xref: /illumos-gate/usr/src/lib/libm/common/C/cbrt.c (revision 14b24e2b79293068c8e016a69ef1d872fb5e2fd5)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2011 Nexenta Systems, Inc.  All rights reserved.
24  */
25 /*
26  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
27  * Use is subject to license terms.
28  */
29 
30 #include "libm_macros.h"
31 
32 /* INDENT OFF */
33 
34 /*
35  *  cbrt: double precision cube root
36  *
37  *  Algorithm: bit hacking, table lookup, and polynomial approximation
38  *
39  *  For normal x, write x = s*2^(3j)*z where s = +/-1, j is an integer,
40  *  and 1 <= z < 8.  Let y := s*2^j.  From a table, find u such that
41  *  u^3 is computable exactly and |(z-u^3)/u^3| <~ 2^-8.  We construct
42  *  y, z, and the table index from x by a few integer operations.
43  *
44  *  Now cbrt(x) = y*u*(1+t)^(1/3) where t = (z-u^3)/u^3.  We approximate
45  *  (1+t)^(1/3) by a polynomial 1+p(t), where p(t) := t*(p1+t*(p2+...+
46  *  (p5+t*p6))).  By computing the result as y*(u+u*p(t)), we can bound
47  *  the worst case error by .51 ulp.
48  *
49  *  Notes:
50  *
51  *  1. For subnormal x, we scale x by 2^54, compute the cube root, and
52  *     scale the result by 2^-18.
53  *
54  *  2. cbrt(+/-inf) = +/-inf and cbrt(NaN) is NaN.
55  */
56 
57 /*
58  * for i = 0, ..., 385
59  *   form x(i) with high word 0x3ff00000 + (i << 13) and low word 0;
60  *   then TBL[i] = cbrt(x(i)) rounded to 17 significant bits
61  */
62 static const double __libm_TBL_cbrt[] = {
63  1.00000000000000000e+00, 1.00259399414062500e+00, 1.00518798828125000e+00,
64  1.00775146484375000e+00, 1.01031494140625000e+00, 1.01284790039062500e+00,
65  1.01538085937500000e+00, 1.01791381835937500e+00, 1.02041625976562500e+00,
66  1.02290344238281250e+00, 1.02539062500000000e+00, 1.02786254882812500e+00,
67  1.03031921386718750e+00, 1.03277587890625000e+00, 1.03520202636718750e+00,
68  1.03762817382812500e+00, 1.04003906250000000e+00, 1.04244995117187500e+00,
69  1.04483032226562500e+00, 1.04721069335937500e+00, 1.04959106445312500e+00,
70  1.05194091796875000e+00, 1.05429077148437500e+00, 1.05662536621093750e+00,
71  1.05895996093750000e+00, 1.06127929687500000e+00, 1.06358337402343750e+00,
72  1.06587219238281250e+00, 1.06816101074218750e+00, 1.07044982910156250e+00,
73  1.07270812988281250e+00, 1.07496643066406250e+00, 1.07722473144531250e+00,
74  1.07945251464843750e+00, 1.08168029785156250e+00, 1.08390808105468750e+00,
75  1.08612060546875000e+00, 1.08831787109375000e+00, 1.09051513671875000e+00,
76  1.09269714355468750e+00, 1.09487915039062500e+00, 1.09704589843750000e+00,
77  1.09921264648437500e+00, 1.10136413574218750e+00, 1.10350036621093750e+00,
78  1.10563659667968750e+00, 1.10775756835937500e+00, 1.10987854003906250e+00,
79  1.11198425292968750e+00, 1.11408996582031250e+00, 1.11618041992187500e+00,
80  1.11827087402343750e+00, 1.12034606933593750e+00, 1.12242126464843750e+00,
81  1.12448120117187500e+00, 1.12654113769531250e+00, 1.12858581542968750e+00,
82  1.13063049316406250e+00, 1.13265991210937500e+00, 1.13468933105468750e+00,
83  1.13670349121093750e+00, 1.13871765136718750e+00, 1.14073181152343750e+00,
84  1.14273071289062500e+00, 1.14471435546875000e+00, 1.14669799804687500e+00,
85  1.14868164062500000e+00, 1.15065002441406250e+00, 1.15260314941406250e+00,
86  1.15457153320312500e+00, 1.15650939941406250e+00, 1.15846252441406250e+00,
87  1.16040039062500000e+00, 1.16232299804687500e+00, 1.16424560546875000e+00,
88  1.16616821289062500e+00, 1.16807556152343750e+00, 1.16998291015625000e+00,
89  1.17189025878906250e+00, 1.17378234863281250e+00, 1.17567443847656250e+00,
90  1.17755126953125000e+00, 1.17942810058593750e+00, 1.18128967285156250e+00,
91  1.18315124511718750e+00, 1.18501281738281250e+00, 1.18685913085937500e+00,
92  1.18870544433593750e+00, 1.19055175781250000e+00, 1.19238281250000000e+00,
93  1.19421386718750000e+00, 1.19602966308593750e+00, 1.19786071777343750e+00,
94  1.19966125488281250e+00, 1.20147705078125000e+00, 1.20327758789062500e+00,
95  1.20507812500000000e+00, 1.20686340332031250e+00, 1.20864868164062500e+00,
96  1.21043395996093750e+00, 1.21220397949218750e+00, 1.21397399902343750e+00,
97  1.21572875976562500e+00, 1.21749877929687500e+00, 1.21925354003906250e+00,
98  1.22099304199218750e+00, 1.22274780273437500e+00, 1.22448730468750000e+00,
99  1.22621154785156250e+00, 1.22795104980468750e+00, 1.22967529296875000e+00,
100  1.23138427734375000e+00, 1.23310852050781250e+00, 1.23481750488281250e+00,
101  1.23652648925781250e+00, 1.23822021484375000e+00, 1.23991394042968750e+00,
102  1.24160766601562500e+00, 1.24330139160156250e+00, 1.24497985839843750e+00,
103  1.24665832519531250e+00, 1.24833679199218750e+00, 1.25000000000000000e+00,
104  1.25166320800781250e+00, 1.25332641601562500e+00, 1.25497436523437500e+00,
105  1.25663757324218750e+00, 1.25828552246093750e+00, 1.25991821289062500e+00,
106  1.26319885253906250e+00, 1.26644897460937500e+00, 1.26968383789062500e+00,
107  1.27290344238281250e+00, 1.27612304687500000e+00, 1.27931213378906250e+00,
108  1.28248596191406250e+00, 1.28564453125000000e+00, 1.28878784179687500e+00,
109  1.29191589355468750e+00, 1.29502868652343750e+00, 1.29812622070312500e+00,
110  1.30120849609375000e+00, 1.30427551269531250e+00, 1.30732727050781250e+00,
111  1.31036376953125000e+00, 1.31340026855468750e+00, 1.31640625000000000e+00,
112  1.31941223144531250e+00, 1.32238769531250000e+00, 1.32536315917968750e+00,
113  1.32832336425781250e+00, 1.33126831054687500e+00, 1.33419799804687500e+00,
114  1.33712768554687500e+00, 1.34002685546875000e+00, 1.34292602539062500e+00,
115  1.34580993652343750e+00, 1.34867858886718750e+00, 1.35153198242187500e+00,
116  1.35437011718750000e+00, 1.35720825195312500e+00, 1.36003112792968750e+00,
117  1.36283874511718750e+00, 1.36564636230468750e+00, 1.36842346191406250e+00,
118  1.37120056152343750e+00, 1.37396240234375000e+00, 1.37672424316406250e+00,
119  1.37945556640625000e+00, 1.38218688964843750e+00, 1.38491821289062500e+00,
120  1.38761901855468750e+00, 1.39031982421875000e+00, 1.39302062988281250e+00,
121  1.39569091796875000e+00, 1.39836120605468750e+00, 1.40101623535156250e+00,
122  1.40367126464843750e+00, 1.40631103515625000e+00, 1.40893554687500000e+00,
123  1.41156005859375000e+00, 1.41416931152343750e+00, 1.41676330566406250e+00,
124  1.41935729980468750e+00, 1.42193603515625000e+00, 1.42449951171875000e+00,
125  1.42706298828125000e+00, 1.42962646484375000e+00, 1.43215942382812500e+00,
126  1.43469238281250000e+00, 1.43722534179687500e+00, 1.43974304199218750e+00,
127  1.44224548339843750e+00, 1.44474792480468750e+00, 1.44723510742187500e+00,
128  1.44972229003906250e+00, 1.45219421386718750e+00, 1.45466613769531250e+00,
129  1.45712280273437500e+00, 1.45956420898437500e+00, 1.46200561523437500e+00,
130  1.46444702148437500e+00, 1.46687316894531250e+00, 1.46928405761718750e+00,
131  1.47169494628906250e+00, 1.47409057617187500e+00, 1.47648620605468750e+00,
132  1.47886657714843750e+00, 1.48124694824218750e+00, 1.48361206054687500e+00,
133  1.48597717285156250e+00, 1.48834228515625000e+00, 1.49067687988281250e+00,
134  1.49302673339843750e+00, 1.49536132812500000e+00, 1.49768066406250000e+00,
135  1.50000000000000000e+00, 1.50230407714843750e+00, 1.50460815429687500e+00,
136  1.50691223144531250e+00, 1.50920104980468750e+00, 1.51148986816406250e+00,
137  1.51376342773437500e+00, 1.51603698730468750e+00, 1.51829528808593750e+00,
138  1.52055358886718750e+00, 1.52279663085937500e+00, 1.52503967285156250e+00,
139  1.52728271484375000e+00, 1.52951049804687500e+00, 1.53173828125000000e+00,
140  1.53395080566406250e+00, 1.53616333007812500e+00, 1.53836059570312500e+00,
141  1.54055786132812500e+00, 1.54275512695312500e+00, 1.54493713378906250e+00,
142  1.54711914062500000e+00, 1.54928588867187500e+00, 1.55145263671875000e+00,
143  1.55361938476562500e+00, 1.55577087402343750e+00, 1.55792236328125000e+00,
144  1.56005859375000000e+00, 1.56219482421875000e+00, 1.56433105468750000e+00,
145  1.56645202636718750e+00, 1.56857299804687500e+00, 1.57069396972656250e+00,
146  1.57279968261718750e+00, 1.57490539550781250e+00, 1.57699584960937500e+00,
147  1.57908630371093750e+00, 1.58117675781250000e+00, 1.58325195312500000e+00,
148  1.58532714843750000e+00, 1.58740234375000000e+00, 1.59152221679687500e+00,
149  1.59562683105468750e+00, 1.59970092773437500e+00, 1.60375976562500000e+00,
150  1.60780334472656250e+00, 1.61183166503906250e+00, 1.61582946777343750e+00,
151  1.61981201171875000e+00, 1.62376403808593750e+00, 1.62770080566406250e+00,
152  1.63162231445312500e+00, 1.63552856445312500e+00, 1.63941955566406250e+00,
153  1.64328002929687500e+00, 1.64714050292968750e+00, 1.65097045898437500e+00,
154  1.65476989746093750e+00, 1.65856933593750000e+00, 1.66235351562500000e+00,
155  1.66610717773437500e+00, 1.66986083984375000e+00, 1.67358398437500000e+00,
156  1.67729187011718750e+00, 1.68098449707031250e+00, 1.68466186523437500e+00,
157  1.68832397460937500e+00, 1.69197082519531250e+00, 1.69560241699218750e+00,
158  1.69921875000000000e+00, 1.70281982421875000e+00, 1.70640563964843750e+00,
159  1.70997619628906250e+00, 1.71353149414062500e+00, 1.71707153320312500e+00,
160  1.72059631347656250e+00, 1.72410583496093750e+00, 1.72760009765625000e+00,
161  1.73109436035156250e+00, 1.73455810546875000e+00, 1.73800659179687500e+00,
162  1.74145507812500000e+00, 1.74488830566406250e+00, 1.74829101562500000e+00,
163  1.75169372558593750e+00, 1.75508117675781250e+00, 1.75846862792968750e+00,
164  1.76182556152343750e+00, 1.76516723632812500e+00, 1.76850891113281250e+00,
165  1.77183532714843750e+00, 1.77514648437500000e+00, 1.77844238281250000e+00,
166  1.78173828125000000e+00, 1.78500366210937500e+00, 1.78826904296875000e+00,
167  1.79151916503906250e+00, 1.79476928710937500e+00, 1.79798889160156250e+00,
168  1.80120849609375000e+00, 1.80441284179687500e+00, 1.80760192871093750e+00,
169  1.81079101562500000e+00, 1.81396484375000000e+00, 1.81712341308593750e+00,
170  1.82026672363281250e+00, 1.82341003417968750e+00, 1.82653808593750000e+00,
171  1.82965087890625000e+00, 1.83276367187500000e+00, 1.83586120605468750e+00,
172  1.83894348144531250e+00, 1.84201049804687500e+00, 1.84507751464843750e+00,
173  1.84812927246093750e+00, 1.85118103027343750e+00, 1.85421752929687500e+00,
174  1.85723876953125000e+00, 1.86026000976562500e+00, 1.86326599121093750e+00,
175  1.86625671386718750e+00, 1.86924743652343750e+00, 1.87222290039062500e+00,
176  1.87518310546875000e+00, 1.87814331054687500e+00, 1.88108825683593750e+00,
177  1.88403320312500000e+00, 1.88696289062500000e+00, 1.88987731933593750e+00,
178  1.89279174804687500e+00, 1.89569091796875000e+00, 1.89859008789062500e+00,
179  1.90147399902343750e+00, 1.90435791015625000e+00, 1.90722656250000000e+00,
180  1.91007995605468750e+00, 1.91293334960937500e+00, 1.91577148437500000e+00,
181  1.91860961914062500e+00, 1.92143249511718750e+00, 1.92425537109375000e+00,
182  1.92706298828125000e+00, 1.92985534667968750e+00, 1.93264770507812500e+00,
183  1.93544006347656250e+00, 1.93821716308593750e+00, 1.94097900390625000e+00,
184  1.94374084472656250e+00, 1.94650268554687500e+00, 1.94924926757812500e+00,
185  1.95198059082031250e+00, 1.95471191406250000e+00, 1.95742797851562500e+00,
186  1.96014404296875000e+00, 1.96286010742187500e+00, 1.96556091308593750e+00,
187  1.96824645996093750e+00, 1.97093200683593750e+00, 1.97361755371093750e+00,
188  1.97628784179687500e+00, 1.97894287109375000e+00, 1.98159790039062500e+00,
189  1.98425292968750000e+00, 1.98689270019531250e+00, 1.98953247070312500e+00,
190  1.99215698242187500e+00, 1.99478149414062500e+00, 1.99739074707031250e+00,
191  2.00000000000000000e+00,
192 };
193 
194 /*
195  * The polynomial p(x) := p1*x + p2*x^2 + ... + p6*x^6 satisfies
196  *
197  * |(1+x)^(1/3) - 1 - p(x)| < 2^-63  for |x| < 0.003914
198  */
199 static const double C[] = {
200 	 3.33333333333333340735623180707664400321413178600e-0001,
201 	-1.11111111111111111992797989129069515334791432304e-0001,
202 	 6.17283950578506695710302115234720605072083379082e-0002,
203 	-4.11522633731005164138964638666647311514892319010e-0002,
204 	 3.01788343105268728151735586597807324859173704847e-0002,
205 	-2.34723340038386971009665073968507263074215090751e-0002,
206 	18014398509481984.0
207 };
208 
209 #define p1			C[0]
210 #define p2			C[1]
211 #define p3			C[2]
212 #define p4			C[3]
213 #define p5			C[4]
214 #define p6			C[5]
215 #define two54		C[6]
216 
217 /* INDENT ON */
218 
219 #pragma weak cbrt = __cbrt
220 
221 double __cbrt(double x)
222 {
223 	union {
224 		unsigned int	i[2];
225 		double			d;
226 	} xx, yy;
227 	double			t, u, w;
228 	unsigned int	hx, sx, ex, j, offset;
229 
230 	xx.d = x;
231 	hx = xx.i[HIWORD] & ~0x80000000;
232 	sx = xx.i[HIWORD] & 0x80000000;
233 
234 	/* handle special cases */
235 	if (hx >= 0x7ff00000) /* x is inf or nan */
236 #if defined(FPADD_TRAPS_INCOMPLETE_ON_NAN)
237 		return hx >= 0x7ff80000 ? x : x + x;
238 		/* assumes sparc-like QNaN */
239 #else
240 		return x + x;
241 #endif
242 
243 	if (hx < 0x00100000) { /* x is subnormal or zero */
244 		if ((hx | xx.i[LOWORD]) == 0)
245 			return x;
246 
247 		/* scale x to normal range */
248 		xx.d = x * two54;
249 		hx = xx.i[HIWORD] & ~0x80000000;
250 		offset = 0x29800000;
251 	}
252 	else
253 		offset = 0x2aa00000;
254 
255 	ex = hx & 0x7ff00000;
256 	j = (ex >> 2) + (ex >> 4) + (ex >> 6);
257 	j = j + (j >> 6);
258 	j = 0x7ff00000 & (j + 0x2aa00); /* j is ex/3 */
259 	hx -= (j + j + j);
260 	xx.i[HIWORD] = 0x3ff00000 + hx;
261 
262 	u = __libm_TBL_cbrt[(hx + 0x1000) >> 13];
263 	w = u * u * u;
264 	t = (xx.d - w) / w;
265 
266 	yy.i[HIWORD] = sx | (j + offset);
267 	yy.i[LOWORD] = 0;
268 
269 	w = t * t;
270 	return yy.d * (u + u * (t * (p1 + t * p2 + w * p3) +
271 		(w * w) * (p4 + t * p5 + w * p6)));
272 }
273