722 lines
22 KiB
Plaintext
722 lines
22 KiB
Plaintext
divert(-1)
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dnl m4 macros for x86-64 assembler.
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dnl WARNING: only a few of the macros have been ported from x86 to x86-64
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dnl This file is just an adaptation of similar file in the x86 directory.
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dnl Adapted by P. Gaudry in April 2005.
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dnl Here is the copyright of the original x86 version:
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dnl Copyright 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2008, 2009, 2011,
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dnl 2012, 2013 Free Software Foundation, Inc.
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dnl
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dnl This file is part of the GNU MP Library.
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dnl
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dnl The GNU MP Library is free software; you can redistribute it and/or
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dnl modify it under the terms of the GNU Lesser General Public License as
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dnl published by the Free Software Foundation; either version 3 of the
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dnl License, or (at your option) any later version.
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dnl
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dnl The GNU MP Library is distributed in the hope that it will be useful,
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dnl but WITHOUT ANY WARRANTY; without even the implied warranty of
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dnl MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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dnl Lesser General Public License for more details.
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dnl
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dnl You should have received a copy of the GNU Lesser General Public License
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dnl along with the GNU MP Library. If not, see http://www.gnu.org/licenses/.
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dnl Usage: ret_internal
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dnl
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dnl A plain "ret", without any __cyg_profile_func_exit call. This can be
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dnl used for a return which is internal to some function, such as when
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dnl getting %eip for PIC.
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define(ret_internal,
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m4_assert_numargs(-1)
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``ret'')
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dnl Usage: CPUVEC_FUNCS_LIST
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dnl
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dnl A list of the functions from gmp-impl.h x86 struct cpuvec_t, in the
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dnl order they appear in that structure.
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define(CPUVEC_FUNCS_LIST,
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``add_err1_n',
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`add_err2_n',
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`add_n',
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`addmul_1',
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`copyd',
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`copyi',
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`divexact_1',
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`divexact_by3c',
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`divexact_byfobm1',
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`divrem_1',
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`divrem_2',
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`divrem_euclidean_qr_1',
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`divrem_euclidean_qr_2',
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`gcd_1',
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`lshift',
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`mod_1',
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`mod_34lsub1',
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`modexact_1c_odd',
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`mul_1',
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`mul_basecase',
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`mulmid_basecase',
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`preinv_divrem_1',
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`preinv_mod_1',
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`redc_1',
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`rshift',
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`sqr_basecase',
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`sub_err1_n',
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`sub_err2_n',
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`sub_n',
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`submul_1',
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`sumdiff_n'')
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dnl Notes:
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dnl
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dnl m4 isn't perfect for processing BSD style x86 assembler code, the main
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dnl problems are,
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dnl
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dnl 1. Doing define(foo,123) and then using foo in an addressing mode like
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dnl foo(%ebx) expands as a macro rather than a constant. This is worked
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dnl around by using deflit() from asm-defs.m4, instead of define().
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dnl
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dnl 2. Immediates in macro definitions need a space or `' to stop the $
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dnl looking like a macro parameter. For example,
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dnl
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dnl define(foo, `mov $ 123, %eax')
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dnl
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dnl This is only a problem in macro definitions, not in ordinary text,
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dnl and not in macro parameters like text passed to forloop() or ifdef().
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deflit(BYTES_PER_MP_LIMB, 8)
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dnl Libtool gives -DPIC -DDLL_EXPORT to indicate a cygwin or mingw DLL. We
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dnl undefine PIC since we don't need to be position independent in this
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dnl case and definitely don't want the ELF style _GLOBAL_OFFSET_TABLE_ etc.
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ifdef(`DLL_EXPORT',`undefine(`PIC')')
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dnl Called: PROLOGUE_cpu(GSYM_PREFIX`'foo)
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dnl
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dnl In the x86 code we use explicit TEXT and ALIGN() calls in the code,
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dnl since different alignments are wanted in various circumstances. So for
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dnl instance,
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dnl
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dnl TEXT
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dnl ALIGN(16)
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dnl PROLOGUE(mpn_add_n)
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dnl ...
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dnl EPILOGUE()
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define(`PROLOGUE_cpu',
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m4_assert_numargs(1)
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`GLOBL $1
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TYPE($1,`function')
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$1:
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ifelse(WANT_PROFILING,`no',,`call_mcount
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')')
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define(`JUMPTABSECT', `.section .data.rel.ro.local,"aw",@progbits')
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dnl Usage: JMPENT(targlabel,tablabel)
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define(`JMPENT',`dnl
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ifdef(`PIC',
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`.long $1-$2'
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,
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`.quad $1'
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)')
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dnl Usage: call_mcount
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dnl
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dnl For `gprof' style profiling, %ebp is setup as a frame pointer. None of
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dnl the assembler routines use %ebp this way, so it's done only for the
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dnl benefit of mcount. glibc sysdeps/i386/i386-mcount.S shows how mcount
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dnl gets the current function from (%esp) and the parent from 4(%ebp).
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dnl
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dnl For `prof' style profiling gcc generates mcount calls without setting
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dnl up %ebp, and the same is done here.
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define(`call_mcount',
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m4_assert_numargs(-1)
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m4_assert_defined(`WANT_PROFILING')
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m4_assert_defined(`MCOUNT_PIC_REG')
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m4_assert_defined(`MCOUNT_NONPIC_REG')
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m4_assert_defined(`MCOUNT_PIC_CALL')
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m4_assert_defined(`MCOUNT_NONPIC_CALL')
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`ifelse(ifdef(`PIC',`MCOUNT_PIC_REG',`MCOUNT_NONPIC_REG'),,,
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` DATA
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ALIGN(4)
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L(mcount_data_`'mcount_data_counter):
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W32 0
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TEXT
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')dnl
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ifelse(WANT_PROFILING,`gprof',
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` pushl %ebp
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movl %esp, %ebp
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')dnl
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ifdef(`PIC',
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` pushl %ebx
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mcount_movl_GOT_ebx
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ifelse(MCOUNT_PIC_REG,,,
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` leal L(mcount_data_`'mcount_data_counter)@GOTOFF(%ebx), MCOUNT_PIC_REG')
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MCOUNT_PIC_CALL
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popl %ebx
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',`dnl non-PIC
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ifelse(MCOUNT_NONPIC_REG,,,
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` movl `$'L(mcount_data_`'mcount_data_counter), MCOUNT_NONPIC_REG
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')dnl
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MCOUNT_NONPIC_CALL
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')dnl
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ifelse(WANT_PROFILING,`gprof',
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` popl %ebp
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')
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define(`mcount_data_counter',eval(mcount_data_counter+1))')
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define(mcount_data_counter,1)
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dnl Called: mcount_movl_GOT_ebx
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dnl Label H is "here", the %eip obtained from the call. C is the called
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dnl subroutine. J is the jump across that subroutine. A fetch and "ret"
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dnl is always done so calls and returns are balanced for the benefit of the
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dnl various x86s that have return stack branch prediction.
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define(mcount_movl_GOT_ebx,
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m4_assert_numargs(-1)
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` call L(mcount_movl_GOT_ebx_C`'mcount_movl_GOT_ebx_counter)
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L(mcount_movl_GOT_ebx_H`'mcount_movl_GOT_ebx_counter):
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jmp L(mcount_movl_GOT_ebx_J`'mcount_movl_GOT_ebx_counter)
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L(mcount_movl_GOT_ebx_C`'mcount_movl_GOT_ebx_counter):
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movl (%esp), %ebx
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ret
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L(mcount_movl_GOT_ebx_J`'mcount_movl_GOT_ebx_counter):
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addl $_GLOBAL_OFFSET_TABLE_+[.-L(mcount_movl_GOT_ebx_H`'mcount_movl_GOT_ebx_counter)], %ebx
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define(`mcount_movl_GOT_ebx_counter',incr(mcount_movl_GOT_ebx_counter))')
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define(mcount_movl_GOT_ebx_counter,1)
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dnl --------------------------------------------------------------------------
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dnl Various x86 macros.
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dnl
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dnl Usage: ALIGN_OFFSET(bytes,offset)
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dnl
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dnl Align to `offset' away from a multiple of `bytes'.
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dnl
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dnl This is useful for testing, for example align to something very strict
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dnl and see what effect offsets from it have, "ALIGN_OFFSET(256,32)".
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dnl
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dnl Generally you wouldn't execute across the padding, but it's done with
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dnl nop's so it'll work.
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define(ALIGN_OFFSET,
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m4_assert_numargs(2)
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`ALIGN($1)
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forloop(`i',1,$2,` nop
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')')
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dnl Usage: defframe(name,offset)
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dnl
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dnl Make a definition like the following with which to access a parameter
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dnl or variable on the stack.
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dnl
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dnl define(name,`FRAME+offset(%esp)')
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dnl
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dnl Actually m4_empty_if_zero(FRAME+offset) is used, which will save one
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dnl byte if FRAME+offset is zero, by putting (%esp) rather than 0(%esp).
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dnl Use define(`defframe_empty_if_zero_disabled',1) if for some reason the
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dnl zero offset is wanted.
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dnl
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dnl The new macro also gets a check that when it's used FRAME is actually
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dnl defined, and that the final %esp offset isn't negative, which would
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dnl mean an attempt to access something below the current %esp.
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dnl
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dnl deflit() is used rather than a plain define(), so the new macro won't
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dnl delete any following parenthesized expression. name(%edi) will come
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dnl out say as 16(%esp)(%edi). This isn't valid assembler and should
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dnl provoke an error, which is better than silently giving just 16(%esp).
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dnl
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dnl See README for more on the suggested way to access the stack frame.
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define(defframe,
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m4_assert_numargs(2)
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`deflit(`$1',
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m4_assert_defined(`FRAME')
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`defframe_check_notbelow(`$1',$2,FRAME)dnl
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defframe_empty_if_zero(FRAME+($2))(%rsp)')')
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dnl Called: defframe_empty_if_zero(expression)
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define(defframe_empty_if_zero,
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m4_assert_numargs(1)
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`ifelse(defframe_empty_if_zero_disabled,1,
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`eval($1)',
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`m4_empty_if_zero($1)')')
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dnl Called: defframe_check_notbelow(`name',offset,FRAME)
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define(defframe_check_notbelow,
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m4_assert_numargs(3)
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`ifelse(eval(($3)+($2)<0),1,
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`m4_error(`$1 at frame offset $2 used when FRAME is only $3 bytes
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')')')
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dnl Usage: FRAME_pushl()
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dnl FRAME_popl()
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dnl FRAME_addl_esp(n)
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dnl FRAME_subl_esp(n)
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dnl
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dnl Adjust FRAME appropriately for a pushl or popl, or for an addl or subl
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dnl %esp of n bytes.
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dnl
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dnl Using these macros is completely optional. Sometimes it makes more
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dnl sense to put explicit deflit(`FRAME',N) forms, especially when there's
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dnl jumps and different sequences of FRAME values need to be used in
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dnl different places.
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define(FRAME_pushq,
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m4_assert_numargs(0)
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m4_assert_defined(`FRAME')
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`deflit(`FRAME',eval(FRAME+8))')
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define(FRAME_popq,
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m4_assert_numargs(0)
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m4_assert_defined(`FRAME')
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`deflit(`FRAME',eval(FRAME-8))')
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define(FRAME_addq_rsp,
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m4_assert_numargs(1)
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m4_assert_defined(`FRAME')
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`deflit(`FRAME',eval(FRAME-($1)))')
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define(FRAME_subq_rsp,
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m4_assert_numargs(1)
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m4_assert_defined(`FRAME')
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`deflit(`FRAME',eval(FRAME+($1)))')
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dnl Usage: defframe_pushl(name)
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dnl
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dnl Do a combination FRAME_pushl() and a defframe() to name the stack
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dnl location just pushed. This should come after a pushl instruction.
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dnl Putting it on the same line works and avoids lengthening the code. For
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dnl example,
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dnl
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dnl pushl %eax defframe_pushl(VAR_COUNTER)
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dnl
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dnl Notice the defframe() is done with an unquoted -FRAME thus giving its
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dnl current value without tracking future changes.
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define(defframe_pushq,
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m4_assert_numargs(1)
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`FRAME_pushl()defframe(`$1',-FRAME)')
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dnl --------------------------------------------------------------------------
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dnl Assembler instruction macros.
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dnl
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dnl Usage: x86_lookup(target, key,value, key,value, ...)
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dnl x86_lookup_p(target, key,value, key,value, ...)
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dnl
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dnl Look for `target' among the `key' parameters.
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dnl
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dnl x86_lookup expands to the corresponding `value', or generates an error
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dnl if `target' isn't found.
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dnl
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dnl x86_lookup_p expands to 1 if `target' is found, or 0 if not.
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define(x86_lookup,
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m4_assert_numargs_range(1,999)
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`ifelse(eval($#<3),1,
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`m4_error(`unrecognised part of x86 instruction: $1
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')',
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`ifelse(`$1',`$2', `$3',
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`x86_lookup(`$1',shift(shift(shift($@))))')')')
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define(x86_lookup_p,
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m4_assert_numargs_range(1,999)
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`ifelse(eval($#<3),1, `0',
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`ifelse(`$1',`$2', `1',
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`x86_lookup_p(`$1',shift(shift(shift($@))))')')')
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dnl Usage: x86_opcode_reg32(reg)
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dnl x86_opcode_reg32_p(reg)
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dnl
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dnl x86_opcode_reg32 expands to the standard 3 bit encoding for the given
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dnl 32-bit register, eg. `%ebp' turns into 5.
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dnl
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dnl x86_opcode_reg32_p expands to 1 if reg is a valid 32-bit register, or 0
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dnl if not.
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define(x86_opcode_reg32,
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m4_assert_numargs(1)
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`x86_lookup(`$1',x86_opcode_reg32_list)')
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define(x86_opcode_reg32_p,
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m4_assert_onearg()
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`x86_lookup_p(`$1',x86_opcode_reg32_list)')
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define(x86_opcode_reg32_list,
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``%eax',0,
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`%ecx',1,
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`%edx',2,
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`%ebx',3,
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`%esp',4,
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`%ebp',5,
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`%esi',6,
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`%edi',7')
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dnl Usage: x86_opcode_tttn(cond)
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dnl
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dnl Expand to the 4-bit "tttn" field value for the given x86 branch
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dnl condition (like `c', `ae', etc).
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define(x86_opcode_tttn,
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m4_assert_numargs(1)
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`x86_lookup(`$1',x86_opcode_ttn_list)')
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define(x86_opcode_tttn_list,
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``o', 0,
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`no', 1,
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`b', 2, `c', 2, `nae',2,
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`nb', 3, `nc', 3, `ae', 3,
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`e', 4, `z', 4,
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`ne', 5, `nz', 5,
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`be', 6, `na', 6,
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`nbe', 7, `a', 7,
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`s', 8,
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`ns', 9,
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`p', 10, `pe', 10, `npo',10,
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`np', 11, `npe',11, `po', 11,
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`l', 12, `nge',12,
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`nl', 13, `ge', 13,
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`le', 14, `ng', 14,
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`nle',15, `g', 15')
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dnl Usage: x86_opcode_regmmx(reg)
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dnl
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dnl Validate the given mmx register, and return its number, 0 to 7.
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define(x86_opcode_regmmx,
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m4_assert_numargs(1)
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`x86_lookup(`$1',x86_opcode_regmmx_list)')
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define(x86_opcode_regmmx_list,
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``%mm0',0,
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`%mm1',1,
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`%mm2',2,
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`%mm3',3,
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`%mm4',4,
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`%mm5',5,
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`%mm6',6,
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`%mm7',7')
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dnl Usage: Zdisp(inst,op,op,op)
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dnl
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dnl Generate explicit .byte sequences if necessary to force a byte-sized
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dnl zero displacement on an instruction. For example,
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dnl
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dnl Zdisp( movl, 0,(%esi), %eax)
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dnl
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dnl expands to
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dnl
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dnl .byte 139,70,0 C movl 0(%esi), %eax
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dnl
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dnl If the displacement given isn't 0, then normal assembler code is
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dnl generated. For example,
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dnl
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dnl Zdisp( movl, 4,(%esi), %eax)
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dnl
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dnl expands to
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dnl
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dnl movl 4(%esi), %eax
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dnl
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dnl This means a single Zdisp() form can be used with an expression for the
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dnl displacement, and .byte will be used only if necessary. The
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dnl displacement argument is eval()ed.
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dnl
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dnl Because there aren't many places a 0(reg) form is wanted, Zdisp is
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dnl implemented with a table of instructions and encodings. A new entry is
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dnl needed for any different operation or registers. The table is split
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dnl into separate macros to avoid overflowing BSD m4 macro expansion space.
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define(Zdisp,
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m4_assert_numargs(4)
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`define(`Zdisp_found',0)dnl
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Zdisp_1($@)dnl
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Zdisp_2($@)dnl
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Zdisp_3($@)dnl
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Zdisp_4($@)dnl
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Zdisp_5($@)dnl
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ifelse(Zdisp_found,0,
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`m4_error(`unrecognised instruction in Zdisp: $1 $2 $3 $4
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')')')
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define(Zdisp_1,`dnl
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Zdisp_match( adcl, 0,(%edx), %eax, `0x13,0x42,0x00', $@)`'dnl
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Zdisp_match( adcl, 0,(%edx), %ebx, `0x13,0x5a,0x00', $@)`'dnl
|
|
Zdisp_match( adcl, 0,(%edx), %esi, `0x13,0x72,0x00', $@)`'dnl
|
|
Zdisp_match( addl, %ebx, 0,(%edi), `0x01,0x5f,0x00', $@)`'dnl
|
|
Zdisp_match( addl, %ecx, 0,(%edi), `0x01,0x4f,0x00', $@)`'dnl
|
|
Zdisp_match( addl, %esi, 0,(%edi), `0x01,0x77,0x00', $@)`'dnl
|
|
Zdisp_match( sbbl, 0,(%edx), %eax, `0x1b,0x42,0x00', $@)`'dnl
|
|
Zdisp_match( sbbl, 0,(%edx), %esi, `0x1b,0x72,0x00', $@)`'dnl
|
|
Zdisp_match( subl, %ecx, 0,(%edi), `0x29,0x4f,0x00', $@)`'dnl
|
|
Zdisp_match( movzbl, 0,(%eax,%ebp), %eax, `0x0f,0xb6,0x44,0x28,0x00', $@)`'dnl
|
|
Zdisp_match( movzbl, 0,(%ecx,%edi), %edi, `0x0f,0xb6,0x7c,0x39,0x00', $@)`'dnl
|
|
')
|
|
define(Zdisp_2,`dnl
|
|
Zdisp_match( movl, %eax, 0,(%edi), `0x89,0x47,0x00', $@)`'dnl
|
|
Zdisp_match( movl, %ebx, 0,(%edi), `0x89,0x5f,0x00', $@)`'dnl
|
|
Zdisp_match( movl, %esi, 0,(%edi), `0x89,0x77,0x00', $@)`'dnl
|
|
Zdisp_match( movl, 0,(%ebx), %eax, `0x8b,0x43,0x00', $@)`'dnl
|
|
Zdisp_match( movl, 0,(%ebx), %esi, `0x8b,0x73,0x00', $@)`'dnl
|
|
Zdisp_match( movl, 0,(%edx), %eax, `0x8b,0x42,0x00', $@)`'dnl
|
|
Zdisp_match( movl, 0,(%esi), %eax, `0x8b,0x46,0x00', $@)`'dnl
|
|
Zdisp_match( movl, 0,(%esi,%ecx,4), %eax, `0x8b,0x44,0x8e,0x00', $@)`'dnl
|
|
')
|
|
define(Zdisp_3,`dnl
|
|
Zdisp_match( movq, 0,(%eax,%ecx,8), %mm0, `0x0f,0x6f,0x44,0xc8,0x00', $@)`'dnl
|
|
Zdisp_match( movq, 0,(%ebx,%eax,4), %mm0, `0x0f,0x6f,0x44,0x83,0x00', $@)`'dnl
|
|
Zdisp_match( movq, 0,(%ebx,%eax,4), %mm2, `0x0f,0x6f,0x54,0x83,0x00', $@)`'dnl
|
|
Zdisp_match( movq, 0,(%ebx,%ecx,4), %mm0, `0x0f,0x6f,0x44,0x8b,0x00', $@)`'dnl
|
|
Zdisp_match( movq, 0,(%edx), %mm0, `0x0f,0x6f,0x42,0x00', $@)`'dnl
|
|
Zdisp_match( movq, 0,(%esi), %mm0, `0x0f,0x6f,0x46,0x00', $@)`'dnl
|
|
Zdisp_match( movq, %mm0, 0,(%edi), `0x0f,0x7f,0x47,0x00', $@)`'dnl
|
|
Zdisp_match( movq, %mm2, 0,(%ecx,%eax,4), `0x0f,0x7f,0x54,0x81,0x00', $@)`'dnl
|
|
Zdisp_match( movq, %mm2, 0,(%edx,%eax,4), `0x0f,0x7f,0x54,0x82,0x00', $@)`'dnl
|
|
Zdisp_match( movq, %mm0, 0,(%edx,%ecx,8), `0x0f,0x7f,0x44,0xca,0x00', $@)`'dnl
|
|
')
|
|
define(Zdisp_4,`dnl
|
|
Zdisp_match( movd, 0,(%eax,%ecx,4), %mm0, `0x0f,0x6e,0x44,0x88,0x00', $@)`'dnl
|
|
Zdisp_match( movd, 0,(%eax,%ecx,8), %mm1, `0x0f,0x6e,0x4c,0xc8,0x00', $@)`'dnl
|
|
Zdisp_match( movd, 0,(%edx,%ecx,8), %mm0, `0x0f,0x6e,0x44,0xca,0x00', $@)`'dnl
|
|
Zdisp_match( movd, %mm0, 0,(%eax,%ecx,4), `0x0f,0x7e,0x44,0x88,0x00', $@)`'dnl
|
|
Zdisp_match( movd, %mm0, 0,(%ecx,%eax,4), `0x0f,0x7e,0x44,0x81,0x00', $@)`'dnl
|
|
Zdisp_match( movd, %mm2, 0,(%ecx,%eax,4), `0x0f,0x7e,0x54,0x81,0x00', $@)`'dnl
|
|
Zdisp_match( movd, %mm0, 0,(%edx,%ecx,4), `0x0f,0x7e,0x44,0x8a,0x00', $@)`'dnl
|
|
')
|
|
define(Zdisp_5,`dnl
|
|
Zdisp_match( movq, 0,(%rsi), %rax, `0x48,0x8b,0x46,0x00', $@)`'dnl
|
|
Zdisp_match( addq, %rcx, 0, (%rdi), `0x48,0x01,0x4f,0x00', $@)`'dnl
|
|
Zdisp_match( addq, %rbx, 0, (%rdi), `0x48,0x01,0x5f,0x00', $@)`'dnl
|
|
Zdisp_match( subq, %rcx, 0, (%rdi), `0x48,0x29,0x4f,0x00', $@)`'dnl
|
|
Zdisp_match( movq, 0,(%rbx), %rsi, `0x48,0x8b,0x73,0x00', $@)`'dnl
|
|
Zdisp_match( movq, %rsi, 0,(%rdi), `0x48,0x89,0x77,0x00', $@)`'dnl
|
|
Zdisp_match( adcq, 0, (%rdx), %rsi, `0x48,0x13,0x72,0x00', $@)`'dnl
|
|
Zdisp_match( sbbq, 0, (%rdx), %rsi, `0x48,0x1b,0x72,0x00', $@)`'dnl
|
|
')
|
|
|
|
|
|
define(Zdisp_match,
|
|
m4_assert_numargs(9)
|
|
`ifelse(eval(m4_stringequal_p(`$1',`$6')
|
|
&& m4_stringequal_p(`$2',0)
|
|
&& m4_stringequal_p(`$3',`$8')
|
|
&& m4_stringequal_p(`$4',`$9')),1,
|
|
`define(`Zdisp_found',1)dnl
|
|
ifelse(eval(`$7'),0,
|
|
` .byte $5 C `$1 0$3, $4'',
|
|
` $6 $7$8, $9')',
|
|
|
|
`ifelse(eval(m4_stringequal_p(`$1',`$6')
|
|
&& m4_stringequal_p(`$2',`$7')
|
|
&& m4_stringequal_p(`$3',0)
|
|
&& m4_stringequal_p(`$4',`$9')),1,
|
|
`define(`Zdisp_found',1)dnl
|
|
ifelse(eval(`$8'),0,
|
|
` .byte $5 C `$1 $2, 0$4'',
|
|
` $6 $7, $8$9')')')')
|
|
|
|
|
|
dnl Usage: shldl(count,src,dst)
|
|
dnl shrdl(count,src,dst)
|
|
dnl shldw(count,src,dst)
|
|
dnl shrdw(count,src,dst)
|
|
dnl
|
|
dnl Generate a double-shift instruction, possibly omitting a %cl count
|
|
dnl parameter if that's what the assembler requires, as indicated by
|
|
dnl WANT_SHLDL_CL in config.m4. For example,
|
|
dnl
|
|
dnl shldl( %cl, %eax, %ebx)
|
|
dnl
|
|
dnl turns into either
|
|
dnl
|
|
dnl shldl %cl, %eax, %ebx
|
|
dnl or
|
|
dnl shldl %eax, %ebx
|
|
dnl
|
|
dnl Immediate counts are always passed through unchanged. For example,
|
|
dnl
|
|
dnl shrdl( $2, %esi, %edi)
|
|
dnl becomes
|
|
dnl shrdl $2, %esi, %edi
|
|
dnl
|
|
dnl
|
|
dnl If you forget to use the macro form "shldl( ...)" and instead write
|
|
dnl just a plain "shldl ...", an error results. This ensures the necessary
|
|
dnl variant treatment of %cl isn't accidentally bypassed.
|
|
|
|
define(define_shd_instruction,
|
|
m4_assert_numargs(1)
|
|
`define($1,
|
|
m4_instruction_wrapper()
|
|
m4_assert_numargs(3)
|
|
`shd_instruction'(m4_doublequote($`'0),m4_doublequote($`'1),dnl
|
|
m4_doublequote($`'2),m4_doublequote($`'3)))')
|
|
|
|
dnl Effectively: define(shldl,`shd_instruction(`$0',`$1',`$2',`$3')') etc
|
|
define_shd_instruction(shldl)
|
|
define_shd_instruction(shrdl)
|
|
define_shd_instruction(shldw)
|
|
define_shd_instruction(shrdw)
|
|
|
|
dnl Called: shd_instruction(op,count,src,dst)
|
|
define(shd_instruction,
|
|
m4_assert_numargs(4)
|
|
m4_assert_defined(`WANT_SHLDL_CL')
|
|
`ifelse(eval(m4_stringequal_p(`$2',`%cl') && !WANT_SHLDL_CL),1,
|
|
``$1' `$3', `$4'',
|
|
``$1' `$2', `$3', `$4'')')
|
|
|
|
|
|
dnl Usage: ASSERT([cond][,instructions])
|
|
dnl
|
|
dnl If WANT_ASSERT is 1, output the given instructions and expect the given
|
|
dnl flags condition to then be satisfied. For example,
|
|
dnl
|
|
dnl ASSERT(ne, `cmpl %eax, %ebx')
|
|
dnl
|
|
dnl The instructions can be omitted to just assert a flags condition with
|
|
dnl no extra calculation. For example,
|
|
dnl
|
|
dnl ASSERT(nc)
|
|
dnl
|
|
dnl When `instructions' is not empty, a pushf/popf is added to preserve the
|
|
dnl flags, but the instructions themselves must preserve any registers that
|
|
dnl matter. FRAME is adjusted for the push and pop, so the instructions
|
|
dnl given can use defframe() stack variables.
|
|
dnl
|
|
dnl The condition can be omitted to just output the given instructions when
|
|
dnl assertion checking is wanted. In this case the pushf/popf is omitted.
|
|
dnl For example,
|
|
dnl
|
|
dnl ASSERT(, `movl %eax, VAR_KEEPVAL')
|
|
|
|
define(ASSERT,
|
|
m4_assert_numargs_range(1,2)
|
|
`ifelse(WANT_ASSERT,1,
|
|
`ifelse(`$1',,
|
|
`$2',
|
|
`C ASSERT
|
|
ifelse(`$2',,,` pushf ifdef(`FRAME',`FRAME_pushl()')')
|
|
$2
|
|
j`$1' L(ASSERT_ok`'ASSERT_counter)
|
|
ud2 C assertion failed
|
|
L(ASSERT_ok`'ASSERT_counter):
|
|
ifelse(`$2',,,` popf ifdef(`FRAME',`FRAME_popl()')')
|
|
define(`ASSERT_counter',incr(ASSERT_counter))')')')
|
|
|
|
define(ASSERT_counter,1)
|
|
|
|
define(`R32',
|
|
`ifelse($1,`%rax',`%eax',
|
|
$1,`%rbx',`%ebx',
|
|
$1,`%rcx',`%ecx',
|
|
$1,`%rdx',`%edx',
|
|
$1,`%rsi',`%esi',
|
|
$1,`%rdi',`%edi',
|
|
$1,`%rbp',`%ebp',
|
|
$1,`%r8',`%r8d',
|
|
$1,`%r9',`%r9d',
|
|
$1,`%r10',`%r10d',
|
|
$1,`%r11',`%r11d',
|
|
$1,`%r12',`%r12d',
|
|
$1,`%r13',`%r13d',
|
|
$1,`%r14',`%r14d',
|
|
$1,`%r15',`%r15d')')
|
|
|
|
define(`R8',
|
|
`ifelse($1,`%rax',`%al',
|
|
$1,`%rbx',`%bl',
|
|
$1,`%rcx',`%cl',
|
|
$1,`%rdx',`%dl',
|
|
$1,`%rsi',`%sil',
|
|
$1,`%rdi',`%dil',
|
|
$1,`%rbp',`%bpl',
|
|
$1,`%r8',`%r8b',
|
|
$1,`%r9',`%r9b',
|
|
$1,`%r10',`%r10b',
|
|
$1,`%r11',`%r11b',
|
|
$1,`%r12',`%r12b',
|
|
$1,`%r13',`%r13b',
|
|
$1,`%r14',`%r14b',
|
|
$1,`%r15',`%r15b')')
|
|
|
|
define(`JUMPTABSECT', `.section .data.rel.ro.local,"aw",@progbits')
|
|
|
|
|
|
dnl Usage: JMPENT(targlabel,tablabel)
|
|
|
|
define(`JMPENT',`dnl
|
|
ifdef(`PIC',
|
|
`.long $1-$2'
|
|
,
|
|
`.quad $1'
|
|
)')
|
|
|
|
dnl Usage: movl_text_address(label,register)
|
|
dnl
|
|
dnl Get the address of a text segment label, using either a plain movl or a
|
|
dnl position-independent calculation, as necessary. For example,
|
|
dnl
|
|
dnl movl_code_address(L(foo),%eax)
|
|
dnl
|
|
dnl This macro is only meant for use in ASSERT()s or when testing, since
|
|
dnl the PIC sequence it generates will want to be done with a ret balancing
|
|
dnl the call on CPUs with return address branch predition.
|
|
dnl
|
|
dnl The addl generated here has a backward reference to the label, and so
|
|
dnl won't suffer from the two forwards references bug in old gas (described
|
|
dnl in mpn/x86/README).
|
|
|
|
define(movl_text_address,
|
|
m4_assert_numargs(2)
|
|
`ifdef(`PIC',
|
|
`call L(movl_text_address_`'movl_text_address_counter)
|
|
L(movl_text_address_`'movl_text_address_counter):
|
|
popl $2 C %eip
|
|
addl `$'$1-L(movl_text_address_`'movl_text_address_counter), $2
|
|
define(`movl_text_address_counter',incr(movl_text_address_counter))',
|
|
`movl `$'$1, $2')')
|
|
|
|
define(movl_text_address_counter,1)
|
|
|
|
|
|
dnl Usage: notl_or_xorl_GMP_NUMB_MASK(reg)
|
|
dnl
|
|
dnl Expand to either "notl `reg'" or "xorl $GMP_NUMB_BITS,`reg'" as
|
|
dnl appropriate for nails in use or not.
|
|
|
|
define(notl_or_xorl_GMP_NUMB_MASK,
|
|
m4_assert_numargs(1)
|
|
`ifelse(GMP_NAIL_BITS,0,
|
|
`notl `$1'',
|
|
`xorl $GMP_NUMB_MASK, `$1'')')
|
|
|
|
|
|
divert`'dnl
|