1 files changed, 209 insertions, 0 deletions
diff --git a/libm/double/rgamma.c b/libm/double/rgamma.c
new file mode 100644
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--- /dev/null
+++ b/libm/double/rgamma.c
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+/*						rgamma.c
+ *
+ *	Reciprocal gamma function
+ *
+ *
+ *
+ * SYNOPSIS:
+ *
+ * double x, y, rgamma();
+ *
+ * y = rgamma( x );
+ *
+ *
+ *
+ * DESCRIPTION:
+ *
+ * Returns one divided by the gamma function of the argument.
+ *
+ * The function is approximated by a Chebyshev expansion in
+ * the interval [0,1].  Range reduction is by recurrence
+ * for arguments between -34.034 and +34.84425627277176174.
+ * 1/MAXNUM is returned for positive arguments outside this
+ * range.  For arguments less than -34.034 the cosecant
+ * reflection formula is applied; lograrithms are employed
+ * to avoid unnecessary overflow.
+ *
+ * The reciprocal gamma function has no singularities,
+ * but overflow and underflow may occur for large arguments.
+ * These conditions return either MAXNUM or 1/MAXNUM with
+ * appropriate sign.
+ *
+ * ACCURACY:
+ *
+ *                      Relative error:
+ * arithmetic   domain     # trials      peak         rms
+ *    DEC      -30,+30       4000       1.2e-16     1.8e-17
+ *    IEEE     -30,+30      30000       1.1e-15     2.0e-16
+ * For arguments less than -34.034 the peak error is on the
+ * order of 5e-15 (DEC), excepting overflow or underflow.
+ */
+
+/*
+Cephes Math Library Release 2.8:  June, 2000
+Copyright 1985, 1987, 2000 by Stephen L. Moshier
+*/
+
+#include <math.h>
+
+/* Chebyshev coefficients for reciprocal gamma function
+ * in interval 0 to 1.  Function is 1/(x gamma(x)) - 1
+ */
+
+#ifdef UNK
+static double R[] = {
+ 3.13173458231230000000E-17,
+-6.70718606477908000000E-16,
+ 2.20039078172259550000E-15,
+ 2.47691630348254132600E-13,
+-6.60074100411295197440E-12,
+ 5.13850186324226978840E-11,
+ 1.08965386454418662084E-9,
+-3.33964630686836942556E-8,
+ 2.68975996440595483619E-7,
+ 2.96001177518801696639E-6,
+-8.04814124978471142852E-5,
+ 4.16609138709688864714E-4,
+ 5.06579864028608725080E-3,
+-6.41925436109158228810E-2,
+-4.98558728684003594785E-3,
+ 1.27546015610523951063E-1
+};
+#endif
+
+#ifdef DEC
+static unsigned short R[] = {
+0022420,0066376,0176751,0071636,
+0123501,0051114,0042104,0131153,
+0024036,0107013,0126504,0033361,
+0025613,0070040,0035174,0162316,
+0126750,0037060,0077775,0122202,
+0027541,0177143,0037675,0105150,
+0030625,0141311,0075005,0115436,
+0132017,0067714,0125033,0014721,
+0032620,0063707,0105256,0152643,
+0033506,0122235,0072757,0170053,
+0134650,0144041,0015617,0016143,
+0035332,0066125,0000776,0006215,
+0036245,0177377,0137173,0131432,
+0137203,0073541,0055645,0141150,
+0136243,0057043,0026226,0017362,
+0037402,0115554,0033441,0012310
+};
+#endif
+
+#ifdef IBMPC
+static unsigned short R[] = {
+0x2e74,0xdfbd,0x0d9f,0x3c82,
+0x964d,0x8888,0x2a49,0xbcc8,
+0x86de,0x75a8,0xd1c1,0x3ce3,
+0x9c9a,0x074f,0x6e04,0x3d51,
+0xb490,0x0fff,0x07c6,0xbd9d,
+0xb14d,0x67f7,0x3fcc,0x3dcc,
+0xb364,0x2f40,0xb859,0x3e12,
+0x633a,0x9543,0xedf9,0xbe61,
+0xdab4,0xf155,0x0cf8,0x3e92,
+0xfe05,0xaebd,0xd493,0x3ec8,
+0xe38c,0x2371,0x1904,0xbf15,
+0xc192,0xa03f,0x4d8a,0x3f3b,
+0x7663,0xf7cf,0xbfdf,0x3f74,
+0xb84d,0x2b74,0x6eec,0xbfb0,
+0xc3de,0x6592,0x6bc4,0xbf74,
+0x2299,0x86e4,0x536d,0x3fc0
+};
+#endif
+
+#ifdef MIEEE
+static unsigned short R[] = {
+0x3c82,0x0d9f,0xdfbd,0x2e74,
+0xbcc8,0x2a49,0x8888,0x964d,
+0x3ce3,0xd1c1,0x75a8,0x86de,
+0x3d51,0x6e04,0x074f,0x9c9a,
+0xbd9d,0x07c6,0x0fff,0xb490,
+0x3dcc,0x3fcc,0x67f7,0xb14d,
+0x3e12,0xb859,0x2f40,0xb364,
+0xbe61,0xedf9,0x9543,0x633a,
+0x3e92,0x0cf8,0xf155,0xdab4,
+0x3ec8,0xd493,0xaebd,0xfe05,
+0xbf15,0x1904,0x2371,0xe38c,
+0x3f3b,0x4d8a,0xa03f,0xc192,
+0x3f74,0xbfdf,0xf7cf,0x7663,
+0xbfb0,0x6eec,0x2b74,0xb84d,
+0xbf74,0x6bc4,0x6592,0xc3de,
+0x3fc0,0x536d,0x86e4,0x2299
+};
+#endif
+
+static char name[] = "rgamma";
+
+#ifdef ANSIPROT
+extern double chbevl ( double, void *, int );
+extern double exp ( double );
+extern double log ( double );
+extern double sin ( double );
+extern double lgam ( double );
+#else
+double chbevl(), exp(), log(), sin(), lgam();
+#endif
+extern double PI, MAXLOG, MAXNUM;
+
+
+double rgamma(x)
+double x;
+{
+double w, y, z;
+int sign;
+
+if( x > 34.84425627277176174)
+	{
+	mtherr( name, UNDERFLOW );
+	return(1.0/MAXNUM);
+	}
+if( x < -34.034 )
+	{
+	w = -x;
+	z = sin( PI*w );
+	if( z == 0.0 )
+		return(0.0);
+	if( z < 0.0 )
+		{
+		sign = 1;
+		z = -z;
+		}
+	else
+		sign = -1;
+
+	y = log( w * z ) - log(PI) + lgam(w);
+	if( y < -MAXLOG )
+		{
+		mtherr( name, UNDERFLOW );
+		return( sign * 1.0 / MAXNUM );
+		}
+	if( y > MAXLOG )
+		{
+		mtherr( name, OVERFLOW );
+		return( sign * MAXNUM );
+		}
+	return( sign * exp(y));
+	}
+z = 1.0;
+w = x;
+
+while( w > 1.0 )	/* Downward recurrence */
+	{
+	w -= 1.0;
+	z *= w;
+	}
+while( w < 0.0 )	/* Upward recurrence */
+	{
+	z /= w;
+	w += 1.0;
+	}
+if( w == 0.0 )		/* Nonpositive integer */
+	return(0.0);
+if( w == 1.0 )		/* Other integer */
+	return( 1.0/z );
+
+y = w * ( 1.0 + chbevl( 4.0*w-2.0, R, 16 ) ) / z;
+return(y);
+}