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mathfunc.h@ 4024

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Last change on this file since 4024 was 221, checked in by ansari, 26 years ago
Creation module DPC/Blitz (blitz 0.4) Reza 09/04/99
File size: 66.5 KB

Rev	Line
[221]	1	// Generated: genmathfunc.cpp Jul 28 1998 17:29:02
	2
	3	#ifndef BZ_MATHFUNC_H
	4	#define BZ_MATHFUNC_H
	5
	6	#ifndef BZ_APPLICS_H
	7	#error <blitz/mathfunc.h> should be included via <blitz/applics.h>
	8	#endif
	9
	10
	11	#ifndef BZ_PRETTYPRINT_H
	12	#include <blitz/prettyprint.h>
	13	#endif
	14
	15	BZ_NAMESPACE(blitz)
	16
	17	// abs(P_numtype1) Absolute value
	18	template<class P_numtype1>
	19	class _bz_abs : public OneOperandApplicativeTemplatesBase {
	20	public:
	21	typedef P_numtype1 T_numtype1;
	22	typedef P_numtype1 T_numtype;
	23
	24	static inline T_numtype apply(T_numtype1 x)
	25	{ return BZ_MATHFN_SCOPE(abs)(x); }
	26
	27	template<class T1>
	28	static void prettyPrint(string& str, prettyPrintFormat& format,
	29	const T1& a)
	30	{
	31	str += "abs(";
	32	a.prettyPrint(str,format);
	33	str += ")";
	34	}
	35	};
	36
	37	// abs(long)
	38	template<>
	39	class _bz_abs<long> : public OneOperandApplicativeTemplatesBase {
	40	public:
	41	typedef long T_numtype1;
	42	typedef long T_numtype;
	43
	44	static inline T_numtype apply(T_numtype1 x)
	45	{ return BZ_MATHFN_SCOPE(labs)((long)x); }
	46
	47	template<class T1>
	48	static void prettyPrint(string& str, prettyPrintFormat& format,
	49	const T1& a)
	50	{
	51	str += "labs(";
	52	a.prettyPrint(str,format);
	53	str += ")";
	54	}
	55	};
	56
	57	// abs(float)
	58	template<>
	59	class _bz_abs<float> : public OneOperandApplicativeTemplatesBase {
	60	public:
	61	typedef float T_numtype1;
	62	typedef float T_numtype;
	63
	64	static inline T_numtype apply(T_numtype1 x)
	65	{ return BZ_MATHFN_SCOPE(fabs)((float)x); }
	66
	67	template<class T1>
	68	static void prettyPrint(string& str, prettyPrintFormat& format,
	69	const T1& a)
	70	{
	71	str += "fabs(";
	72	a.prettyPrint(str,format);
	73	str += ")";
	74	}
	75	};
	76
	77	// abs(double)
	78	template<>
	79	class _bz_abs<double> : public OneOperandApplicativeTemplatesBase {
	80	public:
	81	typedef double T_numtype1;
	82	typedef double T_numtype;
	83
	84	static inline T_numtype apply(T_numtype1 x)
	85	{ return BZ_MATHFN_SCOPE(fabs)((double)x); }
	86
	87	template<class T1>
	88	static void prettyPrint(string& str, prettyPrintFormat& format,
	89	const T1& a)
	90	{
	91	str += "fabs(";
	92	a.prettyPrint(str,format);
	93	str += ")";
	94	}
	95	};
	96
	97	// abs(long double)
	98	template<>
	99	class _bz_abs<long double> : public OneOperandApplicativeTemplatesBase {
	100	public:
	101	typedef long double T_numtype1;
	102	typedef long double T_numtype;
	103
	104	static inline T_numtype apply(T_numtype1 x)
	105	{ return BZ_MATHFN_SCOPE(fabs)((long double)x); }
	106
	107	template<class T1>
	108	static void prettyPrint(string& str, prettyPrintFormat& format,
	109	const T1& a)
	110	{
	111	str += "fabs(";
	112	a.prettyPrint(str,format);
	113	str += ")";
	114	}
	115	};
	116
	117	// acos(P_numtype1) Inverse cosine
	118	template<class P_numtype1>
	119	class _bz_acos : public OneOperandApplicativeTemplatesBase {
	120	public:
	121	typedef P_numtype1 T_numtype1;
	122	typedef double T_numtype;
	123
	124	static inline T_numtype apply(T_numtype1 x)
	125	{ return BZ_MATHFN_SCOPE(acos)((double)x); }
	126
	127	template<class T1>
	128	static void prettyPrint(string& str, prettyPrintFormat& format,
	129	const T1& a)
	130	{
	131	str += "acos(";
	132	a.prettyPrint(str,format);
	133	str += ")";
	134	}
	135	};
	136
	137	// acos(float)
	138	template<>
	139	class _bz_acos<float> : public OneOperandApplicativeTemplatesBase {
	140	public:
	141	typedef float T_numtype1;
	142	typedef float T_numtype;
	143
	144	static inline T_numtype apply(T_numtype1 x)
	145	{ return BZ_MATHFN_SCOPE(acos)((float)x); }
	146
	147	template<class T1>
	148	static void prettyPrint(string& str, prettyPrintFormat& format,
	149	const T1& a)
	150	{
	151	str += "acos(";
	152	a.prettyPrint(str,format);
	153	str += ")";
	154	}
	155	};
	156
	157	// acos(long double)
	158	template<>
	159	class _bz_acos<long double> : public OneOperandApplicativeTemplatesBase {
	160	public:
	161	typedef long double T_numtype1;
	162	typedef long double T_numtype;
	163
	164	static inline T_numtype apply(T_numtype1 x)
	165	{ return BZ_MATHFN_SCOPE(acos)((long double)x); }
	166
	167	template<class T1>
	168	static void prettyPrint(string& str, prettyPrintFormat& format,
	169	const T1& a)
	170	{
	171	str += "acos(";
	172	a.prettyPrint(str,format);
	173	str += ")";
	174	}
	175	};
	176
	177	// acos(complex<float> )
	178	#ifdef BZ_HAVE_COMPLEX_MATH2
	179	template<>
	180	class _bz_acos<complex<float> > : public OneOperandApplicativeTemplatesBase {
	181	public:
	182	typedef complex<float> T_numtype1;
	183	typedef complex<float> T_numtype;
	184
	185	static inline T_numtype apply(T_numtype1 x)
	186	{ return BZ_CMATHFN_SCOPE(acos)((complex<float> )x); }
	187
	188	template<class T1>
	189	static void prettyPrint(string& str, prettyPrintFormat& format,
	190	const T1& a)
	191	{
	192	str += "acos(";
	193	a.prettyPrint(str,format);
	194	str += ")";
	195	}
	196	};
	197	#endif
	198
	199	// acos(complex<double> )
	200	#ifdef BZ_HAVE_COMPLEX_MATH2
	201	template<>
	202	class _bz_acos<complex<double> > : public OneOperandApplicativeTemplatesBase {
	203	public:
	204	typedef complex<double> T_numtype1;
	205	typedef complex<double> T_numtype;
	206
	207	static inline T_numtype apply(T_numtype1 x)
	208	{ return BZ_CMATHFN_SCOPE(acos)((complex<double> )x); }
	209
	210	template<class T1>
	211	static void prettyPrint(string& str, prettyPrintFormat& format,
	212	const T1& a)
	213	{
	214	str += "acos(";
	215	a.prettyPrint(str,format);
	216	str += ")";
	217	}
	218	};
	219	#endif
	220
	221	// acos(complex<long double> )
	222	#ifdef BZ_HAVE_COMPLEX_MATH2
	223	template<>
	224	class _bz_acos<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	225	public:
	226	typedef complex<long double> T_numtype1;
	227	typedef complex<long double> T_numtype;
	228
	229	static inline T_numtype apply(T_numtype1 x)
	230	{ return BZ_CMATHFN_SCOPE(acos)((complex<long double> )x); }
	231
	232	template<class T1>
	233	static void prettyPrint(string& str, prettyPrintFormat& format,
	234	const T1& a)
	235	{
	236	str += "acos(";
	237	a.prettyPrint(str,format);
	238	str += ")";
	239	}
	240	};
	241	#endif
	242
	243	// acosh(P_numtype1) Inverse hyperbolic cosine
	244	#ifdef BZ_HAVE_IEEE_MATH
	245	template<class P_numtype1>
	246	class _bz_acosh : public OneOperandApplicativeTemplatesBase {
	247	public:
	248	typedef P_numtype1 T_numtype1;
	249	typedef double T_numtype;
	250
	251	static inline T_numtype apply(T_numtype1 x)
	252	{ return BZ_MATHFN_SCOPE(acosh)((double)x); }
	253
	254	template<class T1>
	255	static void prettyPrint(string& str, prettyPrintFormat& format,
	256	const T1& a)
	257	{
	258	str += "acosh(";
	259	a.prettyPrint(str,format);
	260	str += ")";
	261	}
	262	};
	263	#endif
	264
	265	// asin(P_numtype1) Inverse sine
	266	template<class P_numtype1>
	267	class _bz_asin : public OneOperandApplicativeTemplatesBase {
	268	public:
	269	typedef P_numtype1 T_numtype1;
	270	typedef double T_numtype;
	271
	272	static inline T_numtype apply(T_numtype1 x)
	273	{ return BZ_MATHFN_SCOPE(asin)((double)x); }
	274
	275	template<class T1>
	276	static void prettyPrint(string& str, prettyPrintFormat& format,
	277	const T1& a)
	278	{
	279	str += "asin(";
	280	a.prettyPrint(str,format);
	281	str += ")";
	282	}
	283	};
	284
	285	// asin(float)
	286	template<>
	287	class _bz_asin<float> : public OneOperandApplicativeTemplatesBase {
	288	public:
	289	typedef float T_numtype1;
	290	typedef float T_numtype;
	291
	292	static inline T_numtype apply(T_numtype1 x)
	293	{ return BZ_MATHFN_SCOPE(asin)((float)x); }
	294
	295	template<class T1>
	296	static void prettyPrint(string& str, prettyPrintFormat& format,
	297	const T1& a)
	298	{
	299	str += "asin(";
	300	a.prettyPrint(str,format);
	301	str += ")";
	302	}
	303	};
	304
	305	// asin(long double)
	306	template<>
	307	class _bz_asin<long double> : public OneOperandApplicativeTemplatesBase {
	308	public:
	309	typedef long double T_numtype1;
	310	typedef long double T_numtype;
	311
	312	static inline T_numtype apply(T_numtype1 x)
	313	{ return BZ_MATHFN_SCOPE(asin)((long double)x); }
	314
	315	template<class T1>
	316	static void prettyPrint(string& str, prettyPrintFormat& format,
	317	const T1& a)
	318	{
	319	str += "asin(";
	320	a.prettyPrint(str,format);
	321	str += ")";
	322	}
	323	};
	324
	325	// asin(complex<float> )
	326	#ifdef BZ_HAVE_COMPLEX_MATH2
	327	template<>
	328	class _bz_asin<complex<float> > : public OneOperandApplicativeTemplatesBase {
	329	public:
	330	typedef complex<float> T_numtype1;
	331	typedef complex<float> T_numtype;
	332
	333	static inline T_numtype apply(T_numtype1 x)
	334	{ return BZ_CMATHFN_SCOPE(asin)((complex<float> )x); }
	335
	336	template<class T1>
	337	static void prettyPrint(string& str, prettyPrintFormat& format,
	338	const T1& a)
	339	{
	340	str += "asin(";
	341	a.prettyPrint(str,format);
	342	str += ")";
	343	}
	344	};
	345	#endif
	346
	347	// asin(complex<double> )
	348	#ifdef BZ_HAVE_COMPLEX_MATH2
	349	template<>
	350	class _bz_asin<complex<double> > : public OneOperandApplicativeTemplatesBase {
	351	public:
	352	typedef complex<double> T_numtype1;
	353	typedef complex<double> T_numtype;
	354
	355	static inline T_numtype apply(T_numtype1 x)
	356	{ return BZ_CMATHFN_SCOPE(asin)((complex<double> )x); }
	357
	358	template<class T1>
	359	static void prettyPrint(string& str, prettyPrintFormat& format,
	360	const T1& a)
	361	{
	362	str += "asin(";
	363	a.prettyPrint(str,format);
	364	str += ")";
	365	}
	366	};
	367	#endif
	368
	369	// asin(complex<long double> )
	370	#ifdef BZ_HAVE_COMPLEX_MATH2
	371	template<>
	372	class _bz_asin<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	373	public:
	374	typedef complex<long double> T_numtype1;
	375	typedef complex<long double> T_numtype;
	376
	377	static inline T_numtype apply(T_numtype1 x)
	378	{ return BZ_CMATHFN_SCOPE(asin)((complex<long double> )x); }
	379
	380	template<class T1>
	381	static void prettyPrint(string& str, prettyPrintFormat& format,
	382	const T1& a)
	383	{
	384	str += "asin(";
	385	a.prettyPrint(str,format);
	386	str += ")";
	387	}
	388	};
	389	#endif
	390
	391	// asinh(P_numtype1) Inverse hyperbolic sine
	392	#ifdef BZ_HAVE_IEEE_MATH
	393	template<class P_numtype1>
	394	class _bz_asinh : public OneOperandApplicativeTemplatesBase {
	395	public:
	396	typedef P_numtype1 T_numtype1;
	397	typedef double T_numtype;
	398
	399	static inline T_numtype apply(T_numtype1 x)
	400	{ return BZ_MATHFN_SCOPE(asinh)((double)x); }
	401
	402	template<class T1>
	403	static void prettyPrint(string& str, prettyPrintFormat& format,
	404	const T1& a)
	405	{
	406	str += "asinh(";
	407	a.prettyPrint(str,format);
	408	str += ")";
	409	}
	410	};
	411	#endif
	412
	413	// atan(P_numtype1) Inverse tangent
	414	template<class P_numtype1>
	415	class _bz_atan : public OneOperandApplicativeTemplatesBase {
	416	public:
	417	typedef P_numtype1 T_numtype1;
	418	typedef double T_numtype;
	419
	420	static inline T_numtype apply(T_numtype1 x)
	421	{ return BZ_MATHFN_SCOPE(atan)((double)x); }
	422
	423	template<class T1>
	424	static void prettyPrint(string& str, prettyPrintFormat& format,
	425	const T1& a)
	426	{
	427	str += "atan(";
	428	a.prettyPrint(str,format);
	429	str += ")";
	430	}
	431	};
	432
	433	// atan(float)
	434	template<>
	435	class _bz_atan<float> : public OneOperandApplicativeTemplatesBase {
	436	public:
	437	typedef float T_numtype1;
	438	typedef float T_numtype;
	439
	440	static inline T_numtype apply(T_numtype1 x)
	441	{ return BZ_MATHFN_SCOPE(atan)((float)x); }
	442
	443	template<class T1>
	444	static void prettyPrint(string& str, prettyPrintFormat& format,
	445	const T1& a)
	446	{
	447	str += "atan(";
	448	a.prettyPrint(str,format);
	449	str += ")";
	450	}
	451	};
	452
	453	// atan(long double)
	454	template<>
	455	class _bz_atan<long double> : public OneOperandApplicativeTemplatesBase {
	456	public:
	457	typedef long double T_numtype1;
	458	typedef long double T_numtype;
	459
	460	static inline T_numtype apply(T_numtype1 x)
	461	{ return BZ_MATHFN_SCOPE(atan)((long double)x); }
	462
	463	template<class T1>
	464	static void prettyPrint(string& str, prettyPrintFormat& format,
	465	const T1& a)
	466	{
	467	str += "atan(";
	468	a.prettyPrint(str,format);
	469	str += ")";
	470	}
	471	};
	472
	473	// atan(complex<float> )
	474	#ifdef BZ_HAVE_COMPLEX_MATH2
	475	template<>
	476	class _bz_atan<complex<float> > : public OneOperandApplicativeTemplatesBase {
	477	public:
	478	typedef complex<float> T_numtype1;
	479	typedef complex<float> T_numtype;
	480
	481	static inline T_numtype apply(T_numtype1 x)
	482	{ return BZ_CMATHFN_SCOPE(atan)((complex<float> )x); }
	483
	484	template<class T1>
	485	static void prettyPrint(string& str, prettyPrintFormat& format,
	486	const T1& a)
	487	{
	488	str += "atan(";
	489	a.prettyPrint(str,format);
	490	str += ")";
	491	}
	492	};
	493	#endif
	494
	495	// atan(complex<double> )
	496	#ifdef BZ_HAVE_COMPLEX_MATH2
	497	template<>
	498	class _bz_atan<complex<double> > : public OneOperandApplicativeTemplatesBase {
	499	public:
	500	typedef complex<double> T_numtype1;
	501	typedef complex<double> T_numtype;
	502
	503	static inline T_numtype apply(T_numtype1 x)
	504	{ return BZ_CMATHFN_SCOPE(atan)((complex<double> )x); }
	505
	506	template<class T1>
	507	static void prettyPrint(string& str, prettyPrintFormat& format,
	508	const T1& a)
	509	{
	510	str += "atan(";
	511	a.prettyPrint(str,format);
	512	str += ")";
	513	}
	514	};
	515	#endif
	516
	517	// atan(complex<long double> )
	518	#ifdef BZ_HAVE_COMPLEX_MATH2
	519	template<>
	520	class _bz_atan<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	521	public:
	522	typedef complex<long double> T_numtype1;
	523	typedef complex<long double> T_numtype;
	524
	525	static inline T_numtype apply(T_numtype1 x)
	526	{ return BZ_CMATHFN_SCOPE(atan)((complex<long double> )x); }
	527
	528	template<class T1>
	529	static void prettyPrint(string& str, prettyPrintFormat& format,
	530	const T1& a)
	531	{
	532	str += "atan(";
	533	a.prettyPrint(str,format);
	534	str += ")";
	535	}
	536	};
	537	#endif
	538
	539	// atanh(P_numtype1) Inverse hyperbolic tangent
	540	#ifdef BZ_HAVE_IEEE_MATH
	541	template<class P_numtype1>
	542	class _bz_atanh : public OneOperandApplicativeTemplatesBase {
	543	public:
	544	typedef P_numtype1 T_numtype1;
	545	typedef double T_numtype;
	546
	547	static inline T_numtype apply(T_numtype1 x)
	548	{ return BZ_MATHFN_SCOPE(atanh)((double)x); }
	549
	550	template<class T1>
	551	static void prettyPrint(string& str, prettyPrintFormat& format,
	552	const T1& a)
	553	{
	554	str += "atanh(";
	555	a.prettyPrint(str,format);
	556	str += ")";
	557	}
	558	};
	559	#endif
	560
	561	// atan2(P_numtype1, P_numtype2) Inverse tangent
	562	template<class P_numtype1, class P_numtype2>
	563	class _bz_atan2 : public TwoOperandApplicativeTemplatesBase {
	564	public:
	565	typedef P_numtype1 T_numtype1;
	566	typedef P_numtype2 T_numtype2;
	567	typedef double T_numtype;
	568
	569	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	570	{ return BZ_MATHFN_SCOPE(atan2)((double)x,(double)y); }
	571	};
	572
	573	// atan2(float, float)
	574	template<>
	575	class _bz_atan2<float, float > : public TwoOperandApplicativeTemplatesBase {
	576	public:
	577	typedef float T_numtype1;
	578	typedef float T_numtype2;
	579	typedef float T_numtype;
	580
	581	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	582	{ return BZ_MATHFN_SCOPE(atan2)((float)x,(float)y); }
	583	};
	584
	585	// atan2(long double, long double)
	586	template<>
	587	class _bz_atan2<long double, long double > : public TwoOperandApplicativeTemplatesBase {
	588	public:
	589	typedef long double T_numtype1;
	590	typedef long double T_numtype2;
	591	typedef long double T_numtype;
	592
	593	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	594	{ return BZ_MATHFN_SCOPE(atan2)((long double)x,(long double)y); }
	595	};
	596
	597	// _class(P_numtype1) Classification of float-point value (FP_xxx)
	598	#ifdef BZ_HAVE_SYSTEM_V_MATH
	599	template<class P_numtype1>
	600	class _bz__class : public OneOperandApplicativeTemplatesBase {
	601	public:
	602	typedef P_numtype1 T_numtype1;
	603	typedef int T_numtype;
	604
	605	static inline T_numtype apply(T_numtype1 x)
	606	{ return BZ_MATHFN_SCOPE(_class)(x); }
	607
	608	template<class T1>
	609	static void prettyPrint(string& str, prettyPrintFormat& format,
	610	const T1& a)
	611	{
	612	str += "_class(";
	613	a.prettyPrint(str,format);
	614	str += ")";
	615	}
	616	};
	617	#endif
	618
	619	// cbrt(P_numtype1) Cube root
	620	#ifdef BZ_HAVE_IEEE_MATH
	621	template<class P_numtype1>
	622	class _bz_cbrt : public OneOperandApplicativeTemplatesBase {
	623	public:
	624	typedef P_numtype1 T_numtype1;
	625	typedef double T_numtype;
	626
	627	static inline T_numtype apply(T_numtype1 x)
	628	{ return BZ_MATHFN_SCOPE(cbrt)((double)x); }
	629
	630	template<class T1>
	631	static void prettyPrint(string& str, prettyPrintFormat& format,
	632	const T1& a)
	633	{
	634	str += "cbrt(";
	635	a.prettyPrint(str,format);
	636	str += ")";
	637	}
	638	};
	639	#endif
	640
	641	// ceil(P_numtype1) Ceiling
	642	template<class P_numtype1>
	643	class _bz_ceil : public OneOperandApplicativeTemplatesBase {
	644	public:
	645	typedef P_numtype1 T_numtype1;
	646	typedef double T_numtype;
	647
	648	static inline T_numtype apply(T_numtype1 x)
	649	{ return BZ_MATHFN_SCOPE(ceil)((double)x); }
	650
	651	template<class T1>
	652	static void prettyPrint(string& str, prettyPrintFormat& format,
	653	const T1& a)
	654	{
	655	str += "ceil(";
	656	a.prettyPrint(str,format);
	657	str += ")";
	658	}
	659	};
	660
	661	// ceil(float)
	662	template<>
	663	class _bz_ceil<float> : public OneOperandApplicativeTemplatesBase {
	664	public:
	665	typedef float T_numtype1;
	666	typedef float T_numtype;
	667
	668	static inline T_numtype apply(T_numtype1 x)
	669	{ return BZ_MATHFN_SCOPE(ceil)((float)x); }
	670
	671	template<class T1>
	672	static void prettyPrint(string& str, prettyPrintFormat& format,
	673	const T1& a)
	674	{
	675	str += "ceil(";
	676	a.prettyPrint(str,format);
	677	str += ")";
	678	}
	679	};
	680
	681	// ceil(long double)
	682	template<>
	683	class _bz_ceil<long double> : public OneOperandApplicativeTemplatesBase {
	684	public:
	685	typedef long double T_numtype1;
	686	typedef long double T_numtype;
	687
	688	static inline T_numtype apply(T_numtype1 x)
	689	{ return BZ_MATHFN_SCOPE(ceil)((long double)x); }
	690
	691	template<class T1>
	692	static void prettyPrint(string& str, prettyPrintFormat& format,
	693	const T1& a)
	694	{
	695	str += "ceil(";
	696	a.prettyPrint(str,format);
	697	str += ")";
	698	}
	699	};
	700
	701	// cos(P_numtype1) Cosine
	702	template<class P_numtype1>
	703	class _bz_cos : public OneOperandApplicativeTemplatesBase {
	704	public:
	705	typedef P_numtype1 T_numtype1;
	706	typedef double T_numtype;
	707
	708	static inline T_numtype apply(T_numtype1 x)
	709	{ return BZ_MATHFN_SCOPE(cos)((double)x); }
	710
	711	template<class T1>
	712	static void prettyPrint(string& str, prettyPrintFormat& format,
	713	const T1& a)
	714	{
	715	str += "cos(";
	716	a.prettyPrint(str,format);
	717	str += ")";
	718	}
	719	};
	720
	721	// cos(float)
	722	template<>
	723	class _bz_cos<float> : public OneOperandApplicativeTemplatesBase {
	724	public:
	725	typedef float T_numtype1;
	726	typedef float T_numtype;
	727
	728	static inline T_numtype apply(T_numtype1 x)
	729	{ return BZ_MATHFN_SCOPE(cos)((float)x); }
	730
	731	template<class T1>
	732	static void prettyPrint(string& str, prettyPrintFormat& format,
	733	const T1& a)
	734	{
	735	str += "cos(";
	736	a.prettyPrint(str,format);
	737	str += ")";
	738	}
	739	};
	740
	741	// cos(long double)
	742	template<>
	743	class _bz_cos<long double> : public OneOperandApplicativeTemplatesBase {
	744	public:
	745	typedef long double T_numtype1;
	746	typedef long double T_numtype;
	747
	748	static inline T_numtype apply(T_numtype1 x)
	749	{ return BZ_MATHFN_SCOPE(cos)((long double)x); }
	750
	751	template<class T1>
	752	static void prettyPrint(string& str, prettyPrintFormat& format,
	753	const T1& a)
	754	{
	755	str += "cos(";
	756	a.prettyPrint(str,format);
	757	str += ")";
	758	}
	759	};
	760
	761	// cos(complex<float> )
	762	#ifdef BZ_HAVE_COMPLEX_MATH1
	763	template<>
	764	class _bz_cos<complex<float> > : public OneOperandApplicativeTemplatesBase {
	765	public:
	766	typedef complex<float> T_numtype1;
	767	typedef complex<float> T_numtype;
	768
	769	static inline T_numtype apply(T_numtype1 x)
	770	{ return BZ_CMATHFN_SCOPE(cos)((complex<float> )x); }
	771
	772	template<class T1>
	773	static void prettyPrint(string& str, prettyPrintFormat& format,
	774	const T1& a)
	775	{
	776	str += "cos(";
	777	a.prettyPrint(str,format);
	778	str += ")";
	779	}
	780	};
	781	#endif
	782
	783	// cos(complex<double> )
	784	#ifdef BZ_HAVE_COMPLEX_MATH1
	785	template<>
	786	class _bz_cos<complex<double> > : public OneOperandApplicativeTemplatesBase {
	787	public:
	788	typedef complex<double> T_numtype1;
	789	typedef complex<double> T_numtype;
	790
	791	static inline T_numtype apply(T_numtype1 x)
	792	{ return BZ_CMATHFN_SCOPE(cos)((complex<double> )x); }
	793
	794	template<class T1>
	795	static void prettyPrint(string& str, prettyPrintFormat& format,
	796	const T1& a)
	797	{
	798	str += "cos(";
	799	a.prettyPrint(str,format);
	800	str += ")";
	801	}
	802	};
	803	#endif
	804
	805	// cos(complex<long double> )
	806	#ifdef BZ_HAVE_COMPLEX_MATH1
	807	template<>
	808	class _bz_cos<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	809	public:
	810	typedef complex<long double> T_numtype1;
	811	typedef complex<long double> T_numtype;
	812
	813	static inline T_numtype apply(T_numtype1 x)
	814	{ return BZ_CMATHFN_SCOPE(cos)((complex<long double> )x); }
	815
	816	template<class T1>
	817	static void prettyPrint(string& str, prettyPrintFormat& format,
	818	const T1& a)
	819	{
	820	str += "cos(";
	821	a.prettyPrint(str,format);
	822	str += ")";
	823	}
	824	};
	825	#endif
	826
	827	// copysign(P_numtype1, P_numtype2)
	828	#ifdef BZ_HAVE_SYSTEM_V_MATH
	829	template<class P_numtype1, class P_numtype2>
	830	class _bz_copysign : public TwoOperandApplicativeTemplatesBase {
	831	public:
	832	typedef P_numtype1 T_numtype1;
	833	typedef P_numtype2 T_numtype2;
	834	typedef double T_numtype;
	835
	836	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	837	{ return BZ_MATHFN_SCOPE(copysign)((double)x,(double)y); }
	838	};
	839	#endif
	840
	841	// cosh(P_numtype1) Hyperbolic cosine
	842	template<class P_numtype1>
	843	class _bz_cosh : public OneOperandApplicativeTemplatesBase {
	844	public:
	845	typedef P_numtype1 T_numtype1;
	846	typedef double T_numtype;
	847
	848	static inline T_numtype apply(T_numtype1 x)
	849	{ return BZ_MATHFN_SCOPE(cosh)((double)x); }
	850
	851	template<class T1>
	852	static void prettyPrint(string& str, prettyPrintFormat& format,
	853	const T1& a)
	854	{
	855	str += "cosh(";
	856	a.prettyPrint(str,format);
	857	str += ")";
	858	}
	859	};
	860
	861	// cosh(float)
	862	template<>
	863	class _bz_cosh<float> : public OneOperandApplicativeTemplatesBase {
	864	public:
	865	typedef float T_numtype1;
	866	typedef float T_numtype;
	867
	868	static inline T_numtype apply(T_numtype1 x)
	869	{ return BZ_MATHFN_SCOPE(cosh)((float)x); }
	870
	871	template<class T1>
	872	static void prettyPrint(string& str, prettyPrintFormat& format,
	873	const T1& a)
	874	{
	875	str += "cosh(";
	876	a.prettyPrint(str,format);
	877	str += ")";
	878	}
	879	};
	880
	881	// cosh(long double)
	882	template<>
	883	class _bz_cosh<long double> : public OneOperandApplicativeTemplatesBase {
	884	public:
	885	typedef long double T_numtype1;
	886	typedef long double T_numtype;
	887
	888	static inline T_numtype apply(T_numtype1 x)
	889	{ return BZ_MATHFN_SCOPE(cosh)((long double)x); }
	890
	891	template<class T1>
	892	static void prettyPrint(string& str, prettyPrintFormat& format,
	893	const T1& a)
	894	{
	895	str += "cosh(";
	896	a.prettyPrint(str,format);
	897	str += ")";
	898	}
	899	};
	900
	901	// cosh(complex<float> )
	902	#ifdef BZ_HAVE_COMPLEX_MATH1
	903	template<>
	904	class _bz_cosh<complex<float> > : public OneOperandApplicativeTemplatesBase {
	905	public:
	906	typedef complex<float> T_numtype1;
	907	typedef complex<float> T_numtype;
	908
	909	static inline T_numtype apply(T_numtype1 x)
	910	{ return BZ_CMATHFN_SCOPE(cosh)((complex<float> )x); }
	911
	912	template<class T1>
	913	static void prettyPrint(string& str, prettyPrintFormat& format,
	914	const T1& a)
	915	{
	916	str += "cosh(";
	917	a.prettyPrint(str,format);
	918	str += ")";
	919	}
	920	};
	921	#endif
	922
	923	// cosh(complex<double> )
	924	#ifdef BZ_HAVE_COMPLEX_MATH1
	925	template<>
	926	class _bz_cosh<complex<double> > : public OneOperandApplicativeTemplatesBase {
	927	public:
	928	typedef complex<double> T_numtype1;
	929	typedef complex<double> T_numtype;
	930
	931	static inline T_numtype apply(T_numtype1 x)
	932	{ return BZ_CMATHFN_SCOPE(cosh)((complex<double> )x); }
	933
	934	template<class T1>
	935	static void prettyPrint(string& str, prettyPrintFormat& format,
	936	const T1& a)
	937	{
	938	str += "cosh(";
	939	a.prettyPrint(str,format);
	940	str += ")";
	941	}
	942	};
	943	#endif
	944
	945	// cosh(complex<long double> )
	946	#ifdef BZ_HAVE_COMPLEX_MATH1
	947	template<>
	948	class _bz_cosh<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	949	public:
	950	typedef complex<long double> T_numtype1;
	951	typedef complex<long double> T_numtype;
	952
	953	static inline T_numtype apply(T_numtype1 x)
	954	{ return BZ_CMATHFN_SCOPE(cosh)((complex<long double> )x); }
	955
	956	template<class T1>
	957	static void prettyPrint(string& str, prettyPrintFormat& format,
	958	const T1& a)
	959	{
	960	str += "cosh(";
	961	a.prettyPrint(str,format);
	962	str += ")";
	963	}
	964	};
	965	#endif
	966
	967	// drem(P_numtype1, P_numtype2) Remainder
	968	#ifdef BZ_HAVE_SYSTEM_V_MATH
	969	template<class P_numtype1, class P_numtype2>
	970	class _bz_drem : public TwoOperandApplicativeTemplatesBase {
	971	public:
	972	typedef P_numtype1 T_numtype1;
	973	typedef P_numtype2 T_numtype2;
	974	typedef double T_numtype;
	975
	976	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	977	{ return BZ_MATHFN_SCOPE(drem)((double)x,(double)y); }
	978	};
	979	#endif
	980
	981	// exp(P_numtype1) Exponential
	982	template<class P_numtype1>
	983	class _bz_exp : public OneOperandApplicativeTemplatesBase {
	984	public:
	985	typedef P_numtype1 T_numtype1;
	986	typedef double T_numtype;
	987
	988	static inline T_numtype apply(T_numtype1 x)
	989	{ return BZ_MATHFN_SCOPE(exp)((double)x); }
	990
	991	template<class T1>
	992	static void prettyPrint(string& str, prettyPrintFormat& format,
	993	const T1& a)
	994	{
	995	str += "exp(";
	996	a.prettyPrint(str,format);
	997	str += ")";
	998	}
	999	};
	1000
	1001	// exp(float)
	1002	template<>
	1003	class _bz_exp<float> : public OneOperandApplicativeTemplatesBase {
	1004	public:
	1005	typedef float T_numtype1;
	1006	typedef float T_numtype;
	1007
	1008	static inline T_numtype apply(T_numtype1 x)
	1009	{ return BZ_MATHFN_SCOPE(exp)((float)x); }
	1010
	1011	template<class T1>
	1012	static void prettyPrint(string& str, prettyPrintFormat& format,
	1013	const T1& a)
	1014	{
	1015	str += "exp(";
	1016	a.prettyPrint(str,format);
	1017	str += ")";
	1018	}
	1019	};
	1020
	1021	// exp(long double)
	1022	template<>
	1023	class _bz_exp<long double> : public OneOperandApplicativeTemplatesBase {
	1024	public:
	1025	typedef long double T_numtype1;
	1026	typedef long double T_numtype;
	1027
	1028	static inline T_numtype apply(T_numtype1 x)
	1029	{ return BZ_MATHFN_SCOPE(exp)((long double)x); }
	1030
	1031	template<class T1>
	1032	static void prettyPrint(string& str, prettyPrintFormat& format,
	1033	const T1& a)
	1034	{
	1035	str += "exp(";
	1036	a.prettyPrint(str,format);
	1037	str += ")";
	1038	}
	1039	};
	1040
	1041	// exp(complex<float> )
	1042	#ifdef BZ_HAVE_COMPLEX_MATH1
	1043	template<>
	1044	class _bz_exp<complex<float> > : public OneOperandApplicativeTemplatesBase {
	1045	public:
	1046	typedef complex<float> T_numtype1;
	1047	typedef complex<float> T_numtype;
	1048
	1049	static inline T_numtype apply(T_numtype1 x)
	1050	{ return BZ_CMATHFN_SCOPE(exp)((complex<float> )x); }
	1051
	1052	template<class T1>
	1053	static void prettyPrint(string& str, prettyPrintFormat& format,
	1054	const T1& a)
	1055	{
	1056	str += "exp(";
	1057	a.prettyPrint(str,format);
	1058	str += ")";
	1059	}
	1060	};
	1061	#endif
	1062
	1063	// exp(complex<double> )
	1064	#ifdef BZ_HAVE_COMPLEX_MATH1
	1065	template<>
	1066	class _bz_exp<complex<double> > : public OneOperandApplicativeTemplatesBase {
	1067	public:
	1068	typedef complex<double> T_numtype1;
	1069	typedef complex<double> T_numtype;
	1070
	1071	static inline T_numtype apply(T_numtype1 x)
	1072	{ return BZ_CMATHFN_SCOPE(exp)((complex<double> )x); }
	1073
	1074	template<class T1>
	1075	static void prettyPrint(string& str, prettyPrintFormat& format,
	1076	const T1& a)
	1077	{
	1078	str += "exp(";
	1079	a.prettyPrint(str,format);
	1080	str += ")";
	1081	}
	1082	};
	1083	#endif
	1084
	1085	// exp(complex<long double> )
	1086	#ifdef BZ_HAVE_COMPLEX_MATH1
	1087	template<>
	1088	class _bz_exp<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	1089	public:
	1090	typedef complex<long double> T_numtype1;
	1091	typedef complex<long double> T_numtype;
	1092
	1093	static inline T_numtype apply(T_numtype1 x)
	1094	{ return BZ_CMATHFN_SCOPE(exp)((complex<long double> )x); }
	1095
	1096	template<class T1>
	1097	static void prettyPrint(string& str, prettyPrintFormat& format,
	1098	const T1& a)
	1099	{
	1100	str += "exp(";
	1101	a.prettyPrint(str,format);
	1102	str += ")";
	1103	}
	1104	};
	1105	#endif
	1106
	1107	// expm1(P_numtype1) Exp(x)-1
	1108	#ifdef BZ_HAVE_IEEE_MATH
	1109	template<class P_numtype1>
	1110	class _bz_expm1 : public OneOperandApplicativeTemplatesBase {
	1111	public:
	1112	typedef P_numtype1 T_numtype1;
	1113	typedef double T_numtype;
	1114
	1115	static inline T_numtype apply(T_numtype1 x)
	1116	{ return BZ_MATHFN_SCOPE(expm1)((double)x); }
	1117
	1118	template<class T1>
	1119	static void prettyPrint(string& str, prettyPrintFormat& format,
	1120	const T1& a)
	1121	{
	1122	str += "expm1(";
	1123	a.prettyPrint(str,format);
	1124	str += ")";
	1125	}
	1126	};
	1127	#endif
	1128
	1129	// erf(P_numtype1) Error function
	1130	#ifdef BZ_HAVE_IEEE_MATH
	1131	template<class P_numtype1>
	1132	class _bz_erf : public OneOperandApplicativeTemplatesBase {
	1133	public:
	1134	typedef P_numtype1 T_numtype1;
	1135	typedef double T_numtype;
	1136
	1137	static inline T_numtype apply(T_numtype1 x)
	1138	{ return BZ_MATHFN_SCOPE(erf)((double)x); }
	1139
	1140	template<class T1>
	1141	static void prettyPrint(string& str, prettyPrintFormat& format,
	1142	const T1& a)
	1143	{
	1144	str += "erf(";
	1145	a.prettyPrint(str,format);
	1146	str += ")";
	1147	}
	1148	};
	1149	#endif
	1150
	1151	// erfc(P_numtype1) Complementary error function
	1152	#ifdef BZ_HAVE_IEEE_MATH
	1153	template<class P_numtype1>
	1154	class _bz_erfc : public OneOperandApplicativeTemplatesBase {
	1155	public:
	1156	typedef P_numtype1 T_numtype1;
	1157	typedef double T_numtype;
	1158
	1159	static inline T_numtype apply(T_numtype1 x)
	1160	{ return BZ_MATHFN_SCOPE(erfc)((double)x); }
	1161
	1162	template<class T1>
	1163	static void prettyPrint(string& str, prettyPrintFormat& format,
	1164	const T1& a)
	1165	{
	1166	str += "erfc(";
	1167	a.prettyPrint(str,format);
	1168	str += ")";
	1169	}
	1170	};
	1171	#endif
	1172
	1173	// finite(P_numtype1) Nonzero if finite
	1174	#ifdef BZ_HAVE_IEEE_MATH
	1175	template<class P_numtype1>
	1176	class _bz_finite : public OneOperandApplicativeTemplatesBase {
	1177	public:
	1178	typedef P_numtype1 T_numtype1;
	1179	typedef int T_numtype;
	1180
	1181	static inline T_numtype apply(T_numtype1 x)
	1182	{ return BZ_MATHFN_SCOPE(finite)(x); }
	1183
	1184	template<class T1>
	1185	static void prettyPrint(string& str, prettyPrintFormat& format,
	1186	const T1& a)
	1187	{
	1188	str += "finite(";
	1189	a.prettyPrint(str,format);
	1190	str += ")";
	1191	}
	1192	};
	1193	#endif
	1194
	1195	// floor(P_numtype1) Floor function
	1196	template<class P_numtype1>
	1197	class _bz_floor : public OneOperandApplicativeTemplatesBase {
	1198	public:
	1199	typedef P_numtype1 T_numtype1;
	1200	typedef double T_numtype;
	1201
	1202	static inline T_numtype apply(T_numtype1 x)
	1203	{ return BZ_MATHFN_SCOPE(floor)((double)x); }
	1204
	1205	template<class T1>
	1206	static void prettyPrint(string& str, prettyPrintFormat& format,
	1207	const T1& a)
	1208	{
	1209	str += "floor(";
	1210	a.prettyPrint(str,format);
	1211	str += ")";
	1212	}
	1213	};
	1214
	1215	// floor(float)
	1216	template<>
	1217	class _bz_floor<float> : public OneOperandApplicativeTemplatesBase {
	1218	public:
	1219	typedef float T_numtype1;
	1220	typedef float T_numtype;
	1221
	1222	static inline T_numtype apply(T_numtype1 x)
	1223	{ return BZ_MATHFN_SCOPE(floor)((float)x); }
	1224
	1225	template<class T1>
	1226	static void prettyPrint(string& str, prettyPrintFormat& format,
	1227	const T1& a)
	1228	{
	1229	str += "floor(";
	1230	a.prettyPrint(str,format);
	1231	str += ")";
	1232	}
	1233	};
	1234
	1235	// floor(long double)
	1236	template<>
	1237	class _bz_floor<long double> : public OneOperandApplicativeTemplatesBase {
	1238	public:
	1239	typedef long double T_numtype1;
	1240	typedef long double T_numtype;
	1241
	1242	static inline T_numtype apply(T_numtype1 x)
	1243	{ return BZ_MATHFN_SCOPE(floor)((long double)x); }
	1244
	1245	template<class T1>
	1246	static void prettyPrint(string& str, prettyPrintFormat& format,
	1247	const T1& a)
	1248	{
	1249	str += "floor(";
	1250	a.prettyPrint(str,format);
	1251	str += ")";
	1252	}
	1253	};
	1254
	1255	// fmod(P_numtype1, P_numtype2) Modulo remainder
	1256	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1257	template<class P_numtype1, class P_numtype2>
	1258	class _bz_fmod : public TwoOperandApplicativeTemplatesBase {
	1259	public:
	1260	typedef P_numtype1 T_numtype1;
	1261	typedef P_numtype2 T_numtype2;
	1262	typedef double T_numtype;
	1263
	1264	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1265	{ return BZ_MATHFN_SCOPE(fmod)((double)x,(double)y); }
	1266	};
	1267	#endif
	1268
	1269	// hypot(P_numtype1, P_numtype2) sqrt(xx+yy)
	1270	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1271	template<class P_numtype1, class P_numtype2>
	1272	class _bz_hypot : public TwoOperandApplicativeTemplatesBase {
	1273	public:
	1274	typedef P_numtype1 T_numtype1;
	1275	typedef P_numtype2 T_numtype2;
	1276	typedef double T_numtype;
	1277
	1278	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1279	{ return BZ_MATHFN_SCOPE(hypot)((double)x,(double)y); }
	1280	};
	1281	#endif
	1282
	1283	// ilogb(P_numtype1) Integer unbiased exponent
	1284	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1285	template<class P_numtype1>
	1286	class _bz_ilogb : public OneOperandApplicativeTemplatesBase {
	1287	public:
	1288	typedef P_numtype1 T_numtype1;
	1289	typedef int T_numtype;
	1290
	1291	static inline T_numtype apply(T_numtype1 x)
	1292	{ return BZ_MATHFN_SCOPE(ilogb)(x); }
	1293
	1294	template<class T1>
	1295	static void prettyPrint(string& str, prettyPrintFormat& format,
	1296	const T1& a)
	1297	{
	1298	str += "ilogb(";
	1299	a.prettyPrint(str,format);
	1300	str += ")";
	1301	}
	1302	};
	1303	#endif
	1304
	1305	// isnan(P_numtype1) Nonzero if NaNS or NaNQ
	1306	#ifdef BZ_HAVE_IEEE_MATH
	1307	template<class P_numtype1>
	1308	class _bz_isnan : public OneOperandApplicativeTemplatesBase {
	1309	public:
	1310	typedef P_numtype1 T_numtype1;
	1311	typedef int T_numtype;
	1312
	1313	static inline T_numtype apply(T_numtype1 x)
	1314	{ return BZ_MATHFN_SCOPE(isnan)(x); }
	1315
	1316	template<class T1>
	1317	static void prettyPrint(string& str, prettyPrintFormat& format,
	1318	const T1& a)
	1319	{
	1320	str += "isnan(";
	1321	a.prettyPrint(str,format);
	1322	str += ")";
	1323	}
	1324	};
	1325	#endif
	1326
	1327	// itrunc(P_numtype1) Truncate and convert to integer
	1328	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1329	template<class P_numtype1>
	1330	class _bz_itrunc : public OneOperandApplicativeTemplatesBase {
	1331	public:
	1332	typedef P_numtype1 T_numtype1;
	1333	typedef int T_numtype;
	1334
	1335	static inline T_numtype apply(T_numtype1 x)
	1336	{ return BZ_MATHFN_SCOPE(itrunc)(x); }
	1337
	1338	template<class T1>
	1339	static void prettyPrint(string& str, prettyPrintFormat& format,
	1340	const T1& a)
	1341	{
	1342	str += "itrunc(";
	1343	a.prettyPrint(str,format);
	1344	str += ")";
	1345	}
	1346	};
	1347	#endif
	1348
	1349	// j0(P_numtype1) Bessel function first kind, order 0
	1350	#ifdef BZ_HAVE_IEEE_MATH
	1351	template<class P_numtype1>
	1352	class _bz_j0 : public OneOperandApplicativeTemplatesBase {
	1353	public:
	1354	typedef P_numtype1 T_numtype1;
	1355	typedef double T_numtype;
	1356
	1357	static inline T_numtype apply(T_numtype1 x)
	1358	{ return BZ_MATHFN_SCOPE(j0)((double)x); }
	1359
	1360	template<class T1>
	1361	static void prettyPrint(string& str, prettyPrintFormat& format,
	1362	const T1& a)
	1363	{
	1364	str += "j0(";
	1365	a.prettyPrint(str,format);
	1366	str += ")";
	1367	}
	1368	};
	1369	#endif
	1370
	1371	// j1(P_numtype1) Bessel function first kind, order 1
	1372	#ifdef BZ_HAVE_IEEE_MATH
	1373	template<class P_numtype1>
	1374	class _bz_j1 : public OneOperandApplicativeTemplatesBase {
	1375	public:
	1376	typedef P_numtype1 T_numtype1;
	1377	typedef double T_numtype;
	1378
	1379	static inline T_numtype apply(T_numtype1 x)
	1380	{ return BZ_MATHFN_SCOPE(j1)((double)x); }
	1381
	1382	template<class T1>
	1383	static void prettyPrint(string& str, prettyPrintFormat& format,
	1384	const T1& a)
	1385	{
	1386	str += "j1(";
	1387	a.prettyPrint(str,format);
	1388	str += ")";
	1389	}
	1390	};
	1391	#endif
	1392
	1393	// lgamma(P_numtype1) Log absolute gamma
	1394	#ifdef BZ_HAVE_IEEE_MATH
	1395	template<class P_numtype1>
	1396	class _bz_lgamma : public OneOperandApplicativeTemplatesBase {
	1397	public:
	1398	typedef P_numtype1 T_numtype1;
	1399	typedef double T_numtype;
	1400
	1401	static inline T_numtype apply(T_numtype1 x)
	1402	{ return BZ_MATHFN_SCOPE(lgamma)((double)x); }
	1403
	1404	template<class T1>
	1405	static void prettyPrint(string& str, prettyPrintFormat& format,
	1406	const T1& a)
	1407	{
	1408	str += "lgamma(";
	1409	a.prettyPrint(str,format);
	1410	str += ")";
	1411	}
	1412	};
	1413	#endif
	1414
	1415	// log(P_numtype1) Natural logarithm
	1416	template<class P_numtype1>
	1417	class _bz_log : public OneOperandApplicativeTemplatesBase {
	1418	public:
	1419	typedef P_numtype1 T_numtype1;
	1420	typedef double T_numtype;
	1421
	1422	static inline T_numtype apply(T_numtype1 x)
	1423	{ return BZ_MATHFN_SCOPE(log)((double)x); }
	1424
	1425	template<class T1>
	1426	static void prettyPrint(string& str, prettyPrintFormat& format,
	1427	const T1& a)
	1428	{
	1429	str += "log(";
	1430	a.prettyPrint(str,format);
	1431	str += ")";
	1432	}
	1433	};
	1434
	1435	// log(float)
	1436	template<>
	1437	class _bz_log<float> : public OneOperandApplicativeTemplatesBase {
	1438	public:
	1439	typedef float T_numtype1;
	1440	typedef float T_numtype;
	1441
	1442	static inline T_numtype apply(T_numtype1 x)
	1443	{ return BZ_MATHFN_SCOPE(log)((float)x); }
	1444
	1445	template<class T1>
	1446	static void prettyPrint(string& str, prettyPrintFormat& format,
	1447	const T1& a)
	1448	{
	1449	str += "log(";
	1450	a.prettyPrint(str,format);
	1451	str += ")";
	1452	}
	1453	};
	1454
	1455	// log(long double)
	1456	template<>
	1457	class _bz_log<long double> : public OneOperandApplicativeTemplatesBase {
	1458	public:
	1459	typedef long double T_numtype1;
	1460	typedef long double T_numtype;
	1461
	1462	static inline T_numtype apply(T_numtype1 x)
	1463	{ return BZ_MATHFN_SCOPE(log)((long double)x); }
	1464
	1465	template<class T1>
	1466	static void prettyPrint(string& str, prettyPrintFormat& format,
	1467	const T1& a)
	1468	{
	1469	str += "log(";
	1470	a.prettyPrint(str,format);
	1471	str += ")";
	1472	}
	1473	};
	1474
	1475	// log(complex<float> )
	1476	#ifdef BZ_HAVE_COMPLEX_MATH1
	1477	template<>
	1478	class _bz_log<complex<float> > : public OneOperandApplicativeTemplatesBase {
	1479	public:
	1480	typedef complex<float> T_numtype1;
	1481	typedef complex<float> T_numtype;
	1482
	1483	static inline T_numtype apply(T_numtype1 x)
	1484	{ return BZ_CMATHFN_SCOPE(log)((complex<float> )x); }
	1485
	1486	template<class T1>
	1487	static void prettyPrint(string& str, prettyPrintFormat& format,
	1488	const T1& a)
	1489	{
	1490	str += "log(";
	1491	a.prettyPrint(str,format);
	1492	str += ")";
	1493	}
	1494	};
	1495	#endif
	1496
	1497	// log(complex<double> )
	1498	#ifdef BZ_HAVE_COMPLEX_MATH1
	1499	template<>
	1500	class _bz_log<complex<double> > : public OneOperandApplicativeTemplatesBase {
	1501	public:
	1502	typedef complex<double> T_numtype1;
	1503	typedef complex<double> T_numtype;
	1504
	1505	static inline T_numtype apply(T_numtype1 x)
	1506	{ return BZ_CMATHFN_SCOPE(log)((complex<double> )x); }
	1507
	1508	template<class T1>
	1509	static void prettyPrint(string& str, prettyPrintFormat& format,
	1510	const T1& a)
	1511	{
	1512	str += "log(";
	1513	a.prettyPrint(str,format);
	1514	str += ")";
	1515	}
	1516	};
	1517	#endif
	1518
	1519	// log(complex<long double> )
	1520	#ifdef BZ_HAVE_COMPLEX_MATH1
	1521	template<>
	1522	class _bz_log<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	1523	public:
	1524	typedef complex<long double> T_numtype1;
	1525	typedef complex<long double> T_numtype;
	1526
	1527	static inline T_numtype apply(T_numtype1 x)
	1528	{ return BZ_CMATHFN_SCOPE(log)((complex<long double> )x); }
	1529
	1530	template<class T1>
	1531	static void prettyPrint(string& str, prettyPrintFormat& format,
	1532	const T1& a)
	1533	{
	1534	str += "log(";
	1535	a.prettyPrint(str,format);
	1536	str += ")";
	1537	}
	1538	};
	1539	#endif
	1540
	1541	// logb(P_numtype1) Unbiased exponent (IEEE)
	1542	#ifdef BZ_HAVE_IEEE_MATH
	1543	template<class P_numtype1>
	1544	class _bz_logb : public OneOperandApplicativeTemplatesBase {
	1545	public:
	1546	typedef P_numtype1 T_numtype1;
	1547	typedef double T_numtype;
	1548
	1549	static inline T_numtype apply(T_numtype1 x)
	1550	{ return BZ_MATHFN_SCOPE(logb)((double)x); }
	1551
	1552	template<class T1>
	1553	static void prettyPrint(string& str, prettyPrintFormat& format,
	1554	const T1& a)
	1555	{
	1556	str += "logb(";
	1557	a.prettyPrint(str,format);
	1558	str += ")";
	1559	}
	1560	};
	1561	#endif
	1562
	1563	// log1p(P_numtype1) Compute log(1 + x)
	1564	#ifdef BZ_HAVE_IEEE_MATH
	1565	template<class P_numtype1>
	1566	class _bz_log1p : public OneOperandApplicativeTemplatesBase {
	1567	public:
	1568	typedef P_numtype1 T_numtype1;
	1569	typedef double T_numtype;
	1570
	1571	static inline T_numtype apply(T_numtype1 x)
	1572	{ return BZ_MATHFN_SCOPE(log1p)((double)x); }
	1573
	1574	template<class T1>
	1575	static void prettyPrint(string& str, prettyPrintFormat& format,
	1576	const T1& a)
	1577	{
	1578	str += "log1p(";
	1579	a.prettyPrint(str,format);
	1580	str += ")";
	1581	}
	1582	};
	1583	#endif
	1584
	1585	// log10(P_numtype1) Logarithm base 10
	1586	template<class P_numtype1>
	1587	class _bz_log10 : public OneOperandApplicativeTemplatesBase {
	1588	public:
	1589	typedef P_numtype1 T_numtype1;
	1590	typedef double T_numtype;
	1591
	1592	static inline T_numtype apply(T_numtype1 x)
	1593	{ return BZ_MATHFN_SCOPE(log10)((double)x); }
	1594
	1595	template<class T1>
	1596	static void prettyPrint(string& str, prettyPrintFormat& format,
	1597	const T1& a)
	1598	{
	1599	str += "log10(";
	1600	a.prettyPrint(str,format);
	1601	str += ")";
	1602	}
	1603	};
	1604
	1605	// log10(float)
	1606	template<>
	1607	class _bz_log10<float> : public OneOperandApplicativeTemplatesBase {
	1608	public:
	1609	typedef float T_numtype1;
	1610	typedef float T_numtype;
	1611
	1612	static inline T_numtype apply(T_numtype1 x)
	1613	{ return BZ_MATHFN_SCOPE(log10)((float)x); }
	1614
	1615	template<class T1>
	1616	static void prettyPrint(string& str, prettyPrintFormat& format,
	1617	const T1& a)
	1618	{
	1619	str += "log10(";
	1620	a.prettyPrint(str,format);
	1621	str += ")";
	1622	}
	1623	};
	1624
	1625	// log10(long double)
	1626	template<>
	1627	class _bz_log10<long double> : public OneOperandApplicativeTemplatesBase {
	1628	public:
	1629	typedef long double T_numtype1;
	1630	typedef long double T_numtype;
	1631
	1632	static inline T_numtype apply(T_numtype1 x)
	1633	{ return BZ_MATHFN_SCOPE(log10)((long double)x); }
	1634
	1635	template<class T1>
	1636	static void prettyPrint(string& str, prettyPrintFormat& format,
	1637	const T1& a)
	1638	{
	1639	str += "log10(";
	1640	a.prettyPrint(str,format);
	1641	str += ")";
	1642	}
	1643	};
	1644
	1645	// log10(complex<float> )
	1646	#ifdef BZ_HAVE_COMPLEX_MATH2
	1647	template<>
	1648	class _bz_log10<complex<float> > : public OneOperandApplicativeTemplatesBase {
	1649	public:
	1650	typedef complex<float> T_numtype1;
	1651	typedef complex<float> T_numtype;
	1652
	1653	static inline T_numtype apply(T_numtype1 x)
	1654	{ return BZ_CMATHFN_SCOPE(log10)((complex<float> )x); }
	1655
	1656	template<class T1>
	1657	static void prettyPrint(string& str, prettyPrintFormat& format,
	1658	const T1& a)
	1659	{
	1660	str += "log10(";
	1661	a.prettyPrint(str,format);
	1662	str += ")";
	1663	}
	1664	};
	1665	#endif
	1666
	1667	// log10(complex<double> )
	1668	#ifdef BZ_HAVE_COMPLEX_MATH2
	1669	template<>
	1670	class _bz_log10<complex<double> > : public OneOperandApplicativeTemplatesBase {
	1671	public:
	1672	typedef complex<double> T_numtype1;
	1673	typedef complex<double> T_numtype;
	1674
	1675	static inline T_numtype apply(T_numtype1 x)
	1676	{ return BZ_CMATHFN_SCOPE(log10)((complex<double> )x); }
	1677
	1678	template<class T1>
	1679	static void prettyPrint(string& str, prettyPrintFormat& format,
	1680	const T1& a)
	1681	{
	1682	str += "log10(";
	1683	a.prettyPrint(str,format);
	1684	str += ")";
	1685	}
	1686	};
	1687	#endif
	1688
	1689	// log10(complex<long double> )
	1690	#ifdef BZ_HAVE_COMPLEX_MATH2
	1691	template<>
	1692	class _bz_log10<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	1693	public:
	1694	typedef complex<long double> T_numtype1;
	1695	typedef complex<long double> T_numtype;
	1696
	1697	static inline T_numtype apply(T_numtype1 x)
	1698	{ return BZ_CMATHFN_SCOPE(log10)((complex<long double> )x); }
	1699
	1700	template<class T1>
	1701	static void prettyPrint(string& str, prettyPrintFormat& format,
	1702	const T1& a)
	1703	{
	1704	str += "log10(";
	1705	a.prettyPrint(str,format);
	1706	str += ")";
	1707	}
	1708	};
	1709	#endif
	1710
	1711	// nearest(P_numtype1) Nearest floating point integer
	1712	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1713	template<class P_numtype1>
	1714	class _bz_nearest : public OneOperandApplicativeTemplatesBase {
	1715	public:
	1716	typedef P_numtype1 T_numtype1;
	1717	typedef double T_numtype;
	1718
	1719	static inline T_numtype apply(T_numtype1 x)
	1720	{ return BZ_MATHFN_SCOPE(nearest)((double)x); }
	1721
	1722	template<class T1>
	1723	static void prettyPrint(string& str, prettyPrintFormat& format,
	1724	const T1& a)
	1725	{
	1726	str += "nearest(";
	1727	a.prettyPrint(str,format);
	1728	str += ")";
	1729	}
	1730	};
	1731	#endif
	1732
	1733	// nextafter(P_numtype1, P_numtype2) Next representable number after x towards y
	1734	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1735	template<class P_numtype1, class P_numtype2>
	1736	class _bz_nextafter : public TwoOperandApplicativeTemplatesBase {
	1737	public:
	1738	typedef P_numtype1 T_numtype1;
	1739	typedef P_numtype2 T_numtype2;
	1740	typedef double T_numtype;
	1741
	1742	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1743	{ return BZ_MATHFN_SCOPE(nextafter)((double)x,(double)y); }
	1744	};
	1745	#endif
	1746
	1747	template<class P_numtype>
	1748	class _bz_negate : public OneOperandApplicativeTemplatesBase {
	1749	public:
	1750	typedef BZ_SIGNEDTYPE(P_numtype) T_numtype;
	1751
	1752	static inline T_numtype apply(T_numtype x)
	1753	{ return -x; }
	1754	};
	1755
	1756	// pow(P_numtype1, P_numtype2) Power
	1757	template<class P_numtype1, class P_numtype2>
	1758	class _bz_pow : public TwoOperandApplicativeTemplatesBase {
	1759	public:
	1760	typedef P_numtype1 T_numtype1;
	1761	typedef P_numtype2 T_numtype2;
	1762	typedef double T_numtype;
	1763
	1764	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1765	{ return BZ_MATHFN_SCOPE(pow)((double)x,(double)y); }
	1766	};
	1767
	1768	// pow(float, float)
	1769	template<>
	1770	class _bz_pow<float, float > : public TwoOperandApplicativeTemplatesBase {
	1771	public:
	1772	typedef float T_numtype1;
	1773	typedef float T_numtype2;
	1774	typedef float T_numtype;
	1775
	1776	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1777	{ return BZ_MATHFN_SCOPE(pow)((float)x,(float)y); }
	1778	};
	1779
	1780	// pow(long double, long double)
	1781	template<>
	1782	class _bz_pow<long double, long double > : public TwoOperandApplicativeTemplatesBase {
	1783	public:
	1784	typedef long double T_numtype1;
	1785	typedef long double T_numtype2;
	1786	typedef long double T_numtype;
	1787
	1788	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1789	{ return BZ_MATHFN_SCOPE(pow)((long double)x,(long double)y); }
	1790	};
	1791
	1792	// pow(complex<float>, complex<float>)
	1793	#ifdef BZ_HAVE_COMPLEX_MATH1
	1794	template<>
	1795	class _bz_pow<complex<float>, complex<float> > : public TwoOperandApplicativeTemplatesBase {
	1796	public:
	1797	typedef complex<float> T_numtype1;
	1798	typedef complex<float> T_numtype2;
	1799	typedef complex<float> T_numtype;
	1800
	1801	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1802	{ return BZ_CMATHFN_SCOPE(pow)((complex<float>)x,(complex<float>)y); }
	1803	};
	1804	#endif
	1805
	1806	// pow(complex<double>, complex<double>)
	1807	#ifdef BZ_HAVE_COMPLEX_MATH1
	1808	template<>
	1809	class _bz_pow<complex<double>, complex<double> > : public TwoOperandApplicativeTemplatesBase {
	1810	public:
	1811	typedef complex<double> T_numtype1;
	1812	typedef complex<double> T_numtype2;
	1813	typedef complex<double> T_numtype;
	1814
	1815	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1816	{ return BZ_CMATHFN_SCOPE(pow)((complex<double>)x,(complex<double>)y); }
	1817	};
	1818	#endif
	1819
	1820	// pow(complex<long double>, complex<long double>)
	1821	#ifdef BZ_HAVE_COMPLEX_MATH1
	1822	template<>
	1823	class _bz_pow<complex<long double>, complex<long double> > : public TwoOperandApplicativeTemplatesBase {
	1824	public:
	1825	typedef complex<long double> T_numtype1;
	1826	typedef complex<long double> T_numtype2;
	1827	typedef complex<long double> T_numtype;
	1828
	1829	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1830	{ return BZ_CMATHFN_SCOPE(pow)((complex<long double>)x,(complex<long double>)y); }
	1831	};
	1832	#endif
	1833
	1834	// remainder(P_numtype1, P_numtype2) Remainder
	1835	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1836	template<class P_numtype1, class P_numtype2>
	1837	class _bz_remainder : public TwoOperandApplicativeTemplatesBase {
	1838	public:
	1839	typedef P_numtype1 T_numtype1;
	1840	typedef P_numtype2 T_numtype2;
	1841	typedef double T_numtype;
	1842
	1843	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1844	{ return BZ_MATHFN_SCOPE(remainder)((double)x,(double)y); }
	1845	};
	1846	#endif
	1847
	1848	// rint(P_numtype1) Round to floating point integer
	1849	#ifdef BZ_HAVE_IEEE_MATH
	1850	template<class P_numtype1>
	1851	class _bz_rint : public OneOperandApplicativeTemplatesBase {
	1852	public:
	1853	typedef P_numtype1 T_numtype1;
	1854	typedef double T_numtype;
	1855
	1856	static inline T_numtype apply(T_numtype1 x)
	1857	{ return BZ_MATHFN_SCOPE(rint)((double)x); }
	1858
	1859	template<class T1>
	1860	static void prettyPrint(string& str, prettyPrintFormat& format,
	1861	const T1& a)
	1862	{
	1863	str += "rint(";
	1864	a.prettyPrint(str,format);
	1865	str += ")";
	1866	}
	1867	};
	1868	#endif
	1869
	1870	// rsqrt(P_numtype1) Reciprocal square root
	1871	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1872	template<class P_numtype1>
	1873	class _bz_rsqrt : public OneOperandApplicativeTemplatesBase {
	1874	public:
	1875	typedef P_numtype1 T_numtype1;
	1876	typedef double T_numtype;
	1877
	1878	static inline T_numtype apply(T_numtype1 x)
	1879	{ return BZ_MATHFN_SCOPE(rsqrt)((double)x); }
	1880
	1881	template<class T1>
	1882	static void prettyPrint(string& str, prettyPrintFormat& format,
	1883	const T1& a)
	1884	{
	1885	str += "rsqrt(";
	1886	a.prettyPrint(str,format);
	1887	str += ")";
	1888	}
	1889	};
	1890	#endif
	1891
	1892	// scalb(P_numtype1, P_numtype2) x * (2**y)
	1893	#ifdef BZ_HAVE_SYSTEM_V_MATH
	1894	template<class P_numtype1, class P_numtype2>
	1895	class _bz_scalb : public TwoOperandApplicativeTemplatesBase {
	1896	public:
	1897	typedef P_numtype1 T_numtype1;
	1898	typedef P_numtype2 T_numtype2;
	1899	typedef double T_numtype;
	1900
	1901	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	1902	{ return BZ_MATHFN_SCOPE(scalb)((double)x,(double)y); }
	1903	};
	1904	#endif
	1905
	1906	// sin(P_numtype1) Sine
	1907	template<class P_numtype1>
	1908	class _bz_sin : public OneOperandApplicativeTemplatesBase {
	1909	public:
	1910	typedef P_numtype1 T_numtype1;
	1911	typedef double T_numtype;
	1912
	1913	static inline T_numtype apply(T_numtype1 x)
	1914	{ return BZ_MATHFN_SCOPE(sin)((double)x); }
	1915
	1916	template<class T1>
	1917	static void prettyPrint(string& str, prettyPrintFormat& format,
	1918	const T1& a)
	1919	{
	1920	str += "sin(";
	1921	a.prettyPrint(str,format);
	1922	str += ")";
	1923	}
	1924	};
	1925
	1926	// sin(float)
	1927	template<>
	1928	class _bz_sin<float> : public OneOperandApplicativeTemplatesBase {
	1929	public:
	1930	typedef float T_numtype1;
	1931	typedef float T_numtype;
	1932
	1933	static inline T_numtype apply(T_numtype1 x)
	1934	{ return BZ_MATHFN_SCOPE(sin)((float)x); }
	1935
	1936	template<class T1>
	1937	static void prettyPrint(string& str, prettyPrintFormat& format,
	1938	const T1& a)
	1939	{
	1940	str += "sin(";
	1941	a.prettyPrint(str,format);
	1942	str += ")";
	1943	}
	1944	};
	1945
	1946	// sin(long double)
	1947	template<>
	1948	class _bz_sin<long double> : public OneOperandApplicativeTemplatesBase {
	1949	public:
	1950	typedef long double T_numtype1;
	1951	typedef long double T_numtype;
	1952
	1953	static inline T_numtype apply(T_numtype1 x)
	1954	{ return BZ_MATHFN_SCOPE(sin)((long double)x); }
	1955
	1956	template<class T1>
	1957	static void prettyPrint(string& str, prettyPrintFormat& format,
	1958	const T1& a)
	1959	{
	1960	str += "sin(";
	1961	a.prettyPrint(str,format);
	1962	str += ")";
	1963	}
	1964	};
	1965
	1966	// sin(complex<float> )
	1967	#ifdef BZ_HAVE_COMPLEX_MATH1
	1968	template<>
	1969	class _bz_sin<complex<float> > : public OneOperandApplicativeTemplatesBase {
	1970	public:
	1971	typedef complex<float> T_numtype1;
	1972	typedef complex<float> T_numtype;
	1973
	1974	static inline T_numtype apply(T_numtype1 x)
	1975	{ return BZ_CMATHFN_SCOPE(sin)((complex<float> )x); }
	1976
	1977	template<class T1>
	1978	static void prettyPrint(string& str, prettyPrintFormat& format,
	1979	const T1& a)
	1980	{
	1981	str += "sin(";
	1982	a.prettyPrint(str,format);
	1983	str += ")";
	1984	}
	1985	};
	1986	#endif
	1987
	1988	// sin(complex<double> )
	1989	#ifdef BZ_HAVE_COMPLEX_MATH1
	1990	template<>
	1991	class _bz_sin<complex<double> > : public OneOperandApplicativeTemplatesBase {
	1992	public:
	1993	typedef complex<double> T_numtype1;
	1994	typedef complex<double> T_numtype;
	1995
	1996	static inline T_numtype apply(T_numtype1 x)
	1997	{ return BZ_CMATHFN_SCOPE(sin)((complex<double> )x); }
	1998
	1999	template<class T1>
	2000	static void prettyPrint(string& str, prettyPrintFormat& format,
	2001	const T1& a)
	2002	{
	2003	str += "sin(";
	2004	a.prettyPrint(str,format);
	2005	str += ")";
	2006	}
	2007	};
	2008	#endif
	2009
	2010	// sin(complex<long double> )
	2011	#ifdef BZ_HAVE_COMPLEX_MATH1
	2012	template<>
	2013	class _bz_sin<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	2014	public:
	2015	typedef complex<long double> T_numtype1;
	2016	typedef complex<long double> T_numtype;
	2017
	2018	static inline T_numtype apply(T_numtype1 x)
	2019	{ return BZ_CMATHFN_SCOPE(sin)((complex<long double> )x); }
	2020
	2021	template<class T1>
	2022	static void prettyPrint(string& str, prettyPrintFormat& format,
	2023	const T1& a)
	2024	{
	2025	str += "sin(";
	2026	a.prettyPrint(str,format);
	2027	str += ")";
	2028	}
	2029	};
	2030	#endif
	2031
	2032	// sinh(P_numtype1) Hyperbolic sine
	2033	template<class P_numtype1>
	2034	class _bz_sinh : public OneOperandApplicativeTemplatesBase {
	2035	public:
	2036	typedef P_numtype1 T_numtype1;
	2037	typedef double T_numtype;
	2038
	2039	static inline T_numtype apply(T_numtype1 x)
	2040	{ return BZ_MATHFN_SCOPE(sinh)((double)x); }
	2041
	2042	template<class T1>
	2043	static void prettyPrint(string& str, prettyPrintFormat& format,
	2044	const T1& a)
	2045	{
	2046	str += "sinh(";
	2047	a.prettyPrint(str,format);
	2048	str += ")";
	2049	}
	2050	};
	2051
	2052	// sinh(float)
	2053	template<>
	2054	class _bz_sinh<float> : public OneOperandApplicativeTemplatesBase {
	2055	public:
	2056	typedef float T_numtype1;
	2057	typedef float T_numtype;
	2058
	2059	static inline T_numtype apply(T_numtype1 x)
	2060	{ return BZ_MATHFN_SCOPE(sinh)((float)x); }
	2061
	2062	template<class T1>
	2063	static void prettyPrint(string& str, prettyPrintFormat& format,
	2064	const T1& a)
	2065	{
	2066	str += "sinh(";
	2067	a.prettyPrint(str,format);
	2068	str += ")";
	2069	}
	2070	};
	2071
	2072	// sinh(long double)
	2073	template<>
	2074	class _bz_sinh<long double> : public OneOperandApplicativeTemplatesBase {
	2075	public:
	2076	typedef long double T_numtype1;
	2077	typedef long double T_numtype;
	2078
	2079	static inline T_numtype apply(T_numtype1 x)
	2080	{ return BZ_MATHFN_SCOPE(sinh)((long double)x); }
	2081
	2082	template<class T1>
	2083	static void prettyPrint(string& str, prettyPrintFormat& format,
	2084	const T1& a)
	2085	{
	2086	str += "sinh(";
	2087	a.prettyPrint(str,format);
	2088	str += ")";
	2089	}
	2090	};
	2091
	2092	// sinh(complex<float> )
	2093	#ifdef BZ_HAVE_COMPLEX_MATH1
	2094	template<>
	2095	class _bz_sinh<complex<float> > : public OneOperandApplicativeTemplatesBase {
	2096	public:
	2097	typedef complex<float> T_numtype1;
	2098	typedef complex<float> T_numtype;
	2099
	2100	static inline T_numtype apply(T_numtype1 x)
	2101	{ return BZ_CMATHFN_SCOPE(sinh)((complex<float> )x); }
	2102
	2103	template<class T1>
	2104	static void prettyPrint(string& str, prettyPrintFormat& format,
	2105	const T1& a)
	2106	{
	2107	str += "sinh(";
	2108	a.prettyPrint(str,format);
	2109	str += ")";
	2110	}
	2111	};
	2112	#endif
	2113
	2114	// sinh(complex<double> )
	2115	#ifdef BZ_HAVE_COMPLEX_MATH1
	2116	template<>
	2117	class _bz_sinh<complex<double> > : public OneOperandApplicativeTemplatesBase {
	2118	public:
	2119	typedef complex<double> T_numtype1;
	2120	typedef complex<double> T_numtype;
	2121
	2122	static inline T_numtype apply(T_numtype1 x)
	2123	{ return BZ_CMATHFN_SCOPE(sinh)((complex<double> )x); }
	2124
	2125	template<class T1>
	2126	static void prettyPrint(string& str, prettyPrintFormat& format,
	2127	const T1& a)
	2128	{
	2129	str += "sinh(";
	2130	a.prettyPrint(str,format);
	2131	str += ")";
	2132	}
	2133	};
	2134	#endif
	2135
	2136	// sinh(complex<long double> )
	2137	#ifdef BZ_HAVE_COMPLEX_MATH1
	2138	template<>
	2139	class _bz_sinh<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	2140	public:
	2141	typedef complex<long double> T_numtype1;
	2142	typedef complex<long double> T_numtype;
	2143
	2144	static inline T_numtype apply(T_numtype1 x)
	2145	{ return BZ_CMATHFN_SCOPE(sinh)((complex<long double> )x); }
	2146
	2147	template<class T1>
	2148	static void prettyPrint(string& str, prettyPrintFormat& format,
	2149	const T1& a)
	2150	{
	2151	str += "sinh(";
	2152	a.prettyPrint(str,format);
	2153	str += ")";
	2154	}
	2155	};
	2156	#endif
	2157
	2158	template<class P_numtype>
	2159	class _bz_sqr : public OneOperandApplicativeTemplatesBase {
	2160	public:
	2161	typedef P_numtype T_numtype;
	2162
	2163	static inline T_numtype apply(T_numtype x)
	2164	{ return x*x; }
	2165	template<class T1>
	2166	static void prettyPrint(string& str, prettyPrintFormat& format,
	2167	const T1& a)
	2168	{
	2169	str += "sqr(";
	2170	a.prettyPrint(str,format);
	2171	str += ")";
	2172	}
	2173	};
	2174
	2175	// Specialization of _bz_sqr for complex<T>
	2176	template<class T>
	2177	class _bz_sqr<complex<T> > : public OneOperandApplicativeTemplatesBase {
	2178	public:
	2179	typedef complex<T> T_numtype;
	2180
	2181	static inline T_numtype apply(T_numtype x)
	2182	{
	2183	T r = x.real(); T i = x.imag();
	2184	return T_numtype(rr-ii, 2ri);
	2185	}
	2186	template<class T1>
	2187	static void prettyPrint(string& str, prettyPrintFormat& format,
	2188	const T1& a)
	2189	{
	2190	str += "sqr(";
	2191	a.prettyPrint(str,format);
	2192	str += ")";
	2193	}
	2194	};
	2195
	2196	// sqrt(P_numtype1) Square root
	2197	template<class P_numtype1>
	2198	class _bz_sqrt : public OneOperandApplicativeTemplatesBase {
	2199	public:
	2200	typedef P_numtype1 T_numtype1;
	2201	typedef double T_numtype;
	2202
	2203	static inline T_numtype apply(T_numtype1 x)
	2204	{ return BZ_MATHFN_SCOPE(sqrt)((double)x); }
	2205
	2206	template<class T1>
	2207	static void prettyPrint(string& str, prettyPrintFormat& format,
	2208	const T1& a)
	2209	{
	2210	str += "sqrt(";
	2211	a.prettyPrint(str,format);
	2212	str += ")";
	2213	}
	2214	};
	2215
	2216	// sqrt(float)
	2217	template<>
	2218	class _bz_sqrt<float> : public OneOperandApplicativeTemplatesBase {
	2219	public:
	2220	typedef float T_numtype1;
	2221	typedef float T_numtype;
	2222
	2223	static inline T_numtype apply(T_numtype1 x)
	2224	{ return BZ_MATHFN_SCOPE(sqrt)((float)x); }
	2225
	2226	template<class T1>
	2227	static void prettyPrint(string& str, prettyPrintFormat& format,
	2228	const T1& a)
	2229	{
	2230	str += "sqrt(";
	2231	a.prettyPrint(str,format);
	2232	str += ")";
	2233	}
	2234	};
	2235
	2236	// sqrt(long double)
	2237	template<>
	2238	class _bz_sqrt<long double> : public OneOperandApplicativeTemplatesBase {
	2239	public:
	2240	typedef long double T_numtype1;
	2241	typedef long double T_numtype;
	2242
	2243	static inline T_numtype apply(T_numtype1 x)
	2244	{ return BZ_MATHFN_SCOPE(sqrt)((long double)x); }
	2245
	2246	template<class T1>
	2247	static void prettyPrint(string& str, prettyPrintFormat& format,
	2248	const T1& a)
	2249	{
	2250	str += "sqrt(";
	2251	a.prettyPrint(str,format);
	2252	str += ")";
	2253	}
	2254	};
	2255
	2256	// sqrt(complex<float> )
	2257	#ifdef BZ_HAVE_COMPLEX_MATH1
	2258	template<>
	2259	class _bz_sqrt<complex<float> > : public OneOperandApplicativeTemplatesBase {
	2260	public:
	2261	typedef complex<float> T_numtype1;
	2262	typedef complex<float> T_numtype;
	2263
	2264	static inline T_numtype apply(T_numtype1 x)
	2265	{ return BZ_CMATHFN_SCOPE(sqrt)((complex<float> )x); }
	2266
	2267	template<class T1>
	2268	static void prettyPrint(string& str, prettyPrintFormat& format,
	2269	const T1& a)
	2270	{
	2271	str += "sqrt(";
	2272	a.prettyPrint(str,format);
	2273	str += ")";
	2274	}
	2275	};
	2276	#endif
	2277
	2278	// sqrt(complex<double> )
	2279	#ifdef BZ_HAVE_COMPLEX_MATH1
	2280	template<>
	2281	class _bz_sqrt<complex<double> > : public OneOperandApplicativeTemplatesBase {
	2282	public:
	2283	typedef complex<double> T_numtype1;
	2284	typedef complex<double> T_numtype;
	2285
	2286	static inline T_numtype apply(T_numtype1 x)
	2287	{ return BZ_CMATHFN_SCOPE(sqrt)((complex<double> )x); }
	2288
	2289	template<class T1>
	2290	static void prettyPrint(string& str, prettyPrintFormat& format,
	2291	const T1& a)
	2292	{
	2293	str += "sqrt(";
	2294	a.prettyPrint(str,format);
	2295	str += ")";
	2296	}
	2297	};
	2298	#endif
	2299
	2300	// sqrt(complex<long double> )
	2301	#ifdef BZ_HAVE_COMPLEX_MATH1
	2302	template<>
	2303	class _bz_sqrt<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	2304	public:
	2305	typedef complex<long double> T_numtype1;
	2306	typedef complex<long double> T_numtype;
	2307
	2308	static inline T_numtype apply(T_numtype1 x)
	2309	{ return BZ_CMATHFN_SCOPE(sqrt)((complex<long double> )x); }
	2310
	2311	template<class T1>
	2312	static void prettyPrint(string& str, prettyPrintFormat& format,
	2313	const T1& a)
	2314	{
	2315	str += "sqrt(";
	2316	a.prettyPrint(str,format);
	2317	str += ")";
	2318	}
	2319	};
	2320	#endif
	2321
	2322	// tan(P_numtype1) Tangent
	2323	template<class P_numtype1>
	2324	class _bz_tan : public OneOperandApplicativeTemplatesBase {
	2325	public:
	2326	typedef P_numtype1 T_numtype1;
	2327	typedef double T_numtype;
	2328
	2329	static inline T_numtype apply(T_numtype1 x)
	2330	{ return BZ_MATHFN_SCOPE(tan)((double)x); }
	2331
	2332	template<class T1>
	2333	static void prettyPrint(string& str, prettyPrintFormat& format,
	2334	const T1& a)
	2335	{
	2336	str += "tan(";
	2337	a.prettyPrint(str,format);
	2338	str += ")";
	2339	}
	2340	};
	2341
	2342	// tan(float)
	2343	template<>
	2344	class _bz_tan<float> : public OneOperandApplicativeTemplatesBase {
	2345	public:
	2346	typedef float T_numtype1;
	2347	typedef float T_numtype;
	2348
	2349	static inline T_numtype apply(T_numtype1 x)
	2350	{ return BZ_MATHFN_SCOPE(tan)((float)x); }
	2351
	2352	template<class T1>
	2353	static void prettyPrint(string& str, prettyPrintFormat& format,
	2354	const T1& a)
	2355	{
	2356	str += "tan(";
	2357	a.prettyPrint(str,format);
	2358	str += ")";
	2359	}
	2360	};
	2361
	2362	// tan(long double)
	2363	template<>
	2364	class _bz_tan<long double> : public OneOperandApplicativeTemplatesBase {
	2365	public:
	2366	typedef long double T_numtype1;
	2367	typedef long double T_numtype;
	2368
	2369	static inline T_numtype apply(T_numtype1 x)
	2370	{ return BZ_MATHFN_SCOPE(tan)((long double)x); }
	2371
	2372	template<class T1>
	2373	static void prettyPrint(string& str, prettyPrintFormat& format,
	2374	const T1& a)
	2375	{
	2376	str += "tan(";
	2377	a.prettyPrint(str,format);
	2378	str += ")";
	2379	}
	2380	};
	2381
	2382	// tan(complex<float> )
	2383	#ifdef BZ_HAVE_COMPLEX_MATH1
	2384	template<>
	2385	class _bz_tan<complex<float> > : public OneOperandApplicativeTemplatesBase {
	2386	public:
	2387	typedef complex<float> T_numtype1;
	2388	typedef complex<float> T_numtype;
	2389
	2390	static inline T_numtype apply(T_numtype1 x)
	2391	{ return BZ_CMATHFN_SCOPE(tan)((complex<float> )x); }
	2392
	2393	template<class T1>
	2394	static void prettyPrint(string& str, prettyPrintFormat& format,
	2395	const T1& a)
	2396	{
	2397	str += "tan(";
	2398	a.prettyPrint(str,format);
	2399	str += ")";
	2400	}
	2401	};
	2402	#endif
	2403
	2404	// tan(complex<double> )
	2405	#ifdef BZ_HAVE_COMPLEX_MATH1
	2406	template<>
	2407	class _bz_tan<complex<double> > : public OneOperandApplicativeTemplatesBase {
	2408	public:
	2409	typedef complex<double> T_numtype1;
	2410	typedef complex<double> T_numtype;
	2411
	2412	static inline T_numtype apply(T_numtype1 x)
	2413	{ return BZ_CMATHFN_SCOPE(tan)((complex<double> )x); }
	2414
	2415	template<class T1>
	2416	static void prettyPrint(string& str, prettyPrintFormat& format,
	2417	const T1& a)
	2418	{
	2419	str += "tan(";
	2420	a.prettyPrint(str,format);
	2421	str += ")";
	2422	}
	2423	};
	2424	#endif
	2425
	2426	// tan(complex<long double> )
	2427	#ifdef BZ_HAVE_COMPLEX_MATH1
	2428	template<>
	2429	class _bz_tan<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	2430	public:
	2431	typedef complex<long double> T_numtype1;
	2432	typedef complex<long double> T_numtype;
	2433
	2434	static inline T_numtype apply(T_numtype1 x)
	2435	{ return BZ_CMATHFN_SCOPE(tan)((complex<long double> )x); }
	2436
	2437	template<class T1>
	2438	static void prettyPrint(string& str, prettyPrintFormat& format,
	2439	const T1& a)
	2440	{
	2441	str += "tan(";
	2442	a.prettyPrint(str,format);
	2443	str += ")";
	2444	}
	2445	};
	2446	#endif
	2447
	2448	// tanh(P_numtype1) Hyperbolic tangent
	2449	template<class P_numtype1>
	2450	class _bz_tanh : public OneOperandApplicativeTemplatesBase {
	2451	public:
	2452	typedef P_numtype1 T_numtype1;
	2453	typedef double T_numtype;
	2454
	2455	static inline T_numtype apply(T_numtype1 x)
	2456	{ return BZ_MATHFN_SCOPE(tanh)((double)x); }
	2457
	2458	template<class T1>
	2459	static void prettyPrint(string& str, prettyPrintFormat& format,
	2460	const T1& a)
	2461	{
	2462	str += "tanh(";
	2463	a.prettyPrint(str,format);
	2464	str += ")";
	2465	}
	2466	};
	2467
	2468	// tanh(float)
	2469	template<>
	2470	class _bz_tanh<float> : public OneOperandApplicativeTemplatesBase {
	2471	public:
	2472	typedef float T_numtype1;
	2473	typedef float T_numtype;
	2474
	2475	static inline T_numtype apply(T_numtype1 x)
	2476	{ return BZ_MATHFN_SCOPE(tanh)((float)x); }
	2477
	2478	template<class T1>
	2479	static void prettyPrint(string& str, prettyPrintFormat& format,
	2480	const T1& a)
	2481	{
	2482	str += "tanh(";
	2483	a.prettyPrint(str,format);
	2484	str += ")";
	2485	}
	2486	};
	2487
	2488	// tanh(long double)
	2489	template<>
	2490	class _bz_tanh<long double> : public OneOperandApplicativeTemplatesBase {
	2491	public:
	2492	typedef long double T_numtype1;
	2493	typedef long double T_numtype;
	2494
	2495	static inline T_numtype apply(T_numtype1 x)
	2496	{ return BZ_MATHFN_SCOPE(tanh)((long double)x); }
	2497
	2498	template<class T1>
	2499	static void prettyPrint(string& str, prettyPrintFormat& format,
	2500	const T1& a)
	2501	{
	2502	str += "tanh(";
	2503	a.prettyPrint(str,format);
	2504	str += ")";
	2505	}
	2506	};
	2507
	2508	// tanh(complex<float> )
	2509	#ifdef BZ_HAVE_COMPLEX_MATH1
	2510	template<>
	2511	class _bz_tanh<complex<float> > : public OneOperandApplicativeTemplatesBase {
	2512	public:
	2513	typedef complex<float> T_numtype1;
	2514	typedef complex<float> T_numtype;
	2515
	2516	static inline T_numtype apply(T_numtype1 x)
	2517	{ return BZ_CMATHFN_SCOPE(tanh)((complex<float> )x); }
	2518
	2519	template<class T1>
	2520	static void prettyPrint(string& str, prettyPrintFormat& format,
	2521	const T1& a)
	2522	{
	2523	str += "tanh(";
	2524	a.prettyPrint(str,format);
	2525	str += ")";
	2526	}
	2527	};
	2528	#endif
	2529
	2530	// tanh(complex<double> )
	2531	#ifdef BZ_HAVE_COMPLEX_MATH1
	2532	template<>
	2533	class _bz_tanh<complex<double> > : public OneOperandApplicativeTemplatesBase {
	2534	public:
	2535	typedef complex<double> T_numtype1;
	2536	typedef complex<double> T_numtype;
	2537
	2538	static inline T_numtype apply(T_numtype1 x)
	2539	{ return BZ_CMATHFN_SCOPE(tanh)((complex<double> )x); }
	2540
	2541	template<class T1>
	2542	static void prettyPrint(string& str, prettyPrintFormat& format,
	2543	const T1& a)
	2544	{
	2545	str += "tanh(";
	2546	a.prettyPrint(str,format);
	2547	str += ")";
	2548	}
	2549	};
	2550	#endif
	2551
	2552	// tanh(complex<long double> )
	2553	#ifdef BZ_HAVE_COMPLEX_MATH1
	2554	template<>
	2555	class _bz_tanh<complex<long double> > : public OneOperandApplicativeTemplatesBase {
	2556	public:
	2557	typedef complex<long double> T_numtype1;
	2558	typedef complex<long double> T_numtype;
	2559
	2560	static inline T_numtype apply(T_numtype1 x)
	2561	{ return BZ_CMATHFN_SCOPE(tanh)((complex<long double> )x); }
	2562
	2563	template<class T1>
	2564	static void prettyPrint(string& str, prettyPrintFormat& format,
	2565	const T1& a)
	2566	{
	2567	str += "tanh(";
	2568	a.prettyPrint(str,format);
	2569	str += ")";
	2570	}
	2571	};
	2572	#endif
	2573
	2574	// trunc(P_numtype1) Nearest floating integer in the direction of zero
	2575	#ifdef BZ_HAVE_IEEE_MATH
	2576	template<class P_numtype1>
	2577	class _bz_trunc : public OneOperandApplicativeTemplatesBase {
	2578	public:
	2579	typedef P_numtype1 T_numtype1;
	2580	typedef double T_numtype;
	2581
	2582	static inline T_numtype apply(T_numtype1 x)
	2583	{ return BZ_MATHFN_SCOPE(trunc)((double)x); }
	2584
	2585	template<class T1>
	2586	static void prettyPrint(string& str, prettyPrintFormat& format,
	2587	const T1& a)
	2588	{
	2589	str += "trunc(";
	2590	a.prettyPrint(str,format);
	2591	str += ")";
	2592	}
	2593	};
	2594	#endif
	2595
	2596	// uitrunc(P_numtype1) Truncate and convert to unsigned
	2597	#ifdef BZ_HAVE_SYSTEM_V_MATH
	2598	template<class P_numtype1>
	2599	class _bz_uitrunc : public OneOperandApplicativeTemplatesBase {
	2600	public:
	2601	typedef P_numtype1 T_numtype1;
	2602	typedef unsigned T_numtype;
	2603
	2604	static inline T_numtype apply(T_numtype1 x)
	2605	{ return BZ_MATHFN_SCOPE(uitrunc)((unsigned)x); }
	2606
	2607	template<class T1>
	2608	static void prettyPrint(string& str, prettyPrintFormat& format,
	2609	const T1& a)
	2610	{
	2611	str += "uitrunc(";
	2612	a.prettyPrint(str,format);
	2613	str += ")";
	2614	}
	2615	};
	2616	#endif
	2617
	2618	// unordered(P_numtype1, P_numtype2) True if a comparison of x and y would be unordered
	2619	#ifdef BZ_HAVE_SYSTEM_V_MATH
	2620	template<class P_numtype1, class P_numtype2>
	2621	class _bz_unordered : public TwoOperandApplicativeTemplatesBase {
	2622	public:
	2623	typedef P_numtype1 T_numtype1;
	2624	typedef P_numtype2 T_numtype2;
	2625	typedef int T_numtype;
	2626
	2627	static inline T_numtype apply(T_numtype1 x, T_numtype2 y)
	2628	{ return BZ_MATHFN_SCOPE(unordered)(x,y); }
	2629	};
	2630	#endif
	2631
	2632	// y0(P_numtype1) Bessel function of the second kind, order zero
	2633	#ifdef BZ_HAVE_IEEE_MATH
	2634	template<class P_numtype1>
	2635	class _bz_y0 : public OneOperandApplicativeTemplatesBase {
	2636	public:
	2637	typedef P_numtype1 T_numtype1;
	2638	typedef double T_numtype;
	2639
	2640	static inline T_numtype apply(T_numtype1 x)
	2641	{ return BZ_MATHFN_SCOPE(y0)((double)x); }
	2642
	2643	template<class T1>
	2644	static void prettyPrint(string& str, prettyPrintFormat& format,
	2645	const T1& a)
	2646	{
	2647	str += "y0(";
	2648	a.prettyPrint(str,format);
	2649	str += ")";
	2650	}
	2651	};
	2652	#endif
	2653
	2654	// y1(P_numtype1) Bessel function of the second kind, order one
	2655	#ifdef BZ_HAVE_IEEE_MATH
	2656	template<class P_numtype1>
	2657	class _bz_y1 : public OneOperandApplicativeTemplatesBase {
	2658	public:
	2659	typedef P_numtype1 T_numtype1;
	2660	typedef double T_numtype;
	2661
	2662	static inline T_numtype apply(T_numtype1 x)
	2663	{ return BZ_MATHFN_SCOPE(y1)((double)x); }
	2664
	2665	template<class T1>
	2666	static void prettyPrint(string& str, prettyPrintFormat& format,
	2667	const T1& a)
	2668	{
	2669	str += "y1(";
	2670	a.prettyPrint(str,format);
	2671	str += ")";
	2672	}
	2673	};
	2674	#endif
	2675
	2676
	2677
	2678	BZ_NAMESPACE_END
	2679
	2680	#endif // BZ_MATHFUNC_H

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source: Sophya/trunk/SophyaExt/Blitz/blitz/mathfunc.h@ 4024

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