137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan/* ===-- floatundidf.c - Implement __floatundidf ---------------------------===
237a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *
337a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *                     The LLVM Compiler Infrastructure
437a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *
59ad441ffec97db647fee3725b3424284fb913e14Howard Hinnant * This file is dual licensed under the MIT and the University of Illinois Open
69ad441ffec97db647fee3725b3424284fb913e14Howard Hinnant * Source Licenses. See LICENSE.TXT for details.
737a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *
837a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan * ===----------------------------------------------------------------------===
937a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *
1037a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan * This file implements __floatundidf for the compiler_rt library.
1137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *
1237a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan * ===----------------------------------------------------------------------===
1337a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan */
14b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
1537a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan/* Returns: convert a to a double, rounding toward even. */
16b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
1737a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan/* Assumption: double is a IEEE 64 bit floating point type
1837a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan *             du_int is a 64 bit integral type
1937a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan */
20b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
2137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan/* seee eeee eeee mmmm mmmm mmmm mmmm mmmm | mmmm mmmm mmmm mmmm mmmm mmmm mmmm mmmm */
22b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
2337b97d1cf4501b94347e0b4e880f4b25825a289fAnton Korobeynikov#include "int_lib.h"
2437b97d1cf4501b94347e0b4e880f4b25825a289fAnton Korobeynikov
250193b74976719b8aea4cb8874ba36b75836a8d6eChandler CarruthARM_EABI_FNALIAS(ul2d, floatundidf)
2637b97d1cf4501b94347e0b4e880f4b25825a289fAnton Korobeynikov
27b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar#ifndef __SOFT_FP__
2837a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan/* Support for systems that have hardware floating-point; we'll set the inexact flag
2937a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan * as a side-effect of this computation.
3037a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan */
3137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan
321c5f89b1dd741135a4007ab577723d422f421eecAnton KorobeynikovCOMPILER_RT_ABI double
33b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar__floatundidf(du_int a)
34b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar{
35b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	static const double twop52 = 0x1.0p52;
36b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	static const double twop84 = 0x1.0p84;
37b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	static const double twop84_plus_twop52 = 0x1.00000001p84;
38b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
39b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	union { uint64_t x; double d; } high = { .d = twop84 };
40b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	union { uint64_t x; double d; } low = { .d = twop52 };
41b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
42b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	high.x |= a >> 32;
43b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	low.x |= a & UINT64_C(0x00000000ffffffff);
44b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
45b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	const double result = (high.d - twop84_plus_twop52) + low.d;
46b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar	return result;
47b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar}
48b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
49b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar#else
5037a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan/* Support for systems that don't have hardware floating-point; there are no flags to
5137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan * set, and we don't want to code-gen to an unknown soft-float implementation.
5237a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan */
53b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar
541c5f89b1dd741135a4007ab577723d422f421eecAnton KorobeynikovCOMPILER_RT_ABI double
55b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar__floatundidf(du_int a)
56b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar{
57b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    if (a == 0)
58b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        return 0.0;
59b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    const unsigned N = sizeof(du_int) * CHAR_BIT;
6037a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan    int sd = N - __builtin_clzll(a);  /* number of significant digits */
6137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan    int e = sd - 1;             /* exponent */
62b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    if (sd > DBL_MANT_DIG)
63b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    {
6437a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        /*  start:  0000000000000000000001xxxxxxxxxxxxxxxxxxxxxxPQxxxxxxxxxxxxxxxxxx
6537a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         *  finish: 000000000000000000000000000000000000001xxxxxxxxxxxxxxxxxxxxxxPQR
6637a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         *                                                12345678901234567890123456
6737a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         *  1 = msb 1 bit
6837a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         *  P = bit DBL_MANT_DIG-1 bits to the right of 1
6937a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         *  Q = bit DBL_MANT_DIG bits to the right of 1
7037a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         *  R = "or" of all bits to the right of Q
7137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan         */
72b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        switch (sd)
73b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        {
74b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        case DBL_MANT_DIG + 1:
75b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar            a <<= 1;
76b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar            break;
77b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        case DBL_MANT_DIG + 2:
78b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar            break;
79b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        default:
80b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar            a = (a >> (sd - (DBL_MANT_DIG+2))) |
81b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar                ((a & ((du_int)(-1) >> ((N + DBL_MANT_DIG+2) - sd))) != 0);
82b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        };
8337a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        /* finish: */
8437a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        a |= (a & 4) != 0;  /* Or P into R */
8537a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        ++a;  /* round - this step may add a significant bit */
8637a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        a >>= 2;  /* dump Q and R */
8737a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        /* a is now rounded to DBL_MANT_DIG or DBL_MANT_DIG+1 bits */
88b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        if (a & ((du_int)1 << DBL_MANT_DIG))
89b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        {
90b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar            a >>= 1;
91b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar            ++e;
92b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        }
9337a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        /* a is now rounded to DBL_MANT_DIG bits */
94b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    }
95b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    else
96b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    {
97b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar        a <<= (DBL_MANT_DIG - sd);
9837a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan        /* a is now rounded to DBL_MANT_DIG bits */
99b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    }
100b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    double_bits fb;
10137a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan    fb.u.high = ((e + 1023) << 20)      |        /* exponent */
10237a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan                ((su_int)(a >> 32) & 0x000FFFFF); /* mantissa-high */
10337a6a455466e5b197311771a777ab241e471ed8aEdward O'Callaghan    fb.u.low = (su_int)a;                         /* mantissa-low  */
104b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar    return fb.f;
105b3a6901e66f55b35aa9e01bcb24134e6a65ea004Daniel Dunbar}
1066c307f0ec927c9eb8bfcee8a4b7f7b8e12ef56beEdward O'Callaghan#endif
107