diff options
Diffstat (limited to 'numpy/linalg/lapack_lite/f2c_lapack.c')
| -rw-r--r-- | numpy/linalg/lapack_lite/f2c_lapack.c | 797 |
1 files changed, 797 insertions, 0 deletions
diff --git a/numpy/linalg/lapack_lite/f2c_lapack.c b/numpy/linalg/lapack_lite/f2c_lapack.c new file mode 100644 index 000000000..7a0dd491d --- /dev/null +++ b/numpy/linalg/lapack_lite/f2c_lapack.c @@ -0,0 +1,797 @@ +/* +NOTE: This is generated code. Look in Misc/lapack_lite for information on + remaking this file. +*/ +#include "f2c.h" + +#ifdef HAVE_CONFIG +#include "config.h" +#else +extern doublereal dlamch_(char *); +#define EPSILON dlamch_("Epsilon") +#define SAFEMINIMUM dlamch_("Safe minimum") +#define PRECISION dlamch_("Precision") +#define BASE dlamch_("Base") +#endif + +extern doublereal dlapy2_(doublereal *x, doublereal *y); + +/* +f2c knows the exact rules for precedence, and so omits parentheses where not +strictly necessary. Since this is generated code, we don't really care if +it's readable, and we know what is written is correct. So don't warn about +them. +*/ +#if defined(__GNUC__) +#pragma GCC diagnostic ignored "-Wparentheses" +#endif + + +/* Table of constant values */ + +static integer c__0 = 0; +static real c_b163 = 0.f; +static real c_b164 = 1.f; +static integer c__1 = 1; + +integer ieeeck_(integer *ispec, real *zero, real *one) +{ + /* System generated locals */ + integer ret_val; + + /* Local variables */ + static real nan1, nan2, nan3, nan4, nan5, nan6, neginf, posinf, negzro, + newzro; + + +/* + -- LAPACK auxiliary routine (version 3.0) -- + Univ. of Tennessee, Univ. of California Berkeley, NAG Ltd., + Courant Institute, Argonne National Lab, and Rice University + June 30, 1998 + + + Purpose + ======= + + IEEECK is called from the ILAENV to verify that Infinity and + possibly NaN arithmetic is safe (i.e. will not trap). + + Arguments + ========= + + ISPEC (input) INTEGER + Specifies whether to test just for inifinity arithmetic + or whether to test for infinity and NaN arithmetic. + = 0: Verify infinity arithmetic only. + = 1: Verify infinity and NaN arithmetic. + + ZERO (input) REAL + Must contain the value 0.0 + This is passed to prevent the compiler from optimizing + away this code. + + ONE (input) REAL + Must contain the value 1.0 + This is passed to prevent the compiler from optimizing + away this code. + + RETURN VALUE: INTEGER + = 0: Arithmetic failed to produce the correct answers + = 1: Arithmetic produced the correct answers +*/ + + ret_val = 1; + + posinf = *one / *zero; + if (posinf <= *one) { + ret_val = 0; + return ret_val; + } + + neginf = -(*one) / *zero; + if (neginf >= *zero) { + ret_val = 0; + return ret_val; + } + + negzro = *one / (neginf + *one); + if (negzro != *zero) { + ret_val = 0; + return ret_val; + } + + neginf = *one / negzro; + if (neginf >= *zero) { + ret_val = 0; + return ret_val; + } + + newzro = negzro + *zero; + if (newzro != *zero) { + ret_val = 0; + return ret_val; + } + + posinf = *one / newzro; + if (posinf <= *one) { + ret_val = 0; + return ret_val; + } + + neginf *= posinf; + if (neginf >= *zero) { + ret_val = 0; + return ret_val; + } + + posinf *= posinf; + if (posinf <= *one) { + ret_val = 0; + return ret_val; + } + + +/* Return if we were only asked to check infinity arithmetic */ + + if (*ispec == 0) { + return ret_val; + } + + nan1 = posinf + neginf; + + nan2 = posinf / neginf; + + nan3 = posinf / posinf; + + nan4 = posinf * *zero; + + nan5 = neginf * negzro; + + nan6 = nan5 * 0.f; + + if (nan1 == nan1) { + ret_val = 0; + return ret_val; + } + + if (nan2 == nan2) { + ret_val = 0; + return ret_val; + } + + if (nan3 == nan3) { + ret_val = 0; + return ret_val; + } + + if (nan4 == nan4) { + ret_val = 0; + return ret_val; + } + + if (nan5 == nan5) { + ret_val = 0; + return ret_val; + } + + if (nan6 == nan6) { + ret_val = 0; + return ret_val; + } + + return ret_val; +} /* ieeeck_ */ + +integer ilaenv_(integer *ispec, char *name__, char *opts, integer *n1, + integer *n2, integer *n3, integer *n4, ftnlen name_len, ftnlen + opts_len) +{ + /* System generated locals */ + integer ret_val; + + /* Builtin functions */ + /* Subroutine */ int s_copy(char *, char *, ftnlen, ftnlen); + integer s_cmp(char *, char *, ftnlen, ftnlen); + + /* Local variables */ + static integer i__; + static char c1[1], c2[2], c3[3], c4[2]; + static integer ic, nb, iz, nx; + static logical cname, sname; + static integer nbmin; + extern integer ieeeck_(integer *, real *, real *); + static char subnam[6]; + + +/* + -- LAPACK auxiliary routine (version 3.0) -- + Univ. of Tennessee, Univ. of California Berkeley, NAG Ltd., + Courant Institute, Argonne National Lab, and Rice University + June 30, 1999 + + + Purpose + ======= + + ILAENV is called from the LAPACK routines to choose problem-dependent + parameters for the local environment. See ISPEC for a description of + the parameters. + + This version provides a set of parameters which should give good, + but not optimal, performance on many of the currently available + computers. Users are encouraged to modify this subroutine to set + the tuning parameters for their particular machine using the option + and problem size information in the arguments. + + This routine will not function correctly if it is converted to all + lower case. Converting it to all upper case is allowed. + + Arguments + ========= + + ISPEC (input) INTEGER + Specifies the parameter to be returned as the value of + ILAENV. + = 1: the optimal blocksize; if this value is 1, an unblocked + algorithm will give the best performance. + = 2: the minimum block size for which the block routine + should be used; if the usable block size is less than + this value, an unblocked routine should be used. + = 3: the crossover point (in a block routine, for N less + than this value, an unblocked routine should be used) + = 4: the number of shifts, used in the nonsymmetric + eigenvalue routines + = 5: the minimum column dimension for blocking to be used; + rectangular blocks must have dimension at least k by m, + where k is given by ILAENV(2,...) and m by ILAENV(5,...) + = 6: the crossover point for the SVD (when reducing an m by n + matrix to bidiagonal form, if max(m,n)/min(m,n) exceeds + this value, a QR factorization is used first to reduce + the matrix to a triangular form.) + = 7: the number of processors + = 8: the crossover point for the multishift QR and QZ methods + for nonsymmetric eigenvalue problems. + = 9: maximum size of the subproblems at the bottom of the + computation tree in the divide-and-conquer algorithm + (used by xGELSD and xGESDD) + =10: ieee NaN arithmetic can be trusted not to trap + =11: infinity arithmetic can be trusted not to trap + + NAME (input) CHARACTER*(*) + The name of the calling subroutine, in either upper case or + lower case. + + OPTS (input) CHARACTER*(*) + The character options to the subroutine NAME, concatenated + into a single character string. For example, UPLO = 'U', + TRANS = 'T', and DIAG = 'N' for a triangular routine would + be specified as OPTS = 'UTN'. + + N1 (input) INTEGER + N2 (input) INTEGER + N3 (input) INTEGER + N4 (input) INTEGER + Problem dimensions for the subroutine NAME; these may not all + be required. + + (ILAENV) (output) INTEGER + >= 0: the value of the parameter specified by ISPEC + < 0: if ILAENV = -k, the k-th argument had an illegal value. + + Further Details + =============== + + The following conventions have been used when calling ILAENV from the + LAPACK routines: + 1) OPTS is a concatenation of all of the character options to + subroutine NAME, in the same order that they appear in the + argument list for NAME, even if they are not used in determining + the value of the parameter specified by ISPEC. + 2) The problem dimensions N1, N2, N3, N4 are specified in the order + that they appear in the argument list for NAME. N1 is used + first, N2 second, and so on, and unused problem dimensions are + passed a value of -1. + 3) The parameter value returned by ILAENV is checked for validity in + the calling subroutine. For example, ILAENV is used to retrieve + the optimal blocksize for STRTRI as follows: + + NB = ILAENV( 1, 'STRTRI', UPLO // DIAG, N, -1, -1, -1 ) + IF( NB.LE.1 ) NB = MAX( 1, N ) + + ===================================================================== +*/ + + + switch (*ispec) { + case 1: goto L100; + case 2: goto L100; + case 3: goto L100; + case 4: goto L400; + case 5: goto L500; + case 6: goto L600; + case 7: goto L700; + case 8: goto L800; + case 9: goto L900; + case 10: goto L1000; + case 11: goto L1100; + } + +/* Invalid value for ISPEC */ + + ret_val = -1; + return ret_val; + +L100: + +/* Convert NAME to upper case if the first character is lower case. */ + + ret_val = 1; + s_copy(subnam, name__, (ftnlen)6, name_len); + ic = *(unsigned char *)subnam; + iz = 'Z'; + if (iz == 90 || iz == 122) { + +/* ASCII character set */ + + if (ic >= 97 && ic <= 122) { + *(unsigned char *)subnam = (char) (ic - 32); + for (i__ = 2; i__ <= 6; ++i__) { + ic = *(unsigned char *)&subnam[i__ - 1]; + if (ic >= 97 && ic <= 122) { + *(unsigned char *)&subnam[i__ - 1] = (char) (ic - 32); + } +/* L10: */ + } + } + + } else if (iz == 233 || iz == 169) { + +/* EBCDIC character set */ + + if (ic >= 129 && ic <= 137 || ic >= 145 && ic <= 153 || ic >= 162 && + ic <= 169) { + *(unsigned char *)subnam = (char) (ic + 64); + for (i__ = 2; i__ <= 6; ++i__) { + ic = *(unsigned char *)&subnam[i__ - 1]; + if (ic >= 129 && ic <= 137 || ic >= 145 && ic <= 153 || ic >= + 162 && ic <= 169) { + *(unsigned char *)&subnam[i__ - 1] = (char) (ic + 64); + } +/* L20: */ + } + } + + } else if (iz == 218 || iz == 250) { + +/* Prime machines: ASCII+128 */ + + if (ic >= 225 && ic <= 250) { + *(unsigned char *)subnam = (char) (ic - 32); + for (i__ = 2; i__ <= 6; ++i__) { + ic = *(unsigned char *)&subnam[i__ - 1]; + if (ic >= 225 && ic <= 250) { + *(unsigned char *)&subnam[i__ - 1] = (char) (ic - 32); + } +/* L30: */ + } + } + } + + *(unsigned char *)c1 = *(unsigned char *)subnam; + sname = *(unsigned char *)c1 == 'S' || *(unsigned char *)c1 == 'D'; + cname = *(unsigned char *)c1 == 'C' || *(unsigned char *)c1 == 'Z'; + if (! (cname || sname)) { + return ret_val; + } + s_copy(c2, subnam + 1, (ftnlen)2, (ftnlen)2); + s_copy(c3, subnam + 3, (ftnlen)3, (ftnlen)3); + s_copy(c4, c3 + 1, (ftnlen)2, (ftnlen)2); + + switch (*ispec) { + case 1: goto L110; + case 2: goto L200; + case 3: goto L300; + } + +L110: + +/* + ISPEC = 1: block size + + In these examples, separate code is provided for setting NB for + real and complex. We assume that NB will take the same value in + single or double precision. +*/ + + nb = 1; + + if (s_cmp(c2, "GE", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 64; + } else { + nb = 64; + } + } else if (s_cmp(c3, "QRF", (ftnlen)3, (ftnlen)3) == 0 || s_cmp(c3, + "RQF", (ftnlen)3, (ftnlen)3) == 0 || s_cmp(c3, "LQF", (ftnlen) + 3, (ftnlen)3) == 0 || s_cmp(c3, "QLF", (ftnlen)3, (ftnlen)3) + == 0) { + if (sname) { + nb = 32; + } else { + nb = 32; + } + } else if (s_cmp(c3, "HRD", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 32; + } else { + nb = 32; + } + } else if (s_cmp(c3, "BRD", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 32; + } else { + nb = 32; + } + } else if (s_cmp(c3, "TRI", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 64; + } else { + nb = 64; + } + } + } else if (s_cmp(c2, "PO", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 64; + } else { + nb = 64; + } + } + } else if (s_cmp(c2, "SY", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 64; + } else { + nb = 64; + } + } else if (sname && s_cmp(c3, "TRD", (ftnlen)3, (ftnlen)3) == 0) { + nb = 32; + } else if (sname && s_cmp(c3, "GST", (ftnlen)3, (ftnlen)3) == 0) { + nb = 64; + } + } else if (cname && s_cmp(c2, "HE", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + nb = 64; + } else if (s_cmp(c3, "TRD", (ftnlen)3, (ftnlen)3) == 0) { + nb = 32; + } else if (s_cmp(c3, "GST", (ftnlen)3, (ftnlen)3) == 0) { + nb = 64; + } + } else if (sname && s_cmp(c2, "OR", (ftnlen)2, (ftnlen)2) == 0) { + if (*(unsigned char *)c3 == 'G') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nb = 32; + } + } else if (*(unsigned char *)c3 == 'M') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nb = 32; + } + } + } else if (cname && s_cmp(c2, "UN", (ftnlen)2, (ftnlen)2) == 0) { + if (*(unsigned char *)c3 == 'G') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nb = 32; + } + } else if (*(unsigned char *)c3 == 'M') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nb = 32; + } + } + } else if (s_cmp(c2, "GB", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + if (*n4 <= 64) { + nb = 1; + } else { + nb = 32; + } + } else { + if (*n4 <= 64) { + nb = 1; + } else { + nb = 32; + } + } + } + } else if (s_cmp(c2, "PB", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + if (*n2 <= 64) { + nb = 1; + } else { + nb = 32; + } + } else { + if (*n2 <= 64) { + nb = 1; + } else { + nb = 32; + } + } + } + } else if (s_cmp(c2, "TR", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRI", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 64; + } else { + nb = 64; + } + } + } else if (s_cmp(c2, "LA", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "UUM", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nb = 64; + } else { + nb = 64; + } + } + } else if (sname && s_cmp(c2, "ST", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "EBZ", (ftnlen)3, (ftnlen)3) == 0) { + nb = 1; + } + } + ret_val = nb; + return ret_val; + +L200: + +/* ISPEC = 2: minimum block size */ + + nbmin = 2; + if (s_cmp(c2, "GE", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "QRF", (ftnlen)3, (ftnlen)3) == 0 || s_cmp(c3, "RQF", ( + ftnlen)3, (ftnlen)3) == 0 || s_cmp(c3, "LQF", (ftnlen)3, ( + ftnlen)3) == 0 || s_cmp(c3, "QLF", (ftnlen)3, (ftnlen)3) == 0) + { + if (sname) { + nbmin = 2; + } else { + nbmin = 2; + } + } else if (s_cmp(c3, "HRD", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nbmin = 2; + } else { + nbmin = 2; + } + } else if (s_cmp(c3, "BRD", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nbmin = 2; + } else { + nbmin = 2; + } + } else if (s_cmp(c3, "TRI", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nbmin = 2; + } else { + nbmin = 2; + } + } + } else if (s_cmp(c2, "SY", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRF", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nbmin = 8; + } else { + nbmin = 8; + } + } else if (sname && s_cmp(c3, "TRD", (ftnlen)3, (ftnlen)3) == 0) { + nbmin = 2; + } + } else if (cname && s_cmp(c2, "HE", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRD", (ftnlen)3, (ftnlen)3) == 0) { + nbmin = 2; + } + } else if (sname && s_cmp(c2, "OR", (ftnlen)2, (ftnlen)2) == 0) { + if (*(unsigned char *)c3 == 'G') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nbmin = 2; + } + } else if (*(unsigned char *)c3 == 'M') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nbmin = 2; + } + } + } else if (cname && s_cmp(c2, "UN", (ftnlen)2, (ftnlen)2) == 0) { + if (*(unsigned char *)c3 == 'G') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nbmin = 2; + } + } else if (*(unsigned char *)c3 == 'M') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nbmin = 2; + } + } + } + ret_val = nbmin; + return ret_val; + +L300: + +/* ISPEC = 3: crossover point */ + + nx = 0; + if (s_cmp(c2, "GE", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "QRF", (ftnlen)3, (ftnlen)3) == 0 || s_cmp(c3, "RQF", ( + ftnlen)3, (ftnlen)3) == 0 || s_cmp(c3, "LQF", (ftnlen)3, ( + ftnlen)3) == 0 || s_cmp(c3, "QLF", (ftnlen)3, (ftnlen)3) == 0) + { + if (sname) { + nx = 128; + } else { + nx = 128; + } + } else if (s_cmp(c3, "HRD", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nx = 128; + } else { + nx = 128; + } + } else if (s_cmp(c3, "BRD", (ftnlen)3, (ftnlen)3) == 0) { + if (sname) { + nx = 128; + } else { + nx = 128; + } + } + } else if (s_cmp(c2, "SY", (ftnlen)2, (ftnlen)2) == 0) { + if (sname && s_cmp(c3, "TRD", (ftnlen)3, (ftnlen)3) == 0) { + nx = 32; + } + } else if (cname && s_cmp(c2, "HE", (ftnlen)2, (ftnlen)2) == 0) { + if (s_cmp(c3, "TRD", (ftnlen)3, (ftnlen)3) == 0) { + nx = 32; + } + } else if (sname && s_cmp(c2, "OR", (ftnlen)2, (ftnlen)2) == 0) { + if (*(unsigned char *)c3 == 'G') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nx = 128; + } + } + } else if (cname && s_cmp(c2, "UN", (ftnlen)2, (ftnlen)2) == 0) { + if (*(unsigned char *)c3 == 'G') { + if (s_cmp(c4, "QR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "RQ", + (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "LQ", (ftnlen)2, ( + ftnlen)2) == 0 || s_cmp(c4, "QL", (ftnlen)2, (ftnlen)2) == + 0 || s_cmp(c4, "HR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp( + c4, "TR", (ftnlen)2, (ftnlen)2) == 0 || s_cmp(c4, "BR", ( + ftnlen)2, (ftnlen)2) == 0) { + nx = 128; + } + } + } + ret_val = nx; + return ret_val; + +L400: + +/* ISPEC = 4: number of shifts (used by xHSEQR) */ + + ret_val = 6; + return ret_val; + +L500: + +/* ISPEC = 5: minimum column dimension (not used) */ + + ret_val = 2; + return ret_val; + +L600: + +/* ISPEC = 6: crossover point for SVD (used by xGELSS and xGESVD) */ + + ret_val = (integer) ((real) min(*n1,*n2) * 1.6f); + return ret_val; + +L700: + +/* ISPEC = 7: number of processors (not used) */ + + ret_val = 1; + return ret_val; + +L800: + +/* ISPEC = 8: crossover point for multishift (used by xHSEQR) */ + + ret_val = 50; + return ret_val; + +L900: + +/* + ISPEC = 9: maximum size of the subproblems at the bottom of the + computation tree in the divide-and-conquer algorithm + (used by xGELSD and xGESDD) +*/ + + ret_val = 25; + return ret_val; + +L1000: + +/* + ISPEC = 10: ieee NaN arithmetic can be trusted not to trap + + ILAENV = 0 +*/ + ret_val = 1; + if (ret_val == 1) { + ret_val = ieeeck_(&c__0, &c_b163, &c_b164); + } + return ret_val; + +L1100: + +/* + ISPEC = 11: infinity arithmetic can be trusted not to trap + + ILAENV = 0 +*/ + ret_val = 1; + if (ret_val == 1) { + ret_val = ieeeck_(&c__1, &c_b163, &c_b164); + } + return ret_val; + +/* End of ILAENV */ + +} /* ilaenv_ */ + |