divert(-1) dnl m4 macros for x86-64 assembler. dnl WARNING: only a few of the macros have been ported from x86 to x86-64 dnl This file is just an adaptation of similar file in the x86 directory. dnl Adapted by P. Gaudry in April 2005. dnl Here is the copyright of the original x86 version: dnl Copyright 1999, 2000, 2001, 2002 Free Software Foundation, Inc. dnl dnl This file is part of the GNU MP Library. dnl dnl The GNU MP Library is free software; you can redistribute it and/or dnl modify it under the terms of the GNU Lesser General Public License as dnl published by the Free Software Foundation; either version 2.1 of the dnl License, or (at your option) any later version. dnl dnl The GNU MP Library is distributed in the hope that it will be useful, dnl but WITHOUT ANY WARRANTY; without even the implied warranty of dnl MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU dnl Lesser General Public License for more details. dnl dnl You should have received a copy of the GNU Lesser General Public dnl License along with the GNU MP Library; see the file COPYING.LIB. If dnl not, write to the Free Software Foundation, Inc., 59 Temple Place - dnl Suite 330, Boston, MA 02111-1307, USA. dnl Usage: ret_internal dnl dnl A plain "ret", without any __cyg_profile_func_exit call. This can be dnl used for a return which is internal to some function, such as when dnl getting %eip for PIC. define(ret_internal, m4_assert_numargs(-1) ``ret'') dnl Usage: CPUVEC_FUNCS_LIST dnl dnl A list of the functions from gmp-impl.h x86 struct cpuvec_t, in the dnl order they appear in that structure. define(CPUVEC_FUNCS_LIST, ``add_n', `addmul_1', `copyd', `copyi', `divexact_1', `divexact_by3c', `divexact_fobm1', `divrem_1', `divrem_2', `divrem_euclidean_qr_1', `divrem_euclidean_qr_2', `gcd_1', `lshift', `mod_1', `mod_34lsub1', `modexact_1c_odd', `mul_1', `mul_basecase', `preinv_divrem_1', `preinv_mod_1', `redc_basecase', `rshift', `sqr_basecase', `sub_n', `submul_1', `sumdiff_n'') dnl Notes: dnl dnl m4 isn't perfect for processing BSD style x86 assembler code, the main dnl problems are, dnl dnl 1. Doing define(foo,123) and then using foo in an addressing mode like dnl foo(%ebx) expands as a macro rather than a constant. This is worked dnl around by using deflit() from asm-defs.m4, instead of define(). dnl dnl 2. Immediates in macro definitions need a space or `' to stop the $ dnl looking like a macro parameter. For example, dnl dnl define(foo, `mov $ 123, %eax') dnl dnl This is only a problem in macro definitions, not in ordinary text, dnl and not in macro parameters like text passed to forloop() or ifdef(). deflit(BYTES_PER_MP_LIMB, 8) dnl Libtool gives -DPIC -DDLL_EXPORT to indicate a cygwin or mingw DLL. We dnl undefine PIC since we don't need to be position independent in this dnl case and definitely don't want the ELF style _GLOBAL_OFFSET_TABLE_ etc. ifdef(`DLL_EXPORT',`undefine(`PIC')') dnl Called: PROLOGUE_cpu(GSYM_PREFIX`'foo) dnl dnl In the x86 code we use explicit TEXT and ALIGN() calls in the code, dnl since different alignments are wanted in various circumstances. So for dnl instance, dnl dnl TEXT dnl ALIGN(16) dnl PROLOGUE(mpn_add_n) dnl ... dnl EPILOGUE() define(`PROLOGUE_cpu', m4_assert_numargs(1) `GLOBL $1 TYPE($1,`function') $1: ifelse(WANT_PROFILING,`no',,`call_mcount ')') dnl Usage: call_mcount dnl dnl For `gprof' style profiling, %ebp is setup as a frame pointer. None of dnl the assembler routines use %ebp this way, so it's done only for the dnl benefit of mcount. glibc sysdeps/i386/i386-mcount.S shows how mcount dnl gets the current function from (%esp) and the parent from 4(%ebp). dnl dnl For `prof' style profiling gcc generates mcount calls without setting dnl up %ebp, and the same is done here. define(`call_mcount', m4_assert_numargs(-1) m4_assert_defined(`WANT_PROFILING') m4_assert_defined(`MCOUNT_PIC_REG') m4_assert_defined(`MCOUNT_NONPIC_REG') m4_assert_defined(`MCOUNT_PIC_CALL') m4_assert_defined(`MCOUNT_NONPIC_CALL') `ifelse(ifdef(`PIC',`MCOUNT_PIC_REG',`MCOUNT_NONPIC_REG'),,, ` DATA ALIGN(4) L(mcount_data_`'mcount_data_counter): W32 0 TEXT ')dnl ifelse(WANT_PROFILING,`gprof', ` pushl %ebp movl %esp, %ebp ')dnl ifdef(`PIC', ` pushl %ebx mcount_movl_GOT_ebx ifelse(MCOUNT_PIC_REG,,, ` leal L(mcount_data_`'mcount_data_counter)@GOTOFF(%ebx), MCOUNT_PIC_REG') MCOUNT_PIC_CALL popl %ebx ',`dnl non-PIC ifelse(MCOUNT_NONPIC_REG,,, ` movl `$'L(mcount_data_`'mcount_data_counter), MCOUNT_NONPIC_REG ')dnl MCOUNT_NONPIC_CALL ')dnl ifelse(WANT_PROFILING,`gprof', ` popl %ebp ') define(`mcount_data_counter',eval(mcount_data_counter+1))') define(mcount_data_counter,1) dnl Called: mcount_movl_GOT_ebx dnl Label H is "here", the %eip obtained from the call. C is the called dnl subroutine. J is the jump across that subroutine. A fetch and "ret" dnl is always done so calls and returns are balanced for the benefit of the dnl various x86s that have return stack branch prediction. define(mcount_movl_GOT_ebx, m4_assert_numargs(-1) ` call L(mcount_movl_GOT_ebx_C`'mcount_movl_GOT_ebx_counter) L(mcount_movl_GOT_ebx_H`'mcount_movl_GOT_ebx_counter): jmp L(mcount_movl_GOT_ebx_J`'mcount_movl_GOT_ebx_counter) L(mcount_movl_GOT_ebx_C`'mcount_movl_GOT_ebx_counter): movl (%esp), %ebx ret L(mcount_movl_GOT_ebx_J`'mcount_movl_GOT_ebx_counter): addl $_GLOBAL_OFFSET_TABLE_+[.-L(mcount_movl_GOT_ebx_H`'mcount_movl_GOT_ebx_counter)], %ebx define(`mcount_movl_GOT_ebx_counter',incr(mcount_movl_GOT_ebx_counter))') define(mcount_movl_GOT_ebx_counter,1) dnl -------------------------------------------------------------------------- dnl Various x86 macros. dnl dnl Usage: ALIGN_OFFSET(bytes,offset) dnl dnl Align to `offset' away from a multiple of `bytes'. dnl dnl This is useful for testing, for example align to something very strict dnl and see what effect offsets from it have, "ALIGN_OFFSET(256,32)". dnl dnl Generally you wouldn't execute across the padding, but it's done with dnl nop's so it'll work. define(ALIGN_OFFSET, m4_assert_numargs(2) `ALIGN($1) forloop(`i',1,$2,` nop ')') dnl Usage: defframe(name,offset) dnl dnl Make a definition like the following with which to access a parameter dnl or variable on the stack. dnl dnl define(name,`FRAME+offset(%esp)') dnl dnl Actually m4_empty_if_zero(FRAME+offset) is used, which will save one dnl byte if FRAME+offset is zero, by putting (%esp) rather than 0(%esp). dnl Use define(`defframe_empty_if_zero_disabled',1) if for some reason the dnl zero offset is wanted. dnl dnl The new macro also gets a check that when it's used FRAME is actually dnl defined, and that the final %esp offset isn't negative, which would dnl mean an attempt to access something below the current %esp. dnl dnl deflit() is used rather than a plain define(), so the new macro won't dnl delete any following parenthesized expression. name(%edi) will come dnl out say as 16(%esp)(%edi). This isn't valid assembler and should dnl provoke an error, which is better than silently giving just 16(%esp). dnl dnl See README for more on the suggested way to access the stack frame. define(defframe, m4_assert_numargs(2) `deflit(`$1', m4_assert_defined(`FRAME') `defframe_check_notbelow(`$1',$2,FRAME)dnl defframe_empty_if_zero(FRAME+($2))(%rsp)')') dnl Called: defframe_empty_if_zero(expression) define(defframe_empty_if_zero, m4_assert_numargs(1) `ifelse(defframe_empty_if_zero_disabled,1, `eval($1)', `m4_empty_if_zero($1)')') dnl Called: defframe_check_notbelow(`name',offset,FRAME) define(defframe_check_notbelow, m4_assert_numargs(3) `ifelse(eval(($3)+($2)<0),1, `m4_error(`$1 at frame offset $2 used when FRAME is only $3 bytes ')')') dnl Usage: FRAME_pushl() dnl FRAME_popl() dnl FRAME_addl_esp(n) dnl FRAME_subl_esp(n) dnl dnl Adjust FRAME appropriately for a pushl or popl, or for an addl or subl dnl %esp of n bytes. dnl dnl Using these macros is completely optional. Sometimes it makes more dnl sense to put explicit deflit(`FRAME',N) forms, especially when there's dnl jumps and different sequences of FRAME values need to be used in dnl different places. define(FRAME_pushq, m4_assert_numargs(0) m4_assert_defined(`FRAME') `deflit(`FRAME',eval(FRAME+8))') define(FRAME_popq, m4_assert_numargs(0) m4_assert_defined(`FRAME') `deflit(`FRAME',eval(FRAME-8))') define(FRAME_addq_rsp, m4_assert_numargs(1) m4_assert_defined(`FRAME') `deflit(`FRAME',eval(FRAME-($1)))') define(FRAME_subq_rsp, m4_assert_numargs(1) m4_assert_defined(`FRAME') `deflit(`FRAME',eval(FRAME+($1)))') dnl Usage: defframe_pushl(name) dnl dnl Do a combination FRAME_pushl() and a defframe() to name the stack dnl location just pushed. This should come after a pushl instruction. dnl Putting it on the same line works and avoids lengthening the code. For dnl example, dnl dnl pushl %eax defframe_pushl(VAR_COUNTER) dnl dnl Notice the defframe() is done with an unquoted -FRAME thus giving its dnl current value without tracking future changes. define(defframe_pushq, m4_assert_numargs(1) `FRAME_pushl()defframe(`$1',-FRAME)') dnl -------------------------------------------------------------------------- dnl Assembler instruction macros. dnl dnl Usage: emms_or_femms dnl femms_available_p dnl dnl femms_available_p expands to 1 or 0 according to whether the AMD 3DNow dnl femms instruction is available. emms_or_femms expands to femms if dnl available, or emms if not. dnl dnl emms_or_femms is meant for use in the K6 directory where plain K6 dnl (without femms) and K6-2 and K6-3 (with a slightly faster femms) are dnl supported together. dnl dnl On K7 femms is no longer faster and is just an alias for emms, so plain dnl emms may as well be used. define(femms_available_p, m4_assert_numargs(-1) `m4_ifdef_anyof_p( `HAVE_HOST_CPU_k62', `HAVE_HOST_CPU_k63', `HAVE_HOST_CPU_athlon')') define(emms_or_femms, m4_assert_numargs(-1) `ifelse(femms_available_p,1,`femms',`emms')') dnl Usage: femms dnl dnl Gas 2.9.1 which comes with FreeBSD 3.4 doesn't support femms, so the dnl following is a replacement using .byte. dnl dnl If femms isn't available, an emms is generated instead, for convenience dnl when testing on a machine without femms. define(femms, m4_assert_numargs(-1) `ifelse(femms_available_p,1, `.byte 15,14 C AMD 3DNow femms', `emms`'dnl m4_warning(`warning, using emms in place of femms, use for testing only ')')') dnl Usage: jadcl0(op) dnl dnl Generate a jnc/incl as a substitute for adcl $0,op. Note this isn't an dnl exact replacement, since it doesn't set the flags like adcl does. dnl dnl This finds a use in K6 mpn_addmul_1, mpn_submul_1, mpn_mul_basecase and dnl mpn_sqr_basecase because on K6 an adcl is slow, the branch dnl misprediction penalty is small, and the multiply algorithm used leads dnl to a carry bit on average only 1/4 of the time. dnl dnl jadcl0_disabled can be set to 1 to instead generate an ordinary adcl dnl for comparison. For example, dnl dnl define(`jadcl0_disabled',1) dnl dnl When using a register operand, eg. "jadcl0(%edx)", the jnc/incl code is dnl the same size as an adcl. This makes it possible to use the exact same dnl computed jump code when testing the relative speed of the two. define(jadcl0, m4_assert_numargs(1) `ifelse(jadcl0_disabled,1, `adcl $`'0, $1', `jnc L(jadcl0_`'jadcl0_counter) incl $1 L(jadcl0_`'jadcl0_counter): define(`jadcl0_counter',incr(jadcl0_counter))')') define(jadcl0_counter,1) dnl Usage: cmov_available_p dnl dnl Expand to 1 if cmov is available, 0 if not. define(cmov_available_p, m4_assert_numargs(-1) `m4_ifdef_anyof_p( `HAVE_HOST_CPU_pentiumpro', `HAVE_HOST_CPU_pentium2', `HAVE_HOST_CPU_pentium3', `HAVE_HOST_CPU_pentium4', `HAVE_HOST_CPU_athlon')') dnl Usage: x86_lookup(target, key,value, key,value, ...) dnl x86_lookup_p(target, key,value, key,value, ...) dnl dnl Look for `target' among the `key' parameters. dnl dnl x86_lookup expands to the corresponding `value', or generates an error dnl if `target' isn't found. dnl dnl x86_lookup_p expands to 1 if `target' is found, or 0 if not. define(x86_lookup, m4_assert_numargs_range(1,999) `ifelse(eval($#<3),1, `m4_error(`unrecognised part of x86 instruction: $1 ')', `ifelse(`$1',`$2', `$3', `x86_lookup(`$1',shift(shift(shift($@))))')')') define(x86_lookup_p, m4_assert_numargs_range(1,999) `ifelse(eval($#<3),1, `0', `ifelse(`$1',`$2', `1', `x86_lookup_p(`$1',shift(shift(shift($@))))')')') dnl Usage: x86_opcode_reg32(reg) dnl x86_opcode_reg32_p(reg) dnl dnl x86_opcode_reg32 expands to the standard 3 bit encoding for the given dnl 32-bit register, eg. `%ebp' turns into 5. dnl dnl x86_opcode_reg32_p expands to 1 if reg is a valid 32-bit register, or 0 dnl if not. define(x86_opcode_reg32, m4_assert_numargs(1) `x86_lookup(`$1',x86_opcode_reg32_list)') define(x86_opcode_reg32_p, m4_assert_onearg() `x86_lookup_p(`$1',x86_opcode_reg32_list)') define(x86_opcode_reg32_list, ``%eax',0, `%ecx',1, `%edx',2, `%ebx',3, `%esp',4, `%ebp',5, `%esi',6, `%edi',7') dnl Usage: x86_opcode_tttn(cond) dnl dnl Expand to the 4-bit "tttn" field value for the given x86 branch dnl condition (like `c', `ae', etc). define(x86_opcode_tttn, m4_assert_numargs(1) `x86_lookup(`$1',x86_opcode_ttn_list)') define(x86_opcode_tttn_list, ``o', 0, `no', 1, `b', 2, `c', 2, `nae',2, `nb', 3, `nc', 3, `ae', 3, `e', 4, `z', 4, `ne', 5, `nz', 5, `be', 6, `na', 6, `nbe', 7, `a', 7, `s', 8, `ns', 9, `p', 10, `pe', 10, `npo',10, `np', 11, `npe',11, `po', 11, `l', 12, `nge',12, `nl', 13, `ge', 13, `le', 14, `ng', 14, `nle',15, `g', 15') dnl Usage: x86_opcode_regmmx(reg) dnl dnl Validate the given mmx register, and return its number, 0 to 7. define(x86_opcode_regmmx, m4_assert_numargs(1) `x86_lookup(`$1',x86_opcode_regmmx_list)') define(x86_opcode_regmmx_list, ``%mm0',0, `%mm1',1, `%mm2',2, `%mm3',3, `%mm4',4, `%mm5',5, `%mm6',6, `%mm7',7') dnl Usage: psadbw(src,dst) dnl dnl Oldish versions of gas don't know psadbw, in particular gas 2.9.1 on dnl FreeBSD 3.3 and 3.4 doesn't, so instead emit .byte sequences. For dnl example, dnl dnl psadbw( %mm1, %mm2) dnl dnl Only register->register forms are supported here, which suffices for dnl the current code. define(psadbw, m4_instruction_wrapper() m4_assert_numargs(2) `.byte 0x0f,0xf6,dnl eval(192+x86_opcode_regmmx(`$2')*8+x86_opcode_regmmx(`$1')) dnl C `psadbw $1, $2'') dnl Usage: loop_or_decljnz label dnl dnl Generate either a "loop" instruction or a "decl %ecx / jnz", whichever dnl is better. "loop" is better on K6 and probably on 386, on other chips dnl separate decl/jnz is better. dnl dnl This macro is just for mpn/x86/divrem_1.asm and mpn/x86/mod_1.asm where dnl this loop_or_decljnz variation is enough to let the code be shared by dnl all chips. define(loop_or_decljnz, m4_assert_numargs(-1) `ifelse(loop_is_better_p,1, `loop', `decl %ecx jnz')') define(loop_is_better_p, m4_assert_numargs(-1) `m4_ifdef_anyof_p(`HAVE_HOST_CPU_k6', `HAVE_HOST_CPU_k62', `HAVE_HOST_CPU_k63', `HAVE_HOST_CPU_i386')') dnl Usage: Zdisp(inst,op,op,op) dnl dnl Generate explicit .byte sequences if necessary to force a byte-sized dnl zero displacement on an instruction. For example, dnl dnl Zdisp( movl, 0,(%esi), %eax) dnl dnl expands to dnl dnl .byte 139,70,0 C movl 0(%esi), %eax dnl dnl If the displacement given isn't 0, then normal assembler code is dnl generated. For example, dnl dnl Zdisp( movl, 4,(%esi), %eax) dnl dnl expands to dnl dnl movl 4(%esi), %eax dnl dnl This means a single Zdisp() form can be used with an expression for the dnl displacement, and .byte will be used only if necessary. The dnl displacement argument is eval()ed. dnl dnl Because there aren't many places a 0(reg) form is wanted, Zdisp is dnl implemented with a table of instructions and encodings. A new entry is dnl needed for any different operation or registers. The table is split dnl into separate macros to avoid overflowing BSD m4 macro expansion space. define(Zdisp, m4_assert_numargs(4) `define(`Zdisp_found',0)dnl Zdisp_1($@)dnl Zdisp_2($@)dnl Zdisp_3($@)dnl Zdisp_4($@)dnl Zdisp_5($@)dnl ifelse(Zdisp_found,0, `m4_error(`unrecognised instruction in Zdisp: $1 $2 $3 $4 ')')') define(Zdisp_1,`dnl Zdisp_match( adcl, 0,(%edx), %eax, `0x13,0x42,0x00', $@)`'dnl 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) 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