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feature08b_assistants feature08f_assistants feature08g_assistants feature08h_assistants feature08j_assistants feature08k_assistants improve_tool_selection master
  1.   373f7167ef767f534113e9faca48ea7d5c403e69
  2.   thirdparty
  3.   superlu
  4.   SuperLU_4.1
  5.   CBLAS
  6.   ssyr2.c
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/*  -- translated by f2c (version 19940927).
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   You must link the resulting object file with the libraries:
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	-lf2c -lm   (in that order)
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*/
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#include "f2c.h"
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/* Subroutine */ int ssyr2_(char *uplo, integer *n, real *alpha, real *x,
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	integer *incx, real *y, integer *incy, real *a, integer *lda)
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{
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    /* System generated locals */
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    integer a_dim1, a_offset, i__1, i__2;
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    /* Local variables */
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    static integer info;
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    static real temp1, temp2;
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    static integer i, j;
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    extern logical lsame_(char *, char *);
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    static integer ix, iy, jx, jy, kx, ky;
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    extern /* Subroutine */ int xerbla_(char *, integer *);
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/*  Purpose
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    =======
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    SSYR2  performs the symmetric rank 2 operation
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       A := alpha*x*y' + alpha*y*x' + A,
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    where alpha is a scalar, x and y are n element vectors and A is an n
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    by n symmetric matrix.
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    Parameters
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    ==========
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    UPLO   - CHARACTER*1.
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             On entry, UPLO specifies whether the upper or lower
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             triangular part of the array A is to be referenced as
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             follows:
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                UPLO = 'U' or 'u'   Only the upper triangular part of A
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                                    is to be referenced.
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                UPLO = 'L' or 'l'   Only the lower triangular part of A
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                                    is to be referenced.
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             Unchanged on exit.
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    N      - INTEGER.
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             On entry, N specifies the order of the matrix A.
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             N must be at least zero.
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             Unchanged on exit.
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    ALPHA  - REAL            .
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             On entry, ALPHA specifies the scalar alpha.
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             Unchanged on exit.
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    X      - REAL             array of dimension at least
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             ( 1 + ( n - 1 )*abs( INCX ) ).
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             Before entry, the incremented array X must contain the n
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             element vector x.
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             Unchanged on exit.
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    INCX   - INTEGER.
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             On entry, INCX specifies the increment for the elements of
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             X. INCX must not be zero.
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             Unchanged on exit.
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    Y      - REAL             array of dimension at least
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             ( 1 + ( n - 1 )*abs( INCY ) ).
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             Before entry, the incremented array Y must contain the n
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             element vector y.
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             Unchanged on exit.
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    INCY   - INTEGER.
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             On entry, INCY specifies the increment for the elements of
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             Y. INCY must not be zero.
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             Unchanged on exit.
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    A      - REAL             array of DIMENSION ( LDA, n ).
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             Before entry with  UPLO = 'U' or 'u', the leading n by n
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             upper triangular part of the array A must contain the upper
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             triangular part of the symmetric matrix and the strictly
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             lower triangular part of A is not referenced. On exit, the
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             upper triangular part of the array A is overwritten by the
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             upper triangular part of the updated matrix.
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             Before entry with UPLO = 'L' or 'l', the leading n by n
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             lower triangular part of the array A must contain the lower
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             triangular part of the symmetric matrix and the strictly
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             upper triangular part of A is not referenced. On exit, the
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             lower triangular part of the array A is overwritten by the
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             lower triangular part of the updated matrix.
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    LDA    - INTEGER.
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             On entry, LDA specifies the first dimension of A as declared
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             in the calling (sub) program. LDA must be at least
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             max( 1, n ).
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             Unchanged on exit.
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    Level 2 Blas routine.
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    -- Written on 22-October-1986.
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       Jack Dongarra, Argonne National Lab.
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       Jeremy Du Croz, Nag Central Office.
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       Sven Hammarling, Nag Central Office.
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       Richard Hanson, Sandia National Labs.
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       Test the input parameters.
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   Parameter adjustments
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       Function Body */
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#define X(I) x[(I)-1]
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#define Y(I) y[(I)-1]
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#define A(I,J) a[(I)-1 + ((J)-1)* ( *lda)]
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    info = 0;
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    if (! lsame_(uplo, "U") && ! lsame_(uplo, "L")) {
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	info = 1;
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    } else if (*n < 0) {
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	info = 2;
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    } else if (*incx == 0) {
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	info = 5;
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    } else if (*incy == 0) {
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	info = 7;
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    } else if (*lda < max(1,*n)) {
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	info = 9;
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    }
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    if (info != 0) {
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	xerbla_("SSYR2 ", &info);
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	return 0;
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    }
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/*     Quick return if possible. */
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    if (*n == 0 || *alpha == 0.f) {
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	return 0;
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    }
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/*     Set up the start points in X and Y if the increments are not both
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       unity. */
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    if (*incx != 1 || *incy != 1) {
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	if (*incx > 0) {
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	    kx = 1;
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	} else {
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	    kx = 1 - (*n - 1) * *incx;
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	}
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	if (*incy > 0) {
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	    ky = 1;
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	} else {
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	    ky = 1 - (*n - 1) * *incy;
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	}
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	jx = kx;
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	jy = ky;
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    }
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/*     Start the operations. In this version the elements of A are
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       accessed sequentially with one pass through the triangular part
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       of A. */
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    if (lsame_(uplo, "U")) {
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/*        Form  A  when A is stored in the upper triangle. */
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	if (*incx == 1 && *incy == 1) {
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	    i__1 = *n;
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	    for (j = 1; j <= *n; ++j) {
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		if (X(j) != 0.f || Y(j) != 0.f) {
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		    temp1 = *alpha * Y(j);
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		    temp2 = *alpha * X(j);
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		    i__2 = j;
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		    for (i = 1; i <= j; ++i) {
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			A(i,j) = A(i,j) + X(i) * temp1
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				+ Y(i) * temp2;
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/* L10: */
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		    }
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		}
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/* L20: */
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	    }
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	} else {
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	    i__1 = *n;
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	    for (j = 1; j <= *n; ++j) {
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		if (X(jx) != 0.f || Y(jy) != 0.f) {
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		    temp1 = *alpha * Y(jy);
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		    temp2 = *alpha * X(jx);
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		    ix = kx;
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		    iy = ky;
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		    i__2 = j;
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		    for (i = 1; i <= j; ++i) {
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			A(i,j) = A(i,j) + X(ix) * temp1
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				+ Y(iy) * temp2;
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			ix += *incx;
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			iy += *incy;
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/* L30: */
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		    }
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		}
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		jx += *incx;
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		jy += *incy;
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/* L40: */
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	    }
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	}
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    } else {
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/*        Form  A  when A is stored in the lower triangle. */
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	if (*incx == 1 && *incy == 1) {
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	    i__1 = *n;
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	    for (j = 1; j <= *n; ++j) {
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		if (X(j) != 0.f || Y(j) != 0.f) {
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		    temp1 = *alpha * Y(j);
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		    temp2 = *alpha * X(j);
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		    i__2 = *n;
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		    for (i = j; i <= *n; ++i) {
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			A(i,j) = A(i,j) + X(i) * temp1
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				+ Y(i) * temp2;
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/* L50: */
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		    }
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		}
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/* L60: */
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	    }
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	} else {
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	    i__1 = *n;
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	    for (j = 1; j <= *n; ++j) {
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		if (X(jx) != 0.f || Y(jy) != 0.f) {
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		    temp1 = *alpha * Y(jy);
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		    temp2 = *alpha * X(jx);
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		    ix = jx;
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		    iy = jy;
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		    i__2 = *n;
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		    for (i = j; i <= *n; ++i) {
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			A(i,j) = A(i,j) + X(ix) * temp1
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				+ Y(iy) * temp2;
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			ix += *incx;
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			iy += *incy;
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/* L70: */
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		    }
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		}
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		jx += *incx;
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		jy += *incy;
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/* L80: */
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	    }
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	}
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    }
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    return 0;
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/*     End of SSYR2 . */
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} /* ssyr2_ */
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