Bug#571572: Bug#569436: blas: zgesvd seems to give incorrect results

Kumar Appaiah a.kumar at alumni.iitm.ac.in
Sat Feb 27 20:29:31 UTC 2010 

Dear Denis,

On Sat, Feb 27, 2010 at 09:22:53PM +0100, Denis Barbier wrote:
> > This was fantastic analysis. I actually would like to know how you
> > zeroed in onto zdrot to find the problem.
> 
> Hi,
> 
> I used brute force ;)
> libblas3gf 1.2-4 is installed on my system, object files from
> libblas3gf 1.2-3 have been unpacked into dir1, half files are moved
> into dir2.  then I compiled
>   gfortran zgesvd_ex.o dir1/*.o -llapack
> and by dichotomy found which object file is causing trouble.

Thanks for letting me know; I shall try to use this method the next time.

> > I shall now try to play around with zdrot to see if I can create a
> > test case which reproduces the bug, so that I can file a bug report
> > with GCC.
> 
> I am afraid that this is not easy, and anyway GCC folks will discard
> your bugreport since this bug has been fixed in 4.5.  But I am very
> interested to know the exact reason, and if there is a way to prevent
> this bug by modifying source files.

I have been trying, but I am unable to produce errors with my analysis
of zdrot individually. In the hope that someone else smarter than me,
can find a non-functional test case, I attach my source
code. Compiling it with make, and then make FFLAGS=-O3 should result
in some difference when the resulting executable is run for some test
cases, but which test case it is, I am unsure.

HTH, and thanks.

Kumar
-- 
Life's errors cry for the merciful beauty
that can modulate their isolation
into a harmony with the whole.
- Rabindranath Tagore (Fireflies, 1928)













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CFLAGS ?= -O2
FFLAGS ?= -O2

all: zdrot_test

zdrot_test: zdrot.o zdrot_test.o

zdrot.o: zdrot.f
	gfortran -c $(FFLAGS) $< -o $@

zdrot_test.o: zdrot_test.c
	$(CC) -c $(CFLAGS) $< -o $@

.PHONY: clean

clean:
	$(RM) zdrot_test.o zdrot.o zdrot_test
-------------- next part --------------
      SUBROUTINE ZDROT( N, CX, INCX, CY, INCY, C, S )
*
*     .. Scalar Arguments ..
      INTEGER            INCX, INCY, N
      DOUBLE PRECISION   C, S
*     ..
*     .. Array Arguments ..
      COMPLEX*16         CX( * ), CY( * )
*     ..
*
*  Purpose
*  =======
*
*  Applies a plane rotation, where the cos and sin (c and s) are real
*  and the vectors cx and cy are complex.
*  jack dongarra, linpack, 3/11/78.
*
*  Arguments
*  ==========
*
*  N        (input) INTEGER
*           On entry, N specifies the order of the vectors cx and cy.
*           N must be at least zero.
*           Unchanged on exit.
*
*  CX       (input) COMPLEX*16 array, dimension at least
*           ( 1 + ( N - 1 )*abs( INCX ) ).
*           Before entry, the incremented array CX must contain the n
*           element vector cx. On exit, CX is overwritten by the updated
*           vector cx.
*
*  INCX     (input) INTEGER
*           On entry, INCX specifies the increment for the elements of
*           CX. INCX must not be zero.
*           Unchanged on exit.
*
*  CY       (input) COMPLEX*16 array, dimension at least
*           ( 1 + ( N - 1 )*abs( INCY ) ).
*           Before entry, the incremented array CY must contain the n
*           element vector cy. On exit, CY is overwritten by the updated
*           vector cy.
*
*  INCY     (input) INTEGER
*           On entry, INCY specifies the increment for the elements of
*           CY. INCY must not be zero.
*           Unchanged on exit.
*
*  C        (input) DOUBLE PRECISION
*           On entry, C specifies the cosine, cos.
*           Unchanged on exit.
*
*  S        (input) DOUBLE PRECISION
*           On entry, S specifies the sine, sin.
*           Unchanged on exit.
*
* =====================================================================
*
*     .. Local Scalars ..
      INTEGER            I, IX, IY
      COMPLEX*16         CTEMP
*     ..
*     .. Executable Statements ..
*
      IF( N.LE.0 )
     $   RETURN
      IF( INCX.EQ.1 .AND. INCY.EQ.1 )
     $   GO TO 20
*
*        code for unequal increments or equal increments not equal
*          to 1
*
      IX = 1
      IY = 1
      IF( INCX.LT.0 )
     $   IX = ( -N+1 )*INCX + 1
      IF( INCY.LT.0 )
     $   IY = ( -N+1 )*INCY + 1
      DO 10 I = 1, N
         CTEMP = C*CX( IX ) + S*CY( IY )
         CY( IY ) = C*CY( IY ) - S*CX( IX )
         CX( IX ) = CTEMP
         IX = IX + INCX
         IY = IY + INCY
   10 CONTINUE
      RETURN
*
*        code for both increments equal to 1
*
   20 CONTINUE
      DO 30 I = 1, N
         CTEMP = C*CX( I ) + S*CY( I )
         CY( I ) = C*CY( I ) - S*CX( I )
         CX( I ) = CTEMP
   30 CONTINUE
      RETURN
      END
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