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author | Erlang/OTP <otp@erlang.org> | 2009-11-20 14:54:40 +0000 |
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committer | Erlang/OTP <otp@erlang.org> | 2009-11-20 14:54:40 +0000 |
commit | 84adefa331c4159d432d22840663c38f155cd4c1 (patch) | |
tree | bff9a9c66adda4df2106dfd0e5c053ab182a12bd /lib/hipe/x86/hipe_x86_encode.erl | |
download | otp-84adefa331c4159d432d22840663c38f155cd4c1.tar.gz otp-84adefa331c4159d432d22840663c38f155cd4c1.tar.bz2 otp-84adefa331c4159d432d22840663c38f155cd4c1.zip |
The R13B03 release.OTP_R13B03
Diffstat (limited to 'lib/hipe/x86/hipe_x86_encode.erl')
-rw-r--r-- | lib/hipe/x86/hipe_x86_encode.erl | 1302 |
1 files changed, 1302 insertions, 0 deletions
diff --git a/lib/hipe/x86/hipe_x86_encode.erl b/lib/hipe/x86/hipe_x86_encode.erl new file mode 100644 index 0000000000..db7f53ad26 --- /dev/null +++ b/lib/hipe/x86/hipe_x86_encode.erl @@ -0,0 +1,1302 @@ +%%% +%%% %CopyrightBegin% +%%% +%%% Copyright Ericsson AB 2001-2009. All Rights Reserved. +%%% +%%% The contents of this file are subject to the Erlang Public License, +%%% Version 1.1, (the "License"); you may not use this file except in +%%% compliance with the License. You should have received a copy of the +%%% Erlang Public License along with this software. If not, it can be +%%% retrieved online at http://www.erlang.org/. +%%% +%%% Software distributed under the License is distributed on an "AS IS" +%%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%%% the License for the specific language governing rights and limitations +%%% under the License. +%%% +%%% %CopyrightEnd% +%%% +%%% Copyright (C) 2000-2005 Mikael Pettersson +%%% +%%% This is the syntax of x86 r/m operands: +%%% +%%% opnd ::= reg mod == 11 +%%% | MEM[ea] mod != 11 +%%% +%%% ea ::= disp32(reg) mod == 10, r/m != ESP +%%% | disp32 sib12 mod == 10, r/m == 100 +%%% | disp8(reg) mod == 01, r/m != ESP +%%% | disp8 sib12 mod == 01, r/m == 100 +%%% | (reg) mod == 00, r/m != ESP and EBP +%%% | sib0 mod == 00, r/m == 100 +%%% | disp32 mod == 00, r/m == 101 [on x86-32] +%%% | disp32(%rip) mod == 00, r/m == 101 [on x86-64] +%%% +%%% // sib0: mod == 00 +%%% sib0 ::= disp32(,index,scale) base == EBP, index != ESP +%%% | disp32 base == EBP, index == 100 +%%% | (base,index,scale) base != EBP, index != ESP +%%% | (base) base != EBP, index == 100 +%%% +%%% // sib12: mod == 01 or 10 +%%% sib12 ::= (base,index,scale) index != ESP +%%% | (base) index == 100 +%%% +%%% scale ::= 00 | 01 | 10 | 11 index << scale +%%% +%%% Notes: +%%% +%%% 1. ESP cannot be used as index register. +%%% 2. Use of ESP as base register requires a SIB byte. +%%% 3. disp(reg), when reg != ESP, can be represented without +%%% [r/m == reg] or with [r/m == 100, base == reg] a SIB byte. +%%% 4. disp32 can be represented without [mod == 00, r/m == 101] +%%% or with [mod == 00, r/m == 100, base == 101, index == 100] +%%% a SIB byte. +%%% 5. x86-32 and x86-64 interpret mod==00b r/m==101b EAs differently: +%%% on x86-32 the disp32 is an absolute address, but on x86-64 the +%%% disp32 is relative to the %rip of the next instruction. +%%% Absolute disp32s need a SIB on x86-64. + +-module(hipe_x86_encode). + +-export([% condition codes + cc/1, + % 8-bit registers + %% al/0, cl/0, dl/0, bl/0, ah/0, ch/0, dh/0, bh/0, + % 32-bit registers + %% eax/0, ecx/0, edx/0, ebx/0, esp/0, ebp/0, esi/0, edi/0, + % operands + sindex/2, sib/1, sib/2, + ea_disp32_base/2, ea_disp32_sib/2, + ea_disp8_base/2, ea_disp8_sib/2, + ea_base/1, + %% ea_disp32_sindex/1, % XXX: do not use on x86-32, only on x86-64 + ea_disp32_sindex/2, + ea_sib/1, ea_disp32/1, + rm_reg/1, rm_mem/1, + % instructions + insn_encode/3, insn_sizeof/2]). + +%%-define(DO_HIPE_X86_ENCODE_TEST,true). +-ifdef(DO_HIPE_X86_ENCODE_TEST). +-export([dotest/0, dotest/1]). % for testing, don't use +-endif. + +-define(ASSERT(F,G), if G -> [] ; true -> exit({?MODULE,F}) end). +%-define(ASSERT(F,G), []). + +%%% condition codes + +-define(CC_O, 2#0000). % overflow +-define(CC_NO, 2#0001). % no overflow +-define(CC_B, 2#0010). % below, <u +-define(CC_AE, 2#0011). % above or equal, >=u +-define(CC_E, 2#0100). % equal +-define(CC_NE, 2#0101). % not equal +-define(CC_BE, 2#0110). % below or equal, <=u +-define(CC_A, 2#0111). % above, >u +-define(CC_S, 2#1000). % sign, + +-define(CC_NS, 2#1001). % not sign, - +-define(CC_PE, 2#1010). % parity even +-define(CC_PO, 2#1011). % parity odd +-define(CC_L, 2#1100). % less than, <s +-define(CC_GE, 2#1101). % greater or equal, >=s +-define(CC_LE, 2#1110). % less or equal, <=s +-define(CC_G, 2#1111). % greater than, >s + +cc(o) -> ?CC_O; +cc(no) -> ?CC_NO; +cc(b) -> ?CC_B; +cc(ae) -> ?CC_AE; +cc(e) -> ?CC_E; +cc(ne) -> ?CC_NE; +cc(be) -> ?CC_BE; +cc(a) -> ?CC_A; +cc(s) -> ?CC_S; +cc(ns) -> ?CC_NS; +cc(pe) -> ?CC_PE; +cc(po) -> ?CC_PO; +cc(l) -> ?CC_L; +cc(ge) -> ?CC_GE; +cc(le) -> ?CC_LE; +cc(g) -> ?CC_G. + +%%% 8-bit registers + +-define(AL, 2#000). +-define(CL, 2#001). +-define(DL, 2#010). +-define(BL, 2#011). +-define(AH, 2#100). +-define(CH, 2#101). +-define(DH, 2#110). +-define(BH, 2#111). + +%% al() -> ?AL. +%% cl() -> ?CL. +%% dl() -> ?DL. +%% bl() -> ?BL. +%% ah() -> ?AH. +%% ch() -> ?CH. +%% dh() -> ?DH. +%% bh() -> ?BH. + +%%% 32-bit registers + +-define(EAX, 2#000). +-define(ECX, 2#001). +-define(EDX, 2#010). +-define(EBX, 2#011). +-define(ESP, 2#100). +-define(EBP, 2#101). +-define(ESI, 2#110). +-define(EDI, 2#111). + +%% eax() -> ?EAX. +%% ecx() -> ?ECX. +%% edx() -> ?EDX. +%% ebx() -> ?EBX. +%% esp() -> ?ESP. +%% ebp() -> ?EBP. +%% esi() -> ?ESI. +%% edi() -> ?EDI. + +%%% r/m operands + +sindex(Scale, Index) when is_integer(Scale), is_integer(Index) -> + ?ASSERT(sindex, Scale >= 0), + ?ASSERT(sindex, Scale =< 3), + ?ASSERT(sindex, Index =/= ?ESP), + {sindex, Scale, Index}. + +-record(sib, {sindex_opt, base :: integer()}). +sib(Base) when is_integer(Base) -> #sib{sindex_opt=none, base=Base}. +sib(Base, Sindex) when is_integer(Base) -> #sib{sindex_opt=Sindex, base=Base}. + +ea_disp32_base(Disp32, Base) when is_integer(Base) -> + ?ASSERT(ea_disp32_base, Base =/= ?ESP), + {ea_disp32_base, Disp32, Base}. +ea_disp32_sib(Disp32, SIB) -> {ea_disp32_sib, Disp32, SIB}. +ea_disp8_base(Disp8, Base) when is_integer(Base) -> + ?ASSERT(ea_disp8_base, Base =/= ?ESP), + {ea_disp8_base, Disp8, Base}. +ea_disp8_sib(Disp8, SIB) -> {ea_disp8_sib, Disp8, SIB}. +ea_base(Base) when is_integer(Base) -> + ?ASSERT(ea_base, Base =/= ?ESP), + ?ASSERT(ea_base, Base =/= ?EBP), + {ea_base, Base}. +%% ea_disp32_sindex(Disp32) -> {ea_disp32_sindex, Disp32, none}. +ea_disp32_sindex(Disp32, Sindex) -> {ea_disp32_sindex, Disp32, Sindex}. +ea_sib(SIB) -> + ?ASSERT(ea_sib, SIB#sib.base =/= ?EBP), + {ea_sib, SIB}. +ea_disp32(Disp32) -> {ea_disp32, Disp32}. + +rm_reg(Reg) -> {rm_reg, Reg}. +rm_mem(EA) -> {rm_mem, EA}. + +mk_modrm(Mod, RO, RM) -> + (Mod bsl 6) bor (RO bsl 3) bor RM. + +mk_sib(Scale, Index, Base) -> + (Scale bsl 6) bor (Index bsl 3) bor Base. + +le16(Word, Tail) -> + [Word band 16#FF, (Word bsr 8) band 16#FF | Tail]. + +le32(Word, Tail) when is_integer(Word) -> + [Word band 16#FF, (Word bsr 8) band 16#FF, + (Word bsr 16) band 16#FF, (Word bsr 24) band 16#FF | Tail]; +le32({Tag,Val}, Tail) -> % a relocatable datum + [{le32,Tag,Val} | Tail]. + +enc_sindex_opt({sindex,Scale,Index}) -> {Scale, Index}; +enc_sindex_opt(none) -> {2#00, 2#100}. + +enc_sib(#sib{sindex_opt=SindexOpt, base=Base}) -> + {Scale, Index} = enc_sindex_opt(SindexOpt), + mk_sib(Scale, Index, Base). + +enc_ea(EA, RO, Tail) -> + case EA of + {ea_disp32_base, Disp32, Base} -> + [mk_modrm(2#10, RO, Base) | le32(Disp32, Tail)]; + {ea_disp32_sib, Disp32, SIB} -> + [mk_modrm(2#10, RO, 2#100), enc_sib(SIB) | le32(Disp32, Tail)]; + {ea_disp8_base, Disp8, Base} -> + [mk_modrm(2#01, RO, Base), Disp8 | Tail]; + {ea_disp8_sib, Disp8, SIB} -> + [mk_modrm(2#01, RO, 2#100), enc_sib(SIB), Disp8 | Tail]; + {ea_base, Base} -> + [mk_modrm(2#00, RO, Base) | Tail]; + {ea_disp32_sindex, Disp32, SindexOpt} -> + {Scale, Index} = enc_sindex_opt(SindexOpt), + SIB = mk_sib(Scale, Index, 2#101), + MODRM = mk_modrm(2#00, RO, 2#100), + [MODRM, SIB | le32(Disp32, Tail)]; + {ea_sib, SIB} -> + [mk_modrm(2#00, RO, 2#100), enc_sib(SIB) | Tail]; + {ea_disp32, Disp32} -> + [mk_modrm(2#00, RO, 2#101) | le32(Disp32, Tail)] + end. + +encode_rm(RM, RO, Tail) -> + case RM of + {rm_reg, Reg} -> [mk_modrm(2#11, RO, Reg) | Tail]; + {rm_mem, EA} -> enc_ea(EA, RO, Tail) + end. + +sizeof_ea(EA) -> + case element(1, EA) of + ea_disp32_base -> 5; + ea_disp32_sib -> 6; + ea_disp8_base -> 2; + ea_disp8_sib -> 3; + ea_base -> 1; + ea_disp32_sindex -> 6; + ea_sib -> 2; + ea_disp32 -> 5 + end. + +sizeof_rm(RM) -> + case RM of + {rm_reg, _} -> 1; + {rm_mem, EA} -> sizeof_ea(EA) + end. + +%%% Floating point stack positions + +-define(ST0, 2#000). +-define(ST1, 2#001). +-define(ST2, 2#010). +-define(ST3, 2#011). +-define(ST4, 2#100). +-define(ST5, 2#101). +-define(ST6, 2#110). +-define(ST7, 2#111). + +st(0) -> ?ST0; +st(1) -> ?ST1; +st(2) -> ?ST2; +st(3) -> ?ST3; +st(4) -> ?ST4; +st(5) -> ?ST5; +st(6) -> ?ST6; +st(7) -> ?ST7. + + +%%% Instructions +%%% +%%% Insn ::= {Op,Opnds} +%%% Opnds ::= {Opnd1,...,Opndn} (n >= 0) +%%% Opnd ::= eax | ax | al | 1 | cl +%%% | {imm32,Imm32} | {imm16,Imm16} | {imm8,Imm8} +%%% | {rm32,RM32} | {rm16,RM16} | {rm8,RM8} +%%% | {rel32,Rel32} | {rel8,Rel8} +%%% | {moffs32,Moffs32} | {moffs16,Moffs16} | {moffs8,Moffs8} +%%% | {cc,CC} +%%% | {reg32,Reg32} | {reg16,Reg16} | {reg8,Reg8} +%%% | {ea,EA} + +-define(PFX_OPND, 16#66). + +arith_binop_encode(SubOpcode, Opnds) -> + %% add, or, adc, sbb, and, sub, xor, cmp + case Opnds of + {eax, {imm32,Imm32}} -> + [16#05 bor (SubOpcode bsl 3) | le32(Imm32, [])]; + {{rm32,RM32}, {imm32,Imm32}} -> + [16#81 | encode_rm(RM32, SubOpcode, le32(Imm32, []))]; + {{rm32,RM32}, {imm8,Imm8}} -> + [16#83 | encode_rm(RM32, SubOpcode, [Imm8])]; + {{rm32,RM32}, {reg32,Reg32}} -> + [16#01 bor (SubOpcode bsl 3) | encode_rm(RM32, Reg32, [])]; + {{reg32,Reg32}, {rm32,RM32}} -> + [16#03 bor (SubOpcode bsl 3) | encode_rm(RM32, Reg32, [])] + end. + +arith_binop_sizeof(Opnds) -> + %% add, or, adc, sbb, and, sub, xor, cmp + case Opnds of + {eax, {imm32,_}} -> + 1 + 4; + {{rm32,RM32}, {imm32,_}} -> + 1 + sizeof_rm(RM32) + 4; + {{rm32,RM32}, {imm8,_}} -> + 1 + sizeof_rm(RM32) + 1; + {{rm32,RM32}, {reg32,_}} -> + 1 + sizeof_rm(RM32); + {{reg32,_}, {rm32,RM32}} -> + 1 + sizeof_rm(RM32) + end. + +bs_op_encode(Opcode, {{reg32,Reg32}, {rm32,RM32}}) -> % bsf, bsr + [16#0F, Opcode | encode_rm(RM32, Reg32, [])]. + +bs_op_sizeof({{reg32,_}, {rm32,RM32}}) -> % bsf, bsr + 2 + sizeof_rm(RM32). + +bswap_encode({{reg32,Reg32}}) -> + [16#0F, 16#C8 bor Reg32]. + +bswap_sizeof({{reg32,_}}) -> + 2. + +bt_op_encode(SubOpcode, Opnds) -> % bt, btc, btr, bts + case Opnds of + {{rm32,RM32}, {reg32,Reg32}} -> + [16#0F, 16#A3 bor (SubOpcode bsl 3) | encode_rm(RM32, Reg32, [])]; + {{rm32,RM32}, {imm8,Imm8}} -> + [16#0F, 16#BA | encode_rm(RM32, SubOpcode, [Imm8])] + end. + +bt_op_sizeof(Opnds) -> % bt, btc, btr, bts + case Opnds of + {{rm32,RM32}, {reg32,_}} -> + 2 + sizeof_rm(RM32); + {{rm32,RM32}, {imm8,_}} -> + 2 + sizeof_rm(RM32) + 1 + end. + +call_encode(Opnds) -> + case Opnds of + {{rel32,Rel32}} -> + [16#E8 | le32(Rel32, [])]; + {{rm32,RM32}} -> + [16#FF | encode_rm(RM32, 2#010, [])] + end. + +call_sizeof(Opnds) -> + case Opnds of + {{rel32,_}} -> + 1 + 4; + {{rm32,RM32}} -> + 1 + sizeof_rm(RM32) + end. + +cbw_encode({}) -> + [?PFX_OPND, 16#98]. + +cbw_sizeof({}) -> + 2. + +nullary_op_encode(Opcode, {}) -> + %% cdq, clc, cld, cmc, cwde, into, leave, nop, prefix_fs, stc, std + [Opcode]. + +nullary_op_sizeof({}) -> + %% cdq, clc, cld, cmc, cwde, into, leave, nop, prefix_fs, stc, std + 1. + +cmovcc_encode({{cc,CC}, {reg32,Reg32}, {rm32,RM32}}) -> + [16#0F, 16#40 bor CC | encode_rm(RM32, Reg32, [])]. + +cmovcc_sizeof({{cc,_}, {reg32,_}, {rm32,RM32}}) -> + 2 + sizeof_rm(RM32). + +incdec_encode(SubOpcode, Opnds) -> % SubOpcode is either 0 or 1 + case Opnds of + {{rm32,RM32}} -> + [16#FF | encode_rm(RM32, SubOpcode, [])]; + {{reg32,Reg32}} -> + [16#40 bor (SubOpcode bsl 3) bor Reg32] + end. + +incdec_sizeof(Opnds) -> + case Opnds of + {{rm32,RM32}} -> + 1 + sizeof_rm(RM32); + {{reg32,_}} -> + 1 + end. + +arith_unop_encode(Opcode, {{rm32,RM32}}) -> % div, idiv, mul, neg, not + [16#F7 | encode_rm(RM32, Opcode, [])]. + +arith_unop_sizeof({{rm32,RM32}}) -> % div, idiv, mul, neg, not + 1 + sizeof_rm(RM32). + +enter_encode({{imm16,Imm16}, {imm8,Imm8}}) -> + [16#C8 | le16(Imm16, [Imm8])]. + +enter_sizeof({{imm16,_}, {imm8,_}}) -> + 1 + 2 + 1. + +imul_encode(Opnds) -> + case Opnds of + {{rm32,RM32}} -> % <edx,eax> *= rm32 + [16#F7 | encode_rm(RM32, 2#101, [])]; + {{reg32,Reg32}, {rm32,RM32}} -> % reg *= rm32 + [16#0F, 16#AF | encode_rm(RM32, Reg32, [])]; + {{reg32,Reg32}, {rm32,RM32}, {imm8,Imm8}} -> % reg := rm32 * sext(imm8) + [16#6B | encode_rm(RM32, Reg32, [Imm8])]; + {{reg32,Reg32}, {rm32,RM32}, {imm32,Imm32}} -> % reg := rm32 * imm32 + [16#69 | encode_rm(RM32, Reg32, le32(Imm32, []))] + end. + +imul_sizeof(Opnds) -> + case Opnds of + {{rm32,RM32}} -> + 1 + sizeof_rm(RM32); + {{reg32,_}, {rm32,RM32}} -> + 2 + sizeof_rm(RM32); + {{reg32,_}, {rm32,RM32}, {imm8,_}} -> + 1 + sizeof_rm(RM32) + 1; + {{reg32,_}, {rm32,RM32}, {imm32,_}} -> + 1 + sizeof_rm(RM32) + 4 + end. + +jcc_encode(Opnds) -> + case Opnds of + {{cc,CC}, {rel8,Rel8}} -> + [16#70 bor CC, Rel8]; + {{cc,CC}, {rel32,Rel32}} -> + [16#0F, 16#80 bor CC | le32(Rel32, [])] + end. + +jcc_sizeof(Opnds) -> + case Opnds of + {{cc,_}, {rel8,_}} -> + 2; + {{cc,_}, {rel32,_}} -> + 2 + 4 + end. + +jmp8_op_encode(Opcode, {{rel8,Rel8}}) -> % jecxz, loop, loope, loopne + [Opcode, Rel8]. + +jmp8_op_sizeof({{rel8,_}}) -> % jecxz, loop, loope, loopne + 2. + +jmp_encode(Opnds) -> + case Opnds of + {{rel8,Rel8}} -> + [16#EB, Rel8]; + {{rel32,Rel32}} -> + [16#E9 | le32(Rel32, [])]; + {{rm32,RM32}} -> + [16#FF | encode_rm(RM32, 2#100, [])] + end. + +jmp_sizeof(Opnds) -> + case Opnds of + {{rel8,_}} -> + 2; + {{rel32,_}} -> + 1 + 4; + {{rm32,RM32}} -> + 1 + sizeof_rm(RM32) + end. + +lea_encode({{reg32,Reg32}, {ea,EA}}) -> + [16#8D | enc_ea(EA, Reg32, [])]. + +lea_sizeof({{reg32,_}, {ea,EA}}) -> + 1 + sizeof_ea(EA). + +mov_encode(Opnds) -> + case Opnds of + {{rm8,RM8}, {reg8,Reg8}} -> + [16#88 | encode_rm(RM8, Reg8, [])]; + {{rm16,RM16}, {reg16,Reg16}} -> + [?PFX_OPND, 16#89 | encode_rm(RM16, Reg16, [])]; + {{rm32,RM32}, {reg32,Reg32}} -> + [16#89 | encode_rm(RM32, Reg32, [])]; + {{reg8,Reg8}, {rm8,RM8}} -> + [16#8A | encode_rm(RM8, Reg8, [])]; + {{reg16,Reg16}, {rm16,RM16}} -> + [?PFX_OPND, 16#8B | encode_rm(RM16, Reg16, [])]; + {{reg32,Reg32}, {rm32,RM32}} -> + [16#8B | encode_rm(RM32, Reg32, [])]; + {al, {moffs8,Moffs8}} -> + [16#A0 | le32(Moffs8, [])]; + {ax, {moffs16,Moffs16}} -> + [?PFX_OPND, 16#A1 | le32(Moffs16, [])]; + {eax, {moffs32,Moffs32}} -> + [16#A1 | le32(Moffs32, [])]; + {{moffs8,Moffs8}, al} -> + [16#A2 | le32(Moffs8, [])]; + {{moffs16,Moffs16}, ax} -> + [?PFX_OPND, 16#A3 | le32(Moffs16, [])]; + {{moffs32,Moffs32}, eax} -> + [16#A3 | le32(Moffs32, [])]; + {{reg8,Reg8}, {imm8,Imm8}} -> + [16#B0 bor Reg8, Imm8]; + {{reg16,Reg16}, {imm16,Imm16}} -> + [?PFX_OPND, 16#B8 bor Reg16 | le16(Imm16, [])]; + {{reg32,Reg32}, {imm32,Imm32}} -> + [16#B8 bor Reg32 | le32(Imm32, [])]; + {{rm8,RM8}, {imm8,Imm8}} -> + [16#C6 | encode_rm(RM8, 2#000, [Imm8])]; + {{rm16,RM16}, {imm16,Imm16}} -> + [?PFX_OPND, 16#C7 | encode_rm(RM16, 2#000, le16(Imm16, []))]; + {{rm32,RM32}, {imm32,Imm32}} -> + [16#C7 | encode_rm(RM32, 2#000, le32(Imm32, []))] + end. + +mov_sizeof(Opnds) -> + case Opnds of + {{rm8,RM8}, {reg8,_}} -> + 1 + sizeof_rm(RM8); + {{rm16,RM16}, {reg16,_}} -> + 2 + sizeof_rm(RM16); + {{rm32,RM32}, {reg32,_}} -> + 1 + sizeof_rm(RM32); + {{reg8,_}, {rm8,RM8}} -> + 1 + sizeof_rm(RM8); + {{reg16,_}, {rm16,RM16}} -> + 2 + sizeof_rm(RM16); + {{reg32,_}, {rm32,RM32}} -> + 1 + sizeof_rm(RM32); + {al, {moffs8,_}} -> + 1 + 4; + {ax, {moffs16,_}} -> + 2 + 4; + {eax, {moffs32,_}} -> + 1 + 4; + {{moffs8,_}, al} -> + 1 + 4; + {{moffs16,_}, ax} -> + 2 + 4; + {{moffs32,_}, eax} -> + 1 + 4; + {{reg8,_}, {imm8,_}} -> + 2; + {{reg16,_}, {imm16,_}} -> + 2 + 2; + {{reg32,_}, {imm32,_}} -> + 1 + 4; + {{rm8,RM8}, {imm8,_}} -> + 1 + sizeof_rm(RM8) + 1; + {{rm16,RM16}, {imm16,_}} -> + 2 + sizeof_rm(RM16) + 2; + {{rm32,RM32}, {imm32,_}} -> + 1 + sizeof_rm(RM32) + 4 + end. + +movx_op_encode(Opcode, Opnds) -> % movsx, movzx + case Opnds of + {{reg16,Reg16}, {rm8,RM8}} -> + [?PFX_OPND, 16#0F, Opcode | encode_rm(RM8, Reg16, [])]; + {{reg32,Reg32}, {rm8,RM8}} -> + [16#0F, Opcode | encode_rm(RM8, Reg32, [])]; + {{reg32,Reg32}, {rm16,RM16}} -> + [16#0F, Opcode bor 1 | encode_rm(RM16, Reg32, [])] + end. + +movx_op_sizeof(Opnds) -> + case Opnds of + {{reg16,_}, {rm8,RM8}} -> + 3 + sizeof_rm(RM8); + {{reg32,_}, {rm8,RM8}} -> + 2 + sizeof_rm(RM8); + {{reg32,_}, {rm16,RM16}} -> + 2 + sizeof_rm(RM16) + end. + +pop_encode(Opnds) -> + case Opnds of + {{rm32,RM32}} -> + [16#8F | encode_rm(RM32, 2#000, [])]; + {{reg32,Reg32}} -> + [16#58 bor Reg32] + end. + +pop_sizeof(Opnds) -> + case Opnds of + {{rm32,RM32}} -> + 1 + sizeof_rm(RM32); + {{reg32,_}} -> + 1 + end. + +push_encode(Opnds) -> + case Opnds of + {{rm32,RM32}} -> + [16#FF | encode_rm(RM32, 2#110, [])]; + {{reg32,Reg32}} -> + [16#50 bor Reg32]; + {{imm8,Imm8}} -> % sign-extended + [16#6A, Imm8]; + {{imm32,Imm32}} -> + [16#68 | le32(Imm32, [])] + end. + +push_sizeof(Opnds) -> + case Opnds of + {{rm32,RM32}} -> + 1 + sizeof_rm(RM32); + {{reg32,_}} -> + 1; + {{imm8,_}} -> + 2; + {{imm32,_}} -> + 1 + 4 + end. + +shift_op_encode(SubOpcode, Opnds) -> % rcl, rcr, rol, ror, sar, shl, shr + case Opnds of + {{rm32,RM32}, 1} -> + [16#D1 | encode_rm(RM32, SubOpcode, [])]; + {{rm32,RM32}, cl} -> + [16#D3 | encode_rm(RM32, SubOpcode, [])]; + {{rm32,RM32}, {imm8,Imm8}} -> + [16#C1 | encode_rm(RM32, SubOpcode, [Imm8])]; + {{rm16,RM16}, {imm8,Imm8}} -> + [?PFX_OPND, 16#C1 | encode_rm(RM16, SubOpcode, [Imm8])] + end. + +shift_op_sizeof(Opnds) -> % rcl, rcr, rol, ror, sar, shl, shr + case Opnds of + {{rm32,RM32}, 1} -> + 1 + sizeof_rm(RM32); + {{rm32,RM32}, cl} -> + 1 + sizeof_rm(RM32); + {{rm32,RM32}, {imm8,_Imm8}} -> + 1 + sizeof_rm(RM32) + 1; + {{rm16,RM16}, {imm8,_Imm8}} -> + 1 + 1 + sizeof_rm(RM16) + 1 + end. + +ret_encode(Opnds) -> + case Opnds of + {} -> + [16#C3]; + {{imm16,Imm16}} -> + [16#C2 | le16(Imm16, [])] + end. + +ret_sizeof(Opnds) -> + case Opnds of + {} -> + 1; + {{imm16,_}} -> + 1 + 2 + end. + +setcc_encode({{cc,CC}, {rm8,RM8}}) -> + [16#0F, 16#90 bor CC | encode_rm(RM8, 2#000, [])]. + +setcc_sizeof({{cc,_}, {rm8,RM8}}) -> + 2 + sizeof_rm(RM8). + +shd_op_encode(Opcode, Opnds) -> + case Opnds of + {{rm32,RM32}, {reg32,Reg32}, {imm8,Imm8}} -> + [16#0F, Opcode | encode_rm(RM32, Reg32, [Imm8])]; + {{rm32,RM32}, {reg32,Reg32}, cl} -> + [16#0F, Opcode bor 1 | encode_rm(RM32, Reg32, [])] + end. + +shd_op_sizeof(Opnds) -> + case Opnds of + {{rm32,RM32}, {reg32,_}, {imm8,_}} -> + 2 + sizeof_rm(RM32) + 1; + {{rm32,RM32}, {reg32,_}, cl} -> + 2 + sizeof_rm(RM32) + end. + +test_encode(Opnds) -> + case Opnds of + {eax, {imm32,Imm32}} -> + [16#A9 | le32(Imm32, [])]; + {{rm32,RM32}, {imm32,Imm32}} -> + [16#F7 | encode_rm(RM32, 2#000, le32(Imm32, []))]; + {{rm32,RM32}, {reg32,Reg32}} -> + [16#85 | encode_rm(RM32, Reg32, [])] + end. + +test_sizeof(Opnds) -> + case Opnds of + {eax, {imm32,_}} -> + 1 + 4; + {{rm32,RM32}, {imm32,_}} -> + 1 + sizeof_rm(RM32) + 4; + {{rm32,RM32}, {reg32,_}} -> + 1 + sizeof_rm(RM32) + end. + +fild_encode(Opnds) -> + %% The operand cannot be a register! + {{rm32, RM32}} = Opnds, + [16#DB | encode_rm(RM32, 2#000, [])]. + +fild_sizeof(Opnds) -> + {{rm32, RM32}} = Opnds, + 1 + sizeof_rm(RM32). + +fld_encode(Opnds) -> + case Opnds of + {{rm64fp, RM64fp}} -> + [16#DD | encode_rm(RM64fp, 2#000, [])]; + {{fpst, St}} -> + [16#D9, 16#C0 bor st(St)] + end. + +fld_sizeof(Opnds) -> + case Opnds of + {{rm64fp, RM64fp}} -> + 1 + sizeof_rm(RM64fp); + {{fpst, _}} -> + 2 + end. + +fp_comm_arith_encode(OpCode, Opnds) -> + %% fadd, fmul + case Opnds of + {{rm64fp, RM64fp}} -> + [16#DC | encode_rm(RM64fp, OpCode, [])]; + {{fpst,0}, {fpst,St}} -> + [16#D8, (16#C0 bor (OpCode bsl 3)) bor st(St)]; + {{fpst,St}, {fpst,0}} -> + [16#DC, (16#C0 bor (OpCode bsl 3)) bor st(St)] + end. + +fp_comm_arith_pop_encode(OpCode, Opnds) -> + %% faddp, fmulp + case Opnds of + [] -> + [16#DE, 16#C0 bor (OpCode bsl 3) bor st(1)]; + {{fpst,St},{fpst,0}} -> + [16#DE, 16#C0 bor (OpCode bsl 3) bor st(St)] + end. + +fp_arith_encode(OpCode, Opnds) -> + %% fdiv, fsub + case Opnds of + {{rm64fp, RM64fp}} -> + [16#DC | encode_rm(RM64fp, OpCode, [])]; + {{fpst,0}, {fpst,St}} -> + OpCode0 = OpCode band 2#110, + [16#D8, 16#C0 bor (OpCode0 bsl 3) bor st(St)]; + {{fpst,St}, {fpst,0}} -> + OpCode0 = OpCode bor 1, + [16#DC, 16#C0 bor (OpCode0 bsl 3) bor st(St)] + end. + +fp_arith_pop_encode(OpCode, Opnds) -> + %% fdivp, fsubp + OpCode0 = OpCode bor 1, + case Opnds of + [] -> + [16#DE, 16#C8 bor (OpCode0 bsl 3) bor st(1)]; + {{fpst,St}, {fpst,0}} -> + [16#DE, 16#C8 bor (OpCode0 bsl 3) bor st(St)] + end. + +fp_arith_rev_encode(OpCode, Opnds) -> + %% fdivr, fsubr + case Opnds of + {{rm64fp, RM64fp}} -> + [16#DC | encode_rm(RM64fp, OpCode, [])]; + {{fpst,0}, {fpst,St}} -> + OpCode0 = OpCode bor 1, + [16#D8, 16#C0 bor (OpCode0 bsl 3) bor st(St)]; + {{fpst,St}, {fpst,0}} -> + OpCode0 = OpCode band 2#110, + [16#DC, 16#C0 bor (OpCode0 bsl 3) bor st(St)] + end. + +fp_arith_rev_pop_encode(OpCode, Opnds) -> + %% fdivrp, fsubrp + OpCode0 = OpCode band 2#110, + case Opnds of + [] -> + [16#DE, 16#C0 bor (OpCode0 bsl 3) bor st(1)]; + {{fpst,St}, {fpst, 0}} -> + [16#DE, 16#C0 bor (OpCode0 bsl 3) bor st(St)] + end. + +fp_arith_sizeof(Opnds) -> + case Opnds of + {{rm64fp, RM64fp}} -> + 1 + sizeof_rm(RM64fp); + {{fpst,0}, {fpst,_}} -> + 2; + {{fpst,_}, {fpst,0}} -> + 2 + end. + +fst_encode(OpCode, Opnds) -> + case Opnds of + {{rm64fp, RM64fp}} -> + [16#DD | encode_rm(RM64fp, OpCode, [])]; + {{fpst, St}} -> + [16#DD, 16#C0 bor (OpCode bsl 3) bor st(St)] + end. + +fst_sizeof(Opnds) -> + case Opnds of + {{rm64fp, RM64fp}} -> + 1 + sizeof_rm(RM64fp); + {{fpst, _}} -> + 2 + end. + +fchs_encode() -> + [16#D9, 16#E0]. +fchs_sizeof() -> + 2. + +ffree_encode({{fpst, St}})-> + [16#DD, 16#C0 bor st(St)]. +ffree_sizeof() -> + 2. + +fwait_encode() -> + [16#9B]. +fwait_sizeof() -> + 1. + +fxch_encode(Opnds) -> + case Opnds of + [] -> + [16#D9, 16#C8 bor st(1)]; + {{fpst, St}} -> + [16#D9, 16#C8 bor st(St)] + end. +fxch_sizeof() -> + 2. + +insn_encode(Op, Opnds, Offset) -> + Bytes = insn_encode_internal(Op, Opnds), + case has_relocs(Bytes) of + false -> % the common case + {Bytes, []}; + _ -> + fix_relocs(Bytes, Offset, [], []) + end. + +has_relocs([{le32,_,_}|_]) -> true; +has_relocs([_|Bytes]) -> has_relocs(Bytes); +has_relocs([]) -> false. + +fix_relocs([{le32,Tag,Val}|Bytes], Offset, Code, Relocs) -> + fix_relocs(Bytes, Offset+4, + [16#00, 16#00, 16#00, 16#00 | Code], + [{Tag,Offset,Val}|Relocs]); +fix_relocs([Byte|Bytes], Offset, Code, Relocs) -> + fix_relocs(Bytes, Offset+1, [Byte|Code], Relocs); +fix_relocs([], _Offset, Code, Relocs) -> + {lists:reverse(Code), lists:reverse(Relocs)}. + +insn_encode_internal(Op, Opnds) -> + case Op of + 'adc' -> arith_binop_encode(2#010, Opnds); + 'add' -> arith_binop_encode(2#000, Opnds); + 'and' -> arith_binop_encode(2#100, Opnds); + 'bsf' -> bs_op_encode(16#BC, Opnds); + 'bsr' -> bs_op_encode(16#BD, Opnds); + 'bswap' -> bswap_encode(Opnds); + 'bt' -> bt_op_encode(2#100, Opnds); + 'btc' -> bt_op_encode(2#111, Opnds); + 'btr' -> bt_op_encode(2#110, Opnds); + 'bts' -> bt_op_encode(2#101, Opnds); + 'call' -> call_encode(Opnds); + 'cbw' -> cbw_encode(Opnds); + 'cdq' -> nullary_op_encode(16#99, Opnds); + 'clc' -> nullary_op_encode(16#F8, Opnds); + 'cld' -> nullary_op_encode(16#FC, Opnds); + 'cmc' -> nullary_op_encode(16#F5, Opnds); + 'cmovcc' -> cmovcc_encode(Opnds); + 'cmp' -> arith_binop_encode(2#111, Opnds); + 'cwde' -> nullary_op_encode(16#98, Opnds); + 'dec' -> incdec_encode(2#001, Opnds); + 'div' -> arith_unop_encode(2#110, Opnds); + 'enter' -> enter_encode(Opnds); + 'fadd' -> fp_comm_arith_encode(2#000, Opnds); + 'faddp' -> fp_comm_arith_pop_encode(2#000, Opnds); + 'fchs' -> fchs_encode(); + 'fdiv' -> fp_arith_encode(2#110, Opnds); + 'fdivp' -> fp_arith_pop_encode(2#110, Opnds); + 'fdivr' -> fp_arith_rev_encode(2#111, Opnds); + 'fdivrp' -> fp_arith_rev_pop_encode(2#111, Opnds); + 'ffree' -> ffree_encode(Opnds); + 'fild' -> fild_encode(Opnds); + 'fld' -> fld_encode(Opnds); + 'fmul' -> fp_comm_arith_encode(2#001, Opnds); + 'fmulp' -> fp_comm_arith_pop_encode(2#001, Opnds); + 'fst' -> fst_encode(2#010, Opnds); + 'fstp' -> fst_encode(2#011, Opnds); + 'fsub' -> fp_arith_encode(2#100, Opnds); + 'fsubp' -> fp_arith_pop_encode(2#100, Opnds); + 'fsubr' -> fp_arith_rev_encode(2#101, Opnds); + 'fsubrp' -> fp_arith_rev_pop_encode(2#101, Opnds); + 'fwait' -> fwait_encode(); + 'fxch' -> fxch_encode(Opnds); + 'idiv' -> arith_unop_encode(2#111, Opnds); + 'imul' -> imul_encode(Opnds); + 'inc' -> incdec_encode(2#000, Opnds); + 'into' -> nullary_op_encode(16#CE, Opnds); + 'jcc' -> jcc_encode(Opnds); + 'jecxz' -> jmp8_op_encode(16#E3, Opnds); + 'jmp' -> jmp_encode(Opnds); + 'lea' -> lea_encode(Opnds); + 'leave' -> nullary_op_encode(16#C9, Opnds); + 'loop' -> jmp8_op_encode(16#E2, Opnds); + 'loope' -> jmp8_op_encode(16#E1, Opnds); + 'loopne' -> jmp8_op_encode(16#E0, Opnds); + 'mov' -> mov_encode(Opnds); + 'movsx' -> movx_op_encode(16#BE, Opnds); + 'movzx' -> movx_op_encode(16#B6, Opnds); + 'mul' -> arith_unop_encode(2#100, Opnds); + 'neg' -> arith_unop_encode(2#011, Opnds); + 'nop' -> nullary_op_encode(16#90, Opnds); + 'not' -> arith_unop_encode(2#010, Opnds); + 'or' -> arith_binop_encode(2#001, Opnds); + 'pop' -> pop_encode(Opnds); + 'prefix_fs' -> nullary_op_encode(16#64, Opnds); + 'push' -> push_encode(Opnds); + 'rcl' -> shift_op_encode(2#010, Opnds); + 'rcr' -> shift_op_encode(2#011, Opnds); + 'ret' -> ret_encode(Opnds); + 'rol' -> shift_op_encode(2#000, Opnds); + 'ror' -> shift_op_encode(2#001, Opnds); + 'sar' -> shift_op_encode(2#111, Opnds); + 'sbb' -> arith_binop_encode(2#011, Opnds); + 'setcc' -> setcc_encode(Opnds); + 'shl' -> shift_op_encode(2#100, Opnds); + 'shld' -> shd_op_encode(16#A4, Opnds); + 'shr' -> shift_op_encode(2#101, Opnds); + 'shrd' -> shd_op_encode(16#AC, Opnds); + 'stc' -> nullary_op_encode(16#F9, Opnds); + 'std' -> nullary_op_encode(16#FD, Opnds); + 'sub' -> arith_binop_encode(2#101, Opnds); + 'test' -> test_encode(Opnds); + 'xor' -> arith_binop_encode(2#110, Opnds); + _ -> exit({?MODULE,insn_encode,Op}) + end. + +insn_sizeof(Op, Opnds) -> + case Op of + 'adc' -> arith_binop_sizeof(Opnds); + 'add' -> arith_binop_sizeof(Opnds); + 'and' -> arith_binop_sizeof(Opnds); + 'bsf' -> bs_op_sizeof(Opnds); + 'bsr' -> bs_op_sizeof(Opnds); + 'bswap' -> bswap_sizeof(Opnds); + 'bt' -> bt_op_sizeof(Opnds); + 'btc' -> bt_op_sizeof(Opnds); + 'btr' -> bt_op_sizeof(Opnds); + 'bts' -> bt_op_sizeof(Opnds); + 'call' -> call_sizeof(Opnds); + 'cbw' -> cbw_sizeof(Opnds); + 'cdq' -> nullary_op_sizeof(Opnds); + 'clc' -> nullary_op_sizeof(Opnds); + 'cld' -> nullary_op_sizeof(Opnds); + 'cmc' -> nullary_op_sizeof(Opnds); + 'cmovcc' -> cmovcc_sizeof(Opnds); + 'cmp' -> arith_binop_sizeof(Opnds); + 'cwde' -> nullary_op_sizeof(Opnds); + 'dec' -> incdec_sizeof(Opnds); + 'div' -> arith_unop_sizeof(Opnds); + 'enter' -> enter_sizeof(Opnds); + 'fadd' -> fp_arith_sizeof(Opnds); + 'faddp' -> fp_arith_sizeof(Opnds); + 'fchs' -> fchs_sizeof(); + 'fdiv' -> fp_arith_sizeof(Opnds); + 'fdivp' -> fp_arith_sizeof(Opnds); + 'fdivr' -> fp_arith_sizeof(Opnds); + 'fdivrp' -> fp_arith_sizeof(Opnds); + 'ffree' -> ffree_sizeof(); + 'fild' -> fild_sizeof(Opnds); + 'fld' -> fld_sizeof(Opnds); + 'fmul' -> fp_arith_sizeof(Opnds); + 'fmulp' -> fp_arith_sizeof(Opnds); + 'fst' -> fst_sizeof(Opnds); + 'fstp' -> fst_sizeof(Opnds); + 'fsub' -> fp_arith_sizeof(Opnds); + 'fsubp' -> fp_arith_sizeof(Opnds); + 'fsubr' -> fp_arith_sizeof(Opnds); + 'fsubrp' -> fp_arith_sizeof(Opnds); + 'fwait' -> fwait_sizeof(); + 'fxch' -> fxch_sizeof(); + 'idiv' -> arith_unop_sizeof(Opnds); + 'imul' -> imul_sizeof(Opnds); + 'inc' -> incdec_sizeof(Opnds); + 'into' -> nullary_op_sizeof(Opnds); + 'jcc' -> jcc_sizeof(Opnds); + 'jecxz' -> jmp8_op_sizeof(Opnds); + 'jmp' -> jmp_sizeof(Opnds); + 'lea' -> lea_sizeof(Opnds); + 'leave' -> nullary_op_sizeof(Opnds); + 'loop' -> jmp8_op_sizeof(Opnds); + 'loope' -> jmp8_op_sizeof(Opnds); + 'loopne' -> jmp8_op_sizeof(Opnds); + 'mov' -> mov_sizeof(Opnds); + 'movsx' -> movx_op_sizeof(Opnds); + 'movzx' -> movx_op_sizeof(Opnds); + 'mul' -> arith_unop_sizeof(Opnds); + 'neg' -> arith_unop_sizeof(Opnds); + 'nop' -> nullary_op_sizeof(Opnds); + 'not' -> arith_unop_sizeof(Opnds); + 'or' -> arith_binop_sizeof(Opnds); + 'pop' -> pop_sizeof(Opnds); + 'prefix_fs' -> nullary_op_sizeof(Opnds); + 'push' -> push_sizeof(Opnds); + 'rcl' -> shift_op_sizeof(Opnds); + 'rcr' -> shift_op_sizeof(Opnds); + 'ret' -> ret_sizeof(Opnds); + 'rol' -> shift_op_sizeof(Opnds); + 'ror' -> shift_op_sizeof(Opnds); + 'sar' -> shift_op_sizeof(Opnds); + 'sbb' -> arith_binop_sizeof(Opnds); + 'setcc' -> setcc_sizeof(Opnds); + 'shl' -> shift_op_sizeof(Opnds); + 'shld' -> shd_op_sizeof(Opnds); + 'shr' -> shift_op_sizeof(Opnds); + 'shrd' -> shd_op_sizeof(Opnds); + 'stc' -> nullary_op_sizeof(Opnds); + 'std' -> nullary_op_sizeof(Opnds); + 'sub' -> arith_binop_sizeof(Opnds); + 'test' -> test_sizeof(Opnds); + 'xor' -> arith_binop_sizeof(Opnds); + _ -> exit({?MODULE,insn_sizeof,Op}) + end. + +%%===================================================================== +%% testing interface +%%===================================================================== + +-ifdef(DO_HIPE_X86_ENCODE_TEST). + +say(OS, Str) -> + file:write(OS, Str). + +digit16(Dig0) -> + Dig = Dig0 band 16#F, + if Dig >= 16#A -> $A + (Dig - 16#A); + true -> $0 + Dig + end. + +say_byte(OS, Byte) -> + say(OS, "0x"), + say(OS, [digit16(Byte bsr 4)]), + say(OS, [digit16(Byte)]). + +init(OS) -> + say(OS, "\t.text\n"). + +say_bytes(OS, Byte0, Bytes0) -> + say_byte(OS, Byte0), + case Bytes0 of + [] -> + say(OS, "\n"); + [Byte1|Bytes1] -> + say(OS, ","), + say_bytes(OS, Byte1, Bytes1) + end. + +t(OS, Op, Opnds) -> + insn_sizeof(Op, Opnds), + {[Byte|Bytes],[]} = insn_encode(Op, Opnds, 0), + say(OS, "\t.byte "), + say_bytes(OS, Byte, Bytes). + +dotest1(OS) -> + init(OS), + % exercise all rm32 types + t(OS,lea,{{reg32,?EAX},{ea,ea_disp32(16#87654321)}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_sib(sib(?ECX))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_sib(sib(?ECX,sindex(2#10,?EDI)))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp32_sindex(16#87654321)}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp32_sindex(16#87654321,sindex(2#10,?EDI))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_base(?ECX)}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp8_sib(16#03,sib(?ECX))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp8_sib(16#03,sib(?ECX,sindex(2#10,?EDI)))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp8_base(16#3,?ECX)}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp32_sib(16#87654321,sib(?ECX))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp32_sib(16#87654321,sib(?ECX,sindex(2#10,?EDI)))}}), + t(OS,lea,{{reg32,?EAX},{ea,ea_disp32_base(16#87654321,?EBP)}}), + t(OS,call,{{rm32,rm_reg(?EAX)}}), + t(OS,call,{{rm32,rm_mem(ea_disp32_sindex(16#87654321,sindex(2#10,?EDI)))}}), + t(OS,call,{{rel32,-5}}), + % default parameters for the tests below + Word32 = 16#87654321, + Word16 = 16#F00F, + Word8 = 16#80, + Imm32 = {imm32,Word32}, + Imm16 = {imm16,Word16}, + Imm8 = {imm8,Word8}, + RM32 = {rm32,rm_reg(?EDX)}, + RM16 = {rm16,rm_reg(?EDX)}, + RM8 = {rm8,rm_reg(?EDX)}, + Rel32 = {rel32,Word32}, + Rel8 = {rel8,Word8}, + Moffs32 = {moffs32,Word32}, + Moffs16 = {moffs16,Word32}, + Moffs8 = {moffs8,Word32}, + CC = {cc,?CC_G}, + Reg32 = {reg32,?EAX}, + Reg16 = {reg16,?EAX}, + Reg8 = {reg8,?AH}, + EA = {ea,ea_base(?ECX)}, + % exercise each instruction definition + t(OS,'adc',{eax,Imm32}), + t(OS,'adc',{RM32,Imm32}), + t(OS,'adc',{RM32,Imm8}), + t(OS,'adc',{RM32,Reg32}), + t(OS,'adc',{Reg32,RM32}), + t(OS,'add',{eax,Imm32}), + t(OS,'add',{RM32,Imm32}), + t(OS,'add',{RM32,Imm8}), + t(OS,'add',{RM32,Reg32}), + t(OS,'add',{Reg32,RM32}), + t(OS,'and',{eax,Imm32}), + t(OS,'and',{RM32,Imm32}), + t(OS,'and',{RM32,Imm8}), + t(OS,'and',{RM32,Reg32}), + t(OS,'and',{Reg32,RM32}), + t(OS,'bsf',{Reg32,RM32}), + t(OS,'bsr',{Reg32,RM32}), + t(OS,'bswap',{Reg32}), + t(OS,'bt',{RM32,Reg32}), + t(OS,'bt',{RM32,Imm8}), + t(OS,'btc',{RM32,Reg32}), + t(OS,'btc',{RM32,Imm8}), + t(OS,'btr',{RM32,Reg32}), + t(OS,'btr',{RM32,Imm8}), + t(OS,'bts',{RM32,Reg32}), + t(OS,'bts',{RM32,Imm8}), + t(OS,'call',{Rel32}), + t(OS,'call',{RM32}), + t(OS,'cbw',{}), + t(OS,'cdq',{}), + t(OS,'clc',{}), + t(OS,'cld',{}), + t(OS,'cmc',{}), + t(OS,'cmovcc',{CC,Reg32,RM32}), + t(OS,'cmp',{eax,Imm32}), + t(OS,'cmp',{RM32,Imm32}), + t(OS,'cmp',{RM32,Imm8}), + t(OS,'cmp',{RM32,Reg32}), + t(OS,'cmp',{Reg32,RM32}), + t(OS,'cwde',{}), + t(OS,'dec',{RM32}), + t(OS,'dec',{Reg32}), + t(OS,'div',{RM32}), + t(OS,'enter',{Imm16,{imm8,3}}), + t(OS,'idiv',{RM32}), + t(OS,'imul',{RM32}), + t(OS,'imul',{Reg32,RM32}), + t(OS,'imul',{Reg32,RM32,Imm8}), + t(OS,'imul',{Reg32,RM32,Imm32}), + t(OS,'inc',{RM32}), + t(OS,'inc',{Reg32}), + t(OS,'into',{}), + t(OS,'jcc',{CC,Rel8}), + t(OS,'jcc',{CC,Rel32}), + t(OS,'jecxz',{Rel8}), + t(OS,'jmp',{Rel8}), + t(OS,'jmp',{Rel32}), + t(OS,'jmp',{RM32}), + t(OS,'lea',{Reg32,EA}), + t(OS,'leave',{}), + t(OS,'loop',{Rel8}), + t(OS,'loope',{Rel8}), + t(OS,'loopne',{Rel8}), + t(OS,'mov',{RM8,Reg8}), + t(OS,'mov',{RM16,Reg16}), + t(OS,'mov',{RM32,Reg32}), + t(OS,'mov',{Reg8,RM8}), + t(OS,'mov',{Reg16,RM16}), + t(OS,'mov',{Reg32,RM32}), + t(OS,'mov',{al,Moffs8}), + t(OS,'mov',{ax,Moffs16}), + t(OS,'mov',{eax,Moffs32}), + t(OS,'mov',{Moffs8,al}), + t(OS,'mov',{Moffs16,ax}), + t(OS,'mov',{Moffs32,eax}), + t(OS,'mov',{Reg8,Imm8}), + t(OS,'mov',{Reg16,Imm16}), + t(OS,'mov',{Reg32,Imm32}), + t(OS,'mov',{RM8,Imm8}), + t(OS,'mov',{RM16,Imm16}), + t(OS,'mov',{RM32,Imm32}), + t(OS,'movsx',{Reg16,RM8}), + t(OS,'movsx',{Reg32,RM8}), + t(OS,'movsx',{Reg32,RM16}), + t(OS,'movzx',{Reg16,RM8}), + t(OS,'movzx',{Reg32,RM8}), + t(OS,'movzx',{Reg32,RM16}), + t(OS,'mul',{RM32}), + t(OS,'neg',{RM32}), + t(OS,'nop',{}), + t(OS,'not',{RM32}), + t(OS,'or',{eax,Imm32}), + t(OS,'or',{RM32,Imm32}), + t(OS,'or',{RM32,Imm8}), + t(OS,'or',{RM32,Reg32}), + t(OS,'or',{Reg32,RM32}), + t(OS,'pop',{RM32}), + t(OS,'pop',{Reg32}), + t(OS,'push',{RM32}), + t(OS,'push',{Reg32}), + t(OS,'push',{Imm8}), + t(OS,'push',{Imm32}), + t(OS,'rcl',{RM32,1}), + t(OS,'rcl',{RM32,cl}), + t(OS,'rcl',{RM32,Imm8}), + t(OS,'rcl',{RM16,Imm8}), + t(OS,'rcr',{RM32,1}), + t(OS,'rcr',{RM32,cl}), + t(OS,'rcr',{RM32,Imm8}), + t(OS,'rcr',{RM16,Imm8}), + t(OS,'ret',{}), + t(OS,'ret',{Imm16}), + t(OS,'rol',{RM32,1}), + t(OS,'rol',{RM32,cl}), + t(OS,'rol',{RM32,Imm8}), + t(OS,'rol',{RM16,Imm8}), + t(OS,'ror',{RM32,1}), + t(OS,'ror',{RM32,cl}), + t(OS,'ror',{RM32,Imm8}), + t(OS,'ror',{RM16,Imm8}), + t(OS,'sar',{RM32,1}), + t(OS,'sar',{RM32,cl}), + t(OS,'sar',{RM32,Imm8}), + t(OS,'sar',{RM16,Imm8}), + t(OS,'sbb',{eax,Imm32}), + t(OS,'sbb',{RM32,Imm32}), + t(OS,'sbb',{RM32,Imm8}), + t(OS,'sbb',{RM32,Reg32}), + t(OS,'sbb',{Reg32,RM32}), + t(OS,'setcc',{CC,RM8}), + t(OS,'shl',{RM32,1}), + t(OS,'shl',{RM32,cl}), + t(OS,'shl',{RM32,Imm8}), + t(OS,'shl',{RM16,Imm8}), + t(OS,'shld',{RM32,Reg32,Imm8}), + t(OS,'shld',{RM32,Reg32,cl}), + t(OS,'shr',{RM32,1}), + t(OS,'shr',{RM32,cl}), + t(OS,'shr',{RM32,Imm8}), + t(OS,'shr',{RM16,Imm8}), + t(OS,'shrd',{RM32,Reg32,Imm8}), + t(OS,'shrd',{RM32,Reg32,cl}), + t(OS,'stc',{}), + t(OS,'std',{}), + t(OS,'sub',{eax,Imm32}), + t(OS,'sub',{RM32,Imm32}), + t(OS,'sub',{RM32,Imm8}), + t(OS,'sub',{RM32,Reg32}), + t(OS,'sub',{Reg32,RM32}), + t(OS,'test',{eax,Imm32}), + t(OS,'test',{RM32,Imm32}), + t(OS,'test',{RM32,Reg32}), + t(OS,'xor',{eax,Imm32}), + t(OS,'xor',{RM32,Imm32}), + t(OS,'xor',{RM32,Imm8}), + t(OS,'xor',{RM32,Reg32}), + t(OS,'xor',{Reg32,RM32}), + t(OS,'prefix_fs',{}), t(OS,'add',{{reg32,?EAX},{rm32,rm_mem(ea_disp32(16#20))}}), + []. + +dotest() -> dotest1(group_leader()). % stdout == group_leader + +dotest(File) -> + {ok,OS} = file:open(File, [write]), + dotest1(OS), + file:close(OS). +-endif. |