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-.file "atanhf.s"
-
-
-// Copyright (c) 2000 - 2003, Intel Corporation
-// All rights reserved.
-//
-// Contributed 2000 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
-//==============================================================
-// 05/22/01 Initial version
-// 05/20/02 Cleaned up namespace and sf0 syntax
-// 08/06/02 Improved Itanium 2 performance
-// 02/06/03 Reordered header: .section, .global, .proc, .align
-// 05/26/03 Improved performance, fixed to handle unorms
-//
-// API
-//==============================================================
-// float atanhf(float)
-//
-// Overview of operation
-//==============================================================
-// Background
-//
-//
-// There are 7 paths:
-// 1. x = +/-0.0
-// Return atanhf(x) = +/-0.0
-//
-// 2. 0.0 < |x| <= MAX_DENORMAL_ABS
-// Return atanhf(x) = x + sign(x)*x^2
-//
-// 3. MAX_DENORMAL_ABS < |x| < 2^(-20)
-// Return atanhf(x) = Pol3(x), where Pol3(x) = x + x^3
-//
-// 4. 2^(-20) <= |x| < 1
-// Return atanhf(x) = 0.5 * (log(1 + x) - log(1 - x))
-// Algorithm description for log function see below.
-//
-// 5. |x| = 1
-// Return atanhf(x) = sign(x) * +INF
-//
-// 6. 1 < |x| <= +INF
-// Return atanhf(x) = QNaN
-//
-// 7. x = [S,Q]NaN
-// Return atanhf(x) = QNaN
-//
-//==============================================================
-// Algorithm Description for log(x) function
-//
-// Consider x = 2^N * 1.f1 f2 f3 f4...f63
-// log(x) = log(x * frcpa(x) / frcpa(x))
-// = log(x * frcpa(x)) + log(1/frcpa(x))
-// = log(x * frcpa(x)) - log(frcpa(x))
-//
-// frcpa(x) = 2^(-N) * frcpa(1.f1 f2 ... f63)
-//
-// -log(frcpa(x)) = -log(C)
-// = -log(2^(-N)) - log(frcpa(1.f1 f2 ... f63))
-//
-// -log(frcpa(x)) = -log(C)
-// = N*log2 - log(frcpa(1.f1 f2 ... f63))
-//
-//
-// log(x) = log(1/frcpa(x)) + log(frcpa(x) x)
-//
-// log(x) = N*log2 + log(1./frcpa(1.f1 f2 ... f63)) + log(x * frcpa(x))
-// log(x) = N*log2 + T + log(frcpa(x) x)
-//
-// Log(x) = N*log2 + T + log(C * x)
-//
-// C * x = 1 + r
-//
-// log(x) = N*log2 + T + log(1 + r)
-// log(x) = N*log2 + T + Series(r)
-//
-// 1.f1 f2 ... f8 has 256 entries.
-// They are 1 + k/2^8, k = 0 ... 255
-// These 256 values are the table entries.
-//
-// Implementation
-//==============================================================
-// C = frcpa(x)
-// r = C * x - 1
-//
-// Form rseries = r + P1*r^2 + P2*r^3 + P3*r^4
-//
-// x = f * 2*N where f is 1.f_1f_2f_3...f_63
-// Nfloat = float(n) where n is the true unbiased exponent
-// pre-index = f_1f_2....f_8
-// index = pre_index * 16
-// get the dxt table entry at index + offset = T
-//
-// result = (T + Nfloat * log(2)) + rseries
-//
-// The T table is calculated as follows
-// Form x_k = 1 + k/2^8 where k goes from 0... 255
-// y_k = frcpa(x_k)
-// log(1/y_k) in quad and round to double-extended
-
-// Registers used
-//==============================================================
-// Floating Point registers used:
-// f8, input
-// f32 -> f59
-
-// General registers used:
-// r14 -> r29, r32 -> r39
-
-// Predicate registers used:
-// p6 -> p9
-
-// p6 to filter out case when |x| >= 1
-// p7 to filter out case when x = [Q,S]NaN or +/-0
-// p8 to filter out case when |x| < 2^(-20)
-// p9 to filter out case when x = denormal
-
-
-// Assembly macros
-//==============================================================
-DataPtr = r14
-RcpTablePtrM = r15
-RcpTablePtrP = r16
-rExpbMask = r17
-rBias = r18
-rNearZeroBound = r19
-rArgSExpb = r20
-rArgExpb = r21
-rExpbm = r22
-rExpbp = r23
-rSigm = r24
-rSigp = r25
-rNm = r26
-rNp = r27
-rIndm = r28
-rIndp = r29
-
-GR_SAVE_B0 = r33
-GR_SAVE_GP = r34
-GR_SAVE_PFS = r35
-
-GR_Parameter_X = r36
-GR_Parameter_Y = r37
-GR_Parameter_RESULT = r38
-atanh_GR_tag = r39
-
-//==============================================================
-fOneMx = f33
-fOnePx = f34
-fRm2 = f35
-fRm3 = f36
-fRp2 = f37
-fRp3 = f38
-fRcpM = f39
-fRcpP = f40
-fRp = f41
-fRm = f42
-fN4CvtM = f43
-fN4CvtP = f44
-fNm = f45
-fNp = f46
-fLogTm = f47
-fLogTp = f48
-fLog2 = f49
-fArgAbs = f50
-fNormX = f50
-fP32m = f51
-fP32p = f52
-fP10m = f53
-fP10p = f54
-fX2 = f55
-fP3 = f56
-fP2 = f57
-fP1 = f58
-fHalf = f59
-
-
-
-// Data tables
-//==============================================================
-
-RODATA
-
-.align 16
-
-LOCAL_OBJECT_START(atanhf_data)
-data8 0xbfc0001008f39d59 // P3*0.5
-data8 0x3fc5556073e0c45a // P2*0.5
-data8 0xbfcffffffffaea15 // P1*0.5
-data8 0x3fe0000000000000 // 0.5
-data8 0x3fd62e42fefa39ef // 0.5*ln(2)
-data8 0x0000000000000000 // pad
-LOCAL_OBJECT_END(atanhf_data)
-
-LOCAL_OBJECT_START(atanhf_data2)
-data8 0x3f50040155d5889e //log(1/frcpa(1+0/256))/2
-data8 0x3f68121214586b54 //log(1/frcpa(1+1/256))/2
-data8 0x3f741929f96832f0 //log(1/frcpa(1+2/256))/2
-data8 0x3f7c317384c75f06 //log(1/frcpa(1+3/256))/2
-data8 0x3f81a6b91ac73386 //log(1/frcpa(1+4/256))/2
-data8 0x3f85ba9a5d9ac039 //log(1/frcpa(1+5/256))/2
-data8 0x3f89d2a8074325f4 //log(1/frcpa(1+6/256))/2
-data8 0x3f8d6b2725979802 //log(1/frcpa(1+7/256))/2
-data8 0x3f90c58fa19dfaaa //log(1/frcpa(1+8/256))/2
-data8 0x3f92954c78cbce1b //log(1/frcpa(1+9/256))/2
-data8 0x3f94a94d2da96c56 //log(1/frcpa(1+10/256))/2
-data8 0x3f967c94f2d4bb58 //log(1/frcpa(1+11/256))/2
-data8 0x3f985188b630f068 //log(1/frcpa(1+12/256))/2
-data8 0x3f9a6b8abe73af4c //log(1/frcpa(1+13/256))/2
-data8 0x3f9c441e06f72a9e //log(1/frcpa(1+14/256))/2
-data8 0x3f9e1e6713606d07 //log(1/frcpa(1+15/256))/2
-data8 0x3f9ffa6911ab9301 //log(1/frcpa(1+16/256))/2
-data8 0x3fa0ec139c5da601 //log(1/frcpa(1+17/256))/2
-data8 0x3fa1dbd2643d190b //log(1/frcpa(1+18/256))/2
-data8 0x3fa2cc7284fe5f1c //log(1/frcpa(1+19/256))/2
-data8 0x3fa3bdf5a7d1ee64 //log(1/frcpa(1+20/256))/2
-data8 0x3fa4b05d7aa012e0 //log(1/frcpa(1+21/256))/2
-data8 0x3fa580db7ceb5702 //log(1/frcpa(1+22/256))/2
-data8 0x3fa674f089365a7a //log(1/frcpa(1+23/256))/2
-data8 0x3fa769ef2c6b568d //log(1/frcpa(1+24/256))/2
-data8 0x3fa85fd927506a48 //log(1/frcpa(1+25/256))/2
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-data8 0x3faa2b0220c8e5f5 //log(1/frcpa(1+27/256))/2
-data8 0x3fab0004ac1a86ac //log(1/frcpa(1+28/256))/2
-data8 0x3fabf968769fca11 //log(1/frcpa(1+29/256))/2
-data8 0x3faccfedbfee13a8 //log(1/frcpa(1+30/256))/2
-data8 0x3fada727638446a2 //log(1/frcpa(1+31/256))/2
-data8 0x3faea3257fe10f7a //log(1/frcpa(1+32/256))/2
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-data8 0x3fb097ce579d204d //log(1/frcpa(1+35/256))/2
-data8 0x3fb1178e8227e47c //log(1/frcpa(1+36/256))/2
-data8 0x3fb185747dbecf34 //log(1/frcpa(1+37/256))/2
-data8 0x3fb1f3b925f25d41 //log(1/frcpa(1+38/256))/2
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-data8 0x3fb2d1610c86813a //log(1/frcpa(1+40/256))/2
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-data8 0x3fcf2391a2157600 //log(1/frcpa(1+160/256))/2
-data8 0x3fcf4aa7ee03192d //log(1/frcpa(1+161/256))/2
-data8 0x3fcf71d627c30bb0 //log(1/frcpa(1+162/256))/2
-data8 0x3fcf991c6cb3b379 //log(1/frcpa(1+163/256))/2
-data8 0x3fcfc07ada69a910 //log(1/frcpa(1+164/256))/2
-data8 0x3fcfe7f18eb03d3e //log(1/frcpa(1+165/256))/2
-data8 0x3fd007c053c5002e //log(1/frcpa(1+166/256))/2
-data8 0x3fd01b942198a5a1 //log(1/frcpa(1+167/256))/2
-data8 0x3fd02f74400c64eb //log(1/frcpa(1+168/256))/2
-data8 0x3fd04360be7603ad //log(1/frcpa(1+169/256))/2
-data8 0x3fd05759ac47fe34 //log(1/frcpa(1+170/256))/2
-data8 0x3fd06b5f1911cf52 //log(1/frcpa(1+171/256))/2
-data8 0x3fd078bf0533c568 //log(1/frcpa(1+172/256))/2
-data8 0x3fd08cd9687e7b0e //log(1/frcpa(1+173/256))/2
-data8 0x3fd0a10074cf9019 //log(1/frcpa(1+174/256))/2
-data8 0x3fd0b5343a234477 //log(1/frcpa(1+175/256))/2
-data8 0x3fd0c974c89431ce //log(1/frcpa(1+176/256))/2
-data8 0x3fd0ddc2305b9886 //log(1/frcpa(1+177/256))/2
-data8 0x3fd0eb524bafc918 //log(1/frcpa(1+178/256))/2
-data8 0x3fd0ffb54213a476 //log(1/frcpa(1+179/256))/2
-data8 0x3fd114253da97d9f //log(1/frcpa(1+180/256))/2
-data8 0x3fd128a24f1d9aff //log(1/frcpa(1+181/256))/2
-data8 0x3fd1365252bf0865 //log(1/frcpa(1+182/256))/2
-data8 0x3fd14ae558b4a92d //log(1/frcpa(1+183/256))/2
-data8 0x3fd15f85a19c765b //log(1/frcpa(1+184/256))/2
-data8 0x3fd16d4d38c119fa //log(1/frcpa(1+185/256))/2
-data8 0x3fd18203c20dd133 //log(1/frcpa(1+186/256))/2
-data8 0x3fd196c7bc4b1f3b //log(1/frcpa(1+187/256))/2
-data8 0x3fd1a4a738b7a33c //log(1/frcpa(1+188/256))/2
-data8 0x3fd1b981c0c9653d //log(1/frcpa(1+189/256))/2
-data8 0x3fd1ce69e8bb106b //log(1/frcpa(1+190/256))/2
-data8 0x3fd1dc619de06944 //log(1/frcpa(1+191/256))/2
-data8 0x3fd1f160a2ad0da4 //log(1/frcpa(1+192/256))/2
-data8 0x3fd2066d7740737e //log(1/frcpa(1+193/256))/2
-data8 0x3fd2147dba47a394 //log(1/frcpa(1+194/256))/2
-data8 0x3fd229a1bc5ebac3 //log(1/frcpa(1+195/256))/2
-data8 0x3fd237c1841a502e //log(1/frcpa(1+196/256))/2
-data8 0x3fd24cfce6f80d9a //log(1/frcpa(1+197/256))/2
-data8 0x3fd25b2c55cd5762 //log(1/frcpa(1+198/256))/2
-data8 0x3fd2707f4d5f7c41 //log(1/frcpa(1+199/256))/2
-data8 0x3fd285e0842ca384 //log(1/frcpa(1+200/256))/2
-data8 0x3fd294294708b773 //log(1/frcpa(1+201/256))/2
-data8 0x3fd2a9a2670aff0c //log(1/frcpa(1+202/256))/2
-data8 0x3fd2b7fb2c8d1cc1 //log(1/frcpa(1+203/256))/2
-data8 0x3fd2c65a6395f5f5 //log(1/frcpa(1+204/256))/2
-data8 0x3fd2dbf557b0df43 //log(1/frcpa(1+205/256))/2
-data8 0x3fd2ea64c3f97655 //log(1/frcpa(1+206/256))/2
-data8 0x3fd3001823684d73 //log(1/frcpa(1+207/256))/2
-data8 0x3fd30e97e9a8b5cd //log(1/frcpa(1+208/256))/2
-data8 0x3fd32463ebdd34ea //log(1/frcpa(1+209/256))/2
-data8 0x3fd332f4314ad796 //log(1/frcpa(1+210/256))/2
-data8 0x3fd348d90e7464d0 //log(1/frcpa(1+211/256))/2
-data8 0x3fd35779f8c43d6e //log(1/frcpa(1+212/256))/2
-data8 0x3fd36621961a6a99 //log(1/frcpa(1+213/256))/2
-data8 0x3fd37c299f3c366a //log(1/frcpa(1+214/256))/2
-data8 0x3fd38ae2171976e7 //log(1/frcpa(1+215/256))/2
-data8 0x3fd399a157a603e7 //log(1/frcpa(1+216/256))/2
-data8 0x3fd3afccfe77b9d1 //log(1/frcpa(1+217/256))/2
-data8 0x3fd3be9d503533b5 //log(1/frcpa(1+218/256))/2
-data8 0x3fd3cd7480b4a8a3 //log(1/frcpa(1+219/256))/2
-data8 0x3fd3e3c43918f76c //log(1/frcpa(1+220/256))/2
-data8 0x3fd3f2acb27ed6c7 //log(1/frcpa(1+221/256))/2
-data8 0x3fd4019c2125ca93 //log(1/frcpa(1+222/256))/2
-data8 0x3fd4181061389722 //log(1/frcpa(1+223/256))/2
-data8 0x3fd42711518df545 //log(1/frcpa(1+224/256))/2
-data8 0x3fd436194e12b6bf //log(1/frcpa(1+225/256))/2
-data8 0x3fd445285d68ea69 //log(1/frcpa(1+226/256))/2
-data8 0x3fd45bcc464c893a //log(1/frcpa(1+227/256))/2
-data8 0x3fd46aed21f117fc //log(1/frcpa(1+228/256))/2
-data8 0x3fd47a1527e8a2d3 //log(1/frcpa(1+229/256))/2
-data8 0x3fd489445efffccc //log(1/frcpa(1+230/256))/2
-data8 0x3fd4a018bcb69835 //log(1/frcpa(1+231/256))/2
-data8 0x3fd4af5a0c9d65d7 //log(1/frcpa(1+232/256))/2
-data8 0x3fd4bea2a5bdbe87 //log(1/frcpa(1+233/256))/2
-data8 0x3fd4cdf28f10ac46 //log(1/frcpa(1+234/256))/2
-data8 0x3fd4dd49cf994058 //log(1/frcpa(1+235/256))/2
-data8 0x3fd4eca86e64a684 //log(1/frcpa(1+236/256))/2
-data8 0x3fd503c43cd8eb68 //log(1/frcpa(1+237/256))/2
-data8 0x3fd513356667fc57 //log(1/frcpa(1+238/256))/2
-data8 0x3fd522ae0738a3d8 //log(1/frcpa(1+239/256))/2
-data8 0x3fd5322e26867857 //log(1/frcpa(1+240/256))/2
-data8 0x3fd541b5cb979809 //log(1/frcpa(1+241/256))/2
-data8 0x3fd55144fdbcbd62 //log(1/frcpa(1+242/256))/2
-data8 0x3fd560dbc45153c7 //log(1/frcpa(1+243/256))/2
-data8 0x3fd5707a26bb8c66 //log(1/frcpa(1+244/256))/2
-data8 0x3fd587f60ed5b900 //log(1/frcpa(1+245/256))/2
-data8 0x3fd597a7977c8f31 //log(1/frcpa(1+246/256))/2
-data8 0x3fd5a760d634bb8b //log(1/frcpa(1+247/256))/2
-data8 0x3fd5b721d295f10f //log(1/frcpa(1+248/256))/2
-data8 0x3fd5c6ea94431ef9 //log(1/frcpa(1+249/256))/2
-data8 0x3fd5d6bb22ea86f6 //log(1/frcpa(1+250/256))/2
-data8 0x3fd5e6938645d390 //log(1/frcpa(1+251/256))/2
-data8 0x3fd5f673c61a2ed2 //log(1/frcpa(1+252/256))/2
-data8 0x3fd6065bea385926 //log(1/frcpa(1+253/256))/2
-data8 0x3fd6164bfa7cc06b //log(1/frcpa(1+254/256))/2
-data8 0x3fd62643fecf9743 //log(1/frcpa(1+255/256))/2
-LOCAL_OBJECT_END(atanhf_data2)
-
-
-.section .text
-GLOBAL_LIBM_ENTRY(atanhf)
-
-{ .mfi
- getf.exp rArgSExpb = f8
- fclass.m p9,p0 = f8, 0x0b // is arg denormal ?
- mov rExpbMask = 0x1ffff
-}
-{ .mfi
- addl DataPtr = @ltoff(atanhf_data), gp
- fnma.s1 fOneMx = f8, f1, f1 // 1 - x
- mov rBias = 0xffff
-}
-;;
-
-{ .mfi
- nop.m 0
- fclass.m p7,p0 = f8, 0xc7 // is arg NaN or +/-0 ?
- mov rNearZeroBound = 0xffeb // 2^(-20)
-}
-{ .mfi
- ld8 DataPtr = [DataPtr]
- fma.s1 fOnePx = f8, f1, f1 // 1 + x
- nop.i 0
-}
-;;
-
-{ .mfb
- nop.m 0
- fnorm.s1 fNormX = f8 // Normalize x
-(p9) br.cond.spnt ATANH_UNORM // Branch if x=unorm
-}
-;;
-
-ATANH_COMMON:
-// Return here if x=unorm and not denorm
-{ .mfi
- ldfpd fP3, fP2 = [DataPtr], 16
- fma.s1 fX2 = f8, f8, f0 // x^2
- nop.i 0
-}
-{ .mfb
- nop.m 0
-(p7) fma.s.s0 f8 = f8,f1,f8 // NaN or +/-0
-(p7) br.ret.spnt b0
-}
-;;
-
-{ .mfi
- ldfpd fP1, fHalf = [DataPtr], 16
- frcpa.s1 fRcpM, p9 = f1, fOneMx // rcpm = frcpa(1 - x)
- nop.i 0
-}
-;;
-
-{ .mfi
- getf.exp rExpbm = fOneMx
- frcpa.s1 fRcpP, p0 = f1, fOnePx // rcpp = frcpa(1 + x)
- // biased exponent
- and rArgExpb = rArgSExpb, rExpbMask
-}
-;;
-
-{ .mmi
- getf.exp rExpbp = fOnePx
- // is |x| < 2^(-20) ?
- cmp.gt p8,p0 = rNearZeroBound, rArgExpb
- cmp.ge p6,p0 = rArgExpb, rBias // is |x| >= 1 ?
-}
-;;
-
-{ .mmb
- getf.sig rSigm = fOneMx
- nop.m 0
-(p6) br.cond.spnt atanhf_ge_one
-}
-;;
-
-{ .mfb
- getf.sig rSigp = fOnePx
-(p8) fma.s.s0 f8 = fX2, f8, f8 // x + x^3
-(p8) br.ret.spnt b0 // Exit for MAX_DENORM_ABS < |x| < 2^-20
-}
-;;
-
-{ .mfi
- ldfd fLog2 = [DataPtr], 16
- fms.s1 fRm = fRcpM, fOneMx, f1 // rm = rcpm * (1 - x) - 1
- nop.i 0
-}
-;;
-
-{ .mmf
- // (1 - x) is always positive here and we need not mask sign bit
- sub rNm = rExpbm, rBias
- // (1 + x) is always positive here and we need not mask sign bit
- sub rNp = rExpbp, rBias
- fms.s1 fRp = fRcpP, fOnePx, f1 // rp = rcpp * (1 + x) - 1
-}
-;;
-
-{ .mmi
- setf.sig fN4CvtM = rNm
- setf.sig fN4CvtP = rNp
- extr.u rIndm = rSigm,55,8 // Extract 8 bits
-}
-;;
-
-{ .mmi
- shladd RcpTablePtrM = rIndm, 3, DataPtr
- nop.m 0
- extr.u rIndp = rSigp,55,8 // Extract 8 bits
-}
-;;
-
-{ .mmi
- ldfd fLogTm = [RcpTablePtrM]
- shladd RcpTablePtrP = rIndp, 3, DataPtr
- nop.i 0
-}
-;;
-
-{ .mfi
- ldfd fLogTp = [RcpTablePtrP]
- fma.s1 fRm2 = fRm, fRm, f0 // rm^2
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fP32m = fP3, fRm, fP2 // P3*rm + P2
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fma.s1 fRp2 = fRp, fRp, f0 // rp^2
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fP10m = fP1, fRm, fHalf // P1*rm + 1
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fma.s1 fP32p = fP3, fRp, fP2 // P3*rp + P2
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fma.s1 fP10p = fP1, fRp, fHalf // P1*rp + 1
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fcvt.xf fNm = fN4CvtM
- nop.i 0
-}
-{ .mfi
- nop.m 0
- fcvt.xf fNp = fN4CvtP
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- // (P3*rm + P2)*rm^2 + (P1*rm + 1)
- fma.s1 fP32m = fP32m, fRm2, fP10m
- nop.i 0
-}
-{ .mfi
- nop.m 0
- // (P3*rp + P2)*rp^2 + (P1*rp + 1)
- fma.s1 fP32p = fP32p, fRp2, fP10p
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- // Nm*ln(2)/2 + Tm/2
- fma.s1 fLogTm = fNm, fLog2, fLogTm
- nop.i 0
-}
-{ .mfi
- nop.m 0
- // Np*ln(2)/2 + Tp/2
- fma.s1 fLogTp = fNp, fLog2, fLogTp
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- // ((P3*rm + P2)*rm^2 + (P3*rm + 1))*0.5*rm + (Nm*ln(2)/2 + Tm/2)
- fma.d.s1 fP32m = fP32m, fRm, fLogTm
- nop.i 0
-}
-{ .mfi
- nop.m 0
- // ((P3*rp + P2)*rp^2 + (P3*rp + 1))*0.5*rp + (Np*ln(2)/2 + Tp/2)
- fma.d.s1 fP32p = fP32p, fRp, fLogTp
- nop.i 0
-}
-;;
-
-{ .mfb
- nop.m 0
- // atanhf(x) = 0.5 * (log(1 + x) - log(1 - x))
- fnma.s.s0 f8 = fP32m, f1, fP32p
- br.ret.sptk b0 // Exit for 2^(-20) <= |x| < 1.0
-}
-;;
-
-
-ATANH_UNORM:
-// Here if x=unorm
-{ .mfi
- getf.exp rArgSExpb = fNormX // Recompute if x unorm
- fclass.m p0,p9 = fNormX, 0x0b // Test x denorm
- nop.i 0
-}
-;;
-
-{ .mfb
- nop.m 0
- fcmp.lt.s0 p10,p11 = f8, f0 // Set denormal flag
-(p9) br.cond.sptk ATANH_COMMON // Continue if x unorm and not denorm
-}
-;;
-
-.pred.rel "mutex",p6,p7
-{ .mfi
- nop.m 0
-(p6) fnma.s.s0 f8 = f8,f8,f8 // Result x-x^2 if x=-denorm
- nop.i 0
-}
-{ .mfb
- nop.m 0
-(p7) fma.s.s0 f8 = f8,f8,f8 // Result x+x^2 if x=+denorm
- br.ret.spnt b0 // Exit if denorm
-}
-;;
-
-// Here if |x| >= 1.0
-atanhf_ge_one:
-{ .mfi
- alloc r32 = ar.pfs,1,3,4,0
- fmerge.s fArgAbs = f0, f8 // Form |x|
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fmerge.s f10 = f8, f8 // Save input for error call
- nop.i 0
-}
-;;
-
-{ .mfi
- nop.m 0
- fcmp.eq.s1 p6,p7 = fArgAbs, f1 // Test for |x| = 1.0
- nop.i 0
-}
-;;
-
-// Set error tag and result, and raise invalid flag if |x| > 1.0
-{ .mfi
-(p7) mov atanh_GR_tag = 133
-(p7) frcpa.s0 f8, p0 = f0, f0 // Get QNaN, and raise invalid
- nop.i 0
-}
-;;
-
-// Set error tag and result, and raise Z flag if |x| = 1.0
-{ .mfi
- nop.m 0
-(p6) frcpa.s0 fRm, p0 = f1, f0 // Get inf, and raise Z flag
- nop.i 0
-}
-;;
-
-{ .mfb
-(p6) mov atanh_GR_tag = 134
-(p6) fmerge.s f8 = f8, fRm // result is +-inf
- br.cond.sptk __libm_error_region // Exit if |x| >= 1.0
-}
-;;
-
-GLOBAL_LIBM_END(atanhf)
-
-
-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] = f1,16 // 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] = f10 // STORE Parameter 1 on stack
- // Parameter 3 address
- add GR_Parameter_RESULT = 0,GR_Parameter_Y
- nop.b 0
-}
-{ .mib
- stfs [GR_Parameter_Y] = f8 // 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#