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175 lines
5.0 KiB
175 lines
5.0 KiB
/* slarrr.f -- translated by f2c (version 20061008). |
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You must link the resulting object file with libf2c: |
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on Microsoft Windows system, link with libf2c.lib; |
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on Linux or Unix systems, link with .../path/to/libf2c.a -lm |
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or, if you install libf2c.a in a standard place, with -lf2c -lm |
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-- in that order, at the end of the command line, as in |
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cc *.o -lf2c -lm |
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Source for libf2c is in /netlib/f2c/libf2c.zip, e.g., |
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http://www.netlib.org/f2c/libf2c.zip |
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*/ |
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#include "clapack.h" |
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/* Subroutine */ int slarrr_(integer *n, real *d__, real *e, integer *info) |
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{ |
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/* System generated locals */ |
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integer i__1; |
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real r__1; |
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/* Builtin functions */ |
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double sqrt(doublereal); |
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/* Local variables */ |
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integer i__; |
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real eps, tmp, tmp2, rmin, offdig; |
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extern doublereal slamch_(char *); |
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real safmin; |
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logical yesrel; |
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real smlnum, offdig2; |
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/* -- LAPACK auxiliary routine (version 3.2) -- */ |
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/* Univ. of Tennessee, Univ. of California Berkeley and NAG Ltd.. */ |
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/* November 2006 */ |
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/* .. Scalar Arguments .. */ |
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/* .. */ |
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/* .. Array Arguments .. */ |
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/* .. */ |
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/* Purpose */ |
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/* ======= */ |
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/* Perform tests to decide whether the symmetric tridiagonal matrix T */ |
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/* warrants expensive computations which guarantee high relative accuracy */ |
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/* in the eigenvalues. */ |
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/* Arguments */ |
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/* ========= */ |
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/* N (input) INTEGER */ |
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/* The order of the matrix. N > 0. */ |
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/* D (input) REAL array, dimension (N) */ |
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/* The N diagonal elements of the tridiagonal matrix T. */ |
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/* E (input/output) REAL array, dimension (N) */ |
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/* On entry, the first (N-1) entries contain the subdiagonal */ |
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/* elements of the tridiagonal matrix T; E(N) is set to ZERO. */ |
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/* INFO (output) INTEGER */ |
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/* INFO = 0(default) : the matrix warrants computations preserving */ |
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/* relative accuracy. */ |
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/* INFO = 1 : the matrix warrants computations guaranteeing */ |
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/* only absolute accuracy. */ |
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/* Further Details */ |
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/* =============== */ |
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/* Based on contributions by */ |
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/* Beresford Parlett, University of California, Berkeley, USA */ |
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/* Jim Demmel, University of California, Berkeley, USA */ |
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/* Inderjit Dhillon, University of Texas, Austin, USA */ |
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/* Osni Marques, LBNL/NERSC, USA */ |
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/* Christof Voemel, University of California, Berkeley, USA */ |
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/* ===================================================================== */ |
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/* .. Parameters .. */ |
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/* .. */ |
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/* .. Local Scalars .. */ |
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/* .. */ |
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/* .. External Functions .. */ |
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/* .. */ |
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/* .. Intrinsic Functions .. */ |
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/* .. */ |
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/* .. Executable Statements .. */ |
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/* As a default, do NOT go for relative-accuracy preserving computations. */ |
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/* Parameter adjustments */ |
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--e; |
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--d__; |
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/* Function Body */ |
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*info = 1; |
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safmin = slamch_("Safe minimum"); |
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eps = slamch_("Precision"); |
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smlnum = safmin / eps; |
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rmin = sqrt(smlnum); |
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/* Tests for relative accuracy */ |
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/* Test for scaled diagonal dominance */ |
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/* Scale the diagonal entries to one and check whether the sum of the */ |
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/* off-diagonals is less than one */ |
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/* The sdd relative error bounds have a 1/(1- 2*x) factor in them, */ |
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/* x = max(OFFDIG + OFFDIG2), so when x is close to 1/2, no relative */ |
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/* accuracy is promised. In the notation of the code fragment below, */ |
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/* 1/(1 - (OFFDIG + OFFDIG2)) is the condition number. */ |
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/* We don't think it is worth going into "sdd mode" unless the relative */ |
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/* condition number is reasonable, not 1/macheps. */ |
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/* The threshold should be compatible with other thresholds used in the */ |
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/* code. We set OFFDIG + OFFDIG2 <= .999 =: RELCOND, it corresponds */ |
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/* to losing at most 3 decimal digits: 1 / (1 - (OFFDIG + OFFDIG2)) <= 1000 */ |
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/* instead of the current OFFDIG + OFFDIG2 < 1 */ |
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yesrel = TRUE_; |
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offdig = 0.f; |
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tmp = sqrt((dabs(d__[1]))); |
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if (tmp < rmin) { |
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yesrel = FALSE_; |
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} |
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if (! yesrel) { |
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goto L11; |
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} |
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i__1 = *n; |
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for (i__ = 2; i__ <= i__1; ++i__) { |
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tmp2 = sqrt((r__1 = d__[i__], dabs(r__1))); |
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if (tmp2 < rmin) { |
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yesrel = FALSE_; |
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} |
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if (! yesrel) { |
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goto L11; |
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} |
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offdig2 = (r__1 = e[i__ - 1], dabs(r__1)) / (tmp * tmp2); |
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if (offdig + offdig2 >= .999f) { |
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yesrel = FALSE_; |
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} |
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if (! yesrel) { |
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goto L11; |
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} |
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tmp = tmp2; |
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offdig = offdig2; |
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/* L10: */ |
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} |
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L11: |
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if (yesrel) { |
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*info = 0; |
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return 0; |
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} else { |
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} |
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/* *** MORE TO BE IMPLEMENTED *** */ |
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/* Test if the lower bidiagonal matrix L from T = L D L^T */ |
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/* (zero shift facto) is well conditioned */ |
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/* Test if the upper bidiagonal matrix U from T = U D U^T */ |
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/* (zero shift facto) is well conditioned. */ |
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/* In this case, the matrix needs to be flipped and, at the end */ |
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/* of the eigenvector computation, the flip needs to be applied */ |
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/* to the computed eigenvectors (and the support) */ |
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return 0; |
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/* END OF SLARRR */ |
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} /* slarrr_ */
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