothing
    eig' = eigR
    eigSH'' = eigS
+    geig' = eigG
    eigOnly = eigOnlyR
+    geigOnly = eigOnlyG
    eigOnlySH = eigOnlyS
    cholSH' = cholS
    mbCholSH' = mbCholS
@@ -126,7 +130,9 @@ instance Field (Complex Double) where
    linearSolveLS' = linearSolveLSC
    linearSolveSVD' = linearSolveSVDC Nothing
    eig' = eigC
+    geig' = eigGC
    eigOnly = eigOnlyC
+    geigOnly = eigOnlyGC
    eigSH'' = eigH
    eigOnlySH = eigOnlyH
    cholSH' = cholH
@@ -512,10 +518,25 @@ a = (3><3)
 eig :: Field t => Matrix t -> (Vector (Complex Double), Matrix (Complex Double))
 eig = {-# SCC "eig" #-} eig'
+-- | Generalized eigenvalues (not ordered) and eigenvectors (as columns) of a pair of nonsymmetric matrices.
+-- Eigenvalues are represented as pairs of alpha, beta, where eigenvalue = alpha / beta. Alpha is always
+-- complex, but betas has the same type as the input matrix.
+--
+-- If @(alphas, betas, v) = geig a b@, then @a \<> v == diag (alphas / betas) \<> b \<> v@
+--
+-- Note that beta can be 0 and that has reasonable interpretation.
+geig :: Field t => Matrix t -> Matrix t -> (Vector (Complex Double), Vector t, Matrix (Complex Double))
+geig = {-# SCC "geig" #-} geig'
 -- | Eigenvalues (not ordered) of a general square matrix.
 eigenvalues :: Field t => Matrix t -> Vector (Complex Double)
 eigenvalues = {-# SCC "eigenvalues" #-} eigOnly
+-- | Generalized eigenvalues of a pair of matrices. Represented as pairs of alpha, beta,
+-- where eigenvalue is alpha / beta as in 'geig'.
+geigenvalues :: Field t => Matrix t -> Matrix t -> (Vector (Complex Double), Vector t)
+geigenvalues = {-# SCC "geigenvalues" #-} geigOnly
 -- | Similar to 'eigSH' without checking that the input matrix is hermitian or symmetric. It works with the upper triangular part.
 eigSH' :: Field t => Matrix t -> (Vector Double, Matrix t)
 eigSH' = {-# SCC "eigSH'" #-} eigSH''
diff --git a/packages/base/src/Internal/C/lapack-aux.c b/packages/base/src/Internal/C/lapack-aux.c
index 5018a45..dddbefb 100644
--- a/packages/base/src/Internal/C/lapack-aux.c
+++ b/packages/base/src/Internal/C/lapack-aux.c
@@ -415,6 +415,93 @@ int eig_l_R(ODMAT(a),ODMAT(u), CVEC(s),ODMAT(v)) {
    OK
 }
+//////////////////// generalized real eigensystem ////////////
+int dggev_(char *jobvl, char *jobvr, integer *n,
+    doublereal *a, integer *lda, doublereal *b, integer *ldb,
+    doublereal *alphar, doublereal *alphai, doublereal *beta,
+    doublereal *vl, integer *ldvl, doublereal *vr, integer *ldvr,
+    doublereal *work,
+        integer *lwork, integer *info);
+int eig_l_G(ODMAT(a), ODMAT(b), CVEC(alpha), DVEC(beta), ODMAT(vl), ODMAT(vr)) {
+    integer n = ar;
+    REQUIRES(ac == n && br == n && bc == n && alphan == n && betan == n, BAD_SIZE);
+    REQUIRES(vlp==NULL || (vlr==n && vlc==n), BAD_SIZE);
+    char jobvl = vlp==NULL?'N':'V';
+    REQUIRES(vrp==NULL || (vrr==n && vrc==n), BAD_SIZE);
+    char jobvr = vrp==NULL?'N':'V';
+    DEBUGMSG("eig_l_G");
+    integer lwork = -1;
+    integer res;
+    // ask for optimal lwork
+    double ans;
+    dggev_  (&jobvl,&jobvr,
+             &n,
+             ap,&n,bp,&n,
+             (double*)alphap, (double*)alphap+n, betap,
+             vlp, &n, vrp, &n,
+             &ans, &lwork,
+             &res);
+    lwork = ceil(ans);
+    double * work = (double*)malloc(lwork*sizeof(double));
+    CHECK(!work,MEM);
+    dggev_  (&jobvl,&jobvr,
+             &n,
+             ap,&n,bp,&n,
+             (double*)alphap, (double*)alphap+n, betap,
+             vlp, &n, vrp, &n,
+             work, &lwork,
+             &res);
+    CHECK(res,res);
+    free(work);
+    OK
+}
+//////////////////// generalized complex eigensystem ////////////
+int zggev_(char *jobvl, char *jobvr, integer *n,
+    doublecomplex *a, integer *lda, doublecomplex *b, integer *ldb,
+    doublecomplex *alphar, doublecomplex *beta,
+    doublecomplex *vl, integer *ldvl, doublecomplex *vr, integer *ldvr,
+    doublecomplex *work, integer *lwork,
+    doublereal *rwork, integer *info);
+int eig_l_GC(OCMAT(a), OCMAT(b), CVEC(alpha), CVEC(beta), OCMAT(vl), OCMAT(vr)) {
+    integer n = ar;
+    REQUIRES(ac == n && br == n && bc == n && alphan == n && betan == n, BAD_SIZE);
+    REQUIRES(vlp==NULL || (vlr==n && vlc==n), BAD_SIZE);
+    char jobvl = vlp==NULL?'N':'V';
+    REQUIRES(vrp==NULL || (vrr==n && vrc==n), BAD_SIZE);
+    char jobvr = vrp==NULL?'N':'V';
+    DEBUGMSG("eig_l_GC");
+    double *rwork = (double*) malloc(8*n*sizeof(double));
+    CHECK(!rwork,MEM);
+    integer lwork = -1;
+    integer res;
+    // ask for optimal lwork
+    doublecomplex ans;
+    zggev_  (&jobvl,&jobvr,
+             &n,
+             ap,&n,bp,&n,
+             alphap, betap,
+             vlp, &n, vrp, &n,
+             &ans, &lwork,
+             rwork, &res);
+    lwork = ceil(ans.r);
+    doublecomplex * work = (doublecomplex*)malloc(lwork*sizeof(doublecomplex));
+    CHECK(!work,MEM);
+    zggev_  (&jobvl,&jobvr,
+             &n,
+             ap,&n,bp,&n,
+             alphap, betap,
+             vlp, &n, vrp, &n,
+             work, &lwork,
+             rwork, &res);
+    CHECK(res,res);
+    free(work);
+    OK
+}
 //////////////////// symmetric real eigensystem ////////////
diff --git a/packages/base/src/Internal/LAPACK.hs b/packages/base/src/Internal/LAPACK.hs
index 64cf2f5..b834b20 100644
--- a/packages/base/src/Internal/LAPACK.hs
+++ b/packages/base/src/Internal/LAPACK.hs
@@ -18,6 +18,8 @@
 module Internal.LAPACK where
+import Data.Bifunctor (first)
 import Internal.Devel
 import Internal.Vector
 import Internal.Matrix hiding ((#), (#!))
@@ -234,7 +236,9 @@ leftSVAux f st x = unsafePerformIO $ do
 -----------------------------------------------------------------------------
 foreign import ccall unsafe "eig_l_R" dgeev :: R ::> R ::> C :> R ::> Ok
+foreign import ccall unsafe "eig_l_G" dggev :: R ::> R ::> C :> R :> R ::> R ::> Ok
 foreign import ccall unsafe "eig_l_C" zgeev :: C ::> C ::> C :> C ::> Ok
+foreign import ccall unsafe "eig_l_GC" zggev :: C ::> C ::> C :> C :> C ::> C ::> Ok
 foreign import ccall unsafe "eig_l_S" dsyev :: CInt -> R :> R ::> Ok
 foreign import ccall unsafe "eig_l_H" zheev :: CInt -> R :> C ::> Ok
@@ -304,6 +308,53 @@ fixeig _ _ = error "fixeig with impossible inputs"
 eigOnlyR :: Matrix Double -> Vector (Complex Double)
 eigOnlyR = fixeig1 . eigOnlyAux dgeev "eigOnlyR"
+-- | Generalized eigenvalues and right eigenvectors of a pair of real matrices, using LAPACK's /dggev/.
+-- The eigenvectors are the columns of v. The eigenvalues are represented as alphas / betas and not sorted.
+eigG :: Matrix Double -> Matrix Double -> (Vector (Complex Double), Vector Double, Matrix (Complex Double))
+eigG a b = (alpha', beta, v'')
+  where
+    (alpha, beta, v) = eigGaux dggev a b "eigG"
+    alpha' = fixeig1 alpha
+    v' = toRows $ trans v
+    v'' = fromColumns $ fixeig (toList alpha') v'
+eigGaux f ma mb st = unsafePerformIO $ do
+    a <- copy ColumnMajor ma
+    b <- copy ColumnMajor mb
+    alpha <- createVector r
+    beta <- createVector r
+    vr <- createMatrix ColumnMajor r r
+    (a # b # alpha # beta #! vr) g #| st
+    return (alpha, beta, vr)
+  where
+    r = rows ma
+    g ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta = f ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta 0 0 0 0 nullPtr 
+eigGOnlyAux f ma mb st = unsafePerformIO $ do
+    a <- copy ColumnMajor ma
+    b <- copy ColumnMajor mb
+    alpha <- createVector r
+    beta <- createVector r
+    (a # b # alpha #! beta) g #| st
+    return (alpha, beta)
+  where
+    r = rows ma
+    g ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta = f ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta 0 0 0 0 nullPtr 0 0 0 0 nullPtr
+-- | Generalized eigenvalues and right eigenvectors of a pair of complex matrices, using LAPACK's /zggev/.
+-- The eigenvectors are the columns of v. The eigenvalues are represented as alphas / betas and not sorted.
+eigGC :: Matrix (Complex Double) -> Matrix (Complex Double) -> (Vector (Complex Double), Vector (Complex Double), Matrix (Complex Double))
+eigGC a b = eigGaux zggev a b "eigGC"
+eigOnlyG :: Matrix Double -> Matrix Double -> (Vector (Complex Double), Vector Double)
+eigOnlyG a b = first fixeig1 $ eigGOnlyAux dggev a b "eigOnlyG"
+eigOnlyGC :: Matrix (Complex Double) -> Matrix (Complex Double) -> (Vector (Complex Double), Vector (Complex Double))
+eigOnlyGC a b = eigGOnlyAux zggev a b "eigOnlyGC"
 -----------------------------------------------------------------------------
diff --git a/packages/base/src/Numeric/LinearAlgebra.hs b/packages/base/src/Numeric/LinearAlgebra.hs
index 91923e9..9670187 100644
--- a/packages/base/src/Numeric/LinearAlgebra.hs
+++ b/packages/base/src/Numeric/LinearAlgebra.hs
@@ -131,8 +131,8 @@ module Numeric.LinearAlgebra (
    leftSV, rightSV,
    -- * Eigendecomposition
-    eig, eigSH,
+    eig, geig, eigSH,
-    eigenvalues, eigenvaluesSH,
+    eigenvalues, geigenvalues, eigenvaluesSH,
    geigSH,
    -- * QR

diff --git a/packages/base/src/Internal/Algorithms.hs b/packages/base/src/Internal/Algorithms.hs index 6027c46..1ca373f 100644 --- a/packages/base/src/Internal/Algorithms.hs +++ b/packages/base/src/Internal/Algorithms.hs
@@ -70,8 +70,10 @@ class (Numeric t,
70	linearSolveSVD' :: Matrix t -> Matrix t -> Matrix t	70	linearSolveSVD' :: Matrix t -> Matrix t -> Matrix t
71	linearSolveLS' :: Matrix t -> Matrix t -> Matrix t	71	linearSolveLS' :: Matrix t -> Matrix t -> Matrix t
72	eig' :: Matrix t -> (Vector (Complex Double), Matrix (Complex Double))	72	eig' :: Matrix t -> (Vector (Complex Double), Matrix (Complex Double))
		73	geig' :: Matrix t -> Matrix t -> (Vector (Complex Double), Vector t, Matrix (Complex Double))
73	eigSH'' :: Matrix t -> (Vector Double, Matrix t)	74	eigSH'' :: Matrix t -> (Vector Double, Matrix t)
74	eigOnly :: Matrix t -> Vector (Complex Double)	75	eigOnly :: Matrix t -> Vector (Complex Double)
		76	geigOnly :: Matrix t -> Matrix t -> (Vector (Complex Double), Vector t)
75	eigOnlySH :: Matrix t -> Vector Double	77	eigOnlySH :: Matrix t -> Vector Double
76	cholSH' :: Matrix t -> Matrix t	78	cholSH' :: Matrix t -> Matrix t
77	mbCholSH' :: Matrix t -> Maybe (Matrix t)	79	mbCholSH' :: Matrix t -> Maybe (Matrix t)
@@ -96,7 +98,9 @@ instance Field Double where
96	linearSolveSVD' = linearSolveSVDR Nothing	98	linearSolveSVD' = linearSolveSVDR Nothing
97	eig' = eigR	99	eig' = eigR
98	eigSH'' = eigS	100	eigSH'' = eigS
		101	geig' = eigG
99	eigOnly = eigOnlyR	102	eigOnly = eigOnlyR
		103	geigOnly = eigOnlyG
100	eigOnlySH = eigOnlyS	104	eigOnlySH = eigOnlyS
101	cholSH' = cholS	105	cholSH' = cholS
102	mbCholSH' = mbCholS	106	mbCholSH' = mbCholS
@@ -126,7 +130,9 @@ instance Field (Complex Double) where
126	linearSolveLS' = linearSolveLSC	130	linearSolveLS' = linearSolveLSC
127	linearSolveSVD' = linearSolveSVDC Nothing	131	linearSolveSVD' = linearSolveSVDC Nothing
128	eig' = eigC	132	eig' = eigC
		133	geig' = eigGC
129	eigOnly = eigOnlyC	134	eigOnly = eigOnlyC
		135	geigOnly = eigOnlyGC
130	eigSH'' = eigH	136	eigSH'' = eigH
131	eigOnlySH = eigOnlyH	137	eigOnlySH = eigOnlyH
132	cholSH' = cholH	138	cholSH' = cholH
@@ -512,10 +518,25 @@ a = (3><3)
512	eig :: Field t => Matrix t -> (Vector (Complex Double), Matrix (Complex Double))	518	eig :: Field t => Matrix t -> (Vector (Complex Double), Matrix (Complex Double))
513	eig = {-# SCC "eig" #-} eig'	519	eig = {-# SCC "eig" #-} eig'
514		520
		521	-- \| Generalized eigenvalues (not ordered) and eigenvectors (as columns) of a pair of nonsymmetric matrices.
		522	-- Eigenvalues are represented as pairs of alpha, beta, where eigenvalue = alpha / beta. Alpha is always
		523	-- complex, but betas has the same type as the input matrix.
		524	--
		525	-- If @(alphas, betas, v) = geig a b@, then @a \<> v == diag (alphas / betas) \<> b \<> v@
		526	--
		527	-- Note that beta can be 0 and that has reasonable interpretation.
		528	geig :: Field t => Matrix t -> Matrix t -> (Vector (Complex Double), Vector t, Matrix (Complex Double))
		529	geig = {-# SCC "geig" #-} geig'
		530
515	-- \| Eigenvalues (not ordered) of a general square matrix.	531	-- \| Eigenvalues (not ordered) of a general square matrix.
516	eigenvalues :: Field t => Matrix t -> Vector (Complex Double)	532	eigenvalues :: Field t => Matrix t -> Vector (Complex Double)
517	eigenvalues = {-# SCC "eigenvalues" #-} eigOnly	533	eigenvalues = {-# SCC "eigenvalues" #-} eigOnly
518		534
		535	-- \| Generalized eigenvalues of a pair of matrices. Represented as pairs of alpha, beta,
		536	-- where eigenvalue is alpha / beta as in 'geig'.
		537	geigenvalues :: Field t => Matrix t -> Matrix t -> (Vector (Complex Double), Vector t)
		538	geigenvalues = {-# SCC "geigenvalues" #-} geigOnly
		539
519	-- \| Similar to 'eigSH' without checking that the input matrix is hermitian or symmetric. It works with the upper triangular part.	540	-- \| Similar to 'eigSH' without checking that the input matrix is hermitian or symmetric. It works with the upper triangular part.
520	eigSH' :: Field t => Matrix t -> (Vector Double, Matrix t)	541	eigSH' :: Field t => Matrix t -> (Vector Double, Matrix t)
521	eigSH' = {-# SCC "eigSH'" #-} eigSH''	542	eigSH' = {-# SCC "eigSH'" #-} eigSH''


diff --git a/packages/base/src/Internal/C/lapack-aux.c b/packages/base/src/Internal/C/lapack-aux.c index 5018a45..dddbefb 100644 --- a/packages/base/src/Internal/C/lapack-aux.c +++ b/packages/base/src/Internal/C/lapack-aux.c
@@ -415,6 +415,93 @@ int eig_l_R(ODMAT(a),ODMAT(u), CVEC(s),ODMAT(v)) {
415	OK	415	OK
416	}	416	}
417		417
		418	//////////////////// generalized real eigensystem ////////////
		419
		420	int dggev_(char jobvl, char jobvr, integer *n,
		421	doublereal a, integer lda, doublereal b, integer ldb,
		422	doublereal alphar, doublereal alphai, doublereal *beta,
		423	doublereal vl, integer ldvl, doublereal vr, integer ldvr,
		424	doublereal *work,
		425	integer lwork, integer info);
		426
		427	int eig_l_G(ODMAT(a), ODMAT(b), CVEC(alpha), DVEC(beta), ODMAT(vl), ODMAT(vr)) {
		428	integer n = ar;
		429	REQUIRES(ac == n && br == n && bc == n && alphan == n && betan == n, BAD_SIZE);
		430	REQUIRES(vlp==NULL \|\| (vlr==n && vlc==n), BAD_SIZE);
		431	char jobvl = vlp==NULL?'N':'V';
		432	REQUIRES(vrp==NULL \|\| (vrr==n && vrc==n), BAD_SIZE);
		433	char jobvr = vrp==NULL?'N':'V';
		434	DEBUGMSG("eig_l_G");
		435	integer lwork = -1;
		436	integer res;
		437	// ask for optimal lwork
		438	double ans;
		439	dggev_ (&jobvl,&jobvr,
		440	&n,
		441	ap,&n,bp,&n,
		442	(double)alphap, (double)alphap+n, betap,
		443	vlp, &n, vrp, &n,
		444	&ans, &lwork,
		445	&res);
		446	lwork = ceil(ans);
		447	double * work = (double)malloc(lworksizeof(double));
		448	CHECK(!work,MEM);
		449	dggev_ (&jobvl,&jobvr,
		450	&n,
		451	ap,&n,bp,&n,
		452	(double)alphap, (double)alphap+n, betap,
		453	vlp, &n, vrp, &n,
		454	work, &lwork,
		455	&res);
		456	CHECK(res,res);
		457	free(work);
		458	OK
		459	}
		460
		461	//////////////////// generalized complex eigensystem ////////////
		462
		463	int zggev_(char jobvl, char jobvr, integer *n,
		464	doublecomplex a, integer lda, doublecomplex b, integer ldb,
		465	doublecomplex alphar, doublecomplex beta,
		466	doublecomplex vl, integer ldvl, doublecomplex vr, integer ldvr,
		467	doublecomplex work, integer lwork,
		468	doublereal rwork, integer info);
		469
		470	int eig_l_GC(OCMAT(a), OCMAT(b), CVEC(alpha), CVEC(beta), OCMAT(vl), OCMAT(vr)) {
		471	integer n = ar;
		472	REQUIRES(ac == n && br == n && bc == n && alphan == n && betan == n, BAD_SIZE);
		473	REQUIRES(vlp==NULL \|\| (vlr==n && vlc==n), BAD_SIZE);
		474	char jobvl = vlp==NULL?'N':'V';
		475	REQUIRES(vrp==NULL \|\| (vrr==n && vrc==n), BAD_SIZE);
		476	char jobvr = vrp==NULL?'N':'V';
		477	DEBUGMSG("eig_l_GC");
		478	double rwork = (double) malloc(8nsizeof(double));
		479	CHECK(!rwork,MEM);
		480	integer lwork = -1;
		481	integer res;
		482	// ask for optimal lwork
		483	doublecomplex ans;
		484	zggev_ (&jobvl,&jobvr,
		485	&n,
		486	ap,&n,bp,&n,
		487	alphap, betap,
		488	vlp, &n, vrp, &n,
		489	&ans, &lwork,
		490	rwork, &res);
		491	lwork = ceil(ans.r);
		492	doublecomplex * work = (doublecomplex)malloc(lworksizeof(doublecomplex));
		493	CHECK(!work,MEM);
		494	zggev_ (&jobvl,&jobvr,
		495	&n,
		496	ap,&n,bp,&n,
		497	alphap, betap,
		498	vlp, &n, vrp, &n,
		499	work, &lwork,
		500	rwork, &res);
		501	CHECK(res,res);
		502	free(work);
		503	OK
		504	}
418		505
419	//////////////////// symmetric real eigensystem ////////////	506	//////////////////// symmetric real eigensystem ////////////
420		507


diff --git a/packages/base/src/Internal/LAPACK.hs b/packages/base/src/Internal/LAPACK.hs index 64cf2f5..b834b20 100644 --- a/packages/base/src/Internal/LAPACK.hs +++ b/packages/base/src/Internal/LAPACK.hs
@@ -18,6 +18,8 @@
18		18
19	module Internal.LAPACK where	19	module Internal.LAPACK where
20		20
		21	import Data.Bifunctor (first)
		22
21	import Internal.Devel	23	import Internal.Devel
22	import Internal.Vector	24	import Internal.Vector
23	import Internal.Matrix hiding ((#), (#!))	25	import Internal.Matrix hiding ((#), (#!))
@@ -234,7 +236,9 @@ leftSVAux f st x = unsafePerformIO $ do
234	-----------------------------------------------------------------------------	236	-----------------------------------------------------------------------------
235		237
236	foreign import ccall unsafe "eig_l_R" dgeev :: R ::> R ::> C :> R ::> Ok	238	foreign import ccall unsafe "eig_l_R" dgeev :: R ::> R ::> C :> R ::> Ok
		239	foreign import ccall unsafe "eig_l_G" dggev :: R ::> R ::> C :> R :> R ::> R ::> Ok
237	foreign import ccall unsafe "eig_l_C" zgeev :: C ::> C ::> C :> C ::> Ok	240	foreign import ccall unsafe "eig_l_C" zgeev :: C ::> C ::> C :> C ::> Ok
		241	foreign import ccall unsafe "eig_l_GC" zggev :: C ::> C ::> C :> C :> C ::> C ::> Ok
238	foreign import ccall unsafe "eig_l_S" dsyev :: CInt -> R :> R ::> Ok	242	foreign import ccall unsafe "eig_l_S" dsyev :: CInt -> R :> R ::> Ok
239	foreign import ccall unsafe "eig_l_H" zheev :: CInt -> R :> C ::> Ok	243	foreign import ccall unsafe "eig_l_H" zheev :: CInt -> R :> C ::> Ok
240		244
@@ -304,6 +308,53 @@ fixeig _ _ = error "fixeig with impossible inputs"
304	eigOnlyR :: Matrix Double -> Vector (Complex Double)	308	eigOnlyR :: Matrix Double -> Vector (Complex Double)
305	eigOnlyR = fixeig1 . eigOnlyAux dgeev "eigOnlyR"	309	eigOnlyR = fixeig1 . eigOnlyAux dgeev "eigOnlyR"
306		310
		311	-- \| Generalized eigenvalues and right eigenvectors of a pair of real matrices, using LAPACK's /dggev/.
		312	-- The eigenvectors are the columns of v. The eigenvalues are represented as alphas / betas and not sorted.
		313	eigG :: Matrix Double -> Matrix Double -> (Vector (Complex Double), Vector Double, Matrix (Complex Double))
		314	eigG a b = (alpha', beta, v'')
		315	where
		316	(alpha, beta, v) = eigGaux dggev a b "eigG"
		317	alpha' = fixeig1 alpha
		318	v' = toRows $ trans v
		319	v'' = fromColumns $ fixeig (toList alpha') v'
		320
		321	eigGaux f ma mb st = unsafePerformIO $ do
		322	a <- copy ColumnMajor ma
		323	b <- copy ColumnMajor mb
		324	alpha <- createVector r
		325	beta <- createVector r
		326	vr <- createMatrix ColumnMajor r r
		327
		328	(a # b # alpha # beta #! vr) g #\| st
		329
		330	return (alpha, beta, vr)
		331	where
		332	r = rows ma
		333	g ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta = f ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta 0 0 0 0 nullPtr
		334
		335	eigGOnlyAux f ma mb st = unsafePerformIO $ do
		336	a <- copy ColumnMajor ma
		337	b <- copy ColumnMajor mb
		338	alpha <- createVector r
		339	beta <- createVector r
		340
		341	(a # b # alpha #! beta) g #\| st
		342
		343	return (alpha, beta)
		344	where
		345	r = rows ma
		346	g ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta = f ar ac xra xca pa br bc xrb xcb pb alphan palpha betan pbeta 0 0 0 0 nullPtr 0 0 0 0 nullPtr
		347
		348	-- \| Generalized eigenvalues and right eigenvectors of a pair of complex matrices, using LAPACK's /zggev/.
		349	-- The eigenvectors are the columns of v. The eigenvalues are represented as alphas / betas and not sorted.
		350	eigGC :: Matrix (Complex Double) -> Matrix (Complex Double) -> (Vector (Complex Double), Vector (Complex Double), Matrix (Complex Double))
		351	eigGC a b = eigGaux zggev a b "eigGC"
		352
		353	eigOnlyG :: Matrix Double -> Matrix Double -> (Vector (Complex Double), Vector Double)
		354	eigOnlyG a b = first fixeig1 $ eigGOnlyAux dggev a b "eigOnlyG"
		355
		356	eigOnlyGC :: Matrix (Complex Double) -> Matrix (Complex Double) -> (Vector (Complex Double), Vector (Complex Double))
		357	eigOnlyGC a b = eigGOnlyAux zggev a b "eigOnlyGC"
307		358
308	-----------------------------------------------------------------------------	359	-----------------------------------------------------------------------------
309		360


diff --git a/packages/base/src/Numeric/LinearAlgebra.hs b/packages/base/src/Numeric/LinearAlgebra.hs index 91923e9..9670187 100644 --- a/packages/base/src/Numeric/LinearAlgebra.hs +++ b/packages/base/src/Numeric/LinearAlgebra.hs
@@ -131,8 +131,8 @@ module Numeric.LinearAlgebra (
131	leftSV, rightSV,	131	leftSV, rightSV,
132		132
133	-- * Eigendecomposition	133	-- * Eigendecomposition
134	eig, eigSH,	134	eig, geig, eigSH,
135	eigenvalues, eigenvaluesSH,	135	eigenvalues, geigenvalues, eigenvaluesSH,
136	geigSH,	136	geigSH,
137		137
138	-- * QR	138	-- * QR