xref: /freebsd/contrib/arm-optimized-routines/math/erf.c (revision 5ca8e32633c4ffbbcd6762e5888b6a4ba0708c6c)
1 /*
2  * Double-precision erf(x) function.
3  *
4  * Copyright (c) 2020, Arm Limited.
5  * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception
6  */
7 
8 #include "math_config.h"
9 #include <math.h>
10 #include <stdint.h>
11 
12 #define TwoOverSqrtPiMinusOne 0x1.06eba8214db69p-3
13 #define C 0x1.b0ac16p-1
14 #define PA __erf_data.erf_poly_A
15 #define NA __erf_data.erf_ratio_N_A
16 #define DA __erf_data.erf_ratio_D_A
17 #define NB __erf_data.erf_ratio_N_B
18 #define DB __erf_data.erf_ratio_D_B
19 #define PC __erf_data.erfc_poly_C
20 #define PD __erf_data.erfc_poly_D
21 #define PE __erf_data.erfc_poly_E
22 #define PF __erf_data.erfc_poly_F
23 
24 /* Top 32 bits of a double.  */
25 static inline uint32_t
26 top32 (double x)
27 {
28   return asuint64 (x) >> 32;
29 }
30 
31 /* Fast erf implementation using a mix of
32    rational and polynomial approximations.
33    Highest measured error is 1.01 ULPs at 0x1.39956ac43382fp+0.  */
34 double
35 erf (double x)
36 {
37   /* Get top word and sign.  */
38   uint32_t ix = top32 (x);
39   uint32_t ia = ix & 0x7fffffff;
40   uint32_t sign = ix >> 31;
41 
42   /* Normalized and subnormal cases */
43   if (ia < 0x3feb0000)
44     { /* a = |x| < 0.84375.  */
45 
46       if (ia < 0x3e300000)
47 	{ /* a < 2^(-28).  */
48 	  if (ia < 0x00800000)
49 	    { /* a < 2^(-1015).  */
50 	      double y =  fma (TwoOverSqrtPiMinusOne, x, x);
51 	      return check_uflow (y);
52 	    }
53 	  return x + TwoOverSqrtPiMinusOne * x;
54 	}
55 
56       double x2 = x * x;
57 
58       if (ia < 0x3fe00000)
59 	{ /* a < 0.5  - Use polynomial approximation.  */
60 	  double r1 = fma (x2, PA[1], PA[0]);
61 	  double r2 = fma (x2, PA[3], PA[2]);
62 	  double r3 = fma (x2, PA[5], PA[4]);
63 	  double r4 = fma (x2, PA[7], PA[6]);
64 	  double r5 = fma (x2, PA[9], PA[8]);
65 	  double x4 = x2 * x2;
66 	  double r = r5;
67 	  r = fma (x4, r, r4);
68 	  r = fma (x4, r, r3);
69 	  r = fma (x4, r, r2);
70 	  r = fma (x4, r, r1);
71 	  return fma (r, x, x); /* This fma is crucial for accuracy.  */
72 	}
73       else
74 	{ /* 0.5 <= a < 0.84375 - Use rational approximation.  */
75 	  double x4, x8, r1n, r2n, r1d, r2d, r3d;
76 
77 	  r1n = fma (x2, NA[1], NA[0]);
78 	  x4 = x2 * x2;
79 	  r2n = fma (x2, NA[3], NA[2]);
80 	  x8 = x4 * x4;
81 	  r1d = fma (x2, DA[0], 1.0);
82 	  r2d = fma (x2, DA[2], DA[1]);
83 	  r3d = fma (x2, DA[4], DA[3]);
84 	  double P = r1n + x4 * r2n + x8 * NA[4];
85 	  double Q = r1d + x4 * r2d + x8 * r3d;
86 	  return fma (P / Q, x, x);
87 	}
88     }
89   else if (ia < 0x3ff40000)
90     { /* 0.84375 <= |x| < 1.25.  */
91       double a2, a4, a6, r1n, r2n, r3n, r4n, r1d, r2d, r3d, r4d;
92       double a = fabs (x) - 1.0;
93       r1n = fma (a, NB[1], NB[0]);
94       a2 = a * a;
95       r1d = fma (a, DB[0], 1.0);
96       a4 = a2 * a2;
97       r2n = fma (a, NB[3], NB[2]);
98       a6 = a4 * a2;
99       r2d = fma (a, DB[2], DB[1]);
100       r3n = fma (a, NB[5], NB[4]);
101       r3d = fma (a, DB[4], DB[3]);
102       r4n = NB[6];
103       r4d = DB[5];
104       double P = r1n + a2 * r2n + a4 * r3n + a6 * r4n;
105       double Q = r1d + a2 * r2d + a4 * r3d + a6 * r4d;
106       if (sign)
107 	return -C - P / Q;
108       else
109 	return C + P / Q;
110     }
111   else if (ia < 0x40000000)
112     { /* 1.25 <= |x| < 2.0.  */
113       double a = fabs (x);
114       a = a - 1.25;
115 
116       double r1 = fma (a, PC[1], PC[0]);
117       double r2 = fma (a, PC[3], PC[2]);
118       double r3 = fma (a, PC[5], PC[4]);
119       double r4 = fma (a, PC[7], PC[6]);
120       double r5 = fma (a, PC[9], PC[8]);
121       double r6 = fma (a, PC[11], PC[10]);
122       double r7 = fma (a, PC[13], PC[12]);
123       double r8 = fma (a, PC[15], PC[14]);
124 
125       double a2 = a * a;
126 
127       double r = r8;
128       r = fma (a2, r, r7);
129       r = fma (a2, r, r6);
130       r = fma (a2, r, r5);
131       r = fma (a2, r, r4);
132       r = fma (a2, r, r3);
133       r = fma (a2, r, r2);
134       r = fma (a2, r, r1);
135 
136       if (sign)
137 	return -1.0 + r;
138       else
139 	return 1.0 - r;
140     }
141   else if (ia < 0x400a0000)
142     { /* 2 <= |x| < 3.25.  */
143       double a = fabs (x);
144       a = fma (0.5, a, -1.0);
145 
146       double r1 = fma (a, PD[1], PD[0]);
147       double r2 = fma (a, PD[3], PD[2]);
148       double r3 = fma (a, PD[5], PD[4]);
149       double r4 = fma (a, PD[7], PD[6]);
150       double r5 = fma (a, PD[9], PD[8]);
151       double r6 = fma (a, PD[11], PD[10]);
152       double r7 = fma (a, PD[13], PD[12]);
153       double r8 = fma (a, PD[15], PD[14]);
154       double r9 = fma (a, PD[17], PD[16]);
155 
156       double a2 = a * a;
157 
158       double r = r9;
159       r = fma (a2, r, r8);
160       r = fma (a2, r, r7);
161       r = fma (a2, r, r6);
162       r = fma (a2, r, r5);
163       r = fma (a2, r, r4);
164       r = fma (a2, r, r3);
165       r = fma (a2, r, r2);
166       r = fma (a2, r, r1);
167 
168       if (sign)
169 	return -1.0 + r;
170       else
171 	return 1.0 - r;
172     }
173   else if (ia < 0x40100000)
174     { /* 3.25 <= |x| < 4.0.  */
175       double a = fabs (x);
176       a = a - 3.25;
177 
178       double r1 = fma (a, PE[1], PE[0]);
179       double r2 = fma (a, PE[3], PE[2]);
180       double r3 = fma (a, PE[5], PE[4]);
181       double r4 = fma (a, PE[7], PE[6]);
182       double r5 = fma (a, PE[9], PE[8]);
183       double r6 = fma (a, PE[11], PE[10]);
184       double r7 = fma (a, PE[13], PE[12]);
185 
186       double a2 = a * a;
187 
188       double r = r7;
189       r = fma (a2, r, r6);
190       r = fma (a2, r, r5);
191       r = fma (a2, r, r4);
192       r = fma (a2, r, r3);
193       r = fma (a2, r, r2);
194       r = fma (a2, r, r1);
195 
196       if (sign)
197 	return -1.0 + r;
198       else
199 	return 1.0 - r;
200     }
201   else if (ia < 0x4017a000)
202     { /* 4 <= |x| < 5.90625.  */
203       double a = fabs (x);
204       a = fma (0.5, a, -2.0);
205 
206       double r1 = fma (a, PF[1], PF[0]);
207       double r2 = fma (a, PF[3], PF[2]);
208       double r3 = fma (a, PF[5], PF[4]);
209       double r4 = fma (a, PF[7], PF[6]);
210       double r5 = fma (a, PF[9], PF[8]);
211       double r6 = fma (a, PF[11], PF[10]);
212       double r7 = fma (a, PF[13], PF[12]);
213       double r8 = fma (a, PF[15], PF[14]);
214       double r9 = PF[16];
215 
216       double a2 = a * a;
217 
218       double r = r9;
219       r = fma (a2, r, r8);
220       r = fma (a2, r, r7);
221       r = fma (a2, r, r6);
222       r = fma (a2, r, r5);
223       r = fma (a2, r, r4);
224       r = fma (a2, r, r3);
225       r = fma (a2, r, r2);
226       r = fma (a2, r, r1);
227 
228       if (sign)
229 	return -1.0 + r;
230       else
231 	return 1.0 - r;
232     }
233   else
234     {
235       /* Special cases : erf(nan)=nan, erf(+inf)=+1 and erf(-inf)=-1.  */
236       if (unlikely (ia >= 0x7ff00000))
237 	return (double) (1.0 - (sign << 1)) + 1.0 / x;
238 
239       if (sign)
240 	return -1.0;
241       else
242 	return 1.0;
243     }
244 }
245