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+.file "sinhl.s"
+
+// Copyright (c) 2000, 2001, Intel Corporation
+// All rights reserved.
+//
+// Contributed 2/2/2000 by John Harrison, Ted Kubaska, Bob Norin, Shane Story,
+// and Ping Tak Peter Tang of the Computational Software Lab, Intel Corporation.
+//
+// WARRANTY DISCLAIMER
+//
+// 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://developer.intel.com/opensource.
+//
+// History
+//==============================================================
+// 2/02/00 Initial version
+// 4/04/00 Unwind support added
+// 8/15/00 Bundle added after call to __libm_error_support to properly
+// set [the previously overwritten] GR_Parameter_RESULT.
+// 10/12/00 Update to set denormal operand and underflow flags
+// 1/22/01 Fixed to set inexact flag for small args. Fixed incorrect
+// call to __libm_error_support for 710.476 < x < 11357.2166.
+//
+// API
+//==============================================================
+// long double = sinhl(long double)
+// input floating point f8
+// output floating point f8
+//
+// Registers used
+//==============================================================
+// general registers:
+// r32 -> r47
+// predicate registers used:
+// p6 p7 p8 p9
+// floating-point registers used:
+// f9 -> f15; f32 -> f45;
+// f8 has input, then output
+//
+// Overview of operation
+//==============================================================
+// There are four paths
+// 1. |x| < 0.25 SINH_BY_POLY
+// 2. |x| < 32 SINH_BY_TBL
+// 3. |x| < 2^14 SINH_BY_EXP
+// 4. |x_ >= 2^14 SINH_HUGE
+//
+// For double extended we get infinity for x >= 400c b174 ddc0 31ae c0ea
+// >= 1.0110001.... x 2^13
+// >= 11357.2166
+//
+// But for double we get infinity for x >= 408633ce8fb9f87e
+// >= 1.0110...x 2^9
+// >= +7.10476e+002
+//
+// And for single we get infinity for x >= 42b3a496
+// >= 1.0110... 2^6
+// >= 89.8215
+//
+// SAFE: If there is danger of overflow set SAFE to 0
+// NOT implemented: if there is danger of underflow, set SAFE to 0
+// SAFE for all paths listed below
+//
+// 1. SINH_BY_POLY
+// ===============
+// If |x| is less than the tiny threshold, then clear SAFE
+// For double, the tiny threshold is -1022 = -0x3fe => -3fe + ffff = fc01
+// register-biased, this is fc01
+// For single, the tiny threshold is -126 = -7e => -7e + ffff = ff81
+// If |x| < tiny threshold, set SAFE = 0
+//
+// 2. SINH_BY_TBL
+// =============
+// SAFE: SAFE is always 1 for TBL;
+//
+// 3. SINH_BY_EXP
+// ==============
+// There is a danger of double-extended overflow if N-1 > 16382 = 0x3ffe
+// r34 has N-1; 16382 is in register biased form, 0x13ffd
+// There is danger of double overflow if N-1 > 0x3fe
+// in register biased form, 0x103fd
+// Analagously, there is danger of single overflow if N-1 > 0x7e
+// in register biased form, 0x1007d
+// SAFE: If there is danger of overflow set SAFE to 0
+//
+// 4. SINH_HUGE
+// ============
+// SAFE: SAFE is always 0 for HUGE
+//
+
+#include "libm_support.h"
+
+// Assembly macros
+//==============================================================
+sinh_FR_X = f44
+sinh_FR_X2 = f9
+sinh_FR_X4 = f10
+sinh_FR_SGNX = f40
+sinh_FR_all_ones = f45
+sinh_FR_tmp = f42
+
+sinh_FR_Inv_log2by64 = f9
+sinh_FR_log2by64_lo = f11
+sinh_FR_log2by64_hi = f10
+
+sinh_FR_A1 = f9
+sinh_FR_A2 = f10
+sinh_FR_A3 = f11
+
+sinh_FR_Rcub = f12
+sinh_FR_M_temp = f13
+sinh_FR_R_temp = f13
+sinh_FR_Rsq = f13
+sinh_FR_R = f14
+
+sinh_FR_M = f38
+
+sinh_FR_B1 = f15
+sinh_FR_B2 = f32
+sinh_FR_B3 = f33
+
+sinh_FR_peven_temp1 = f34
+sinh_FR_peven_temp2 = f35
+sinh_FR_peven = f36
+
+sinh_FR_podd_temp1 = f34
+sinh_FR_podd_temp2 = f35
+sinh_FR_podd = f37
+
+sinh_FR_poly_podd_temp1 = f11
+sinh_FR_poly_podd_temp2 = f13
+sinh_FR_poly_peven_temp1 = f11
+sinh_FR_poly_peven_temp2 = f13
+
+sinh_FR_J_temp = f9
+sinh_FR_J = f10
+
+sinh_FR_Mmj = f39
+
+sinh_FR_N_temp1 = f11
+sinh_FR_N_temp2 = f12
+sinh_FR_N = f13
+
+sinh_FR_spos = f14
+sinh_FR_sneg = f15
+
+sinh_FR_Tjhi = f32
+sinh_FR_Tjlo = f33
+sinh_FR_Tmjhi = f34
+sinh_FR_Tmjlo = f35
+
+sinh_GR_mJ = r35
+sinh_GR_J = r36
+
+sinh_AD_mJ = r38
+sinh_AD_J = r39
+sinh_GR_all_ones = r40
+
+sinh_FR_S_hi = f9
+sinh_FR_S_hi_temp = f10
+sinh_FR_S_lo_temp1 = f11
+sinh_FR_S_lo_temp2 = f12
+sinh_FR_S_lo_temp3 = f13
+
+sinh_FR_S_lo = f38
+sinh_FR_C_hi = f39
+
+sinh_FR_C_hi_temp1 = f10
+sinh_FR_Y_hi = f11
+sinh_FR_Y_lo_temp = f12
+sinh_FR_Y_lo = f13
+sinh_FR_SINH = f9
+
+sinh_FR_P1 = f14
+sinh_FR_P2 = f15
+sinh_FR_P3 = f32
+sinh_FR_P4 = f33
+sinh_FR_P5 = f34
+sinh_FR_P6 = f35
+
+sinh_FR_TINY_THRESH = f9
+
+sinh_FR_SINH_temp = f10
+sinh_FR_SCALE = f11
+
+sinh_FR_signed_hi_lo = f10
+
+
+GR_SAVE_PFS = r41
+GR_SAVE_B0 = r42
+GR_SAVE_GP = r43
+
+GR_Parameter_X = r44
+GR_Parameter_Y = r45
+GR_Parameter_RESULT = r46
+
+// Data tables
+//==============================================================
+
+#ifdef _LIBC
+.rodata
+#else
+.data
+#endif
+
+.align 16
+double_sinh_arg_reduction:
+ASM_TYPE_DIRECTIVE(double_sinh_arg_reduction,@object)
+ data8 0xB8AA3B295C17F0BC, 0x00004005
+ data8 0xB17217F7D1000000, 0x00003FF8
+ data8 0xCF79ABC9E3B39804, 0x00003FD0
+ASM_SIZE_DIRECTIVE(double_sinh_arg_reduction)
+
+double_sinh_p_table:
+ASM_TYPE_DIRECTIVE(double_sinh_p_table,@object)
+ data8 0xAAAAAAAAAAAAAAAB, 0x00003FFC
+ data8 0x8888888888888412, 0x00003FF8
+ data8 0xD00D00D00D4D39F2, 0x00003FF2
+ data8 0xB8EF1D28926D8891, 0x00003FEC
+ data8 0xD732377688025BE9, 0x00003FE5
+ data8 0xB08AF9AE78C1239F, 0x00003FDE
+ASM_SIZE_DIRECTIVE(double_sinh_p_table)
+
+double_sinh_ab_table:
+ASM_TYPE_DIRECTIVE(double_sinh_ab_table,@object)
+ data8 0xAAAAAAAAAAAAAAAC, 0x00003FFC
+ data8 0x88888888884ECDD5, 0x00003FF8
+ data8 0xD00D0C6DCC26A86B, 0x00003FF2
+ data8 0x8000000000000002, 0x00003FFE
+ data8 0xAAAAAAAAAA402C77, 0x00003FFA
+ data8 0xB60B6CC96BDB144D, 0x00003FF5
+ASM_SIZE_DIRECTIVE(double_sinh_ab_table)
+
+double_sinh_j_table:
+ASM_TYPE_DIRECTIVE(double_sinh_j_table,@object)
+ data8 0xB504F333F9DE6484, 0x00003FFE, 0x1EB2FB13, 0x00000000
+ data8 0xB6FD91E328D17791, 0x00003FFE, 0x1CE2CBE2, 0x00000000
+ data8 0xB8FBAF4762FB9EE9, 0x00003FFE, 0x1DDC3CBC, 0x00000000
+ data8 0xBAFF5AB2133E45FB, 0x00003FFE, 0x1EE9AA34, 0x00000000
+ data8 0xBD08A39F580C36BF, 0x00003FFE, 0x9EAEFDC1, 0x00000000
+ data8 0xBF1799B67A731083, 0x00003FFE, 0x9DBF517B, 0x00000000
+ data8 0xC12C4CCA66709456, 0x00003FFE, 0x1EF88AFB, 0x00000000
+ data8 0xC346CCDA24976407, 0x00003FFE, 0x1E03B216, 0x00000000
+ data8 0xC5672A115506DADD, 0x00003FFE, 0x1E78AB43, 0x00000000
+ data8 0xC78D74C8ABB9B15D, 0x00003FFE, 0x9E7B1747, 0x00000000
+ data8 0xC9B9BD866E2F27A3, 0x00003FFE, 0x9EFE3C0E, 0x00000000
+ data8 0xCBEC14FEF2727C5D, 0x00003FFE, 0x9D36F837, 0x00000000
+ data8 0xCE248C151F8480E4, 0x00003FFE, 0x9DEE53E4, 0x00000000
+ data8 0xD06333DAEF2B2595, 0x00003FFE, 0x9E24AE8E, 0x00000000
+ data8 0xD2A81D91F12AE45A, 0x00003FFE, 0x1D912473, 0x00000000
+ data8 0xD4F35AABCFEDFA1F, 0x00003FFE, 0x1EB243BE, 0x00000000
+ data8 0xD744FCCAD69D6AF4, 0x00003FFE, 0x1E669A2F, 0x00000000
+ data8 0xD99D15C278AFD7B6, 0x00003FFE, 0x9BBC610A, 0x00000000
+ data8 0xDBFBB797DAF23755, 0x00003FFE, 0x1E761035, 0x00000000
+ data8 0xDE60F4825E0E9124, 0x00003FFE, 0x9E0BE175, 0x00000000
+ data8 0xE0CCDEEC2A94E111, 0x00003FFE, 0x1CCB12A1, 0x00000000
+ data8 0xE33F8972BE8A5A51, 0x00003FFE, 0x1D1BFE90, 0x00000000
+ data8 0xE5B906E77C8348A8, 0x00003FFE, 0x1DF2F47A, 0x00000000
+ data8 0xE8396A503C4BDC68, 0x00003FFE, 0x1EF22F22, 0x00000000
+ data8 0xEAC0C6E7DD24392F, 0x00003FFE, 0x9E3F4A29, 0x00000000
+ data8 0xED4F301ED9942B84, 0x00003FFE, 0x1EC01A5B, 0x00000000
+ data8 0xEFE4B99BDCDAF5CB, 0x00003FFE, 0x1E8CAC3A, 0x00000000
+ data8 0xF281773C59FFB13A, 0x00003FFE, 0x9DBB3FAB, 0x00000000
+ data8 0xF5257D152486CC2C, 0x00003FFE, 0x1EF73A19, 0x00000000
+ data8 0xF7D0DF730AD13BB9, 0x00003FFE, 0x9BB795B5, 0x00000000
+ data8 0xFA83B2DB722A033A, 0x00003FFE, 0x1EF84B76, 0x00000000
+ data8 0xFD3E0C0CF486C175, 0x00003FFE, 0x9EF5818B, 0x00000000
+ data8 0x8000000000000000, 0x00003FFF, 0x00000000, 0x00000000
+ data8 0x8164D1F3BC030773, 0x00003FFF, 0x1F77CACA, 0x00000000
+ data8 0x82CD8698AC2BA1D7, 0x00003FFF, 0x1EF8A91D, 0x00000000
+ data8 0x843A28C3ACDE4046, 0x00003FFF, 0x1E57C976, 0x00000000
+ data8 0x85AAC367CC487B15, 0x00003FFF, 0x9EE8DA92, 0x00000000
+ data8 0x871F61969E8D1010, 0x00003FFF, 0x1EE85C9F, 0x00000000
+ data8 0x88980E8092DA8527, 0x00003FFF, 0x1F3BF1AF, 0x00000000
+ data8 0x8A14D575496EFD9A, 0x00003FFF, 0x1D80CA1E, 0x00000000
+ data8 0x8B95C1E3EA8BD6E7, 0x00003FFF, 0x9D0373AF, 0x00000000
+ data8 0x8D1ADF5B7E5BA9E6, 0x00003FFF, 0x9F167097, 0x00000000
+ data8 0x8EA4398B45CD53C0, 0x00003FFF, 0x1EB70051, 0x00000000
+ data8 0x9031DC431466B1DC, 0x00003FFF, 0x1F6EB029, 0x00000000
+ data8 0x91C3D373AB11C336, 0x00003FFF, 0x1DFD6D8E, 0x00000000
+ data8 0x935A2B2F13E6E92C, 0x00003FFF, 0x9EB319B0, 0x00000000
+ data8 0x94F4EFA8FEF70961, 0x00003FFF, 0x1EBA2BEB, 0x00000000
+ data8 0x96942D3720185A00, 0x00003FFF, 0x1F11D537, 0x00000000
+ data8 0x9837F0518DB8A96F, 0x00003FFF, 0x1F0D5A46, 0x00000000
+ data8 0x99E0459320B7FA65, 0x00003FFF, 0x9E5E7BCA, 0x00000000
+ data8 0x9B8D39B9D54E5539, 0x00003FFF, 0x9F3AAFD1, 0x00000000
+ data8 0x9D3ED9A72CFFB751, 0x00003FFF, 0x9E86DACC, 0x00000000
+ data8 0x9EF5326091A111AE, 0x00003FFF, 0x9F3EDDC2, 0x00000000
+ data8 0xA0B0510FB9714FC2, 0x00003FFF, 0x1E496E3D, 0x00000000
+ data8 0xA27043030C496819, 0x00003FFF, 0x9F490BF6, 0x00000000
+ data8 0xA43515AE09E6809E, 0x00003FFF, 0x1DD1DB48, 0x00000000
+ data8 0xA5FED6A9B15138EA, 0x00003FFF, 0x1E65EBFB, 0x00000000
+ data8 0xA7CD93B4E965356A, 0x00003FFF, 0x9F427496, 0x00000000
+ data8 0xA9A15AB4EA7C0EF8, 0x00003FFF, 0x1F283C4A, 0x00000000
+ data8 0xAB7A39B5A93ED337, 0x00003FFF, 0x1F4B0047, 0x00000000
+ data8 0xAD583EEA42A14AC6, 0x00003FFF, 0x1F130152, 0x00000000
+ data8 0xAF3B78AD690A4375, 0x00003FFF, 0x9E8367C0, 0x00000000
+ data8 0xB123F581D2AC2590, 0x00003FFF, 0x9F705F90, 0x00000000
+ data8 0xB311C412A9112489, 0x00003FFF, 0x1EFB3C53, 0x00000000
+ data8 0xB504F333F9DE6484, 0x00003FFF, 0x1F32FB13, 0x00000000
+ASM_SIZE_DIRECTIVE(double_sinh_j_table)
+
+.align 32
+.global sinhl#
+
+.section .text
+.proc sinhl#
+.align 32
+
+sinhl:
+#ifdef _LIBC
+.global __ieee754_sinhl
+.type __ieee754_sinhl,@function
+__ieee754_sinhl:
+#endif
+
+// X infinity or NAN?
+// Take invalid fault if enabled
+
+
+{ .mfi
+ alloc r32 = ar.pfs,0,12,4,0
+(p0) fclass.m.unc p6,p0 = f8, 0xe3 //@qnan | @snan | @inf
+ mov sinh_GR_all_ones = -1
+}
+;;
+
+
+{ .mfb
+ nop.m 999
+(p6) fma.s0 f8 = f8,f1,f8
+(p6) br.ret.spnt b0 ;;
+}
+
+// Put 0.25 in f9; p6 true if x < 0.25
+// Make constant that will generate inexact when squared
+{ .mlx
+ setf.sig sinh_FR_all_ones = sinh_GR_all_ones
+(p0) movl r32 = 0x000000000000fffd ;;
+}
+
+{ .mfi
+(p0) setf.exp f9 = r32
+(p0) fclass.m.unc p7,p0 = f8, 0x07 //@zero
+ nop.i 999 ;;
+}
+
+{ .mfb
+ nop.m 999
+(p0) fmerge.s sinh_FR_X = f0,f8
+(p7) br.ret.spnt b0 ;;
+}
+
+// Identify denormal operands.
+{ .mfi
+ nop.m 999
+ fclass.m.unc p10,p0 = f8, 0x09 // + denorm
+ nop.i 999
+};;
+{ .mfi
+ nop.m 999
+ fclass.m.unc p11,p0 = f8, 0x0a // - denorm
+ nop.i 999
+}
+
+{ .mfi
+ nop.m 999
+(p0) fmerge.s sinh_FR_SGNX = f8,f1
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fcmp.lt.unc.s1 p0,p7 = sinh_FR_X,f9
+ nop.i 999 ;;
+}
+
+{ .mib
+ nop.m 999
+ nop.i 999
+(p7) br.cond.sptk L(SINH_BY_TBL) ;;
+}
+
+
+L(SINH_BY_POLY):
+
+// POLY cannot overflow so there is no need to call __libm_error_support
+// Set tiny_SAFE (p7) to 1(0) if answer is not tiny
+// Currently we do not use tiny_SAFE. So the setting of tiny_SAFE is
+// commented out.
+//(p0) movl r32 = 0x000000000000fc01
+//(p0) setf.exp f10 = r32
+//(p0) fcmp.lt.unc.s1 p6,p7 = f8,f10
+// Here is essentially the algorithm for SINH_BY_POLY. Care is take for the order
+// of multiplication; and P_1 is not exactly 1/3!, P_2 is not exactly 1/5!, etc.
+// Note that ax = |x|
+// sinh(x) = sign * (series(e^x) - series(e^-x))/2
+// = sign * (ax + ax^3/3! + ax^5/5! + ax^7/7! + ax^9/9! + ax^11/11! + ax^13/13!)
+// = sign * (ax + ax * ( ax^2 * (1/3! + ax^4 * (1/7! + ax^4*1/11!)) )
+// + ax * ( ax^4 * (1/5! + ax^4 * (1/9! + ax^4*1/13!)) ) )
+// = sign * (ax + ax*p_odd + (ax*p_even))
+// = sign * (ax + Y_lo)
+// sinh(x) = sign * (Y_hi + Y_lo)
+// Get the values of P_x from the table
+{ .mfb
+(p0) addl r34 = @ltoff(double_sinh_p_table), gp
+(p10) fma.s0 f8 = f8,f8,f8
+(p10) br.ret.spnt b0
+}
+;;
+
+{ .mfb
+ ld8 r34 = [r34]
+(p11) fnma.s0 f8 = f8,f8,f8
+(p11) br.ret.spnt b0
+}
+;;
+
+// Calculate sinh_FR_X2 = ax*ax and sinh_FR_X4 = ax*ax*ax*ax
+{ .mmf
+ nop.m 999
+(p0) ldfe sinh_FR_P1 = [r34],16
+(p0) fma.s1 sinh_FR_X2 = sinh_FR_X, sinh_FR_X, f0 ;;
+}
+
+{ .mmi
+(p0) ldfe sinh_FR_P2 = [r34],16 ;;
+(p0) ldfe sinh_FR_P3 = [r34],16
+ nop.i 999 ;;
+}
+
+{ .mmi
+(p0) ldfe sinh_FR_P4 = [r34],16 ;;
+(p0) ldfe sinh_FR_P5 = [r34],16
+ nop.i 999 ;;
+}
+
+{ .mfi
+(p0) ldfe sinh_FR_P6 = [r34],16
+(p0) fma.s1 sinh_FR_X4 = sinh_FR_X2, sinh_FR_X2, f0
+ nop.i 999 ;;
+}
+
+// Calculate sinh_FR_podd = p_odd and sinh_FR_peven = p_even
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_poly_podd_temp1 = sinh_FR_X4, sinh_FR_P5, sinh_FR_P3
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_poly_podd_temp2 = sinh_FR_X4, sinh_FR_poly_podd_temp1, sinh_FR_P1
+ nop.i 999
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_poly_peven_temp1 = sinh_FR_X4, sinh_FR_P6, sinh_FR_P4
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_podd = sinh_FR_X2, sinh_FR_poly_podd_temp2, f0
+ nop.i 999
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_poly_peven_temp2 = sinh_FR_X4, sinh_FR_poly_peven_temp1, sinh_FR_P2
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_peven = sinh_FR_X4, sinh_FR_poly_peven_temp2, f0
+ nop.i 999 ;;
+}
+
+// Calculate sinh_FR_Y_lo = ax*p_odd + (ax*p_even)
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Y_lo_temp = sinh_FR_X, sinh_FR_peven, f0
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Y_lo = sinh_FR_X, sinh_FR_podd, sinh_FR_Y_lo_temp
+ nop.i 999 ;;
+}
+
+// Calculate sinh_FR_SINH = Y_hi + Y_lo. Note that ax = Y_hi
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_SINH = sinh_FR_X, f1, sinh_FR_Y_lo
+ nop.i 999 ;;
+}
+// Dummy multiply to generate inexact
+{ .mfi
+ nop.m 999
+(p0) fmpy.s0 sinh_FR_tmp = sinh_FR_all_ones, sinh_FR_all_ones
+ nop.i 999
+}
+
+// Calculate f8 = sign * (Y_hi + Y_lo)
+// Go to return
+{ .mfb
+ nop.m 999
+(p0) fma.s0 f8 = sinh_FR_SGNX,sinh_FR_SINH,f0
+(p0) br.ret.sptk b0 ;;
+}
+
+
+L(SINH_BY_TBL):
+
+// Now that we are at TBL; so far all we know is that |x| >= 0.25.
+// The first two steps are the same for TBL and EXP, but if we are HUGE
+// we want to leave now.
+// Double-extended:
+// Go to HUGE if |x| >= 2^14, 1000d (register-biased) is e = 14 (true)
+// Double
+// Go to HUGE if |x| >= 2^10, 10009 (register-biased) is e = 10 (true)
+// Single
+// Go to HUGE if |x| >= 2^7, 10006 (register-biased) is e = 7 (true)
+
+{ .mlx
+ nop.m 999
+(p0) movl r32 = 0x000000000001000d ;;
+}
+
+{ .mfi
+(p0) setf.exp f9 = r32
+ nop.f 999
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fcmp.ge.unc.s1 p6,p7 = sinh_FR_X,f9
+ nop.i 999 ;;
+}
+
+{ .mib
+ nop.m 999
+ nop.i 999
+(p6) br.cond.spnt L(SINH_HUGE) ;;
+}
+
+// r32 = 1
+// r34 = N-1
+// r35 = N
+// r36 = j
+// r37 = N+1
+
+// TBL can never overflow
+// sinh(x) = sinh(B+R)
+// = sinh(B)cosh(R) + cosh(B)sinh(R)
+//
+// ax = |x| = M*log2/64 + R
+// B = M*log2/64
+// M = 64*N + j
+// We will calcualte M and get N as (M-j)/64
+// The division is a shift.
+// exp(B) = exp(N*log2 + j*log2/64)
+// = 2^N * 2^(j*log2/64)
+// sinh(B) = 1/2(e^B -e^-B)
+// = 1/2(2^N * 2^(j*log2/64) - 2^-N * 2^(-j*log2/64))
+// sinh(B) = (2^(N-1) * 2^(j*log2/64) - 2^(-N-1) * 2^(-j*log2/64))
+// cosh(B) = (2^(N-1) * 2^(j*log2/64) + 2^(-N-1) * 2^(-j*log2/64))
+// 2^(j*log2/64) is stored as Tjhi + Tjlo , j= -32,....,32
+// Tjhi is double-extended (80-bit) and Tjlo is single(32-bit)
+// R = ax - M*log2/64
+// R = ax - M*log2_by_64_hi - M*log2_by_64_lo
+// exp(R) = 1 + R +R^2(1/2! + R(1/3! + R(1/4! + ... + R(1/n!)...)
+// = 1 + p_odd + p_even
+// where the p_even uses the A coefficients and the p_even uses the B coefficients
+// So sinh(R) = 1 + p_odd + p_even -(1 -p_odd -p_even)/2 = p_odd
+// cosh(R) = 1 + p_even
+// sinh(B) = S_hi + S_lo
+// cosh(B) = C_hi
+// sinh(x) = sinh(B)cosh(R) + cosh(B)sinh(R)
+// ******************************************************
+// STEP 1 (TBL and EXP)
+// ******************************************************
+// Get the following constants.
+// f9 = Inv_log2by64
+// f10 = log2by64_hi
+// f11 = log2by64_lo
+
+{ .mmi
+(p0) adds r32 = 0x1,r0
+(p0) addl r34 = @ltoff(double_sinh_arg_reduction), gp
+ nop.i 999
+}
+;;
+
+{ .mmi
+ ld8 r34 = [r34]
+ nop.m 999
+ nop.i 999
+}
+;;
+
+
+// We want 2^(N-1) and 2^(-N-1). So bias N-1 and -N-1 and
+// put them in an exponent.
+// sinh_FR_spos = 2^(N-1) and sinh_FR_sneg = 2^(-N-1)
+// r39 = 0xffff + (N-1) = 0xffff +N -1
+// r40 = 0xffff - (N +1) = 0xffff -N -1
+
+{ .mlx
+ nop.m 999
+(p0) movl r38 = 0x000000000000fffe ;;
+}
+
+{ .mmi
+(p0) ldfe sinh_FR_Inv_log2by64 = [r34],16 ;;
+(p0) ldfe sinh_FR_log2by64_hi = [r34],16
+ nop.i 999 ;;
+}
+
+{ .mbb
+(p0) ldfe sinh_FR_log2by64_lo = [r34],16
+ nop.b 999
+ nop.b 999 ;;
+}
+
+// Get the A coefficients
+// f9 = A_1
+// f10 = A_2
+// f11 = A_3
+
+{ .mmi
+ nop.m 999
+(p0) addl r34 = @ltoff(double_sinh_ab_table), gp
+ nop.i 999
+}
+;;
+
+{ .mmi
+ ld8 r34 = [r34]
+ nop.m 999
+ nop.i 999
+}
+;;
+
+
+// Calculate M and keep it as integer and floating point.
+// f38 = M = round-to-integer(x*Inv_log2by64)
+// sinh_FR_M = M = truncate(ax/(log2/64))
+// Put the significand of M in r35
+// and the floating point representation of M in sinh_FR_M
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_M = sinh_FR_X, sinh_FR_Inv_log2by64, f0
+ nop.i 999
+}
+
+{ .mfi
+(p0) ldfe sinh_FR_A1 = [r34],16
+ nop.f 999
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fcvt.fx.s1 sinh_FR_M_temp = sinh_FR_M
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fnorm.s1 sinh_FR_M = sinh_FR_M_temp
+ nop.i 999 ;;
+}
+
+{ .mfi
+(p0) getf.sig r35 = sinh_FR_M_temp
+ nop.f 999
+ nop.i 999 ;;
+}
+
+// M is still in r35. Calculate j. j is the signed extension of the six lsb of M. It
+// has a range of -32 thru 31.
+// r35 = M
+// r36 = j
+
+{ .mii
+ nop.m 999
+ nop.i 999 ;;
+(p0) and r36 = 0x3f, r35 ;;
+}
+
+// Calculate R
+// f13 = f44 - f12*f10 = ax - M*log2by64_hi
+// f14 = f13 - f8*f11 = R = (ax - M*log2by64_hi) - M*log2by64_lo
+
+{ .mfi
+ nop.m 999
+(p0) fnma.s1 sinh_FR_R_temp = sinh_FR_M, sinh_FR_log2by64_hi, sinh_FR_X
+ nop.i 999
+}
+
+{ .mfi
+(p0) ldfe sinh_FR_A2 = [r34],16
+ nop.f 999
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fnma.s1 sinh_FR_R = sinh_FR_M, sinh_FR_log2by64_lo, sinh_FR_R_temp
+ nop.i 999
+}
+
+// Get the B coefficients
+// f15 = B_1
+// f32 = B_2
+// f33 = B_3
+
+{ .mmi
+(p0) ldfe sinh_FR_A3 = [r34],16 ;;
+(p0) ldfe sinh_FR_B1 = [r34],16
+ nop.i 999 ;;
+}
+
+{ .mmi
+(p0) ldfe sinh_FR_B2 = [r34],16 ;;
+(p0) ldfe sinh_FR_B3 = [r34],16
+ nop.i 999 ;;
+}
+
+{ .mii
+ nop.m 999
+(p0) shl r34 = r36, 0x2 ;;
+(p0) sxt1 r37 = r34 ;;
+}
+
+// ******************************************************
+// STEP 2 (TBL and EXP)
+// ******************************************************
+// Calculate Rsquared and Rcubed in preparation for p_even and p_odd
+// f12 = R*R*R
+// f13 = R*R
+// f14 = R <== from above
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Rsq = sinh_FR_R, sinh_FR_R, f0
+(p0) shr r36 = r37, 0x2 ;;
+}
+
+// r34 = M-j = r35 - r36
+// r35 = N = (M-j)/64
+
+{ .mii
+(p0) sub r34 = r35, r36
+ nop.i 999 ;;
+(p0) shr r35 = r34, 0x6 ;;
+}
+
+{ .mii
+(p0) sub r40 = r38, r35
+(p0) adds r37 = 0x1, r35
+(p0) add r39 = r38, r35 ;;
+}
+
+// Get the address of the J table, add the offset,
+// addresses are sinh_AD_mJ and sinh_AD_J, get the T value
+// f32 = T(j)_hi
+// f33 = T(j)_lo
+// f34 = T(-j)_hi
+// f35 = T(-j)_lo
+
+{ .mmi
+(p0) sub r34 = r35, r32
+(p0) addl r37 = @ltoff(double_sinh_j_table), gp
+ nop.i 999
+}
+;;
+
+{ .mmi
+ ld8 r37 = [r37]
+ nop.m 999
+ nop.i 999
+}
+;;
+
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Rcub = sinh_FR_Rsq, sinh_FR_R, f0
+ nop.i 999
+}
+
+// ******************************************************
+// STEP 3 Now decide if we need to branch to EXP
+// ******************************************************
+// Put 32 in f9; p6 true if x < 32
+// Go to EXP if |x| >= 32
+
+{ .mlx
+ nop.m 999
+(p0) movl r32 = 0x0000000000010004 ;;
+}
+
+// Calculate p_even
+// f34 = B_2 + Rsq *B_3
+// f35 = B_1 + Rsq*f34 = B_1 + Rsq * (B_2 + Rsq *B_3)
+// f36 = p_even = Rsq * f35 = Rsq * (B_1 + Rsq * (B_2 + Rsq *B_3))
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_peven_temp1 = sinh_FR_Rsq, sinh_FR_B3, sinh_FR_B2
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_peven_temp2 = sinh_FR_Rsq, sinh_FR_peven_temp1, sinh_FR_B1
+ nop.i 999
+}
+
+// Calculate p_odd
+// f34 = A_2 + Rsq *A_3
+// f35 = A_1 + Rsq * (A_2 + Rsq *A_3)
+// f37 = podd = R + Rcub * (A_1 + Rsq * (A_2 + Rsq *A_3))
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_podd_temp1 = sinh_FR_Rsq, sinh_FR_A3, sinh_FR_A2
+ nop.i 999 ;;
+}
+
+{ .mfi
+(p0) setf.exp sinh_FR_N_temp1 = r39
+ nop.f 999
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_peven = sinh_FR_Rsq, sinh_FR_peven_temp2, f0
+ nop.i 999
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_podd_temp2 = sinh_FR_Rsq, sinh_FR_podd_temp1, sinh_FR_A1
+ nop.i 999 ;;
+}
+
+{ .mfi
+(p0) setf.exp f9 = r32
+ nop.f 999
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_podd = sinh_FR_podd_temp2, sinh_FR_Rcub, sinh_FR_R
+ nop.i 999
+}
+
+// sinh_GR_mj contains the table offset for -j
+// sinh_GR_j contains the table offset for +j
+// p6 is true when j <= 0
+
+{ .mlx
+(p0) setf.exp sinh_FR_N_temp2 = r40
+(p0) movl r40 = 0x0000000000000020 ;;
+}
+
+{ .mfi
+(p0) sub sinh_GR_mJ = r40, r36
+(p0) fmerge.se sinh_FR_spos = sinh_FR_N_temp1, f1
+(p0) adds sinh_GR_J = 0x20, r36 ;;
+}
+
+{ .mii
+ nop.m 999
+(p0) shl sinh_GR_mJ = sinh_GR_mJ, 5 ;;
+(p0) add sinh_AD_mJ = r37, sinh_GR_mJ ;;
+}
+
+{ .mmi
+ nop.m 999
+(p0) ldfe sinh_FR_Tmjhi = [sinh_AD_mJ],16
+(p0) shl sinh_GR_J = sinh_GR_J, 5 ;;
+}
+
+{ .mfi
+(p0) ldfs sinh_FR_Tmjlo = [sinh_AD_mJ],16
+(p0) fcmp.lt.unc.s1 p0,p7 = sinh_FR_X,f9
+(p0) add sinh_AD_J = r37, sinh_GR_J ;;
+}
+
+{ .mmi
+(p0) ldfe sinh_FR_Tjhi = [sinh_AD_J],16 ;;
+(p0) ldfs sinh_FR_Tjlo = [sinh_AD_J],16
+ nop.i 999 ;;
+}
+
+{ .mfb
+ nop.m 999
+(p0) fmerge.se sinh_FR_sneg = sinh_FR_N_temp2, f1
+(p7) br.cond.spnt L(SINH_BY_EXP) ;;
+}
+
+{ .mfi
+ nop.m 999
+ nop.f 999
+ nop.i 999 ;;
+}
+
+// ******************************************************
+// If NOT branch to EXP
+// ******************************************************
+// Calculate S_hi and S_lo
+// sinh_FR_S_hi_temp = sinh_FR_sneg * sinh_FR_Tmjhi
+// sinh_FR_S_hi = sinh_FR_spos * sinh_FR_Tjhi - sinh_FR_S_hi_temp
+// sinh_FR_S_hi = sinh_FR_spos * sinh_FR_Tjhi - (sinh_FR_sneg * sinh_FR_Tmjlo)
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_S_hi_temp = sinh_FR_sneg, sinh_FR_Tmjhi, f0
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fms.s1 sinh_FR_S_hi = sinh_FR_spos, sinh_FR_Tjhi, sinh_FR_S_hi_temp
+ nop.i 999
+}
+
+// Calculate C_hi
+// sinh_FR_C_hi_temp1 = sinh_FR_sneg * sinh_FR_Tmjhi
+// sinh_FR_C_hi = sinh_FR_spos * sinh_FR_Tjhi + sinh_FR_C_hi_temp1
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_C_hi_temp1 = sinh_FR_sneg, sinh_FR_Tmjhi, f0
+ nop.i 999 ;;
+}
+
+// sinh_FR_S_lo_temp1 = sinh_FR_spos * sinh_FR_Tjhi - sinh_FR_S_hi
+// sinh_FR_S_lo_temp2 = -sinh_FR_sneg * sinh_FR_Tmjlo + (sinh_FR_spos * sinh_FR_Tjhi - sinh_FR_S_hi)
+// sinh_FR_S_lo_temp2 = -sinh_FR_sneg * sinh_FR_Tmjlo + (sinh_FR_S_lo_temp1 )
+
+{ .mfi
+ nop.m 999
+(p0) fms.s1 sinh_FR_S_lo_temp1 = sinh_FR_spos, sinh_FR_Tjhi, sinh_FR_S_hi
+ nop.i 999
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_C_hi = sinh_FR_spos, sinh_FR_Tjhi, sinh_FR_C_hi_temp1
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fnma.s1 sinh_FR_S_lo_temp2 = sinh_FR_sneg, sinh_FR_Tmjhi, sinh_FR_S_lo_temp1
+ nop.i 999
+}
+
+// sinh_FR_S_lo_temp1 = sinh_FR_sneg * sinh_FR_Tmjlo
+// sinh_FR_S_lo_temp3 = sinh_FR_spos * sinh_FR_Tjlo - sinh_FR_S_lo_temp1
+// sinh_FR_S_lo_temp3 = sinh_FR_spos * sinh_FR_Tjlo -(sinh_FR_sneg * sinh_FR_Tmjlo)
+// sinh_FR_S_lo = sinh_FR_S_lo_temp3 + sinh_FR_S_lo_temp2
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_S_lo_temp1 = sinh_FR_sneg, sinh_FR_Tmjlo, f0
+ nop.i 999 ;;
+}
+
+/////////// BUG FIX fma to fms -TK
+{ .mfi
+ nop.m 999
+(p0) fms.s1 sinh_FR_S_lo_temp3 = sinh_FR_spos, sinh_FR_Tjlo, sinh_FR_S_lo_temp1
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_S_lo = sinh_FR_S_lo_temp3, f1, sinh_FR_S_lo_temp2
+ nop.i 999 ;;
+}
+
+// Y_hi = S_hi
+// Y_lo = C_hi*p_odd + (S_hi*p_even + S_lo)
+// sinh_FR_Y_lo_temp = sinh_FR_S_hi * sinh_FR_peven + sinh_FR_S_lo
+// sinh_FR_Y_lo = sinh_FR_C_hi * sinh_FR_podd + sinh_FR_Y_lo_temp
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Y_lo_temp = sinh_FR_S_hi, sinh_FR_peven, sinh_FR_S_lo
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Y_lo = sinh_FR_C_hi, sinh_FR_podd, sinh_FR_Y_lo_temp
+ nop.i 999 ;;
+}
+
+// sinh_FR_SINH = Y_hi + Y_lo
+// f8 = answer = sinh_FR_SGNX * sinh_FR_SINH
+
+// Dummy multiply to generate inexact
+{ .mfi
+ nop.m 999
+(p0) fmpy.s0 sinh_FR_tmp = sinh_FR_all_ones, sinh_FR_all_ones
+ nop.i 999
+}
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_SINH = sinh_FR_S_hi, f1, sinh_FR_Y_lo
+ nop.i 999 ;;
+}
+
+{ .mfb
+ nop.m 999
+(p0) fma.s0 f8 = sinh_FR_SGNX, sinh_FR_SINH,f0
+(p0) br.ret.sptk b0 ;;
+}
+
+
+L(SINH_BY_EXP):
+
+// When p7 is true, we know that an overflow is not going to happen
+// When p7 is false, we must check for possible overflow
+// p7 is the over_SAFE flag
+// Y_hi = Tjhi
+// Y_lo = Tjhi * (p_odd + p_even) +Tjlo
+// Scale = sign * 2^(N-1)
+// sinh_FR_Y_lo = sinh_FR_Tjhi * (sinh_FR_peven + sinh_FR_podd)
+// sinh_FR_Y_lo = sinh_FR_Tjhi * (sinh_FR_Y_lo_temp )
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Y_lo_temp = sinh_FR_peven, f1, sinh_FR_podd
+ nop.i 999
+}
+
+// Now we are in EXP. This is the only path where an overflow is possible
+// but not for certain. So this is the only path where over_SAFE has any use.
+// r34 still has N-1
+// There is a danger of double-extended overflow if N-1 > 16382 = 0x3ffe
+// There is a danger of double overflow if N-1 > 0x3fe = 1022
+{ .mlx
+ nop.m 999
+(p0) movl r32 = 0x0000000000003ffe ;;
+}
+
+{ .mfi
+(p0) cmp.gt.unc p0,p7 = r34, r32
+(p0) fmerge.s sinh_FR_SCALE = sinh_FR_SGNX, sinh_FR_spos
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_Y_lo = sinh_FR_Tjhi, sinh_FR_Y_lo_temp, sinh_FR_Tjlo
+ nop.i 999 ;;
+}
+
+// f8 = answer = scale * (Y_hi + Y_lo)
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_SINH_temp = sinh_FR_Y_lo, f1, sinh_FR_Tjhi
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s0 f44 = sinh_FR_SCALE, sinh_FR_SINH_temp, f0
+ nop.i 999 ;;
+}
+
+// Dummy multiply to generate inexact
+{ .mfi
+ nop.m 999
+(p7) fmpy.s0 sinh_FR_tmp = sinh_FR_all_ones, sinh_FR_all_ones
+ nop.i 999 ;;
+}
+
+// If over_SAFE is set, return
+{ .mfb
+ nop.m 999
+(p7) fmerge.s f8 = f44,f44
+(p7) br.ret.sptk b0 ;;
+}
+
+// Else see if we overflowed
+// S0 user supplied status
+// S2 user supplied status + WRE + TD (Overflows)
+// If WRE is set then an overflow will not occur in EXP.
+// The input value that would cause a register (WRE) value to overflow is about 2^15
+// and this input would go into the HUGE path.
+// Answer with WRE is in f43.
+
+{ .mfi
+ nop.m 999
+(p0) fsetc.s2 0x7F,0x42
+ nop.i 999;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s2 f43 = sinh_FR_SCALE, sinh_FR_SINH_temp, f0
+ nop.i 999 ;;
+}
+
+// 13FFF => 13FFF -FFFF = 4000(true)
+// 4000 + 3FFF = 7FFF, which is 1 more that the exponent of the largest
+// long double (7FFE). So 0 13FFF 8000000000000000 is one ulp more than
+// largest long double in register bias
+// Now set p8 if the answer with WRE is greater than or equal this value
+// Also set p9 if the answer with WRE is less than or equal to negative this value
+
+{ .mlx
+ nop.m 999
+(p0) movl r32 = 0x00000000013FFF ;;
+}
+
+{ .mmf
+ nop.m 999
+(p0) setf.exp f41 = r32
+(p0) fsetc.s2 0x7F,0x40 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fcmp.ge.unc.s1 p8, p0 = f43, f41
+ nop.i 999
+}
+
+{ .mfi
+ nop.m 999
+(p0) fmerge.ns f42 = f41, f41
+ nop.i 999 ;;
+}
+
+// The error tag for overflow is 126
+{ .mii
+ nop.m 999
+ nop.i 999 ;;
+(p8) mov r47 = 126 ;;
+}
+
+{ .mfb
+ nop.m 999
+(p0) fcmp.le.unc.s1 p9, p0 = f43, f42
+(p8) br.cond.spnt L(SINH_ERROR_SUPPORT) ;;
+}
+
+{ .mii
+ nop.m 999
+ nop.i 999 ;;
+(p9) mov r47 = 126
+}
+
+{ .mib
+ nop.m 999
+ nop.i 999
+(p9) br.cond.spnt L(SINH_ERROR_SUPPORT) ;;
+}
+
+// Dummy multiply to generate inexact
+{ .mfi
+ nop.m 999
+(p0) fmpy.s0 sinh_FR_tmp = sinh_FR_all_ones, sinh_FR_all_ones
+ nop.i 999 ;;
+}
+
+{ .mfb
+ nop.m 999
+(p0) fmerge.s f8 = f44,f44
+(p0) br.ret.sptk b0 ;;
+}
+
+L(SINH_HUGE):
+
+// for SINH_HUGE, put 24000 in exponent; take sign from input; add 1
+// SAFE: SAFE is always 0 for HUGE
+
+{ .mlx
+ nop.m 999
+(p0) movl r32 = 0x0000000000015dbf ;;
+}
+
+{ .mfi
+(p0) setf.exp f9 = r32
+ nop.f 999
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s1 sinh_FR_signed_hi_lo = sinh_FR_SGNX, f9, f1
+ nop.i 999 ;;
+}
+
+{ .mfi
+ nop.m 999
+(p0) fma.s0 f44 = sinh_FR_signed_hi_lo, f9, f0
+(p0) mov r47 = 126
+}
+.endp sinhl
+ASM_SIZE_DIRECTIVE(sinhl)
+#ifdef _LIBC
+ASM_SIZE_DIRECTIVE(__ieee754_sinhl)
+#endif
+
+// Stack operations when calling error support.
+// (1) (2) (3) (call) (4)
+// sp -> + psp -> + psp -> + sp -> +
+// | | | |
+// | | <- GR_Y R3 ->| <- GR_RESULT | -> f8
+// | | | |
+// | <-GR_Y Y2->| Y2 ->| <- GR_Y |
+// | | | |
+// | | <- GR_X X1 ->| |
+// | | | |
+// sp-64 -> + sp -> + sp -> + +
+// save ar.pfs save b0 restore gp
+// save gp restore ar.pfs
+
+.proc __libm_error_region
+__libm_error_region:
+L(SINH_ERROR_SUPPORT):
+.prologue
+
+// (1)
+{ .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
+};;
+
+
+// (2)
+{ .mmi
+ stfe [GR_Parameter_Y] = f0,16 // 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
+// (3)
+{ .mib
+ stfe [GR_Parameter_X] = f8 // STORE Parameter 1 on stack
+ add GR_Parameter_RESULT = 0,GR_Parameter_Y // Parameter 3 address
+ nop.b 0
+}
+{ .mib
+ stfe [GR_Parameter_Y] = f44 // 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
+ nop.m 0
+ nop.m 0
+ add GR_Parameter_RESULT = 48,sp
+};;
+
+// (4)
+{ .mmi
+ ldfe 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
+};;
+
+.endp __libm_error_region
+ASM_SIZE_DIRECTIVE(__libm_error_region)
+
+.type __libm_error_support#,@function
+.global __libm_error_support#