| 1 | //===-- divsc3.c - Implement __divsc3 -------------------------------------===// |
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| 2 | // |
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| 3 | // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
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| 4 | // See https://llvm.org/LICENSE.txt for license information. |
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| 5 | // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
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| 6 | // |
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| 7 | //===----------------------------------------------------------------------===// |
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| 8 | // |
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| 9 | // This file implements __divsc3 for the compiler_rt library. |
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| 10 | // |
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| 11 | //===----------------------------------------------------------------------===// |
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| 12 | |
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| 13 | #define SINGLE_PRECISION |
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| 14 | #include "fp_lib.h" |
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| 15 | #include "int_lib.h" |
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| 16 | #include "int_math.h" |
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| 17 | |
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| 18 | // Returns: the quotient of (a + ib) / (c + id) |
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| 19 | |
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| 20 | COMPILER_RT_ABI Fcomplex __divsc3(float __a, float __b, float __c, float __d) { |
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| 21 | int __ilogbw = 0; |
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| 22 | float __logbw = |
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| 23 | __compiler_rt_logbf(x: __compiler_rt_fmaxf(crt_fabsf(__c), crt_fabsf(__d))); |
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| 24 | if (crt_isfinite(__logbw)) { |
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| 25 | __ilogbw = (int)__logbw; |
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| 26 | __c = __compiler_rt_scalbnf(x: __c, y: -__ilogbw); |
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| 27 | __d = __compiler_rt_scalbnf(x: __d, y: -__ilogbw); |
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| 28 | } |
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| 29 | float __denom = __c * __c + __d * __d; |
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| 30 | Fcomplex z; |
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| 31 | COMPLEX_REAL(z) = |
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| 32 | __compiler_rt_scalbnf(x: (__a * __c + __b * __d) / __denom, y: -__ilogbw); |
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| 33 | COMPLEX_IMAGINARY(z) = |
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| 34 | __compiler_rt_scalbnf(x: (__b * __c - __a * __d) / __denom, y: -__ilogbw); |
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| 35 | if (crt_isnan(COMPLEX_REAL(z)) && crt_isnan(COMPLEX_IMAGINARY(z))) { |
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| 36 | if ((__denom == 0) && (!crt_isnan(__a) || !crt_isnan(__b))) { |
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| 37 | COMPLEX_REAL(z) = crt_copysignf(CRT_INFINITY, __c) * __a; |
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| 38 | COMPLEX_IMAGINARY(z) = crt_copysignf(CRT_INFINITY, __c) * __b; |
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| 39 | } else if ((crt_isinf(__a) || crt_isinf(__b)) && crt_isfinite(__c) && |
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| 40 | crt_isfinite(__d)) { |
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| 41 | __a = crt_copysignf(crt_isinf(__a) ? 1 : 0, __a); |
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| 42 | __b = crt_copysignf(crt_isinf(__b) ? 1 : 0, __b); |
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| 43 | COMPLEX_REAL(z) = CRT_INFINITY * (__a * __c + __b * __d); |
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| 44 | COMPLEX_IMAGINARY(z) = CRT_INFINITY * (__b * __c - __a * __d); |
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| 45 | } else if (crt_isinf(__logbw) && __logbw > 0 && crt_isfinite(__a) && |
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| 46 | crt_isfinite(__b)) { |
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| 47 | __c = crt_copysignf(crt_isinf(__c) ? 1 : 0, __c); |
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| 48 | __d = crt_copysignf(crt_isinf(__d) ? 1 : 0, __d); |
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| 49 | COMPLEX_REAL(z) = 0 * (__a * __c + __b * __d); |
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| 50 | COMPLEX_IMAGINARY(z) = 0 * (__b * __c - __a * __d); |
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| 51 | } |
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| 52 | } |
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| 53 | return z; |
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| 54 | } |
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| 55 | |
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