mingw-w64-crt/math/tgamma.c - mingw-w64 - Git at Google

 #include "cephes_mconf.h"

 #ifdef UNK
 static const double P[] = {
   1.60119522476751861407E-4,
   1.19135147006586384913E-3,
   1.04213797561761569935E-2,
   4.76367800457137231464E-2,
   2.07448227648435975150E-1,
   4.94214826801497100753E-1,
   9.99999999999999996796E-1
 };
 static const double Q[] = {
 -2.31581873324120129819E-5,
  5.39605580493303397842E-4,
 -4.45641913851797240494E-3,
  1.18139785222060435552E-2,
  3.58236398605498653373E-2,
 -2.34591795718243348568E-1,
  7.14304917030273074085E-2,
  1.00000000000000000320E0
 };
 #define MAXGAM 171.624376956302725
 static const double LOGPI = 1.14472988584940017414;
 #endif

 #ifdef DEC
 static const unsigned short P[] = {
 0035047,0162701,0146301,0005234,
 0035634,0023437,0032065,0176530,
 0036452,0137157,0047330,0122574,
 0037103,0017310,0143041,0017232,
 0037524,0066516,0162563,0164605,
 0037775,0004671,0146237,0014222,
 0040200,0000000,0000000,0000000
 };
 static const unsigned short Q[] = {
 0134302,0041724,0020006,0116565,
 0035415,0072121,0044251,0025634,
 0136222,0003447,0035205,0121114,
 0036501,0107552,0154335,0104271,
 0037022,0135717,0014776,0171471,
 0137560,0034324,0165024,0037021,
 0037222,0045046,0047151,0161213,
 0040200,0000000,0000000,0000000
 };
 #define MAXGAM 34.84425627277176174
 #endif

 #ifdef IBMPC
 static const unsigned short P[] = {
 0x2153,0x3998,0xfcb8,0x3f24,
 0xbfab,0xe686,0x84e3,0x3f53,
 0x14b0,0xe9db,0x57cd,0x3f85,
 0x23d3,0x18c4,0x63d9,0x3fa8,
 0x7d31,0xdcae,0x8da9,0x3fca,
 0xe312,0x3993,0xa137,0x3fdf,
 0x0000,0x0000,0x0000,0x3ff0
 };
 static const unsigned short Q[] = {
 0xd3af,0x8400,0x487a,0xbef8,
 0x2573,0x2915,0xae8a,0x3f41,
 0xb44a,0xe750,0x40e4,0xbf72,
 0xb117,0x5b1b,0x31ed,0x3f88,
 0xde67,0xe33f,0x5779,0x3fa2,
 0x87c2,0x9d42,0x071a,0xbfce,
 0x3c51,0xc9cd,0x4944,0x3fb2,
 0x0000,0x0000,0x0000,0x3ff0
 };
 #define MAXGAM 171.624376956302725
 #endif

 #ifdef MIEEE
 static const unsigned short P[] = {
 0x3f24,0xfcb8,0x3998,0x2153,
 0x3f53,0x84e3,0xe686,0xbfab,
 0x3f85,0x57cd,0xe9db,0x14b0,
 0x3fa8,0x63d9,0x18c4,0x23d3,
 0x3fca,0x8da9,0xdcae,0x7d31,
 0x3fdf,0xa137,0x3993,0xe312,
 0x3ff0,0x0000,0x0000,0x0000
 };
 static const unsigned short Q[] = {
 0xbef8,0x487a,0x8400,0xd3af,
 0x3f41,0xae8a,0x2915,0x2573,
 0xbf72,0x40e4,0xe750,0xb44a,
 0x3f88,0x31ed,0x5b1b,0xb117,
 0x3fa2,0x5779,0xe33f,0xde67,
 0xbfce,0x071a,0x9d42,0x87c2,
 0x3fb2,0x4944,0xc9cd,0x3c51,
 0x3ff0,0x0000,0x0000,0x0000
 };
 #define MAXGAM 171.624376956302725
 #endif

 /* Stirling's formula for the gamma function */
 #if UNK
 static const double STIR[5] = {
  7.87311395793093628397E-4,
 -2.29549961613378126380E-4,
 -2.68132617805781232825E-3,
  3.47222221605458667310E-3,
  8.33333333333482257126E-2,
 };
 #define MAXSTIR 143.01608
 static const double SQTPI = 2.50662827463100050242E0;
 #endif
 #if DEC
 static const unsigned short STIR[20] = {
 0035516,0061622,0144553,0112224,
 0135160,0131531,0037460,0165740,
 0136057,0134460,0037242,0077270,
 0036143,0107070,0156306,0027751,
 0037252,0125252,0125252,0146064,
 };
 #define MAXSTIR 26.77
 static const unsigned short SQT[4] = {
 0040440,0066230,0177661,0034055,
 };
 #define SQTPI *(double *)SQT
 #endif
 #if IBMPC
 static const unsigned short STIR[20] = {
 0x7293,0x592d,0xcc72,0x3f49,
 0x1d7c,0x27e6,0x166b,0xbf2e,
 0x4fd7,0x07d4,0xf726,0xbf65,
 0xc5fd,0x1b98,0x71c7,0x3f6c,
 0x5986,0x5555,0x5555,0x3fb5,
 };
 #define MAXSTIR 143.01608
 static const unsigned short SQT[4] = {
 0x2706,0x1ff6,0x0d93,0x4004,
 };
 #define SQTPI *(double *)SQT
 #endif
 #if MIEEE
 static const unsigned short STIR[20] = {
 0x3f49,0xcc72,0x592d,0x7293,
 0xbf2e,0x166b,0x27e6,0x1d7c,
 0xbf65,0xf726,0x07d4,0x4fd7,
 0x3f6c,0x71c7,0x1b98,0xc5fd,
 0x3fb5,0x5555,0x5555,0x5986,
 };
 #define MAXSTIR 143.01608
 static const unsigned short SQT[4] = {
 0x4004,0x0d93,0x1ff6,0x2706,
 };
 #define SQTPI *(double *)SQT
 #endif

 static double stirf ( double );

 /* Gamma function computed by Stirling's formula.
  * The polynomial STIR is valid for 33 <= x <= 172.
  */
 static double stirf(x)
 double x;
 {
 double y, w, v;

 w = 1.0/x;
 w = 1.0 + w * polevl( w, STIR, 4 );
 y = exp(x);
 if( x > MAXSTIR )
 	{ /* Avoid overflow in pow() */
 	v = pow( x, 0.5 * x - 0.25 );
 	y = v * (v / y);
 	}
 else
 	{
 	y = pow( x, x - 0.5 ) / y;
 	}
 y = SQTPI * y * w;
 return( y );
 }


 double __tgamma_r(double x, int* sgngam)
 {
 double p, q, z;
 int i;

 *sgngam = 1;
 #ifdef NANS
 if( isnan(x) )
 	return(x);
 #endif
 #ifdef INFINITIES
 #ifdef NANS
 if( x == INFINITY )
 	return(x);
 if( x == -INFINITY )
 	return(NAN);
 #else
 if( !isfinite(x) )
 	return(x);
 #endif
 #endif
 q = fabs(x);

 if( q > 33.0 )
 	{
 	if( x < 0.0 )
 		{
 		p = floor(q);
 		if( p == q )
 			{
 gsing:
 			_SET_ERRNO(EDOM);
 			mtherr( "tgamma", SING );
 #ifdef INFINITIES
 			return (INFINITY);
 #else
 			return (MAXNUM);
 #endif
 			}
 		i = p;
 		if( (i & 1) == 0 )
 			*sgngam = -1;
 		z = q - p;
 		if( z > 0.5 )
 			{
 			p += 1.0;
 			z = q - p;
 			}
 		z = q * sin( PI * z );
 		if( z == 0.0 )
 			{
 			_SET_ERRNO(ERANGE);
 			mtherr( "tgamma", OVERFLOW );
 #ifdef INFINITIES
 			return( *sgngam * INFINITY);
 #else
 			return( *sgngam * MAXNUM);
 #endif
 			}
 		z = fabs(z);
 		z = PI/(z * stirf(q) );
 		}
 	else
 		{
 		z = stirf(x);
 		}
 	return( *sgngam * z );
 	}

 z = 1.0;
 while( x >= 3.0 )
 	{
 	x -= 1.0;
 	z *= x;
 	}

 while( x < 0.0 )
 	{
 	if( x > -1.E-9 )
 		goto Small;
 	z /= x;
 	x += 1.0;
 	}

 while( x < 2.0 )
 	{
 	if( x < 1.e-9 )
 		goto Small;
 	z /= x;
 	x += 1.0;
 	}

 if( x == 2.0 )
 	return(z);

 x -= 2.0;
 p = polevl( x, P, 6 );
 q = polevl( x, Q, 7 );
 return( z * p / q );

 Small:
 if( x == 0.0 )
 	{
 	goto gsing;
 	}
 else
 	return( z/((1.0 + 0.5772156649015329 * x) * x) );
 }

 /* This is the C99 version */

 double tgamma(double x)
 {
   int local_sgngam=0;
   return (__tgamma_r(x, &local_sgngam));
 }
	#include "cephes_mconf.h"

	#ifdef UNK
	static const double P[] = {
	1.60119522476751861407E-4,
	1.19135147006586384913E-3,
	1.04213797561761569935E-2,
	4.76367800457137231464E-2,
	2.07448227648435975150E-1,
	4.94214826801497100753E-1,
	9.99999999999999996796E-1
	};
	static const double Q[] = {
	-2.31581873324120129819E-5,
	5.39605580493303397842E-4,
	-4.45641913851797240494E-3,
	1.18139785222060435552E-2,
	3.58236398605498653373E-2,
	-2.34591795718243348568E-1,
	7.14304917030273074085E-2,
	1.00000000000000000320E0
	};
	#define MAXGAM 171.624376956302725
	static const double LOGPI = 1.14472988584940017414;
	#endif

	#ifdef DEC
	static const unsigned short P[] = {
	0035047,0162701,0146301,0005234,
	0035634,0023437,0032065,0176530,
	0036452,0137157,0047330,0122574,
	0037103,0017310,0143041,0017232,
	0037524,0066516,0162563,0164605,
	0037775,0004671,0146237,0014222,
	0040200,0000000,0000000,0000000
	};
	static const unsigned short Q[] = {
	0134302,0041724,0020006,0116565,
	0035415,0072121,0044251,0025634,
	0136222,0003447,0035205,0121114,
	0036501,0107552,0154335,0104271,
	0037022,0135717,0014776,0171471,
	0137560,0034324,0165024,0037021,
	0037222,0045046,0047151,0161213,
	0040200,0000000,0000000,0000000
	};
	#define MAXGAM 34.84425627277176174
	#endif

	#ifdef IBMPC
	static const unsigned short P[] = {
	0x2153,0x3998,0xfcb8,0x3f24,
	0xbfab,0xe686,0x84e3,0x3f53,
	0x14b0,0xe9db,0x57cd,0x3f85,
	0x23d3,0x18c4,0x63d9,0x3fa8,
	0x7d31,0xdcae,0x8da9,0x3fca,
	0xe312,0x3993,0xa137,0x3fdf,
	0x0000,0x0000,0x0000,0x3ff0
	};
	static const unsigned short Q[] = {
	0xd3af,0x8400,0x487a,0xbef8,
	0x2573,0x2915,0xae8a,0x3f41,
	0xb44a,0xe750,0x40e4,0xbf72,
	0xb117,0x5b1b,0x31ed,0x3f88,
	0xde67,0xe33f,0x5779,0x3fa2,
	0x87c2,0x9d42,0x071a,0xbfce,
	0x3c51,0xc9cd,0x4944,0x3fb2,
	0x0000,0x0000,0x0000,0x3ff0
	};
	#define MAXGAM 171.624376956302725
	#endif

	#ifdef MIEEE
	static const unsigned short P[] = {
	0x3f24,0xfcb8,0x3998,0x2153,
	0x3f53,0x84e3,0xe686,0xbfab,
	0x3f85,0x57cd,0xe9db,0x14b0,
	0x3fa8,0x63d9,0x18c4,0x23d3,
	0x3fca,0x8da9,0xdcae,0x7d31,
	0x3fdf,0xa137,0x3993,0xe312,
	0x3ff0,0x0000,0x0000,0x0000
	};
	static const unsigned short Q[] = {
	0xbef8,0x487a,0x8400,0xd3af,
	0x3f41,0xae8a,0x2915,0x2573,
	0xbf72,0x40e4,0xe750,0xb44a,
	0x3f88,0x31ed,0x5b1b,0xb117,
	0x3fa2,0x5779,0xe33f,0xde67,
	0xbfce,0x071a,0x9d42,0x87c2,
	0x3fb2,0x4944,0xc9cd,0x3c51,
	0x3ff0,0x0000,0x0000,0x0000
	};
	#define MAXGAM 171.624376956302725
	#endif

	/* Stirling's formula for the gamma function */
	#if UNK
	static const double STIR[5] = {
	7.87311395793093628397E-4,
	-2.29549961613378126380E-4,
	-2.68132617805781232825E-3,
	3.47222221605458667310E-3,
	8.33333333333482257126E-2,
	};
	#define MAXSTIR 143.01608
	static const double SQTPI = 2.50662827463100050242E0;
	#endif
	#if DEC
	static const unsigned short STIR[20] = {
	0035516,0061622,0144553,0112224,
	0135160,0131531,0037460,0165740,
	0136057,0134460,0037242,0077270,
	0036143,0107070,0156306,0027751,
	0037252,0125252,0125252,0146064,
	};
	#define MAXSTIR 26.77
	static const unsigned short SQT[4] = {
	0040440,0066230,0177661,0034055,
	};
	#define SQTPI (double )SQT
	#endif
	#if IBMPC
	static const unsigned short STIR[20] = {
	0x7293,0x592d,0xcc72,0x3f49,
	0x1d7c,0x27e6,0x166b,0xbf2e,
	0x4fd7,0x07d4,0xf726,0xbf65,
	0xc5fd,0x1b98,0x71c7,0x3f6c,
	0x5986,0x5555,0x5555,0x3fb5,
	};
	#define MAXSTIR 143.01608
	static const unsigned short SQT[4] = {
	0x2706,0x1ff6,0x0d93,0x4004,
	};
	#define SQTPI (double )SQT
	#endif
	#if MIEEE
	static const unsigned short STIR[20] = {
	0x3f49,0xcc72,0x592d,0x7293,
	0xbf2e,0x166b,0x27e6,0x1d7c,
	0xbf65,0xf726,0x07d4,0x4fd7,
	0x3f6c,0x71c7,0x1b98,0xc5fd,
	0x3fb5,0x5555,0x5555,0x5986,
	};
	#define MAXSTIR 143.01608
	static const unsigned short SQT[4] = {
	0x4004,0x0d93,0x1ff6,0x2706,
	};
	#define SQTPI (double )SQT
	#endif

	static double stirf ( double );

	/* Gamma function computed by Stirling's formula.
	* The polynomial STIR is valid for 33 <= x <= 172.
	*/
	static double stirf(x)
	double x;
	{
	double y, w, v;

	w = 1.0/x;
	w = 1.0 + w * polevl( w, STIR, 4 );
	y = exp(x);
	if( x > MAXSTIR )
	{ /* Avoid overflow in pow() */
	v = pow( x, 0.5 * x - 0.25 );
	y = v * (v / y);
	}
	else
	{
	y = pow( x, x - 0.5 ) / y;
	}
	y = SQTPI * y * w;
	return( y );
	}



	double __tgamma_r(double x, int* sgngam)
	{
	double p, q, z;
	int i;

	*sgngam = 1;
	#ifdef NANS
	if( isnan(x) )
	return(x);
	#endif
	#ifdef INFINITIES
	#ifdef NANS
	if( x == INFINITY )
	return(x);
	if( x == -INFINITY )
	return(NAN);
	#else
	if( !isfinite(x) )
	return(x);
	#endif
	#endif
	q = fabs(x);

	if( q > 33.0 )
	{
	if( x < 0.0 )
	{
	p = floor(q);
	if( p == q )
	{
	gsing:
	_SET_ERRNO(EDOM);
	mtherr( "tgamma", SING );
	#ifdef INFINITIES
	return (INFINITY);
	#else
	return (MAXNUM);
	#endif
	}
	i = p;
	if( (i & 1) == 0 )
	*sgngam = -1;
	z = q - p;
	if( z > 0.5 )
	{
	p += 1.0;
	z = q - p;
	}
	z = q * sin( PI * z );
	if( z == 0.0 )
	{
	_SET_ERRNO(ERANGE);
	mtherr( "tgamma", OVERFLOW );
	#ifdef INFINITIES
	return( sgngam INFINITY);
	#else
	return( sgngam MAXNUM);
	#endif
	}
	z = fabs(z);
	z = PI/(z * stirf(q) );
	}
	else
	{
	z = stirf(x);
	}
	return( sgngam z );
	}

	z = 1.0;
	while( x >= 3.0 )
	{
	x -= 1.0;
	z *= x;
	}

	while( x < 0.0 )
	{
	if( x > -1.E-9 )
	goto Small;
	z /= x;
	x += 1.0;
	}

	while( x < 2.0 )
	{
	if( x < 1.e-9 )
	goto Small;
	z /= x;
	x += 1.0;
	}

	if( x == 2.0 )
	return(z);

	x -= 2.0;
	p = polevl( x, P, 6 );
	q = polevl( x, Q, 7 );
	return( z * p / q );

	Small:
	if( x == 0.0 )
	{
	goto gsing;
	}
	else
	return( z/((1.0 + 0.5772156649015329 * x) * x) );
	}

	/* This is the C99 version */

	double tgamma(double x)
	{
	int local_sgngam=0;
	return (__tgamma_r(x, &local_sgngam));
	}