.file "atan.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. // // 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://developer.intel.com/opensource. // // History //============================================================== // 2/02/00: Initial version // 4/13/00: Improved speed // 4/19/00: Removed the qualifying predicate from the fmerge.s that // takes the absolute value. // 6/16/00: Reassigned FP registers to eliminate stalls on loads // 8/30/00: Saved 5 cycles in main path by rearranging large argument logic // and delaying use of result of fcmp in load by 1 group // // API //============================================================== // double atan( double x); // // Overview of operation //============================================================== // atan(x) = sign(X)pi/2 - atan(1/x) // // We have two paths: |x| > 1 and |x| <= 1 // // |x| > 1 // ========================================== // // c = frcpa(x) which is approximately 1/x // // xc = 1- B // B = 1-xc // // Approximate 1/(1-B)^k by a polynomial in B, poly(B) // k is 45. // // poly(B) = 1 + r1 B + r2 B^2 + ...+ r10 B^10 // // c^k = (1-B)^k/x^k // c^k/(1-B)^k = 1/x^k // c^k poly(B) = 1/x^k // poly(x) = series(atan(1/x)) = 1/x - 1/3x^3 + 1/5x^5 - 1/7x^7 .... + 1/45 x^45 // = 1/x^45 ( x^44 - x^42/3 + x^40/5 - x^38/7 ... +1) // = 1/x^45 ( y^22 - y^21/3 + y^20/5 - y^19/7 ... +1) // // = c^45 poly(B) poly(x) // = c^45 r(B) q(y) // q(y) = q0 + q1 y + q2 y^2 + ... + q22 y^22 // where q22 is 1.0 // atan(x) = sign(X)pi/2 - c^45 r(B) q(y) // |x| <= 1 // ========================================== // poly(x) = series(atan(x)) = x - x^3/3 + x^5/5 + ..... // poly(x) = series(atan(x)) = x + x^3(- 1/3 + x^2/5 + ..... +x^47/47) // poly(x) = series(atan(x)) = x + x^3(p0 + x^2/5 + ..... + x^44/47) // poly(x) = series(atan(x)) = x + x^3(p0 + y/5 + ..... + y^22/47) // where p0 is about -1/3. // atan(x) = poly(x) #include "libm_support.h" // Special Values //============================================================== // atan(QNAN) = QNAN // atan(SNAN) = quieted SNAN // atan(+-inf) = +- pi/2 // atan(+-0) = +-0 // Registers used //============================================================== // predicate registers used: // p6 -> p11 // floating-point registers used: // f32 -> f127 // general registers used // r32 -> r37 // Assembly macros //============================================================== atan_Pi_by_2 = f32 atan_S_PI = f33 atan_ABS_f8 = f34 atan_R0 = f35 atan_R1 = f36 atan_R2 = f37 atan_R3 = f38 atan_R4 = f39 atan_R5 = f40 atan_R6 = f41 atan_R7 = f42 atan_R8 = f43 atan_R9 = f44 atan_R10 = f45 atan_Q0 = f46 atan_Q1 = f47 atan_Q2 = f48 atan_Q3 = f49 atan_Q4 = f50 atan_Q5 = f51 atan_Q6 = f52 atan_Q7 = f53 atan_Q8 = f54 atan_Q9 = f55 atan_Q10 = f56 atan_Q11 = f57 atan_Q12 = f58 atan_Q13 = f59 atan_Q14 = f60 atan_Q15 = f61 atan_Q16 = f62 atan_Q17 = f63 atan_Q18 = f64 atan_Q19 = f65 atan_Q20 = f66 atan_Q21 = f67 atan_Q22 = f68 // P and Q constants are mutually exclusive // so they can share macro definitions atan_P0 = f46 atan_P1 = f47 atan_P2 = f48 atan_P3 = f49 atan_P4 = f10 atan_P5 = f11 atan_P6 = f12 atan_P7 = f13 atan_P10 = f103 atan_P11 = f114 atan_P12 = f58 atan_P13 = f59 atan_P14 = f60 atan_P15 = f61 atan_P16 = f62 atan_P17 = f63 atan_P18 = f64 atan_P19 = f65 atan_P20 = f14 atan_P21 = f99 atan_P22 = f68 // end of P constant macros atan_C = f69 atan_Y = f70 atan_B = f71 atan_Z = f72 atan_V11 = f73 atan_V12 = f74 atan_V7 = f75 atan_V8 = f76 atan_W13 = f77 atan_W11 = f78 atan_V3 = f79 atan_V4 = f80 atan_G11 = f81 atan_G12 = f82 atan_G7 = f83 atan_G8 = f84 atan_Z1 = f85 atan_W7 = f86 atan_G3 = f87 atan_W8 = f88 atan_V9 = f89 atan_V10 = f90 atan_G10 = f91 atan_W3 = f92 atan_G4 = f93 atan_G9 = f94 atan_G6 = f95 atan_W4 = f96 atan_Z2 = f97 atan_V6 = f98 atan_V2 = f99 atan_W6 = f100 atan_W10 = f101 atan_Y3 = f102 atan_G2 = f103 atan_Y8 = f104 atan_G5 = f105 atan_Z3 = f106 atan_Z4 = f107 atan_W2 = f108 atan_V5 = f109 atan_W5 = f110 atan_G1 = f111 atan_Y11 = f112 atan_Z5 = f113 atan_Z6 = f114 atan_V1 = f115 atan_W1 = f116 atan_Z7 = f117 atan_Q = f118 atan_Z = f119 atan_abs_f8 = f120 atan_V13 = f121 atan_Xcub = f122 atan_Y12 = f123 atan_P = f124 atan_NORM_f8 = f125 atan_P8 = f126 atan_P9 = f127 atan_GR_AD_R = r14 atan_GR_AD_Q = r15 atan_GR_AD_P = r16 atan_GR_10172 = r17 atan_GR_exp_f8 = r18 atan_GR_signexp_f8 = r19 atan_GR_exp_mask = r20 ///////////////////////////////////////////////////////////// #ifdef _LIBC .rodata #else .data #endif .align 16 double_atan_constants_R: ASM_TYPE_DIRECTIVE(double_atan_constants_R,@object) data8 0xB36B46B9C5443CED, 0x0000401C //R8 data8 0x842633E0D126261F, 0x0000401F //R9 data8 0xBE04FFFFFFFF46E0, 0x00004010 //R4 data8 0xE8C62000244D66E2, 0x00004013 //R5 data8 0xF2790C001E3789B3, 0x00004016 //R6 data8 0xDCD2CCF97D7C764F, 0x00004019 //R7 data8 0xB40000000000000B, 0x00004004 //R1 data8 0xB265F3D38F5EE28F, 0x00004021 //R10 data8 0x8160000000000001, 0x00004009 //R2 data8 0xFD5BFFFFFFFE55CD, 0x0000400C //R3 data8 0xC90FDAA22168C235, 0x00003FFF // pi/2 ASM_SIZE_DIRECTIVE(double_atan_constants_R) double_atan_constants_Q: ASM_TYPE_DIRECTIVE(double_atan_constants_Q,@object) data8 0xEBD602FA7761BC33, 0x00003FF9 //Q8 data8 0x8CB1CABD6A91913C, 0x0000BFFA //Q9 data8 0x84C665C37D623CD2, 0x00003FF7 //Q4 data8 0x8DE0D1673DAEA9BC, 0x0000BFF8 //Q5 data8 0xF658ADBE2C6E6FCC, 0x00003FF8 //Q6 data8 0xB56307BE1DD3FFB6, 0x0000BFF9 //Q7 data8 0xAAAAAAAAAAAA8000, 0x0000BFFD //Q21 data8 0x8000000000000000, 0x00003FFF //Q22 data8 0x924924923A9D710C, 0x0000BFFC //Q19 data8 0xCCCCCCCCCC9380E7, 0x00003FFC //Q20 data8 0xA644DC250EFA2800, 0x00003FED //Q0 data8 0x83DEAE24EEBF5E44, 0x0000BFF1 //Q1 data8 0xC758CCC64793D4EC, 0x00003FF3 //Q2 data8 0xBFDC0B54E7C89DCE, 0x0000BFF5 //Q3 data8 0x888855199D1290AF, 0x0000BFFB //Q15 data8 0x9D89D3BE514B0178, 0x00003FFB //Q16 data8 0xBA2E8B4DEC70282A, 0x0000BFFB //Q17 data8 0xE38E38DF9E9FC83B, 0x00003FFB //Q18 data8 0x9F8781CC990029D9, 0x00003FFA //Q10 data8 0xB0B39472DEBA3C79, 0x0000BFFA //Q11 data8 0xC2AFAEF8C85B0BC6, 0x00003FFA //Q12 data8 0xD780E539797525DD, 0x0000BFFA //Q13 data8 0xF0EDC449AC786DF9, 0x00003FFA //Q14 ASM_SIZE_DIRECTIVE(double_atan_constants_Q) double_atan_constants_P: ASM_TYPE_DIRECTIVE(double_atan_constants_P,@object) data8 0xB1899EC590CDB8DF, 0x0000BFFA //P10 data8 0xA1E79850A67D59B0, 0x00003FFA //P11 data8 0x911D8B30C2A96E6D, 0x0000BFF3 //P20 data8 0xB87233C68A640706, 0x00003FF0 //P21 data8 0xD78E4B82F3C29D7A, 0x0000BFFA //P8 data8 0xC2EBE37AF932C14F, 0x00003FFA //P9 data8 0xBA2E8B94AA104DD6, 0x0000BFFB //P4 data8 0x9D89D7A640B71D38, 0x00003FFB //P5 data8 0x88887CA2CE9B2A40, 0x0000BFFB //P6 data8 0xF0F017D57A919C1E, 0x00003FFA //P7 data8 0xD0D635F230C80E06, 0x0000BFF8 //P16 data8 0xE847BECA7209B479, 0x00003FF7 //P17 data8 0xD14C6A2AAE0D5B07, 0x0000BFF6 //P18 data8 0x915F612A5C469117, 0x00003FF5 //P19 data8 0x921EDE5FD0DBBBE2, 0x0000BFFA //P12 data8 0xFFD303C2C8535445, 0x00003FF9 //P13 data8 0xD30DF50E295386F7, 0x0000BFF9 //P14 data8 0x9E81F2B1BBD210A8, 0x00003FF9 //P15 data8 0xAAAAAAAAAAAAA800, 0x0000BFFD //P0 data8 0xCCCCCCCCCCC7D476, 0x00003FFC //P1 data8 0x9249249247838066, 0x0000BFFC //P2 data8 0xE38E38E302290D68, 0x00003FFB //P3 data8 0xDF7F0A816F7E5025, 0x0000BFEC //P22 ASM_SIZE_DIRECTIVE(double_atan_constants_P) .align 32 .global atan# //////////////////////////////////////////////////////// .section .text .proc atan# .align 32 atan: { .mmf (p0) addl atan_GR_AD_P = @ltoff(double_atan_constants_P), gp (p0) addl atan_GR_AD_Q = @ltoff(double_atan_constants_Q), gp (p0) fmerge.s atan_ABS_f8 = f0,f8 } ;; { .mmf ld8 atan_GR_AD_P = [atan_GR_AD_P] ld8 atan_GR_AD_Q = [atan_GR_AD_Q] (p0) frcpa.s1 atan_C,p8 = f1,f8 } ;; { .mmf (p0) addl atan_GR_AD_R = @ltoff(double_atan_constants_R), gp (p0) addl atan_GR_exp_mask = 0x1ffff, r0 (p0) fma.s1 atan_Y = f8,f8,f0 } ;; // This fnorm takes faults or sets fault flags { .mmf (p0) mov atan_GR_10172 = 0x10172 ld8 atan_GR_AD_R = [atan_GR_AD_R] (p0) fnorm atan_NORM_f8 = f8 } ;; // qnan snan inf norm unorm 0 -+ // 1 1 0 0 0 1 11 // c 7 // p9 set if we have a NAN or +-0 { .mmf (p0) ldfe atan_Q8 = [atan_GR_AD_Q],16 (p0) ldfe atan_P10 = [atan_GR_AD_P],16 (p0) fclass.m.unc p9, p0 = f8, 0xc7 } ;; { .mmi (p0) ldfe atan_Q9 = [atan_GR_AD_Q],16 (p0) ldfe atan_P11 = [atan_GR_AD_P],16 nop.i 999 } ;; { .mmf (p0) ldfe atan_Q4 = [atan_GR_AD_Q],16 (p0) ldfe atan_P20 = [atan_GR_AD_P],16 (p9) fma.d.s0 f8 = f8,f1,f0 ;; } // Exit if we have a NAN or +-0 { .mmb (p0) ldfe atan_Q5 = [atan_GR_AD_Q],16 (p0) ldfe atan_P21 = [atan_GR_AD_P],16 (p9) br.ret.spnt b0 ;; } // p6 is TRUE if |x| <= 1 // p7 is TRUE if |x| > 1 { .mmf (p0) ldfe atan_Q6 = [atan_GR_AD_Q],16 (p0) ldfe atan_P8 = [atan_GR_AD_P],16 (p0) fcmp.le.unc p6,p7 = atan_ABS_f8, f1 ;; } { .mfi (p0) ldfe atan_Q7 = [atan_GR_AD_Q],16 (p0) fma.s1 atan_Z = atan_C, atan_C, f0 nop.i 999 } { .mfi (p0) ldfe atan_P9 = [atan_GR_AD_P],16 (p0) fnma.s1 atan_B = atan_C,f8, f1 nop.i 999 ;; } { .mfi (p0) ldfe atan_Q21 = [atan_GR_AD_Q],16 (p0) fma.s1 atan_V12 = atan_Y, atan_Y, f0 nop.i 999 } { .mfi (p0) ldfe atan_P4 = [atan_GR_AD_P],16 (p0) fma.s1 atan_Xcub = f8, atan_Y , f0 nop.i 999 ;; } { .mmi (p7) ldfe atan_Q22 = [atan_GR_AD_Q],16 (p6) ldfe atan_P5 = [atan_GR_AD_P],16 (p6) cmp.eq.unc p8,p0 = r0,r0 ;; } { .mmi (p7) ldfe atan_Q19 = [atan_GR_AD_Q],16 (p6) ldfe atan_P6 = [atan_GR_AD_P],16 (p7) cmp.eq.unc p9,p0 = r0,r0 ;; } { .mmi (p7) ldfe atan_Q20 = [atan_GR_AD_Q],16 (p6) ldfe atan_P7 = [atan_GR_AD_P],16 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q0 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_V13 = atan_Y, atan_P11, atan_P10 nop.i 999 } { .mfi (p6) ldfe atan_P16 = [atan_GR_AD_P],16 (p7) fma.s1 atan_V11 = atan_Y, atan_Q9, atan_Q8 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q1 = [atan_GR_AD_Q],16 (p7) fma.s1 atan_G12 = atan_B, atan_B, f0 nop.i 999 } { .mfi (p6) ldfe atan_P17 = [atan_GR_AD_P],16 (p0) fma.s1 atan_V9 = atan_V12, atan_V12, f0 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q2 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_W11 = atan_Y, atan_P21, atan_P20 nop.i 999 } { .mfi (p6) ldfe atan_P18 = [atan_GR_AD_P],16 (p7) fma.s1 atan_V7 = atan_Y, atan_Q5, atan_Q4 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q3 = [atan_GR_AD_Q],16 (p7) fma.s1 atan_Z1 = atan_Z, atan_Z, f0 nop.i 999 } { .mfi (p6) ldfe atan_P19 = [atan_GR_AD_P],16 (p7) fma.s1 atan_Y3 = atan_Y , atan_V12, f0 nop.i 999 ;; } { .mfi (p7) ldfe atan_R8 = [atan_GR_AD_R],16 (p6) fma.s1 atan_V11 = atan_Y, atan_P9, atan_P8 nop.i 999 } { .mfi (p6) ldfe atan_P12 = [atan_GR_AD_P],16 (p7) fma.s1 atan_V8 = atan_Y, atan_Q7, atan_Q6 nop.i 999 ;; } { .mmi (p7) ldfe atan_R9 = [atan_GR_AD_R],16 (p6) ldfe atan_P13 = [atan_GR_AD_P],16 nop.i 999 ;; } { .mfi (p7) ldfe atan_R4 = [atan_GR_AD_R],16 (p6) fma.s1 atan_V7 = atan_Y, atan_P5, atan_P4 nop.i 999 } { .mfi (p6) ldfe atan_P14 = [atan_GR_AD_P],16 (p7) fma.s1 atan_W13 = atan_Y, atan_Q22, atan_Q21 nop.i 999 ;; } { .mfi (p7) ldfe atan_R5 = [atan_GR_AD_R],16 (p6) fma.s1 atan_Y12 = atan_V9 , atan_V9 , f0 nop.i 999 } { .mfi (p6) ldfe atan_P15 = [atan_GR_AD_P],16 (p7) fma.s1 atan_Y8 = atan_V9 , atan_V9 , f0 nop.i 999 ;; } { .mfi (p7) ldfe atan_R6 = [atan_GR_AD_R],16 (p6) fma.s1 atan_V8 = atan_Y, atan_P7, atan_P6 nop.i 999 } { .mfi (p6) ldfe atan_P0 = [atan_GR_AD_P],16 (p7) fma.s1 atan_W11 = atan_Y, atan_Q20, atan_Q19 nop.i 999 ;; } { .mfi (p7) ldfe atan_R7 = [atan_GR_AD_R],16 (p7) fma.s1 atan_Z2 = atan_Z1 , atan_Z1, f0 nop.i 999 } { .mfi (p6) ldfe atan_P1 = [atan_GR_AD_P],16 (p6) fma.s1 atan_V10 = atan_V12, atan_V13, atan_V11 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q15 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_W7 = atan_Y, atan_P17, atan_P16 nop.i 999 } { .mfi (p6) ldfe atan_P2 = [atan_GR_AD_P],16 (p7) fma.s1 atan_V3 = atan_Y, atan_Q1 , atan_Q0 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q16 = [atan_GR_AD_Q],16 (p7) fma.s1 atan_G9 = atan_G12, atan_G12, f0 nop.i 999 } { .mfi (p6) ldfe atan_P3 = [atan_GR_AD_P],16 (p7) fma.s1 atan_V6 = atan_V12, atan_V8, atan_V7 nop.i 999 ;; } { .mfi (p7) ldfe atan_R1 = [atan_GR_AD_R],16 (p6) fma.s1 atan_W8 = atan_Y, atan_P19, atan_P18 nop.i 999 } { .mfi (p6) ldfe atan_P22 = [atan_GR_AD_P],16 (p7) fma.s1 atan_V4 = atan_Y, atan_Q3 , atan_Q2 nop.i 999 ;; } { .mfi getf.exp atan_GR_signexp_f8 = atan_NORM_f8 (p7) fma.s1 atan_Y11 = atan_Y3 , atan_Y8 , f0 nop.i 999 } { .mfi (p7) ldfe atan_Q17 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_V6 = atan_V12, atan_V8, atan_V7 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q18 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_W3 = atan_Y, atan_P13, atan_P12 nop.i 999 } { .mfi (p7) ldfe atan_R10 = [atan_GR_AD_R],16 (p7) fma.s1 atan_G11 = atan_B, atan_R9 , atan_R8 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q10 = [atan_GR_AD_Q],16 (p7) fma.s1 atan_Z3 = atan_Z1 , atan_Z2 , f0 (p0) and atan_GR_exp_f8 = atan_GR_signexp_f8,atan_GR_exp_mask } { .mfi (p7) ldfe atan_R2 = [atan_GR_AD_R],16 (p7) fma.s1 atan_Z4 = atan_Z2 , atan_Z2 , f0 nop.i 999 ;; } { .mfi (p7) ldfe atan_Q11 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_W4 = atan_Y, atan_P15, atan_P14 nop.i 999 } { .mfi (p7) ldfe atan_R3 = [atan_GR_AD_R],16 (p7) fma.s1 atan_G7 = atan_B, atan_R5 , atan_R4 (p0) cmp.le.unc p11,p0 = atan_GR_10172,atan_GR_exp_f8 ;; } { .mmf (p9) ldfe atan_Q12 = [atan_GR_AD_Q],16 (p0) ldfe atan_S_PI = [atan_GR_AD_R],16 (p8) fma.s1 atan_W6 = atan_V12, atan_W8, atan_W7 ;; } { .mfi (p9) ldfe atan_Q13 = [atan_GR_AD_Q],16 (p8) fma.s1 atan_V3 = atan_Y, atan_P1 , atan_P0 (p11) cmp.ne.and p6,p7 = r0,r0 } { .mfi nop.m 999 (p8) fma.s1 atan_V5 = atan_V9 , atan_V10, atan_V6 nop.i 999 ;; } .pred.rel "mutex",p6,p7,p11 { .mfi (p7) ldfe atan_Q14 = [atan_GR_AD_Q],16 (p6) fma.s1 atan_Y12 = atan_V9 , atan_Y12, f0 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G8 = atan_B, atan_R7 , atan_R6 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_V4 = atan_Y, atan_P3 , atan_P2 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_W7 = atan_Y, atan_Q16, atan_Q15 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_W10 = atan_V12, atan_P22, atan_W11 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G3 = atan_B, atan_R1 , f1 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_W2 = atan_V12, atan_W4 , atan_W3 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_V2 = atan_V12, atan_V4 , atan_V3 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_W8 = atan_Y, atan_Q18, atan_Q17 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G10 = atan_G12, atan_R10, atan_G11 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_V10 = atan_V12, atan_Q10, atan_V11 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G6 = atan_G12, atan_G8 , atan_G7 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_V2 = atan_V12, atan_V4, atan_V3 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G4 = atan_B , atan_R3 , atan_R2 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_W5 = atan_V9 , atan_W10, atan_W6 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_W3 = atan_Y , atan_Q12, atan_Q11 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_Z5 = atan_Z3 , atan_Z4 , f0 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_W10 = atan_V12, atan_W13, atan_W11 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_W4 = atan_Y , atan_Q14, atan_Q13 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_W6 = atan_V12, atan_W8, atan_W7 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_V5 = atan_V9 , atan_V10, atan_V6 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G5 = atan_G9 , atan_G10, atan_G6 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_V1 = atan_V9 , atan_V5 , atan_V2 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_G2 = atan_G12, atan_G4 , atan_G3 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_W1 = atan_V9 , atan_W5 , atan_W2 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_Z6 = atan_Z4 , atan_C , f0 nop.i 999 ;; } { .mfi nop.m 999 (p0) fmerge.s atan_S_PI = f8, atan_S_PI nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_W5 = atan_V9 , atan_W10, atan_W6 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_W2 = atan_V12, atan_W4 , atan_W3 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_G1 = atan_G9 , atan_G5 , atan_G2 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_V1 = atan_V9 , atan_V5 , atan_V2 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.s1 atan_P = atan_Y12, atan_W1 , atan_V1 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_Z7 = atan_Z5 , atan_Z6 , f0 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_W1 = atan_V9 , atan_W5 , atan_W2 nop.i 999 ;; } { .mfi nop.m 999 (p11) fma.d.s0 f8 = atan_S_PI,f1,f0 nop.i 999 } { .mfi nop.m 999 (p7) fma.s1 atan_Z = atan_G1 , atan_Z7 , f0 nop.i 999 ;; } { .mfi nop.m 999 (p7) fma.s1 atan_Q = atan_Y11, atan_W1 , atan_V1 nop.i 999 ;; } { .mfi nop.m 999 (p6) fma.d.s0 f8 = atan_P , atan_Xcub , f8 nop.i 999 } { .mfb nop.m 999 (p7) fnma.d.s0 f8 = atan_Z , atan_Q , atan_S_PI (p0) br.ret.sptk b0 ;; } .endp atan ASM_SIZE_DIRECTIVE(atan)