debug info for the NaN bug

author: Alberto Ruiz <aruiz@um.es> 2008-10-15 15:42:12 +0000
committer: Alberto Ruiz <aruiz@um.es> 2008-10-15 15:42:12 +0000
commit: 210f0027a7a4614469f8f61eef255852c53e5fb8 (patch)
tree: afedc9c7fe7ebc42511758ff71ed43abacce2eba /lib
parent: 01744e1df9448a405696d91af709a7416db0cb78 (diff)
3 files changed, 89 insertions, 81 deletions
diff --git a/lib/Numeric/LinearAlgebra/Algorithms.hs b/lib/Numeric/LinearAlgebra/Algorithms.hs
index 00a0ab0..fbefa68 100644
--- a/lib/Numeric/LinearAlgebra/Algorithms.hs
+++ b/lib/Numeric/LinearAlgebra/Algorithms.hs
@@ -589,6 +589,7 @@ mulCW a b = toComplex (rr,ri)
 -- Direct CBLAS
 -----------------------------------------------------------------------------------
+-- taken from Patrick Perry's BLAS package
 newtype CBLASOrder = CBLASOrder CInt deriving (Eq, Show)
 newtype CBLASTrans = CBLASTrans CInt deriving (Eq, Show)
@@ -602,8 +603,9 @@ trans'     = CBLASTrans 112
 conjTrans = CBLASTrans 113
 foreign import ccall "cblas.h cblas_dgemm"
-    dgemm  :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt -> Double -> Ptr Double -> CInt -> Ptr Double -> CInt -> Double -> Ptr Double -> CInt -> IO ()
+    dgemm  :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt
+              -> Double -> Ptr Double -> CInt -> Ptr Double -> CInt -> Double
+              -> Ptr Double -> CInt -> IO ()
 multiplyR3 :: Matrix Double -> Matrix Double -> Matrix Double
 multiplyR3 a b = multiply3 dgemm "cblas_dgemm" (fmat a) (fmat b)
@@ -618,7 +620,9 @@ multiplyR3 a b = multiply3 dgemm "cblas_dgemm" (fmat a) (fmat b)
 foreign import ccall "cblas.h cblas_zgemm"
-    zgemm  :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt -> Ptr (Complex Double) -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double) -> Ptr (Complex Double) -> CInt -> IO ()
+    zgemm  :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt
+              -> Ptr (Complex Double) -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double)
+              -> Ptr (Complex Double) -> CInt -> IO ()
 multiplyC3 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
 multiplyC3 a b = unsafePerformIO $ multiply3 zgemm "cblas_zgemm" (fmat a) (fmat b)
@@ -640,27 +644,27 @@ multiplyC3 a b = unsafePerformIO $ multiply3 zgemm "cblas_zgemm" (fmat a) (fmat
 -- BLAS via auxiliary C
 -----------------------------------------------------------------------------------
-foreign import ccall "multiply.h multiplyR2" dgemmc :: TMMM
+-- foreign import ccall "multiply.h multiplyR2" dgemmc :: TMMM
-foreign import ccall "multiply.h multiplyC2" zgemmc :: TCMCMCM
+-- foreign import ccall "multiply.h multiplyC2" zgemmc :: TCMCMCM
+-- 
-multiply2 f st a b
+-- multiply2 f st a b
-    | cols a == rows b = unsafePerformIO $ do
+--     | cols a == rows b = unsafePerformIO $ do
-        s <- createMatrix ColumnMajor (rows a) (cols b)
+--         s <- createMatrix ColumnMajor (rows a) (cols b)
-        app3 f mat a mat b mat s st 
+--         app3 f mat a mat b mat s st 
-        if toLists s== toLists s then return s else error $ "AYYY " ++ (show (toLists s))
+--         if toLists s== toLists s then return s else error $ "AYYY " ++ (show (toLists s))
-    | otherwise = error $ st ++ " (matrix product) of nonconformant matrices"
+--     | otherwise = error $ st ++ " (matrix product) of nonconformant matrices"
+-- 
-multiplyR2 :: Matrix Double -> Matrix Double -> Matrix Double
+-- multiplyR2 :: Matrix Double -> Matrix Double -> Matrix Double
-multiplyR2 a b = multiply2 dgemmc "dgemmc" (fmat a) (fmat b)
+-- multiplyR2 a b = multiply2 dgemmc "dgemmc" (fmat a) (fmat b)
+-- 
-multiplyC2 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
+-- multiplyC2 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
-multiplyC2 a b = multiply2 zgemmc "zgemmc" (fmat a) (fmat b)
+-- multiplyC2 a b = multiply2 zgemmc "zgemmc" (fmat a) (fmat b)
 -----------------------------------------------------------------------------------
-- direct C multiplication
+-- direct C multiplication, to expose the NaN bug
 -----------------------------------------------------------------------------------
-foreign import ccall "multiply.h multiplyR" cmultiplyR :: TMMM
+-- foreign import ccall "multiply.h multiplyR" cmultiplyR :: TMMM
 foreign import ccall "multiply.h multiplyC" cmultiplyC :: TCMCMCM
 cmultiply f st a b
@@ -674,8 +678,8 @@ cmultiply f st a b
        -- return s
 --    | otherwise = error $ st ++ " (matrix product) of nonconformant matrices"
-multiplyR :: Matrix Double -> Matrix Double -> Matrix Double
+-- multiplyR :: Matrix Double -> Matrix Double -> Matrix Double
-multiplyR a b = cmultiply cmultiplyR "cmultiplyR" (cmat a) (cmat b)
+-- multiplyR a b = cmultiply cmultiplyR "cmultiplyR" (cmat a) (cmat b)
 multiplyC :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
 multiplyC a b = cmultiply cmultiplyC "cmultiplyR" (cmat a) (cmat b)
diff --git a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c
index 0dccea2..61cb002 100644
--- a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c
+++ b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c
@@ -817,20 +817,21 @@ int lu_l_C(KCMAT(a), DVEC(ipiv), CMAT(r)) {
 ////////////////////////////////////////////////////////////
-int multiplyR(KDMAT(a),KDMAT(b),DMAT(r)) {
+// int multiplyR(KDMAT(a),KDMAT(b),DMAT(r)) {
-    REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
+//     REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
-    int i,j,k;
+//     int i,j,k;
-    for (i=0;i<ar;i++) {
+//     for (i=0;i<ar;i++) {
-        for(j=0;j<bc;j++) {
+//         for(j=0;j<bc;j++) {
-            double temp = 0;
+//             double temp = 0;
-            for(k=0;k<ac;k++) {
+//             for(k=0;k<ac;k++) {
-                temp += ap[i*ac+k]*bp[k*bc+j];
+//                 temp += ap[i*ac+k]*bp[k*bc+j];
-            }
+//             }
-            rp[i*rc+j] = temp;
+//             rp[i*rc+j] = temp;
-        }
+//         }
-    }
+//     }
-    OK
+//     OK
-}
+// }
 int multiplyC(KCMAT(a),KCMAT(b),CMAT(r)) {
    REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
@@ -839,52 +840,55 @@ int multiplyC(KCMAT(a),KCMAT(b),CMAT(r)) {
        for(j=0;j<bc;j++) {
            doublecomplex temp = {0,0};
            for(k=0;k<ac;k++) {
-                doublecomplex aik = ((doublecomplex*)ap)[i*ac+k];
+                doublecomplex A = ((doublecomplex*)ap)[i*ac+k];
-                doublecomplex bkj = ((doublecomplex*)bp)[k*bc+j];
+                doublecomplex B = ((doublecomplex*)bp)[k*bc+j];
-                //double w = aik.r+aik.i+bkj.r+bkj.i;
+                double w = A.r * B.r - A.i * B.i;
-                //if (w>w) exit(1);
+                double w1 = A.r * B.r;
-                //printf("%d",w>w);
+                double w2 = A.i * B.i;
-                temp.r += aik.r * bkj.r - aik.i * bkj.i;
+                if(w != w) {
-                temp.i += aik.r * bkj.i + aik.i * bkj.r;
+                    printf("at : %d %d %d\n",i,j,k);
-                //printf("%f %f %f %f \n",aik.r,aik.i,bkj.r,bkj.i);
+                    printf("%f %f %f\n",A.i,B.i, A.i * B.i);
-                //printf("%f %f %f \n",w,temp.r,temp.i);
+                    printf("%f %f %f\n",A.i,B.i, w2);
+                    exit(1);
+                }
+                temp.r += (w + w1-w2)/2;
+                //temp.r += w;
+                temp.i += A.r * B.i + A.i * B.r;
            }
            ((doublecomplex*)rp)[i*rc+j] = temp;
-            //printf("%f %f\n",temp.r,temp.i);
        }
    }
    OK
 }
-void dgemm_(char *, char *, integer *, integer *, integer *,
+// void dgemm_(char *, char *, integer *, integer *, integer *,
-           double *, const double *, integer *, const double *,
+//            double *, const double *, integer *, const double *,
-           integer *, double *, double *, integer *);
+//            integer *, double *, double *, integer *);
+// 
-void zgemm_(char *, char *, integer *, integer *, integer *,
+// void zgemm_(char *, char *, integer *, integer *, integer *,
-           doublecomplex *, const doublecomplex *, integer *, const doublecomplex *,
+//            doublecomplex *, const doublecomplex *, integer *, const doublecomplex *,
-           integer *, doublecomplex *, doublecomplex *, integer *);
+//            integer *, doublecomplex *, doublecomplex *, integer *);
+// 
+// 
-int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r)) {
+// int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r)) {
-    REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
+//     REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
-    double alpha = 1;
+//     double alpha = 1;
-    double beta = 0;
+//     double beta = 0;
-    integer m = ar;
+//     integer m = ar;
-    integer n = bc;
+//     integer n = bc;
-    integer k = ac;
+//     integer k = ac;
-    int i,j;
+//     int i,j;
-    dgemm_("N","N",&m,&n,&k,&alpha,ap,&m,bp,&k,&beta,rp,&m);
+//     dgemm_("N","N",&m,&n,&k,&alpha,ap,&m,bp,&k,&beta,rp,&m);
-    OK
+//     OK
-}
+// }
+// 
-int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r)) {
+// int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r)) {
-    REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
+//     REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
-    integer m = ar;
+//     integer m = ar;
-    integer n = bc;
+//     integer n = bc;
-    integer k = ac;
+//     integer k = ac;
-    doublecomplex alpha = {1,0};
+//     doublecomplex alpha = {1,0};
-    doublecomplex beta = {0,0};
+//     doublecomplex beta = {0,0};
-    zgemm_("N","N",&m,&n,&k,&alpha,(doublecomplex*)ap,&m,(doublecomplex*)bp,&k,&beta,(doublecomplex*)rp,&m);
+//     zgemm_("N","N",&m,&n,&k,&alpha,(doublecomplex*)ap,&m,(doublecomplex*)bp,&k,&beta,(doublecomplex*)rp,&m);
-    OK
+//     OK
-}
+// }
diff --git a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h
index c0361a6..e8cba30 100644
--- a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h
+++ b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h
@@ -85,8 +85,8 @@ int schur_l_C(KCMAT(a), CMAT(u), CMAT(s));
 int lu_l_R(KDMAT(a), DVEC(ipiv), DMAT(r));
 int lu_l_C(KCMAT(a), DVEC(ipiv), CMAT(r));
-int multiplyR(KDMAT(a),KDMAT(b),DMAT(r));
+// int multiplyR(KDMAT(a),KDMAT(b),DMAT(r));
-int multiplyC(KCMAT(a),KCMAT(b),CMAT(r));
+// int multiplyC(KCMAT(a),KCMAT(b),CMAT(r));
-int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r));
+// int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r));
 int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r));
author	Alberto Ruiz <aruiz@um.es>	2008-10-15 15:42:12 +0000
committer	Alberto Ruiz <aruiz@um.es>	2008-10-15 15:42:12 +0000
commit	210f0027a7a4614469f8f61eef255852c53e5fb8 (patch)
tree	afedc9c7fe7ebc42511758ff71ed43abacce2eba /lib
parent	01744e1df9448a405696d91af709a7416db0cb78 (diff)

diff --git a/lib/Numeric/LinearAlgebra/Algorithms.hs b/lib/Numeric/LinearAlgebra/Algorithms.hs index 00a0ab0..fbefa68 100644 --- a/lib/Numeric/LinearAlgebra/Algorithms.hs +++ b/lib/Numeric/LinearAlgebra/Algorithms.hs
@@ -589,6 +589,7 @@ mulCW a b = toComplex (rr,ri)
589	-- Direct CBLAS	589	-- Direct CBLAS
590	-----------------------------------------------------------------------------------	590	-----------------------------------------------------------------------------------
591		591
		592	-- taken from Patrick Perry's BLAS package
592	newtype CBLASOrder = CBLASOrder CInt deriving (Eq, Show)	593	newtype CBLASOrder = CBLASOrder CInt deriving (Eq, Show)
593	newtype CBLASTrans = CBLASTrans CInt deriving (Eq, Show)	594	newtype CBLASTrans = CBLASTrans CInt deriving (Eq, Show)
594		595
@@ -602,8 +603,9 @@ trans' = CBLASTrans 112
602	conjTrans = CBLASTrans 113	603	conjTrans = CBLASTrans 113
603		604
604	foreign import ccall "cblas.h cblas_dgemm"	605	foreign import ccall "cblas.h cblas_dgemm"
605	dgemm :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt -> Double -> Ptr Double -> CInt -> Ptr Double -> CInt -> Double -> Ptr Double -> CInt -> IO ()	606	dgemm :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt
606		607	-> Double -> Ptr Double -> CInt -> Ptr Double -> CInt -> Double
		608	-> Ptr Double -> CInt -> IO ()
607		609
608	multiplyR3 :: Matrix Double -> Matrix Double -> Matrix Double	610	multiplyR3 :: Matrix Double -> Matrix Double -> Matrix Double
609	multiplyR3 a b = multiply3 dgemm "cblas_dgemm" (fmat a) (fmat b)	611	multiplyR3 a b = multiply3 dgemm "cblas_dgemm" (fmat a) (fmat b)
@@ -618,7 +620,9 @@ multiplyR3 a b = multiply3 dgemm "cblas_dgemm" (fmat a) (fmat b)
618		620
619		621
620	foreign import ccall "cblas.h cblas_zgemm"	622	foreign import ccall "cblas.h cblas_zgemm"
621	zgemm :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt -> Ptr (Complex Double) -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double) -> Ptr (Complex Double) -> CInt -> IO ()	623	zgemm :: CBLASOrder -> CBLASTrans -> CBLASTrans -> CInt -> CInt -> CInt
		624	-> Ptr (Complex Double) -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double) -> CInt -> Ptr (Complex Double)
		625	-> Ptr (Complex Double) -> CInt -> IO ()
622		626
623	multiplyC3 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)	627	multiplyC3 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
624	multiplyC3 a b = unsafePerformIO $ multiply3 zgemm "cblas_zgemm" (fmat a) (fmat b)	628	multiplyC3 a b = unsafePerformIO $ multiply3 zgemm "cblas_zgemm" (fmat a) (fmat b)
@@ -640,27 +644,27 @@ multiplyC3 a b = unsafePerformIO $ multiply3 zgemm "cblas_zgemm" (fmat a) (fmat
640	-- BLAS via auxiliary C	644	-- BLAS via auxiliary C
641	-----------------------------------------------------------------------------------	645	-----------------------------------------------------------------------------------
642		646
643	foreign import ccall "multiply.h multiplyR2" dgemmc :: TMMM	647	-- foreign import ccall "multiply.h multiplyR2" dgemmc :: TMMM
644	foreign import ccall "multiply.h multiplyC2" zgemmc :: TCMCMCM	648	-- foreign import ccall "multiply.h multiplyC2" zgemmc :: TCMCMCM
645		649	--
646	multiply2 f st a b	650	-- multiply2 f st a b
647	\| cols a == rows b = unsafePerformIO $ do	651	-- \| cols a == rows b = unsafePerformIO $ do
648	s <- createMatrix ColumnMajor (rows a) (cols b)	652	-- s <- createMatrix ColumnMajor (rows a) (cols b)
649	app3 f mat a mat b mat s st	653	-- app3 f mat a mat b mat s st
650	if toLists s== toLists s then return s else error $ "AYYY " ++ (show (toLists s))	654	-- if toLists s== toLists s then return s else error $ "AYYY " ++ (show (toLists s))
651	\| otherwise = error $ st ++ " (matrix product) of nonconformant matrices"	655	-- \| otherwise = error $ st ++ " (matrix product) of nonconformant matrices"
652		656	--
653	multiplyR2 :: Matrix Double -> Matrix Double -> Matrix Double	657	-- multiplyR2 :: Matrix Double -> Matrix Double -> Matrix Double
654	multiplyR2 a b = multiply2 dgemmc "dgemmc" (fmat a) (fmat b)	658	-- multiplyR2 a b = multiply2 dgemmc "dgemmc" (fmat a) (fmat b)
655		659	--
656	multiplyC2 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)	660	-- multiplyC2 :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
657	multiplyC2 a b = multiply2 zgemmc "zgemmc" (fmat a) (fmat b)	661	-- multiplyC2 a b = multiply2 zgemmc "zgemmc" (fmat a) (fmat b)
658		662
659	-----------------------------------------------------------------------------------	663	-----------------------------------------------------------------------------------
660	-- direct C multiplication	664	-- direct C multiplication, to expose the NaN bug
661	-----------------------------------------------------------------------------------	665	-----------------------------------------------------------------------------------
662		666
663	foreign import ccall "multiply.h multiplyR" cmultiplyR :: TMMM	667	-- foreign import ccall "multiply.h multiplyR" cmultiplyR :: TMMM
664	foreign import ccall "multiply.h multiplyC" cmultiplyC :: TCMCMCM	668	foreign import ccall "multiply.h multiplyC" cmultiplyC :: TCMCMCM
665		669
666	cmultiply f st a b	670	cmultiply f st a b
@@ -674,8 +678,8 @@ cmultiply f st a b
674	-- return s	678	-- return s
675	-- \| otherwise = error $ st ++ " (matrix product) of nonconformant matrices"	679	-- \| otherwise = error $ st ++ " (matrix product) of nonconformant matrices"
676		680
677	multiplyR :: Matrix Double -> Matrix Double -> Matrix Double	681	-- multiplyR :: Matrix Double -> Matrix Double -> Matrix Double
678	multiplyR a b = cmultiply cmultiplyR "cmultiplyR" (cmat a) (cmat b)	682	-- multiplyR a b = cmultiply cmultiplyR "cmultiplyR" (cmat a) (cmat b)
679		683
680	multiplyC :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)	684	multiplyC :: Matrix (Complex Double) -> Matrix (Complex Double) -> Matrix (Complex Double)
681	multiplyC a b = cmultiply cmultiplyC "cmultiplyR" (cmat a) (cmat b)	685	multiplyC a b = cmultiply cmultiplyC "cmultiplyR" (cmat a) (cmat b)


diff --git a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c index 0dccea2..61cb002 100644 --- a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c +++ b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.c
@@ -817,20 +817,21 @@ int lu_l_C(KCMAT(a), DVEC(ipiv), CMAT(r)) {
817		817
818	////////////////////////////////////////////////////////////	818	////////////////////////////////////////////////////////////
819		819
820	int multiplyR(KDMAT(a),KDMAT(b),DMAT(r)) {	820	// int multiplyR(KDMAT(a),KDMAT(b),DMAT(r)) {
821	REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);	821	// REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
822	int i,j,k;	822	// int i,j,k;
823	for (i=0;i<ar;i++) {	823	// for (i=0;i<ar;i++) {
824	for(j=0;j<bc;j++) {	824	// for(j=0;j<bc;j++) {
825	double temp = 0;	825	// double temp = 0;
826	for(k=0;k<ac;k++) {	826	// for(k=0;k<ac;k++) {
827	temp += ap[iac+k]bp[k*bc+j];	827	// temp += ap[iac+k]bp[k*bc+j];
828	}	828	// }
829	rp[i*rc+j] = temp;	829	// rp[i*rc+j] = temp;
830	}	830	// }
831	}	831	// }
832	OK	832	// OK
833	}	833	// }
		834
834		835
835	int multiplyC(KCMAT(a),KCMAT(b),CMAT(r)) {	836	int multiplyC(KCMAT(a),KCMAT(b),CMAT(r)) {
836	REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);	837	REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
@@ -839,52 +840,55 @@ int multiplyC(KCMAT(a),KCMAT(b),CMAT(r)) {
839	for(j=0;j<bc;j++) {	840	for(j=0;j<bc;j++) {
840	doublecomplex temp = {0,0};	841	doublecomplex temp = {0,0};
841	for(k=0;k<ac;k++) {	842	for(k=0;k<ac;k++) {
842	doublecomplex aik = ((doublecomplex)ap)[iac+k];	843	doublecomplex A = ((doublecomplex)ap)[iac+k];
843	doublecomplex bkj = ((doublecomplex)bp)[kbc+j];	844	doublecomplex B = ((doublecomplex)bp)[kbc+j];
844	//double w = aik.r+aik.i+bkj.r+bkj.i;	845	double w = A.r * B.r - A.i * B.i;
845	//if (w>w) exit(1);	846	double w1 = A.r * B.r;
846	//printf("%d",w>w);	847	double w2 = A.i * B.i;
847	temp.r += aik.r * bkj.r - aik.i * bkj.i;	848	if(w != w) {
848	temp.i += aik.r * bkj.i + aik.i * bkj.r;	849	printf("at : %d %d %d\n",i,j,k);
849	//printf("%f %f %f %f \n",aik.r,aik.i,bkj.r,bkj.i);	850	printf("%f %f %f\n",A.i,B.i, A.i * B.i);
850	//printf("%f %f %f \n",w,temp.r,temp.i);	851	printf("%f %f %f\n",A.i,B.i, w2);
851		852	exit(1);
		853	}
		854	temp.r += (w + w1-w2)/2;
		855	//temp.r += w;
		856	temp.i += A.r * B.i + A.i * B.r;
852	}	857	}
853	((doublecomplex)rp)[irc+j] = temp;	858	((doublecomplex)rp)[irc+j] = temp;
854	//printf("%f %f\n",temp.r,temp.i);
855	}	859	}
856	}	860	}
857	OK	861	OK
858	}	862	}
859		863
860	void dgemm_(char , char , integer , integer , integer *,	864	// void dgemm_(char , char , integer , integer , integer *,
861	double , const double , integer , const double ,	865	// double , const double , integer , const double ,
862	integer , double , double , integer );	866	// integer , double , double , integer );
863		867	//
864	void zgemm_(char , char , integer , integer , integer *,	868	// void zgemm_(char , char , integer , integer , integer *,
865	doublecomplex , const doublecomplex , integer , const doublecomplex ,	869	// doublecomplex , const doublecomplex , integer , const doublecomplex ,
866	integer , doublecomplex , doublecomplex , integer );	870	// integer , doublecomplex , doublecomplex , integer );
867		871	//
868		872	//
869	int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r)) {	873	// int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r)) {
870	REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);	874	// REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
871	double alpha = 1;	875	// double alpha = 1;
872	double beta = 0;	876	// double beta = 0;
873	integer m = ar;	877	// integer m = ar;
874	integer n = bc;	878	// integer n = bc;
875	integer k = ac;	879	// integer k = ac;
876	int i,j;	880	// int i,j;
877	dgemm_("N","N",&m,&n,&k,&alpha,ap,&m,bp,&k,&beta,rp,&m);	881	// dgemm_("N","N",&m,&n,&k,&alpha,ap,&m,bp,&k,&beta,rp,&m);
878	OK	882	// OK
879	}	883	// }
880		884	//
881	int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r)) {	885	// int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r)) {
882	REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);	886	// REQUIRES(ac==br && ar==rr && bc==rc,BAD_SIZE);
883	integer m = ar;	887	// integer m = ar;
884	integer n = bc;	888	// integer n = bc;
885	integer k = ac;	889	// integer k = ac;
886	doublecomplex alpha = {1,0};	890	// doublecomplex alpha = {1,0};
887	doublecomplex beta = {0,0};	891	// doublecomplex beta = {0,0};
888	zgemm_("N","N",&m,&n,&k,&alpha,(doublecomplex)ap,&m,(doublecomplex)bp,&k,&beta,(doublecomplex*)rp,&m);	892	// zgemm_("N","N",&m,&n,&k,&alpha,(doublecomplex)ap,&m,(doublecomplex)bp,&k,&beta,(doublecomplex*)rp,&m);
889	OK	893	// OK
890	}	894	// }


diff --git a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h index c0361a6..e8cba30 100644 --- a/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h +++ b/lib/Numeric/LinearAlgebra/LAPACK/lapack-aux.h
@@ -85,8 +85,8 @@ int schur_l_C(KCMAT(a), CMAT(u), CMAT(s));
85	int lu_l_R(KDMAT(a), DVEC(ipiv), DMAT(r));	85	int lu_l_R(KDMAT(a), DVEC(ipiv), DMAT(r));
86	int lu_l_C(KCMAT(a), DVEC(ipiv), CMAT(r));	86	int lu_l_C(KCMAT(a), DVEC(ipiv), CMAT(r));
87		87
88	int multiplyR(KDMAT(a),KDMAT(b),DMAT(r));	88	// int multiplyR(KDMAT(a),KDMAT(b),DMAT(r));
89	int multiplyC(KCMAT(a),KCMAT(b),CMAT(r));	89	// int multiplyC(KCMAT(a),KCMAT(b),CMAT(r));
90		90
91	int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r));	91	// int multiplyR2(KDMAT(a),KDMAT(b),DMAT(r));
92	int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r));	92	int multiplyC2(KCMAT(a),KCMAT(b),CMAT(r));