/* clang-format off */ //===-- lib/floatsisf.c - integer -> single-precision conversion --*- C -*-===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements integer to single-precision conversion for the // compiler-rt library in the IEEE-754 default round-to-nearest, ties-to-even // mode. // //===----------------------------------------------------------------------===// STATIC_YOINK("huge_compiler_rt_license"); #define SINGLE_PRECISION #include "third_party/compiler_rt/fp_lib.inc" #include "third_party/compiler_rt/int_lib.h" COMPILER_RT_ABI fp_t __floatsisf(int a) { const int aWidth = sizeof a * CHAR_BIT; // Handle zero as a special case to protect clz if (a == 0) return fromRep(0); // All other cases begin by extracting the sign and absolute value of a rep_t sign = 0; if (a < 0) { sign = signBit; a = -a; } // Exponent of (fp_t)a is the width of abs(a). const int exponent = (aWidth - 1) - __builtin_clz(a); rep_t result; // Shift a into the significand field, rounding if it is a right-shift if (exponent <= significandBits) { const int shift = significandBits - exponent; result = (rep_t)a << shift ^ implicitBit; } else { const int shift = exponent - significandBits; result = (rep_t)a >> shift ^ implicitBit; rep_t round = (rep_t)a << (typeWidth - shift); if (round > signBit) result++; if (round == signBit) result += result & 1; } // Insert the exponent result += (rep_t)(exponent + exponentBias) << significandBits; // Insert the sign bit and return return fromRep(result | sign); } #if defined(__ARM_EABI__) #if defined(COMPILER_RT_ARMHF_TARGET) AEABI_RTABI fp_t __aeabi_i2f(int a) { return __floatsisf(a); } #else AEABI_RTABI fp_t __aeabi_i2f(int a) COMPILER_RT_ALIAS(__floatsisf); #endif #endif