blas/f2c/srotmg.c - eigen - Git at Google

 /* srotmg.f -- translated by f2c (version 20100827).
    You must link the resulting object file with libf2c:
 	on Microsoft Windows system, link with libf2c.lib;
 	on Linux or Unix systems, link with .../path/to/libf2c.a -lm
 	or, if you install libf2c.a in a standard place, with -lf2c -lm
 	-- in that order, at the end of the command line, as in
 		cc *.o -lf2c -lm
 	Source for libf2c is in /netlib/f2c/libf2c.zip, e.g.,

 		http://www.netlib.org/f2c/libf2c.zip
 */

 #include "datatypes.h"

 /* Subroutine */ int srotmg_(real *sd1, real *sd2, real *sx1, real *sy1, real
 	*sparam)
 {
     /* Initialized data */

     static real zero = 0.f;
     static real one = 1.f;
     static real two = 2.f;
     static real gam = 4096.f;
     static real gamsq = 16777200.f;
     static real rgamsq = 5.96046e-8f;

     /* Format strings */
     static char fmt_120[] = "";
     static char fmt_150[] = "";
     static char fmt_180[] = "";
     static char fmt_210[] = "";

     /* System generated locals */
     real r__1;

     /* Local variables */
     real su, sp1, sp2, sq1, sq2, sh11, sh12, sh21, sh22;
     integer igo;
     real sflag, stemp;

     /* Assigned format variables */
     static char *igo_fmt;

 /*     .. Scalar Arguments .. */
 /*     .. */
 /*     .. Array Arguments .. */
 /*     .. */

 /*  Purpose */
 /*  ======= */

 /*     CONSTRUCT THE MODIFIED GIVENS TRANSFORMATION MATRIX H WHICH ZEROS */
 /*     THE SECOND COMPONENT OF THE 2-VECTOR  (SQRT(SD1)*SX1,SQRT(SD2)* */
 /*     SY2)**T. */
 /*     WITH SPARAM(1)=SFLAG, H HAS ONE OF THE FOLLOWING FORMS.. */

 /*     SFLAG=-1.E0     SFLAG=0.E0        SFLAG=1.E0     SFLAG=-2.E0 */

 /*       (SH11  SH12)    (1.E0  SH12)    (SH11  1.E0)    (1.E0  0.E0) */
 /*     H=(          )    (          )    (          )    (          ) */
 /*       (SH21  SH22),   (SH21  1.E0),   (-1.E0 SH22),   (0.E0  1.E0). */
 /*     LOCATIONS 2-4 OF SPARAM CONTAIN SH11,SH21,SH12, AND SH22 */
 /*     RESPECTIVELY. (VALUES OF 1.E0, -1.E0, OR 0.E0 IMPLIED BY THE */
 /*     VALUE OF SPARAM(1) ARE NOT STORED IN SPARAM.) */

 /*     THE VALUES OF GAMSQ AND RGAMSQ SET IN THE DATA STATEMENT MAY BE */
 /*     INEXACT.  THIS IS OK AS THEY ARE ONLY USED FOR TESTING THE SIZE */
 /*     OF SD1 AND SD2.  ALL ACTUAL SCALING OF DATA IS DONE USING GAM. */


 /*  Arguments */
 /*  ========= */


 /*  SD1    (input/output) REAL */

 /*  SD2    (input/output) REAL */

 /*  SX1    (input/output) REAL */

 /*  SY1    (input) REAL */


 /*  SPARAM (input/output)  REAL array, dimension 5 */
 /*     SPARAM(1)=SFLAG */
 /*     SPARAM(2)=SH11 */
 /*     SPARAM(3)=SH21 */
 /*     SPARAM(4)=SH12 */
 /*     SPARAM(5)=SH22 */

 /*  ===================================================================== */

 /*     .. Local Scalars .. */
 /*     .. */
 /*     .. Intrinsic Functions .. */
 /*     .. */
 /*     .. Data statements .. */

     /* Parameter adjustments */
     --sparam;

     /* Function Body */
 /*     .. */
     if (! (*sd1 < zero)) {
 	goto L10;
     }
 /*       GO ZERO-H-D-AND-SX1.. */
     goto L60;
 L10:
 /*     CASE-SD1-NONNEGATIVE */
     sp2 = *sd2 * *sy1;
     if (! (sp2 == zero)) {
 	goto L20;
     }
     sflag = -two;
     goto L260;
 /*     REGULAR-CASE.. */
 L20:
     sp1 = *sd1 * *sx1;
     sq2 = sp2 * *sy1;
     sq1 = sp1 * *sx1;

     if (! (dabs(sq1) > dabs(sq2))) {
 	goto L40;
     }
     sh21 = -(*sy1) / *sx1;
     sh12 = sp2 / sp1;

     su = one - sh12 * sh21;

     if (! (su <= zero)) {
 	goto L30;
     }
 /*         GO ZERO-H-D-AND-SX1.. */
     goto L60;
 L30:
     sflag = zero;
     *sd1 /= su;
     *sd2 /= su;
     *sx1 *= su;
 /*         GO SCALE-CHECK.. */
     goto L100;
 L40:
     if (! (sq2 < zero)) {
 	goto L50;
     }
 /*         GO ZERO-H-D-AND-SX1.. */
     goto L60;
 L50:
     sflag = one;
     sh11 = sp1 / sp2;
     sh22 = *sx1 / *sy1;
     su = one + sh11 * sh22;
     stemp = *sd2 / su;
     *sd2 = *sd1 / su;
     *sd1 = stemp;
     *sx1 = *sy1 * su;
 /*         GO SCALE-CHECK */
     goto L100;
 /*     PROCEDURE..ZERO-H-D-AND-SX1.. */
 L60:
     sflag = -one;
     sh11 = zero;
     sh12 = zero;
     sh21 = zero;
     sh22 = zero;

     *sd1 = zero;
     *sd2 = zero;
     *sx1 = zero;
 /*         RETURN.. */
     goto L220;
 /*     PROCEDURE..FIX-H.. */
 L70:
     if (! (sflag >= zero)) {
 	goto L90;
     }

     if (! (sflag == zero)) {
 	goto L80;
     }
     sh11 = one;
     sh22 = one;
     sflag = -one;
     goto L90;
 L80:
     sh21 = -one;
     sh12 = one;
     sflag = -one;
 L90:
     switch (igo) {
 	case 0: goto L120;
 	case 1: goto L150;
 	case 2: goto L180;
 	case 3: goto L210;
     }
 /*     PROCEDURE..SCALE-CHECK */
 L100:
 L110:
     if (! (*sd1 <= rgamsq)) {
 	goto L130;
     }
     if (*sd1 == zero) {
 	goto L160;
     }
     igo = 0;
     igo_fmt = fmt_120;
 /*              FIX-H.. */
     goto L70;
 L120:
 /* Computing 2nd power */
     r__1 = gam;
     *sd1 *= r__1 * r__1;
     *sx1 /= gam;
     sh11 /= gam;
     sh12 /= gam;
     goto L110;
 L130:
 L140:
     if (! (*sd1 >= gamsq)) {
 	goto L160;
     }
     igo = 1;
     igo_fmt = fmt_150;
 /*              FIX-H.. */
     goto L70;
 L150:
 /* Computing 2nd power */
     r__1 = gam;
     *sd1 /= r__1 * r__1;
     *sx1 *= gam;
     sh11 *= gam;
     sh12 *= gam;
     goto L140;
 L160:
 L170:
     if (! (dabs(*sd2) <= rgamsq)) {
 	goto L190;
     }
     if (*sd2 == zero) {
 	goto L220;
     }
     igo = 2;
     igo_fmt = fmt_180;
 /*              FIX-H.. */
     goto L70;
 L180:
 /* Computing 2nd power */
     r__1 = gam;
     *sd2 *= r__1 * r__1;
     sh21 /= gam;
     sh22 /= gam;
     goto L170;
 L190:
 L200:
     if (! (dabs(*sd2) >= gamsq)) {
 	goto L220;
     }
     igo = 3;
     igo_fmt = fmt_210;
 /*              FIX-H.. */
     goto L70;
 L210:
 /* Computing 2nd power */
     r__1 = gam;
     *sd2 /= r__1 * r__1;
     sh21 *= gam;
     sh22 *= gam;
     goto L200;
 L220:
     if (sflag < 0.f) {
 	goto L250;
     } else if (sflag == 0) {
 	goto L230;
     } else {
 	goto L240;
     }
 L230:
     sparam[3] = sh21;
     sparam[4] = sh12;
     goto L260;
 L240:
     sparam[2] = sh11;
     sparam[5] = sh22;
     goto L260;
 L250:
     sparam[2] = sh11;
     sparam[3] = sh21;
     sparam[4] = sh12;
     sparam[5] = sh22;
 L260:
     sparam[1] = sflag;
     return 0;
 } /* srotmg_ */
	/* srotmg.f -- translated by f2c (version 20100827).
	You must link the resulting object file with libf2c:
	on Microsoft Windows system, link with libf2c.lib;
	on Linux or Unix systems, link with .../path/to/libf2c.a -lm
	or, if you install libf2c.a in a standard place, with -lf2c -lm
	-- in that order, at the end of the command line, as in
	cc *.o -lf2c -lm
	Source for libf2c is in /netlib/f2c/libf2c.zip, e.g.,

	http://www.netlib.org/f2c/libf2c.zip
	*/

	#include "datatypes.h"

	/* Subroutine / int srotmg_(real sd1, real sd2, real sx1, real *sy1, real
	*sparam)
	{
	/* Initialized data */

	static real zero = 0.f;
	static real one = 1.f;
	static real two = 2.f;
	static real gam = 4096.f;
	static real gamsq = 16777200.f;
	static real rgamsq = 5.96046e-8f;

	/* Format strings */
	static char fmt_120[] = "";
	static char fmt_150[] = "";
	static char fmt_180[] = "";
	static char fmt_210[] = "";

	/* System generated locals */
	real r__1;

	/* Local variables */
	real su, sp1, sp2, sq1, sq2, sh11, sh12, sh21, sh22;
	integer igo;
	real sflag, stemp;

	/* Assigned format variables */
	static char *igo_fmt;

	/* .. Scalar Arguments .. */
	/* .. */
	/* .. Array Arguments .. */
	/* .. */

	/* Purpose */
	/* ======= */

	/* CONSTRUCT THE MODIFIED GIVENS TRANSFORMATION MATRIX H WHICH ZEROS */
	/* THE SECOND COMPONENT OF THE 2-VECTOR (SQRT(SD1)SX1,SQRT(SD2) */
	/* SY2)*T. /
	/* WITH SPARAM(1)=SFLAG, H HAS ONE OF THE FOLLOWING FORMS.. */

	/* SFLAG=-1.E0 SFLAG=0.E0 SFLAG=1.E0 SFLAG=-2.E0 */

	/* (SH11 SH12) (1.E0 SH12) (SH11 1.E0) (1.E0 0.E0) */
	/* H=( ) ( ) ( ) ( ) */
	/* (SH21 SH22), (SH21 1.E0), (-1.E0 SH22), (0.E0 1.E0). */
	/* LOCATIONS 2-4 OF SPARAM CONTAIN SH11,SH21,SH12, AND SH22 */
	/* RESPECTIVELY. (VALUES OF 1.E0, -1.E0, OR 0.E0 IMPLIED BY THE */
	/* VALUE OF SPARAM(1) ARE NOT STORED IN SPARAM.) */

	/* THE VALUES OF GAMSQ AND RGAMSQ SET IN THE DATA STATEMENT MAY BE */
	/* INEXACT. THIS IS OK AS THEY ARE ONLY USED FOR TESTING THE SIZE */
	/* OF SD1 AND SD2. ALL ACTUAL SCALING OF DATA IS DONE USING GAM. */


	/* Arguments */
	/* ========= */


	/* SD1 (input/output) REAL */

	/* SD2 (input/output) REAL */

	/* SX1 (input/output) REAL */

	/* SY1 (input) REAL */


	/* SPARAM (input/output) REAL array, dimension 5 */
	/* SPARAM(1)=SFLAG */
	/* SPARAM(2)=SH11 */
	/* SPARAM(3)=SH21 */
	/* SPARAM(4)=SH12 */
	/* SPARAM(5)=SH22 */

	/* ===================================================================== */

	/* .. Local Scalars .. */
	/* .. */
	/* .. Intrinsic Functions .. */
	/* .. */
	/* .. Data statements .. */

	/* Parameter adjustments */
	--sparam;

	/* Function Body */
	/* .. */
	if (! (*sd1 < zero)) {
	goto L10;
	}
	/* GO ZERO-H-D-AND-SX1.. */
	goto L60;
	L10:
	/* CASE-SD1-NONNEGATIVE */
	sp2 = sd2 *sy1;
	if (! (sp2 == zero)) {
	goto L20;
	}
	sflag = -two;
	goto L260;
	/* REGULAR-CASE.. */
	L20:
	sp1 = sd1 *sx1;
	sq2 = sp2 * *sy1;
	sq1 = sp1 * *sx1;

	if (! (dabs(sq1) > dabs(sq2))) {
	goto L40;
	}
	sh21 = -(sy1) / sx1;
	sh12 = sp2 / sp1;

	su = one - sh12 * sh21;

	if (! (su <= zero)) {
	goto L30;
	}
	/* GO ZERO-H-D-AND-SX1.. */
	goto L60;
	L30:
	sflag = zero;
	*sd1 /= su;
	*sd2 /= su;
	sx1 = su;
	/* GO SCALE-CHECK.. */
	goto L100;
	L40:
	if (! (sq2 < zero)) {
	goto L50;
	}
	/* GO ZERO-H-D-AND-SX1.. */
	goto L60;
	L50:
	sflag = one;
	sh11 = sp1 / sp2;
	sh22 = sx1 / sy1;
	su = one + sh11 * sh22;
	stemp = *sd2 / su;
	sd2 = sd1 / su;
	*sd1 = stemp;
	sx1 = sy1 * su;
	/* GO SCALE-CHECK */
	goto L100;
	/* PROCEDURE..ZERO-H-D-AND-SX1.. */
	L60:
	sflag = -one;
	sh11 = zero;
	sh12 = zero;
	sh21 = zero;
	sh22 = zero;

	*sd1 = zero;
	*sd2 = zero;
	*sx1 = zero;
	/* RETURN.. */
	goto L220;
	/* PROCEDURE..FIX-H.. */
	L70:
	if (! (sflag >= zero)) {
	goto L90;
	}

	if (! (sflag == zero)) {
	goto L80;
	}
	sh11 = one;
	sh22 = one;
	sflag = -one;
	goto L90;
	L80:
	sh21 = -one;
	sh12 = one;
	sflag = -one;
	L90:
	switch (igo) {
	case 0: goto L120;
	case 1: goto L150;
	case 2: goto L180;
	case 3: goto L210;
	}
	/* PROCEDURE..SCALE-CHECK */
	L100:
	L110:
	if (! (*sd1 <= rgamsq)) {
	goto L130;
	}
	if (*sd1 == zero) {
	goto L160;
	}
	igo = 0;
	igo_fmt = fmt_120;
	/* FIX-H.. */
	goto L70;
	L120:
	/* Computing 2nd power */
	r__1 = gam;
	sd1 = r__1 * r__1;
	*sx1 /= gam;
	sh11 /= gam;
	sh12 /= gam;
	goto L110;
	L130:
	L140:
	if (! (*sd1 >= gamsq)) {
	goto L160;
	}
	igo = 1;
	igo_fmt = fmt_150;
	/* FIX-H.. */
	goto L70;
	L150:
	/* Computing 2nd power */
	r__1 = gam;
	sd1 /= r__1 r__1;
	sx1 = gam;
	sh11 *= gam;
	sh12 *= gam;
	goto L140;
	L160:
	L170:
	if (! (dabs(*sd2) <= rgamsq)) {
	goto L190;
	}
	if (*sd2 == zero) {
	goto L220;
	}
	igo = 2;
	igo_fmt = fmt_180;
	/* FIX-H.. */
	goto L70;
	L180:
	/* Computing 2nd power */
	r__1 = gam;
	sd2 = r__1 * r__1;
	sh21 /= gam;
	sh22 /= gam;
	goto L170;
	L190:
	L200:
	if (! (dabs(*sd2) >= gamsq)) {
	goto L220;
	}
	igo = 3;
	igo_fmt = fmt_210;
	/* FIX-H.. */
	goto L70;
	L210:
	/* Computing 2nd power */
	r__1 = gam;
	sd2 /= r__1 r__1;
	sh21 *= gam;
	sh22 *= gam;
	goto L200;
	L220:
	if (sflag < 0.f) {
	goto L250;
	} else if (sflag == 0) {
	goto L230;
	} else {
	goto L240;
	}
	L230:
	sparam[3] = sh21;
	sparam[4] = sh12;
	goto L260;
	L240:
	sparam[2] = sh11;
	sparam[5] = sh22;
	goto L260;
	L250:
	sparam[2] = sh11;
	sparam[3] = sh21;
	sparam[4] = sh12;
	sparam[5] = sh22;
	L260:
	sparam[1] = sflag;
	return 0;
	} /* srotmg_ */