/* Software floating-point emulation. Convert _Decimal128 to signed or unsigned _BitInt. Copyright (C) 2023 Free Software Foundation, Inc. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see . */ #include "soft-fp.h" #include "bitint.h" #ifdef __BITINT_MAXWIDTH__ extern void __bid_fixtdbitint (UBILtype *, SItype, _Decimal128); void __bid_fixtdbitint (UBILtype *r, SItype rprec, _Decimal128 a) { FP_DECL_EX; USItype arprec = rprec < 0 ? -rprec : rprec; USItype rn = (arprec + BIL_TYPE_SIZE - 1) / BIL_TYPE_SIZE; union { _Decimal128 d; UDItype u[2]; } u; UDItype mantissahi, mantissalo, t; SItype sgn; SItype exponent; USItype exp_bits, mant_bits; UBILtype *pow10v, *resv; USItype pow10_limbs, res_limbs, min_limbs, mant_limbs, low_zeros; FP_INIT_EXCEPTIONS; u.d = a; mantissahi = u.u[__FLOAT_WORD_ORDER__ != __ORDER_BIG_ENDIAN__]; mantissalo = u.u[__FLOAT_WORD_ORDER__ == __ORDER_BIG_ENDIAN__]; t = mantissahi >> 47; sgn = (DItype) mantissahi < 0; if ((t & (3 << 14)) != (3 << 14)) { mantissahi &= ((((UDItype) 1) << 49) - 1); exponent = (t >> 2) & 0x3fff; if (mantissahi > (UDItype) 0x1ed09bead87c0 || (mantissahi == (UDItype) 0x1ed09bead87c0 && mantissalo > (UDItype) 0x378d8e63ffffffff)) { mantissahi = 0; mantissalo = 0; } } else if ((t & (3 << 12)) != (3 << 12)) { mantissahi = 0; mantissalo = 0; exponent = t & 0x3fff; } else { FP_SET_EXCEPTION (FP_EX_INVALID | FP_EX_INVALID_CVI | ((FP_EX_INVALID_SNAN && ((t & 0x800)) != 0) ? FP_EX_INVALID_SNAN : 0)); ovf: if (!sgn) __builtin_memset (r, -1, rn * sizeof (UBILtype)); else __builtin_memset (r, 0, rn * sizeof (UBILtype)); if (sgn ^ (rprec >= 0)) r[BITINT_END (0, rn - 1)] |= (UBILtype) -1 << ((arprec - 1) % BIL_TYPE_SIZE); else r[BITINT_END (0, rn - 1)] &= ~((UBILtype) -1 << ((arprec - 1) % BIL_TYPE_SIZE)); goto done; } exponent -= 6176; if (mantissahi == 0 && mantissalo == 0) { /* Zero (with any exponent). */ zero: __builtin_memset (r, 0, rn * sizeof (UBILtype)); goto done; } if (exponent <= -34) { FP_SET_EXCEPTION (FP_EX_INEXACT); goto zero; } if (exponent < 0) { UBILtype limbs[4 * 128 / BIL_TYPE_SIZE]; #if BIL_TYPE_SIZE == 64 limbs[BITINT_END (0, 1)] = mantissahi; limbs[BITINT_END (1, 0)] = mantissalo; #elif BIL_TYPE_SIZE == 32 limbs[BITINT_END (0, 3)] = mantissahi >> 32; limbs[BITINT_END (1, 2)] = mantissahi; limbs[BITINT_END (2, 1)] = mantissalo >> 32; limbs[BITINT_END (3, 0)] = mantissalo; #elif # error Unhandled BIL_TYPE_SIZE #endif __bid_pow10bitint (&limbs[128 / BIL_TYPE_SIZE], 128, -exponent); __divmodbitint4 (&limbs[2 * 128 / BIL_TYPE_SIZE], 128, &limbs[3 * 128 / BIL_TYPE_SIZE], 128, &limbs[0], 128, &limbs[128 / BIL_TYPE_SIZE], 128); UDItype rem; #if BIL_TYPE_SIZE == 64 mantissahi = limbs[BITINT_END (4, 5)]; mantissalo = limbs[BITINT_END (5, 4)]; rem = limbs[6] | limbs[7]; #elif BIL_TYPE_SIZE == 32 mantissahi = (UDItype) limbs[BITINT_END (8, 11)] << 32; mantissahi |= limbs[BITINT_END (9, 10)]; mantissalo = (UDItype) limbs[BITINT_END (10, 9)] << 32; mantissalo |= limbs[BITINT_END (11, 8)]; rem = limbs[12] | limbs[13] | limbs[14] | limbs[15]; #endif if (rem) FP_SET_EXCEPTION (FP_EX_INEXACT); if (mantissahi == 0 && mantissalo == 0) goto zero; exponent = 0; } if (rprec >= 0 && sgn) { ovf_ex: FP_SET_EXCEPTION (FP_EX_INVALID | FP_EX_INVALID_CVI); goto ovf; } /* Lower estimate for number of bits needed for pow10 (exponent). */ exp_bits = exponent / 3; exp_bits = exp_bits * 10 - exp_bits / 29; if (mantissahi) mant_bits = sizeof (0ULL) * __CHAR_BIT__ - __builtin_clzll (mantissahi) + 64; else mant_bits = sizeof (0ULL) * __CHAR_BIT__ - __builtin_clzll (mantissalo); if (exp_bits + mant_bits > arprec + 1) goto ovf_ex; /* Upper estimate for number of bits needed for pow10 (exponent). */ exp_bits = (exponent + 2) / 3; exp_bits = exp_bits * 10 - exp_bits / 30; if (exp_bits == 0) exp_bits = 1; pow10_limbs = (exp_bits + BIL_TYPE_SIZE - 1) / BIL_TYPE_SIZE; pow10v = __builtin_alloca (pow10_limbs * sizeof (UBILtype)); low_zeros = __bid_pow10bitint (pow10v, exp_bits, exponent); res_limbs = ((exp_bits + mant_bits + BIL_TYPE_SIZE - 1) / BIL_TYPE_SIZE) - low_zeros; mant_limbs = (mant_bits + BIL_TYPE_SIZE - 1) / BIL_TYPE_SIZE; resv = __builtin_alloca ((res_limbs + mant_limbs) * sizeof (UBILtype)); #if BIL_TYPE_SIZE >= 64 if (mant_limbs == 1) resv[res_limbs] = mantissalo; else { resv[res_limbs + BITINT_END (1, 0)] = mantissalo; resv[res_limbs + BITINT_END (0, 1)] = mantissahi; } #else resv[res_limbs + BITINT_END (mant_limbs - 1, 0)] = mantissalo; if (mant_limbs >= 2) { resv[res_limbs + BITINT_END (mant_limbs - 2, 1)] = mantissalo >> 32; if (mant_limbs >= 3) { resv[res_limbs + BITINT_END (mant_limbs - 3, 2)] = mantissahi; if (mant_limbs == 4) resv[res_limbs + BITINT_END (0, 3)] = mantissahi >> 32; } } #endif __mulbitint3 (resv, exp_bits + mant_bits - low_zeros * BIL_TYPE_SIZE, resv + res_limbs, mant_bits, pow10v + BITINT_END (0, low_zeros), exp_bits - low_zeros * BIL_TYPE_SIZE); if (res_limbs + low_zeros >= rn) { if (res_limbs + low_zeros > rn && resv[BITINT_END (0, res_limbs - 1)]) goto ovf_ex; if ((arprec % BIL_TYPE_SIZE) != 0 && (resv[BITINT_END (rn - res_limbs, rn - 1) - low_zeros] & ((UBILtype) -1 << (arprec % BIL_TYPE_SIZE))) != 0) goto ovf_ex; min_limbs = rn - low_zeros; } else min_limbs = res_limbs; if (low_zeros) __builtin_memset (r + BITINT_END (rn - low_zeros, 0), '\0', low_zeros * sizeof (UBILtype)); if (sgn) bitint_negate (r + BITINT_END (rn - low_zeros - 1, low_zeros), resv + BITINT_END (res_limbs - 1, 0), min_limbs); else __builtin_memcpy (r + BITINT_END (rn - low_zeros - min_limbs, low_zeros), resv + BITINT_END (res_limbs - min_limbs, 0), min_limbs * sizeof (UBILtype)); if (res_limbs + low_zeros < rn) { if (sgn) __builtin_memset (r + BITINT_END (0, res_limbs + low_zeros), -1, (rn - res_limbs - low_zeros) * sizeof (UBILtype)); else __builtin_memset (r + BITINT_END (0, res_limbs + low_zeros), '\0', (rn - res_limbs - low_zeros) * sizeof (UBILtype)); } else if (sgn) { if ((r[BITINT_END (0, rn - 1)] & ((UBILtype) 1 << ((arprec - 1) % BIL_TYPE_SIZE))) == 0) goto ovf_ex; } else if (rprec < 0 && (r[BITINT_END (0, rn - 1)] & ((UBILtype) 1 << ((arprec - 1) % BIL_TYPE_SIZE))) != 0) goto ovf_ex; done: FP_HANDLE_EXCEPTIONS; } #endif