100a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//===-- lib/floatunsitf.c - uint -> quad-precision conversion -----*- C -*-===//
200a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//
300a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//                     The LLVM Compiler Infrastructure
400a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//
500a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger// This file is dual licensed under the MIT and the University of Illinois Open
600a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger// Source Licenses. See LICENSE.TXT for details.
700a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//
800a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//===----------------------------------------------------------------------===//
900a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//
1000a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger// This file implements unsigned integer to quad-precision conversion for the
1100a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger// compiler-rt library in the IEEE-754 default round-to-nearest, ties-to-even
1200a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger// mode.
1300a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//
1400a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger//===----------------------------------------------------------------------===//
1500a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
1600a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger#define QUAD_PRECISION
1700a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger#include "fp_lib.h"
1800a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
1900a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger#if defined(CRT_HAS_128BIT) && defined(CRT_LDBL_128BIT)
2000a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg SonnenbergerCOMPILER_RT_ABI fp_t __floatunsitf(unsigned int a) {
2100a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
2200a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    const int aWidth = sizeof a * CHAR_BIT;
2300a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
2400a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    // Handle zero as a special case to protect clz
2500a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    if (a == 0) return fromRep(0);
2600a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
2700a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    // Exponent of (fp_t)a is the width of abs(a).
2800a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    const int exponent = (aWidth - 1) - __builtin_clz(a);
2900a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    rep_t result;
3000a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
3100a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    // Shift a into the significand field and clear the implicit bit.
3200a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    const int shift = significandBits - exponent;
3300a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    result = (rep_t)a << shift ^ implicitBit;
3400a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
3500a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    // Insert the exponent
3600a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    result += (rep_t)(exponent + exponentBias) << significandBits;
3700a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger    return fromRep(result);
3800a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger}
3900a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger
4000a7da1552bc8a69ccf529a831b4cd46853c77e9Joerg Sonnenberger#endif
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