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-.file "erff.s"
-
-
-// Copyright (c) 2001 - 2005, Intel Corporation
-// All rights reserved.
-//
-// Contributed 2001 by the Intel Numerics Group, Intel Corporation
-//
-// Redistribution and use in source and binary forms, with or without
-// modification, are permitted provided that the following conditions are
-// met:
-//
-// * Redistributions of source code must retain the above copyright
-// notice, this list of conditions and the following disclaimer.
-//
-// * Redistributions in binary form must reproduce the above copyright
-// notice, this list of conditions and the following disclaimer in the
-// documentation and/or other materials provided with the distribution.
-//
-// * The name of Intel Corporation may not be used to endorse or promote
-// products derived from this software without specific prior written
-// permission.
-
-// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL INTEL OR ITS
-// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
-// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
-// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
-// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
-// OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY OR TORT (INCLUDING
-// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-//
-// Intel Corporation is the author of this code, and requests that all
-// problem reports or change requests be submitted to it directly at
-// http://www.intel.com/software/products/opensource/libraries/num.htm.
-//
-// History
-//==============================================================
-// 08/14/01 Initial version
-// 05/20/02 Cleaned up namespace and sf0 syntax
-// 02/06/03 Reordered header: .section, .global, .proc, .align
-// 03/31/05 Reformatted delimiters between data tables
-//
-// API
-//==============================================================
-// float erff(float)
-//
-// Overview of operation
-//==============================================================
-// Background
-//
-//
-// There are 8 paths:
-// 1. x = +/-0.0
-// Return erff(x) = +/-0.0
-//
-// 2. 0.0 < |x| < 0.125
-// Return erff(x) = x *Pol3(x^2),
-// where Pol3(x^2) = C3*x^6 + C2*x^4 + C1*x^2 + C0
-//
-// 3. 0.125 <= |x| < 4.0
-// Return erff(x) = sign(x)*PolD(x)*PolC(|x|) + sign(x)*PolA(|x|),
-// where sign(x)*PolD(x) = sign(x)*(|x|^7 + D2*x^6 + D1*|x|^5 + D0*x^4),
-// PolC(|x|) = B0*x^4 + C3*|x|^3 + C2*|x|^2 + C1*|x| + C0,
-// PolA(|x|) = A3|x|^3 + A2*x^2 + A1*|x| + A0
-//
-// Actually range 0.125<=|x|< 4.0 is splitted to 5 subranges.
-// For each subrange there is particular set of coefficients.
-// Below is the list of subranges:
-// 3.1 0.125 <= |x| < 0.25
-// 3.2 0.25 <= |x| < 0.5
-// 3.3 0.5 <= |x| < 1.0
-// 3.4 1.0 <= |x| < 2.0
-// 3.5 2.0 <= |x| < 4.0
-//
-// 4. 4.0 <= |x| < +INF
-// Return erff(x) = sign(x)*(1.0d - 2^(-52))
-//
-// 5. |x| = INF
-// Return erff(x) = sign(x) * 1.0
-//
-// 6. x = [S,Q]NaN
-// Return erff(x) = QNaN
-//
-// 7. x is positive denormal
-// Return erff(x) = C0*x - x^2,
-// where C0 = 2.0/sqrt(Pi)
-//
-// 8. x is negative denormal
-// Return erff(x) = C0*x + x^2,
-// where C0 = 2.0/sqrt(Pi)
-//
-// Registers used
-//==============================================================
-// Floating Point registers used:
-// f8, input
-// f32 -> f59
-
-// General registers used:
-// r32 -> r45, r2, r3
-
-// Predicate registers used:
-// p0, p6 -> p12, p14, p15
-
-// p6 to filter out case when x = [Q,S]NaN or +/-0
-// p7 to filter out case when x = denormal
-// p8 set if |x| >= 0.3125, used also to process denormal input
-// p9 to filter out case when |x| = inf
-// p10 to filter out case when |x| < 0.125
-// p11 to filter out case when 0.125 <= |x| < 4.0
-// p12 to filter out case when |x| >= 4.0
-// p14 set to 1 for positive x
-// p15 set to 1 for negative x
-
-// Assembly macros
-//==============================================================
-rDataPtr = r2
-rDataPtr1 = r3
-
-rBias = r33
-rCoeffAddr3 = r34
-rCoeffAddr1 = r35
-rCoeffAddr2 = r36
-rOffset2 = r37
-rBias2 = r38
-rMask = r39
-rArg = r40
-rBound = r41
-rSignBit = r42
-rAbsArg = r43
-rDataPtr2 = r44
-rSaturation = r45
-
-//==============================================================
-fA0 = f32
-fA1 = f33
-fA2 = f34
-fA3 = f35
-fC0 = f36
-fC1 = f37
-fC2 = f38
-fC3 = f39
-fD0 = f40
-fD1 = f41
-fD2 = f42
-fB0 = f43
-fArgSqr = f44
-fAbsArg = f45
-fSignumX = f46
-fArg4 = f47
-fArg4Sgn = f48
-fArg3 = f49
-fArg3Sgn = f50
-fArg7Sgn = f51
-fArg6Sgn = f52
-fPolC = f53
-fPolCTmp = f54
-fPolA = f55
-fPolATmp = f56
-fPolD = f57
-fPolDTmp = f58
-fArgSqrSgn = f59
-
-// Data tables
-//==============================================================
-
-RODATA
-
-.align 16
-
-LOCAL_OBJECT_START(erff_data)
-// Polynomial coefficients for the erf(x), 0.125 <= |x| < 0.25
-data8 0xBE4218BB56B49E66 // C0
-data8 0x3F7AFB8315DA322B // C1
-data8 0x3F615D6EBEE0CA32 // C2
-data8 0xBF468D71CF4F0918 // C3
-data8 0x40312115B0932F24 // D0
-data8 0xC0160D6CD0991EA3 // D1
-data8 0xBFE04A567A6DBE4A // D2
-data8 0xBF4207BC640D1509 // B0
-// Polynomial coefficients for the erf(x), 0.25 <= |x| < 0.5
-data8 0x3F90849356383F58 // C0
-data8 0x3F830BD5BA240F09 // C1
-data8 0xBF3FA4970E2BCE23 // C2
-data8 0xBF6061798E58D0FD // C3
-data8 0xBF68C0D83DD22E02 // D0
-data8 0x401C0A9EE4108F94 // D1
-data8 0xC01056F9B5E387F5 // D2
-data8 0x3F1C9744E36A5706 // B0
-// Polynomial coefficients for the erf(x), 0.5 <= |x| < 1.0
-data8 0x3F85F7D419A13DE3 // C0
-data8 0x3F791A13FF66D45A // C1
-data8 0x3F46B17B16B5929F // C2
-data8 0xBF5124947A8BF45E // C3
-data8 0x3FA1B3FD95EA9564 // D0
-data8 0x40250CECD79A020A // D1
-data8 0xC0190DC96FF66CCD // D2
-data8 0x3F4401AE28BA4DD5 // B0
-// Polynomial coefficients for the erf(x), 1.0 <= |x| < 2.0
-data8 0xBF49E07E3584C3AE // C0
-data8 0x3F3166621131445C // C1
-data8 0xBF65B7FC1EAC2099 // C2
-data8 0x3F508C6BD211D736 // C3
-data8 0xC053FABD70601067 // D0
-data8 0x404A06640EE87808 // D1
-data8 0xC0283F30817A3F08 // D2
-data8 0xBF2F6DBBF4D6257F // B0
-// Polynomial coefficients for the erf(x), 2.0 <= |x| < 4.0
-data8 0xBF849855D67E9407 // C0
-data8 0x3F5ECA5FEC01C70C // C1
-data8 0xBF483110C30FABA4 // C2
-data8 0x3F1618DA72860403 // C3
-data8 0xC08A5C9D5FE8B9F6 // D0
-data8 0x406EFF5F088CEC4B // D1
-data8 0xC03A5743DF38FDE0 // D2
-data8 0xBEE397A9FA5686A2 // B0
-// Polynomial coefficients for the erf(x), -0.125 < x < 0.125
-data8 0x3FF20DD7504270CB // C0
-data8 0xBFD8127465AFE719 // C1
-data8 0x3FBCE2D77791DD77 // C2
-data8 0xBF9B582755CDF345 // C3
-// Polynomial coefficients for the erf(x), 0.125 <= |x| < 0.25
-data8 0xBD54E7E451AF0E36 // A0
-data8 0x3FF20DD75043FE20 // A1
-data8 0xBE05680ACF8280E4 // A2
-data8 0xBFD812745E92C3D3 // A3
-// Polynomial coefficients for the erf(x), 0.25 <= |x| < 0.5
-data8 0xBE1ACEC2859CB55F // A0
-data8 0x3FF20DD75E8D2B64 // A1
-data8 0xBEABC6A83208FCFC // A2
-data8 0xBFD81253E42E7B99 // A3
-// Polynomial coefficients for the erf(x), 0.5 <= |x| < 1.0
-data8 0x3EABD5A2482B4979 // A0
-data8 0x3FF20DCAA52085D5 // A1
-data8 0x3F13A994A348795B // A2
-data8 0xBFD8167B2DFCDE44 // A3
-// Polynomial coefficients for the erf(x), 1.0 <= |x| < 2.0
-data8 0xBF5BA377DDAB4E17 // A0
-data8 0x3FF2397F1D8FC0ED // A1
-data8 0xBF9945BFC1915C21 // A2
-data8 0xBFD747AAABB690D8 // A3
-// Polynomial coefficients for the erf(x), 2.0 <= |x| < 4.0
-data8 0x3FF0E2920E0391AF // A0
-data8 0xC00D249D1A95A5AE // A1
-data8 0x40233905061C3803 // A2
-data8 0xC027560B851F7690 // A3
-//
-data8 0x3FEFFFFFFFFFFFFF // 1.0 - epsilon
-data8 0x3FF20DD750429B6D // C0 = 2.0/sqrt(Pi)
-LOCAL_OBJECT_END(erff_data)
-
-
-.section .text
-GLOBAL_LIBM_ENTRY(erff)
-
-{ .mfi
- alloc r32 = ar.pfs, 0, 14, 0, 0
- fmerge.s fAbsArg = f1, f8 // |x|
- addl rMask = 0x806, r0
-}
-{ .mfi
- addl rDataPtr = @ltoff(erff_data), gp
- fma.s1 fArgSqr = f8, f8, f0 // x^2
- adds rSignBit = 0x1, r0
-}
-;;
-
-{ .mfi
- getf.s rArg = f8 // x in GR
- fclass.m p7,p0 = f8, 0x0b // is x denormal ?
- // sign bit and 2 most bits in significand
- shl rMask = rMask, 20
-}
-{ .mfi
- ld8 rDataPtr = [rDataPtr]
- nop.f 0
- adds rBias2 = 0x1F0, r0
-}
-;;
-
-{ .mfi
- nop.m 0
- fmerge.s fSignumX = f8, f1 // signum(x)
- shl rSignBit = rSignBit, 31 // mask for sign bit
-}
-{ .mfi
- adds rBound = 0x3E0, r0
- nop.f 0
- adds rSaturation = 0x408, r0
-}
-;;
-
-{ .mfi
- andcm rOffset2 = rArg, rMask
- fclass.m p6,p0 = f8, 0xc7 // is x [S,Q]NaN or +/-0 ?
- shl rBound = rBound, 20 // 0.125f in GR
-}
-{ .mfb
- andcm rAbsArg = rArg, rSignBit // |x| in GR
- nop.f 0
-(p7) br.cond.spnt erff_denormal // branch out if x is denormal
-}
-;;
-
-{ .mfi
- adds rCoeffAddr2 = 352, rDataPtr
- fclass.m p9,p0 = f8, 0x23 // is x +/- inf?
- shr rOffset2 = rOffset2, 21
-}
-{ .mfi
- cmp.lt p10, p8 = rAbsArg, rBound // |x| < 0.125?
- nop.f 0
- adds rCoeffAddr3 = 16, rDataPtr
-}
-;;
-
-{ .mfi
-(p8) sub rBias = rOffset2, rBias2
- fma.s1 fArg4 = fArgSqr, fArgSqr, f0 // x^4
- shl rSaturation = rSaturation, 20// 4.0 in GR (saturation bound)
-}
-{ .mfb
-(p10) adds rBias = 0x14, r0
-(p6) fma.s.s0 f8 = f8,f1,f8 // NaN or +/-0
-(p6) br.ret.spnt b0 // exit for x = NaN or +/-0
-}
-;;
-
-{ .mfi
- shladd rCoeffAddr1 = rBias, 4, rDataPtr
- fma.s1 fArg3Sgn = fArgSqr, f8, f0 // sign(x)*|x|^3
- // is |x| < 4.0?
- cmp.lt p11, p12 = rAbsArg, rSaturation
-}
-{ .mfi
- shladd rCoeffAddr3 = rBias, 4, rCoeffAddr3
- fma.s1 fArg3 = fArgSqr, fAbsArg, f0 // |x|^3
- shladd rCoeffAddr2 = rBias, 3, rCoeffAddr2
-}
-;;
-
-{ .mfi
-(p11) ldfpd fC0, fC1 = [rCoeffAddr1]
-(p9) fmerge.s f8 = f8,f1 // +/- inf
-(p12) adds rDataPtr = 512, rDataPtr
-}
-{ .mfb
-(p11) ldfpd fC2, fC3 = [rCoeffAddr3], 16
- nop.f 0
-(p9) br.ret.spnt b0 // exit for x = +/- inf
-}
-;;
-
-{ .mfi
-(p11) ldfpd fA0, fA1 = [rCoeffAddr2], 16
- nop.f 0
- nop.i 0
-}
-{ .mfi
- add rCoeffAddr1 = 48, rCoeffAddr1
- nop.f 0
- nop.i 0
-}
-;;
-
-{ .mfi
-(p11) ldfpd fD0, fD1 = [rCoeffAddr3]
- nop.f 0
- nop.i 0
-}
-{ .mfb
-(p11) ldfpd fD2, fB0 = [rCoeffAddr1]
- // sign(x)*|x|^2
- fma.s1 fArgSqrSgn = fArgSqr, fSignumX, f0
-(p10) br.cond.spnt erff_near_zero
-}
-;;
-
-{ .mfi
-(p11) ldfpd fA2, fA3 = [rCoeffAddr2], 16
- fcmp.lt.s1 p15, p14 = f8,f0
- nop.i 0
-}
-{ .mfb
-(p12) ldfd fA0 = [rDataPtr]
- fma.s1 fArg4Sgn = fArg4, fSignumX, f0 // sign(x)*|x|^4
-(p12) br.cond.spnt erff_saturation
-}
-;;
-{ .mfi
- nop.m 0
- fma.s1 fArg7Sgn = fArg4, fArg3Sgn, f0 // sign(x)*|x|^7
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fArg6Sgn = fArg3, fArg3Sgn, f0 // sign(x)*|x|^6
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fma.s1 fPolC = fC3, fAbsArg, fC2 // C3*|x| + C2
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fPolCTmp = fC1, fAbsArg, fC0 // C1*|x| + C0
- nop.i 0
-};;
-
-{ .mfi
- nop.m 0
- fma.s1 fPolA = fA1, fAbsArg, fA0 // A1*|x| + A0
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fma.s1 fPolD = fD1, fAbsArg, fD0 // D1*|x| + D0
- nop.i 0
-}
-{ .mfi
- nop.m 0
- // sign(x)*(|x|^7 + D2*x^6)
- fma.s1 fPolDTmp = fArg6Sgn, fD2, fArg7Sgn
- nop.i 0
-};;
-
-{ .mfi
- nop.m 0
- fma.s1 fPolATmp = fA3, fAbsArg, fA2 // A3*|x| + A2
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fB0 = fB0, fArg4, f0 // B0*x^4
- nop.i 0
-};;
-
-{ .mfi
- nop.m 0
- // C3*|x|^3 + C2*x^2 + C1*|x| + C0
- fma.s1 fPolC = fPolC, fArgSqr, fPolCTmp
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- // PolD = sign(x)*(|x|^7 + D2*x^6 + D1*|x|^5 + D0*x^4)
- fma.d.s1 fPolD = fPolD, fArg4Sgn, fPolDTmp
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- // PolA = A3|x|^3 + A2*x^2 + A1*|x| + A0
- fma.d.s1 fPolA = fPolATmp, fArgSqr, fPolA
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- // PolC = B0*x^4 + C3*|x|^3 + C2*|x|^2 + C1*|x| + C0
- fma.d.s1 fPolC = fPolC, f1, fB0
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
-(p14) fma.s.s0 f8 = fPolC, fPolD, fPolA // for positive x
- nop.i 0
-}
-{ .mfb
- nop.m 0
-(p15) fms.s.s0 f8 = fPolC, fPolD, fPolA // for negative x
- br.ret.sptk b0 // Exit for 0.125 <=|x|< 4.0
-};;
-
-
-// Here if |x| < 0.125
-erff_near_zero:
-{ .mfi
- nop.m 0
- fma.s1 fPolC = fC3, fArgSqr, fC2 // C3*x^2 + C2
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fPolCTmp = fC1, fArgSqr, fC0 // C1*x^2 + C0
- nop.i 0
-};;
-
-{ .mfi
- nop.m 0
- fma.s1 fPolC = fPolC, fArg4, fPolCTmp // C3*x^6 + C2*x^4 + C1*x^2 + C0
- nop.i 0
-};;
-
-{ .mfb
- nop.m 0
- // x*(C3*x^6 + C2*x^4 + C1*x^2 + C0)
- fma.s.s0 f8 = fPolC, f8, f0
- br.ret.sptk b0 // Exit for |x| < 0.125
-};;
-
-// Here if 4.0 <= |x| < +inf
-erff_saturation:
-{ .mfb
- nop.m 0
- fma.s.s0 f8 = fA0, fSignumX, f0 // sign(x)*(1.0d - 2^(-52))
- // Exit for 4.0 <= |x| < +inf
- br.ret.sptk b0 // Exit for 4.0 <=|x|< +inf
-}
-;;
-
-// Here if x is single precision denormal
-erff_denormal:
-{ .mfi
- adds rDataPtr = 520, rDataPtr // address of C0
- fclass.m p7,p8 = f8, 0x0a // is x -denormal ?
- nop.i 0
-}
-;;
-{ .mfi
- ldfd fC0 = [rDataPtr] // C0
- nop.f 0
- nop.i 0
-}
-;;
-{ .mfi
- nop.m 0
- fma.s1 fC0 = fC0,f8,f0 // C0*x
- nop.i 0
-}
-;;
-{ .mfi
- nop.m 0
-(p7) fma.s.s0 f8 = f8,f8,fC0 // -denormal
- nop.i 0
-}
-{ .mfb
- nop.m 0
-(p8) fnma.s.s0 f8 = f8,f8,fC0 // +denormal
- br.ret.sptk b0 // Exit for denormal
-}
-;;
-
-GLOBAL_LIBM_END(erff)