mirror of
https://github.com/autc04/Retro68.git
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434 lines
10 KiB
ArmAsm
434 lines
10 KiB
ArmAsm
/* Copyright (C) 2012-2017 Free Software Foundation, Inc.
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Contributed by Richard Henderson <rth@redhat.com>.
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This file is part of the GNU Transactional Memory Library (libitm).
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Libitm is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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Libitm is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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.text
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#include "asmcfi.h"
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#if defined(__powerpc64__) && _CALL_ELF == 2
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.macro FUNC name
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.globl \name
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.type \name, @function
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\name:
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0: addis 2,12,(.TOC.-0b)@ha
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addi 2,2,(.TOC.-0b)@l
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.localentry \name, . - \name
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.endm
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.macro END name
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.size \name, . - \name
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.endm
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.macro HIDDEN name
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.hidden \name
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.endm
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.macro CALL name
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bl \name
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nop
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.endm
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#elif defined(__powerpc64__) && defined(__ELF__)
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.macro FUNC name
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.globl \name, .\name
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.section ".opd","aw"
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.align 3
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\name:
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.quad .\name, .TOC.@tocbase, 0
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.size \name, 24
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.type .\name, @function
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.text
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.\name:
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.endm
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.macro END name
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.size .\name, . - .\name
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.endm
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.macro HIDDEN name
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.hidden \name, .\name
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.endm
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.macro CALL name
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bl \name
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nop
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.endm
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#elif defined(__ELF__)
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.macro FUNC name
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.globl \name
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.type \name, @function
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\name:
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.endm
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.macro END name
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.size \name, . - \name
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.endm
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.macro HIDDEN name
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.hidden \name
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.endm
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.macro CALL name
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bl \name
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.endm
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#elif defined(_CALL_DARWIN)
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.macro FUNC
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.globl _$0
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_$0:
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.endmacro
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.macro END
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.endmacro
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.macro HIDDEN
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.private_extern _$0
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.endmacro
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.macro CALL
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bl _$0
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.endmacro
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# ifdef __ppc64__
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.machine ppc64
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# else
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.machine ppc7400
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# endif
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#else
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#error "unsupported system"
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#endif
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/* Parameterize the naming of registers. */
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#if defined(__ELF__)
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# define r(N) %r##N
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# define f(N) %f##N
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# define v(N) %v##N
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#elif defined(__MACH__)
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# define r(N) r##N
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# define f(N) f##N
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# define v(N) v##N
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#else
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# define r(N) N
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# define f(N) N
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# define v(N) N
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#endif
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/* Parameterize the code for 32-bit vs 64-bit. */
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#if defined(__powerpc64__) || defined(__ppc64__)
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#define ldreg ld
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#define streg std
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#define stregu stdu
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#define WS 8
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#else
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#define ldreg lwz
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#define streg stw
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#define stregu stwu
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#define WS 4
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#endif
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/* Parameterize the code for call frame constants. */
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#if defined(_CALL_AIXDESC)
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# define BASE 6*WS
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# define LR_SAVE 2*WS
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#elif _CALL_ELF == 2
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# define BASE 6*WS
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# define LR_SAVE 2*WS
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#elif defined(_CALL_SYSV)
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# define BASE 2*WS
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# define LR_SAVE 1*WS
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#elif defined(_CALL_DARWIN)
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# define BASE (6*WS + 2*WS)
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# define LR_SAVE 2*WS
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#else
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# error "unsupported system"
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#endif
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#if defined(__ALTIVEC__) || defined(__VSX__)
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# define OFS_VR 0
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# define OFS_VSCR 12*16
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# define OFS_VR_END OFS_VSCR + 8
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#else
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# define OFS_VR_END 0
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#endif
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#ifndef _SOFT_FLOAT
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# define OFS_FR OFS_VR_END
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# define OFS_FPSCR OFS_FR + 18*8
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# define OFS_FR_END OFS_FPSCR + 8
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#else
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# define OFS_FR_END OFS_VR_END
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#endif
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#define OFS_GR OFS_FR_END
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#define OFS_CFA OFS_GR + 18*WS
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#define OFS_LR OFS_CFA + WS
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#define OFS_TOC OFS_LR + WS
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#define OFS_CR OFS_TOC + WS
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#define OFS_END (((OFS_CR + WS + 15) / 16) * 16)
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#define FRAME (((BASE + OFS_END + 15) / 16) * 16)
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#define VRSAVE 256
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.align 4
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FUNC _ITM_beginTransaction
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cfi_startproc
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mflr r(0)
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mfcr r(5)
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addi r(4), r(1), -OFS_END
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mr r(6), r(1)
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streg r(0), LR_SAVE(r(1))
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stregu r(1), -FRAME(r(1))
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cfi_def_cfa_offset(FRAME)
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cfi_offset(65, LR_SAVE)
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streg r(6), OFS_CFA(r(4))
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streg r(0), OFS_LR(r(4))
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#ifdef _CALL_DARWIN
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streg r(13), OFS_TOC(r(4))
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#else
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streg r(2), OFS_TOC(r(4))
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#endif
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streg r(5), OFS_CR(r(4))
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streg r(14), 0*WS+OFS_GR(r(4))
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streg r(15), 1*WS+OFS_GR(r(4))
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streg r(16), 2*WS+OFS_GR(r(4))
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streg r(17), 3*WS+OFS_GR(r(4))
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streg r(18), 4*WS+OFS_GR(r(4))
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streg r(19), 5*WS+OFS_GR(r(4))
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streg r(20), 6*WS+OFS_GR(r(4))
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streg r(21), 7*WS+OFS_GR(r(4))
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streg r(22), 8*WS+OFS_GR(r(4))
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streg r(23), 9*WS+OFS_GR(r(4))
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streg r(24), 10*WS+OFS_GR(r(4))
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streg r(25), 11*WS+OFS_GR(r(4))
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streg r(26), 12*WS+OFS_GR(r(4))
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streg r(27), 13*WS+OFS_GR(r(4))
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streg r(28), 14*WS+OFS_GR(r(4))
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streg r(29), 15*WS+OFS_GR(r(4))
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streg r(30), 16*WS+OFS_GR(r(4))
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streg r(31), 17*WS+OFS_GR(r(4))
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#ifndef _SOFT_FLOAT
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/* ??? Determine when FPRs not present. */
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/* ??? Test r(3) for pr_hasNoFloatUpdate and skip the fp save.
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This is not yet set by the compiler. */
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mffs f(0)
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stfd f(14), 0+OFS_FR(r(4))
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stfd f(15), 8+OFS_FR(r(4))
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stfd f(16), 16+OFS_FR(r(4))
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stfd f(17), 24+OFS_FR(r(4))
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stfd f(18), 32+OFS_FR(r(4))
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stfd f(19), 40+OFS_FR(r(4))
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stfd f(20), 48+OFS_FR(r(4))
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stfd f(21), 56+OFS_FR(r(4))
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stfd f(22), 64+OFS_FR(r(4))
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stfd f(23), 72+OFS_FR(r(4))
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stfd f(24), 80+OFS_FR(r(4))
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stfd f(25), 88+OFS_FR(r(4))
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stfd f(26), 96+OFS_FR(r(4))
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stfd f(27),104+OFS_FR(r(4))
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stfd f(28),112+OFS_FR(r(4))
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stfd f(29),120+OFS_FR(r(4))
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stfd f(30),128+OFS_FR(r(4))
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stfd f(31),136+OFS_FR(r(4))
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stfd f(0), OFS_FPSCR(r(4))
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#endif
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#if defined(__ALTIVEC__)
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/* ??? Determine when VRs not present. */
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/* ??? Test r(3) for pr_hasNoVectorUpdate and skip the vr save.
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This is not yet set by the compiler. */
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addi r(5), r(4), OFS_VR
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addi r(6), r(4), OFS_VR+16
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mfspr r(0), VRSAVE
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stvx v(20), 0, r(5)
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addi r(5), r(5), 32
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stvx v(21), 0, r(6)
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addi r(6), r(6), 32
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stvx v(22), 0, r(5)
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addi r(5), r(5), 32
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stvx v(23), 0, r(6)
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addi r(6), r(6), 32
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stvx v(25), 0, r(5)
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addi r(5), r(5), 32
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stvx v(26), 0, r(6)
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addi r(6), r(6), 32
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stvx v(26), 0, r(5)
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addi r(5), r(5), 32
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stvx v(27), 0, r(6)
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addi r(6), r(6), 32
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stvx v(28), 0, r(5)
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addi r(5), r(5), 32
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stvx v(29), 0, r(6)
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addi r(6), r(6), 32
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stvx v(30), 0, r(5)
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stvx v(31), 0, r(6)
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streg r(0), OFS_VSCR(r(4))
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#endif
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CALL GTM_begin_transaction
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ldreg r(0), LR_SAVE+FRAME(r(1))
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mtlr r(0)
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addi r(1), r(1), FRAME
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cfi_def_cfa_offset(0)
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cfi_restore(65)
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blr
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cfi_endproc
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END _ITM_beginTransaction
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.align 4
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HIDDEN GTM_longjmp
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FUNC GTM_longjmp
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cfi_startproc
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#if defined(__ALTIVEC__) || defined(__VSX__)
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/* ??? Determine when VRs not present. */
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/* ??? Test r(5) for pr_hasNoVectorUpdate and skip the vr restore.
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This is not yet set by the compiler. */
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addi r(6), r(4), OFS_VR
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addi r(7), r(4), OFS_VR+16
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ldreg r(0), OFS_VSCR(r(4))
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cfi_undefined(v(20))
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cfi_undefined(v(21))
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cfi_undefined(v(22))
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cfi_undefined(v(23))
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cfi_undefined(v(24))
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cfi_undefined(v(25))
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cfi_undefined(v(26))
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cfi_undefined(v(27))
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cfi_undefined(v(28))
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cfi_undefined(v(29))
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cfi_undefined(v(30))
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cfi_undefined(v(31))
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lvx v(20), 0, r(6)
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addi r(6), r(6), 32
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lvx v(21), 0, r(7)
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addi r(7), r(7), 32
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lvx v(22), 0, r(6)
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addi r(6), r(6), 32
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lvx v(23), 0, r(7)
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addi r(7), r(7), 32
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lvx v(24), 0, r(6)
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addi r(6), r(6), 32
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lvx v(25), 0, r(7)
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addi r(7), r(7), 32
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lvx v(26), 0, r(6)
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addi r(6), r(6), 32
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lvx v(27), 0, r(7)
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addi r(7), r(7), 32
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lvx v(28), 0, r(6)
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addi r(6), r(6), 32
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lvx v(29), 0, r(7)
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addi r(7), r(7), 32
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lvx v(30), 0, r(6)
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lvx v(31), 0, r(7)
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mtspr VRSAVE, r(0)
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#endif
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#ifndef _SOFT_FLOAT
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/* ??? Determine when FPRs not present. */
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/* ??? Test r(5) for pr_hasNoFloatUpdate and skip the fp load.
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This is not yet set by the compiler. */
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lfd f(0), OFS_FPSCR(r(4))
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cfi_undefined(f(14))
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cfi_undefined(f(15))
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cfi_undefined(f(16))
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cfi_undefined(f(17))
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cfi_undefined(f(18))
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cfi_undefined(f(19))
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cfi_undefined(f(20))
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cfi_undefined(f(21))
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cfi_undefined(f(22))
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cfi_undefined(f(23))
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cfi_undefined(f(24))
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cfi_undefined(f(25))
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cfi_undefined(f(26))
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cfi_undefined(f(27))
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cfi_undefined(f(28))
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cfi_undefined(f(29))
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cfi_undefined(f(30))
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cfi_undefined(f(31))
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lfd f(14), 0+OFS_FR(r(4))
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lfd f(15), 8+OFS_FR(r(4))
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lfd f(16), 16+OFS_FR(r(4))
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lfd f(17), 24+OFS_FR(r(4))
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lfd f(18), 32+OFS_FR(r(4))
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lfd f(19), 40+OFS_FR(r(4))
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lfd f(20), 48+OFS_FR(r(4))
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lfd f(21), 56+OFS_FR(r(4))
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lfd f(22), 64+OFS_FR(r(4))
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lfd f(23), 72+OFS_FR(r(4))
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lfd f(24), 80+OFS_FR(r(4))
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lfd f(25), 88+OFS_FR(r(4))
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lfd f(26), 96+OFS_FR(r(4))
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lfd f(27),104+OFS_FR(r(4))
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lfd f(28),112+OFS_FR(r(4))
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lfd f(29),120+OFS_FR(r(4))
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lfd f(30),128+OFS_FR(r(4))
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lfd f(31),136+OFS_FR(r(4))
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mtfsf 0xff, f(0)
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#endif
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ldreg r(6), OFS_CFA(r(4))
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ldreg r(0), OFS_LR(r(4))
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#ifdef _CALL_DARWIN
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ldreg r(13), OFS_TOC(r(4))
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#else
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ldreg r(2), OFS_TOC(r(4))
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#endif
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ldreg r(7), OFS_CR(r(4))
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/* At the instant we restore the LR, the only coherent view of
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the world we have is into the new stack frame. Define the
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CFA in terms of the not-yet-restored stack pointer. This will
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last until the end of the function. */
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mtlr r(0)
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cfi_def_cfa(r(6), 0)
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cfi_undefined(r(14))
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cfi_undefined(r(15))
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cfi_undefined(r(16))
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cfi_undefined(r(17))
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cfi_undefined(r(18))
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cfi_undefined(r(19))
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cfi_undefined(r(20))
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cfi_undefined(r(21))
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cfi_undefined(r(22))
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cfi_undefined(r(23))
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cfi_undefined(r(24))
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cfi_undefined(r(25))
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cfi_undefined(r(26))
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cfi_undefined(r(27))
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cfi_undefined(r(28))
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cfi_undefined(r(29))
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cfi_undefined(r(30))
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cfi_undefined(r(31))
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mtcr r(7)
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ldreg r(14), 0*WS+OFS_GR(r(4))
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ldreg r(15), 1*WS+OFS_GR(r(4))
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ldreg r(16), 2*WS+OFS_GR(r(4))
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ldreg r(17), 3*WS+OFS_GR(r(4))
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ldreg r(18), 4*WS+OFS_GR(r(4))
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ldreg r(19), 5*WS+OFS_GR(r(4))
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ldreg r(20), 6*WS+OFS_GR(r(4))
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ldreg r(21), 7*WS+OFS_GR(r(4))
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ldreg r(22), 8*WS+OFS_GR(r(4))
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ldreg r(23), 9*WS+OFS_GR(r(4))
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ldreg r(24), 10*WS+OFS_GR(r(4))
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ldreg r(25), 11*WS+OFS_GR(r(4))
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ldreg r(26), 12*WS+OFS_GR(r(4))
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ldreg r(27), 13*WS+OFS_GR(r(4))
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ldreg r(28), 14*WS+OFS_GR(r(4))
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ldreg r(29), 15*WS+OFS_GR(r(4))
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ldreg r(30), 16*WS+OFS_GR(r(4))
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ldreg r(31), 17*WS+OFS_GR(r(4))
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mr r(1), r(6)
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blr
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cfi_endproc
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END GTM_longjmp
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#ifdef __linux__
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.section .note.GNU-stack, "", @progbits
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#endif
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