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aa1142c593
Continuing the preparation for additional _FloatN / _FloatNx function aliases, this patch makes ia64 libm function implementations use libm_alias_float to define function aliases. The same approach is followed as with the corresponding long double and double patches: the ia64-specific macros are left unchanged, with calls to libm_alias_float_other being added in most cases and libm_alias_float itself being used in only a few places. Tested with build-many-glibcs.py for ia64-linux-gnu that installed stripped shared libraries are unchanged by the patch. * sysdeps/ia64/fpu/libm-symbols.h: Include <libm-alias-float.h>. * sysdeps/ia64/fpu/e_acosf.S (acosf): Use libm_alias_float_other. * sysdeps/ia64/fpu/e_acoshf.S (acoshf): Likewise. * sysdeps/ia64/fpu/e_asinf.S (asinf): Likewise. * sysdeps/ia64/fpu/e_atan2f.S (atan2f): Likewise. * sysdeps/ia64/fpu/e_atanhf.S (atanhf): Likewise. * sysdeps/ia64/fpu/e_coshf.S (coshf): Likewise. * sysdeps/ia64/fpu/e_exp10f.S (exp10f): Likewise. * sysdeps/ia64/fpu/e_exp2f.S (exp2f): Likewise. * sysdeps/ia64/fpu/e_expf.S (expf): Likewise. * sysdeps/ia64/fpu/e_fmodf.S (fmodf): Likewise. * sysdeps/ia64/fpu/e_hypotf.S (hypotf): Likewise. * sysdeps/ia64/fpu/e_lgammaf_r.c (lgammaf_r): Define using libm_alias_float_r. * sysdeps/ia64/fpu/e_log2f.S (log2f): Use libm_alias_float_other. * sysdeps/ia64/fpu/e_logf.S (log10f): Likewise. (logf): Likewise. * sysdeps/ia64/fpu/e_powf.S (powf): Likewise. * sysdeps/ia64/fpu/e_remainderf.S (remainderf): Likewise. * sysdeps/ia64/fpu/e_sinhf.S (sinhf): Likewise. * sysdeps/ia64/fpu/e_sqrtf.S (sqrtf): Likewise. * sysdeps/ia64/fpu/libm_sincosf.S (sincosf): Likewise. * sysdeps/ia64/fpu/s_asinhf.S (asinhf): Likewise. * sysdeps/ia64/fpu/s_atanf.S (atanf): Likewise. * sysdeps/ia64/fpu/s_cbrtf.S (cbrtf): Likewise. * sysdeps/ia64/fpu/s_ceilf.S (ceilf): Likewise. * sysdeps/ia64/fpu/s_copysign.S (copysignf): Define using libm_alias_float. * sysdeps/ia64/fpu/s_cosf.S (sinf): Use libm_alias_float_other. (cosf): Likewise. * sysdeps/ia64/fpu/s_erfcf.S (erfcf): Likewise. * sysdeps/ia64/fpu/s_erff.S (erff): Likewise. * sysdeps/ia64/fpu/s_expm1f.S (expm1f): Likewise. * sysdeps/ia64/fpu/s_fabsf.S (fabsf): Likewise. * sysdeps/ia64/fpu/s_fdimf.S (fdimf): Likewise. * sysdeps/ia64/fpu/s_floorf.S (floorf): Likewise. * sysdeps/ia64/fpu/s_fmaf.S (fmaf): Likewise. * sysdeps/ia64/fpu/s_fmaxf.S (fmaxf): Likewise. * sysdeps/ia64/fpu/s_frexpf.c (frexpf): Likewise. * sysdeps/ia64/fpu/s_ldexpf.c (ldexpf): Likewise. * sysdeps/ia64/fpu/s_log1pf.S (log1pf): Likewise. * sysdeps/ia64/fpu/s_logbf.S (logbf): Likewise. * sysdeps/ia64/fpu/s_modff.S (modff): Likewise. * sysdeps/ia64/fpu/s_nearbyintf.S (nearbyintf): Likewise. * sysdeps/ia64/fpu/s_nextafterf.S (nextafterf): Likewise. * sysdeps/ia64/fpu/s_rintf.S (rintf): Likewise. * sysdeps/ia64/fpu/s_roundf.S (roundf): Likewise. * sysdeps/ia64/fpu/s_scalblnf.c (scalblnf): Likewise. * sysdeps/ia64/fpu/s_scalbnf.c (scalbnf): Define using libm_alias_float. * sysdeps/ia64/fpu/s_tanf.S (tanf): Use libm_alias_float_other. * sysdeps/ia64/fpu/s_tanhf.S (tanhf): Likewise. * sysdeps/ia64/fpu/s_truncf.S (truncf): Likewise. * sysdeps/ia64/fpu/w_lgammaf_main.c [BUILD_LGAMMA && !USE_AS_COMPAT] (lgammaf): Likewise. * sysdeps/ia64/fpu/w_tgammaf_compat.S (tgammaf): Likewise.
563 lines
14 KiB
ArmAsm
563 lines
14 KiB
ArmAsm
.file "exp10f.s"
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// Copyright (c) 2000 - 2005, Intel Corporation
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// All rights reserved.
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//
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// Contributed 2000 by the Intel Numerics Group, Intel Corporation
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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//
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// * Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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//
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// * The name of Intel Corporation may not be used to endorse or promote
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// products derived from this software without specific prior written
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// permission.
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL INTEL OR ITS
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// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
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// OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY OR TORT (INCLUDING
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// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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// Intel Corporation is the author of this code, and requests that all
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// problem reports or change requests be submitted to it directly at
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// http://www.intel.com/software/products/opensource/libraries/num.htm.
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//
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// History
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//==============================================================
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// 08/25/00 Initial version
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// 05/20/02 Cleaned up namespace and sf0 syntax
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// 09/06/02 Improved performance and accuracy; no inexact flags on exact cases
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// 01/29/03 Added missing } to bundle templates
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// 12/16/04 Call error handling on underflow.
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// 03/31/05 Reformatted delimiters between data tables
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//
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// API
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//==============================================================
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// float exp10f(float)
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//
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// Overview of operation
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//==============================================================
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// Background
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//
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// Implementation
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//
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// Let x= (K + fh + fl + r)/log2(10), where
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// K is an integer, fh= 0.b1 b2 b3 b4 b5,
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// fl= 2^{-5}* 0.b6 b7 b8 b8 b10 (fh, fl >= 0),
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// and |r|<2^{-11}
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// Th is a table that stores 2^fh (32 entries) rounded to
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// double extended precision (only mantissa is stored)
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// Tl is a table that stores 2^fl (32 entries) rounded to
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// double extended precision (only mantissa is stored)
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//
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// 10^x is approximated as
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// 2^K * Th [ f ] * Tl [ f ] * (1+c1*r+c2*r^2)
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// Note there are only 10 non-zero values that produce an exact result:
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// 1.0, 2.0, ... 10.0.
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// We test for these cases and use s1 to avoid setting the inexact flag.
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// Special values
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//==============================================================
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// exp10(0)= 1
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// exp10(+inf)= inf
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// exp10(-inf)= 0
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//
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// Registers used
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//==============================================================
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// r2-r3, r14-r40
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// f6-f15, f32-f52
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// p6-p12
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//
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#include <shlib-compat.h>
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GR_TBL_START = r2
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GR_LOG_TBL = r3
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GR_OF_LIMIT = r14
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GR_UF_LIMIT = r15
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GR_EXP_CORR = r16
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GR_F_low = r17
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GR_F_high = r18
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GR_K = r19
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GR_Flow_ADDR = r20
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GR_BIAS = r21
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GR_Fh = r22
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GR_Fh_ADDR = r23
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GR_EXPMAX = r24
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GR_ROUNDVAL = r26
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GR_SNORM_LIMIT = r26
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GR_MASK = r27
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GR_KF0 = r28
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GR_MASK_low = r29
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GR_COEFF_START = r30
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GR_exact_limit = r31
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GR_SAVE_B0 = r33
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GR_SAVE_PFS = r34
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GR_SAVE_GP = r35
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GR_SAVE_SP = r36
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GR_Parameter_X = r37
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GR_Parameter_Y = r38
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GR_Parameter_RESULT = r39
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GR_Parameter_TAG = r40
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FR_X = f10
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FR_Y = f1
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FR_RESULT = f8
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FR_COEFF1 = f6
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FR_COEFF2 = f7
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FR_R = f9
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FR_LOG2_10 = f10
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FR_2P53 = f11
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FR_KF0 = f12
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FR_COEFF3 = f13
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FR_COEFF4 = f14
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FR_UF_LIMIT = f15
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FR_OF_LIMIT = f32
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FR_DX_L210 = f33
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FR_ROUNDVAL = f34
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FR_KF = f35
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FR_2_TO_K = f36
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FR_T_low = f37
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FR_T_high = f38
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FR_P12 = f41
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FR_T_low_K = f42
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FR_T = f44
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FR_P = f45
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FR_E = f49
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FR_exact_limit = f50
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FR_int_x = f51
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FR_SNORM_LIMIT = f52
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// Data tables
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//==============================================================
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RODATA
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.align 16
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LOCAL_OBJECT_START(poly_coeffs)
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data8 0xd49a784bcd1b8afe, 0x00003fcb // log2(10)*2^(10-63)
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data8 0xb17217f7d1cf79ab, 0x00004033 // C_1 * 2^53
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data8 0xf5fdeffc162c7541, 0x00004066 // C_2 * 2^106
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LOCAL_OBJECT_END(poly_coeffs)
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LOCAL_OBJECT_START(T_table)
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// 2^{0.00000 b6 b7 b8 b9 b10}
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data8 0x8000000000000000, 0x8016302f17467628
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data8 0x802c6436d0e04f50, 0x80429c17d77c18ed
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data8 0x8058d7d2d5e5f6b0, 0x806f17687707a7af
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data8 0x80855ad965e88b83, 0x809ba2264dada76a
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data8 0x80b1ed4fd999ab6c, 0x80c83c56b50cf77f
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data8 0x80de8f3b8b85a0af, 0x80f4e5ff089f763e
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data8 0x810b40a1d81406d4, 0x81219f24a5baa59d
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data8 0x813801881d886f7b, 0x814e67cceb90502c
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data8 0x8164d1f3bc030773, 0x817b3ffd3b2f2e47
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data8 0x8191b1ea15813bfd, 0x81a827baf7838b78
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data8 0x81bea1708dde6055, 0x81d51f0b8557ec1c
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data8 0x81eba08c8ad4536f, 0x820225f44b55b33b
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data8 0x8218af4373fc25eb, 0x822f3c7ab205c89a
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data8 0x8245cd9ab2cec048, 0x825c62a423d13f0c
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data8 0x8272fb97b2a5894c, 0x828998760d01faf3
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data8 0x82a0393fe0bb0ca8, 0x82b6ddf5dbc35906
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//
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// 2^{0.b1 b2 b3 b4 b5}
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data8 0x8000000000000000, 0x82cd8698ac2ba1d7
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data8 0x85aac367cc487b14, 0x88980e8092da8527
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data8 0x8b95c1e3ea8bd6e6, 0x8ea4398b45cd53c0
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data8 0x91c3d373ab11c336, 0x94f4efa8fef70961
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data8 0x9837f0518db8a96f, 0x9b8d39b9d54e5538
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data8 0x9ef5326091a111ad, 0xa27043030c496818
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data8 0xa5fed6a9b15138ea, 0xa9a15ab4ea7c0ef8
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data8 0xad583eea42a14ac6, 0xb123f581d2ac258f
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data8 0xb504f333f9de6484, 0xb8fbaf4762fb9ee9
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data8 0xbd08a39f580c36be, 0xc12c4cca66709456
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data8 0xc5672a115506dadd, 0xc9b9bd866e2f27a2
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data8 0xce248c151f8480e3, 0xd2a81d91f12ae45a
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data8 0xd744fccad69d6af4, 0xdbfbb797daf23755
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data8 0xe0ccdeec2a94e111, 0xe5b906e77c8348a8
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data8 0xeac0c6e7dd24392e, 0xefe4b99bdcdaf5cb
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data8 0xf5257d152486cc2c, 0xfa83b2db722a033a
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LOCAL_OBJECT_END(T_table)
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.section .text
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GLOBAL_IEEE754_ENTRY(exp10f)
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{.mfi
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alloc r32= ar.pfs, 1, 4, 4, 0
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// will continue only for non-zero normal/denormal numbers
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fclass.nm.unc p12, p7= f8, 0x1b
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nop.i 0
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}
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{.mlx
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// GR_TBL_START= pointer to log2(10), C_1...C_4 followed by T_table
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addl GR_TBL_START= @ltoff(poly_coeffs), gp
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movl GR_ROUNDVAL= 0x3fc00000 // 1.5 (SP)
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}
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;;
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{.mfi
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ld8 GR_COEFF_START= [ GR_TBL_START ] // Load pointer to coeff table
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fcmp.lt.s1 p6, p8= f8, f0 // X<0 ?
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nop.i 0
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}
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;;
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{.mlx
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nop.m 0
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movl GR_UF_LIMIT= 0xc2349e35 // (-2^7-22) / log2(10)
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}
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{.mlx
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setf.s FR_ROUNDVAL= GR_ROUNDVAL
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movl GR_OF_LIMIT= 0x421a209a // Overflow threshold
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}
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;;
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{.mlx
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ldfe FR_LOG2_10= [ GR_COEFF_START ], 16 // load log2(10)*2^(10-63)
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movl GR_SNORM_LIMIT= 0xc217b818 // Smallest normal threshold
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}
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{.mib
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nop.m 0
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nop.i 0
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(p12) br.cond.spnt SPECIAL_exp10 // Branch if nan, inf, zero
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}
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;;
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{.mfi
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setf.s FR_OF_LIMIT= GR_OF_LIMIT // Set overflow limit
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fma.s0 f8= f8, f1, f0 // normalize x
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nop.i 0
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}
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;;
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{.mfi
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setf.s FR_SNORM_LIMIT= GR_SNORM_LIMIT // Set smallest normal limit
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(p8) fcvt.fx.s1 FR_int_x = f8 // Convert x to integer
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nop.i 0
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}
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{.mfi
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setf.s FR_UF_LIMIT= GR_UF_LIMIT // Set underflow limit
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fma.s1 FR_KF0= f8, FR_LOG2_10, FR_ROUNDVAL // y= (x*log2(10)*2^10 +
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// 1.5*2^63) * 2^(-63)
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mov GR_EXP_CORR= 0xffff-126
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}
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;;
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{.mfi
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ldfe FR_COEFF1= [ GR_COEFF_START ], 16 // load C_1
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fms.s1 FR_KF= FR_KF0, f1, FR_ROUNDVAL // (K+f)*2^(10-63)
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mov GR_MASK= 1023
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}
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;;
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{.mfi
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ldfe FR_COEFF2= [ GR_COEFF_START ], 16 // load C_2
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nop.f 0
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mov GR_MASK_low= 31
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}
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;;
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{.mlx
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getf.sig GR_KF0= FR_KF0 // (K+f)*2^10= round_to_int(y)
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(p8) movl GR_exact_limit= 0x41200000 // Largest x for exact result,
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// +10.0
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}
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;;
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{.mfi
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add GR_LOG_TBL= 256, GR_COEFF_START // Pointer to high T_table
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fcmp.gt.s1 p12, p7= f8, FR_OF_LIMIT // x>overflow threshold ?
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nop.i 0
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}
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;;
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{.mfi
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(p8) setf.s FR_exact_limit = GR_exact_limit // Largest x for exact result
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(p8) fcvt.xf FR_int_x = FR_int_x // Integral part of x
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shr GR_K= GR_KF0, 10 // K
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}
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{.mfi
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and GR_F_high= GR_MASK, GR_KF0 // f_high*32
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fms.s1 FR_R= f8, FR_LOG2_10, FR_KF // r*2^(-53)= [ x*log2(10)-
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// (K+f) ] *2^{10-63}
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and GR_F_low= GR_KF0, GR_MASK_low // f_low
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}
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;;
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{.mmi
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shladd GR_Flow_ADDR= GR_F_low, 3, GR_COEFF_START // address of 2^{f_low}
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add GR_BIAS= GR_K, GR_EXP_CORR // K= bias-2*63
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shr GR_Fh= GR_F_high, 5 // f_high
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}
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;;
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{.mfi
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setf.exp FR_2_TO_K= GR_BIAS // 2^{K-126}
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(p7) fcmp.lt.s1 p12, p7= f8, FR_UF_LIMIT // x<underflow threshold ?
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shladd GR_Fh_ADDR= GR_Fh, 3, GR_LOG_TBL // address of 2^{f_high}
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}
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{.mfi
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ldf8 FR_T_low= [ GR_Flow_ADDR ] // load T_low= 2^{f_low}
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nop.f 0
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nop.i 0
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}
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;;
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{.mfb
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ldf8 FR_T_high= [ GR_Fh_ADDR ] // load T_high= 2^{f_high}
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fcmp.ge.s1 p11, p0= f8, FR_SNORM_LIMIT // Test x for normal range
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(p12) br.cond.spnt OUT_RANGE_exp10
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}
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;;
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{.mfi
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nop.m 0
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fma.s1 FR_P12= FR_COEFF2, FR_R, FR_COEFF1 // P12= C_1+C_2*r
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cmp.eq p7,p9= r0,r0 // Assume inexact result
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}
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;;
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{.mfi
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nop.m 0
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(p8) fcmp.eq.s1 p9,p7= FR_int_x, f8 // Test x positive integer
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nop.i 0
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}
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{.mfi
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nop.m 0
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fma.s1 FR_T_low_K= FR_T_low, FR_2_TO_K, f0 // T= 2^{K-126}*T_low
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nop.i 0
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}
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;;
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{.mfi
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nop.m 0
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fma.s1 FR_P= FR_P12, FR_R, f0 // P= P12*r
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nop.i 0
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}
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;;
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// If x a positive integer, will it produce an exact result?
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// p7 result will be inexact
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// p9 result will be exact
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|
{.mfi
|
|
nop.m 0
|
|
(p9) fcmp.le.s1 p9,p7= f8, FR_exact_limit // Test x gives exact result
|
|
nop.i 0
|
|
}
|
|
{.mfi
|
|
nop.m 0
|
|
fma.s1 FR_T= FR_T_low_K, FR_T_high, f0 // T= T*T_high
|
|
nop.i 0
|
|
}
|
|
;;
|
|
|
|
.pred.rel "mutex",p7,p9
|
|
{.mfi
|
|
nop.m 0
|
|
(p7) fma.s.s0 f8= FR_P, FR_T, FR_T // result= T+T*P, inexact set
|
|
nop.i 0
|
|
}
|
|
{.mfb
|
|
nop.m 0
|
|
(p9) fma.s.s1 f8= FR_P, FR_T, FR_T // result= T+T*P, exact use s1
|
|
(p11) br.ret.sptk b0 // return, if result normal
|
|
}
|
|
;;
|
|
|
|
// Here if result in denormal range (and not zero)
|
|
{.mib
|
|
nop.m 0
|
|
mov GR_Parameter_TAG= 266
|
|
br.cond.sptk __libm_error_region // Branch to error handling
|
|
}
|
|
;;
|
|
|
|
SPECIAL_exp10:
|
|
{.mfi
|
|
nop.m 0
|
|
fclass.m p6, p0= f8, 0x22 // x= -Infinity ?
|
|
nop.i 0
|
|
}
|
|
;;
|
|
|
|
{.mfi
|
|
nop.m 0
|
|
fclass.m p7, p0= f8, 0x21 // x= +Infinity ?
|
|
nop.i 0
|
|
}
|
|
;;
|
|
|
|
{.mfi
|
|
nop.m 0
|
|
fclass.m p8, p0= f8, 0x7 // x= +/-Zero ?
|
|
nop.i 0
|
|
}
|
|
{.mfb
|
|
nop.m 0
|
|
(p6) mov f8= f0 // exp10(-Infinity)= 0
|
|
(p6) br.ret.spnt b0
|
|
}
|
|
;;
|
|
|
|
{.mfb
|
|
nop.m 0
|
|
nop.f 0
|
|
(p7) br.ret.spnt b0 // exp10(+Infinity)= +Infinity
|
|
}
|
|
;;
|
|
|
|
{.mfb
|
|
nop.m 0
|
|
(p8) mov f8= f1 // exp10(+/-0)= 1
|
|
(p8) br.ret.spnt b0
|
|
}
|
|
;;
|
|
|
|
{.mfb
|
|
nop.m 0
|
|
fma.s.s0 f8= f8, f1, f0 // Remaining cases: NaNs
|
|
br.ret.sptk b0
|
|
}
|
|
;;
|
|
|
|
|
|
OUT_RANGE_exp10:
|
|
|
|
// underflow: p6= 1
|
|
// overflow: p8= 1
|
|
|
|
.pred.rel "mutex",p6,p8
|
|
{.mmi
|
|
(p8) mov GR_EXPMAX= 0x1fffe
|
|
(p6) mov GR_EXPMAX= 1
|
|
nop.i 0
|
|
}
|
|
;;
|
|
|
|
{.mii
|
|
setf.exp FR_R= GR_EXPMAX
|
|
(p8) mov GR_Parameter_TAG= 167
|
|
(p6) mov GR_Parameter_TAG= 266
|
|
}
|
|
;;
|
|
|
|
{.mfb
|
|
nop.m 0
|
|
fma.s.s0 f8= FR_R, FR_R, f0 // Create overflow/underflow
|
|
br.cond.sptk __libm_error_region // Branch to error handling
|
|
}
|
|
;;
|
|
|
|
GLOBAL_IEEE754_END(exp10f)
|
|
libm_alias_float_other (__exp10, exp10)
|
|
#if SHLIB_COMPAT (libm, GLIBC_2_1, GLIBC_2_27)
|
|
compat_symbol (libm, exp10f, pow10f, GLIBC_2_2)
|
|
#endif
|
|
|
|
|
|
LOCAL_LIBM_ENTRY(__libm_error_region)
|
|
|
|
.prologue
|
|
{.mfi
|
|
add GR_Parameter_Y= -32, sp // Parameter 2 value
|
|
nop.f 0
|
|
.save ar.pfs, GR_SAVE_PFS
|
|
mov GR_SAVE_PFS= ar.pfs // Save ar.pfs
|
|
}
|
|
|
|
{.mfi
|
|
.fframe 64
|
|
add sp= -64, sp // Create new stack
|
|
nop.f 0
|
|
mov GR_SAVE_GP= gp // Save gp
|
|
}
|
|
;;
|
|
|
|
{.mmi
|
|
stfs [ GR_Parameter_Y ]= FR_Y, 16 // STORE Parameter 2 on stack
|
|
add GR_Parameter_X= 16, sp // Parameter 1 address
|
|
.save b0, GR_SAVE_B0
|
|
mov GR_SAVE_B0= b0 // Save b0
|
|
}
|
|
;;
|
|
|
|
.body
|
|
{.mib
|
|
stfs [ GR_Parameter_X ]= FR_X // STORE Parameter 1 on stack
|
|
add GR_Parameter_RESULT= 0, GR_Parameter_Y // Parameter 3 address
|
|
nop.b 0
|
|
}
|
|
{.mib
|
|
stfs [ GR_Parameter_Y ]= FR_RESULT // STORE Parameter 3 on stack
|
|
add GR_Parameter_Y= -16, GR_Parameter_Y
|
|
br.call.sptk b0= __libm_error_support# // Call error handling function
|
|
}
|
|
;;
|
|
|
|
{.mmi
|
|
add GR_Parameter_RESULT= 48, sp
|
|
nop.m 0
|
|
nop.i 0
|
|
}
|
|
;;
|
|
|
|
{.mmi
|
|
ldfs f8= [ GR_Parameter_RESULT ] // Get return result off stack
|
|
.restore sp
|
|
add sp= 64, sp // Restore stack pointer
|
|
mov b0= GR_SAVE_B0 // Restore return address
|
|
}
|
|
;;
|
|
|
|
{.mib
|
|
mov gp= GR_SAVE_GP // Restore gp
|
|
mov ar.pfs= GR_SAVE_PFS // Restore ar.pfs
|
|
br.ret.sptk b0 // Return
|
|
}
|
|
;;
|
|
|
|
|
|
LOCAL_LIBM_END(__libm_error_region)
|
|
|
|
.type __libm_error_support#, @function
|
|
.global __libm_error_support#
|