kolibrios-fun/programs/develop/oberon07/Source/AMD64.ob07

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(*
BSD 2-Clause License
Copyright (c) 2018-2020, Anton Krotov
All rights reserved.
*)
MODULE AMD64;
IMPORT IL, BIN, WR := WRITER, CHL := CHUNKLISTS, LISTS, PATHS, PROG, TARGETS,
REG, UTILS, S := STRINGS, PE32, ELF, X86, ERRORS;
CONST
rax = REG.R0;
r10 = REG.R10;
r11 = REG.R11;
rcx = REG.R1;
rdx = REG.R2;
r8 = REG.R8;
r9 = REG.R9;
rsp = 4;
rbp = 5;
rsi = 6;
rdi = 7;
MAX_XMM = 5;
je = 84H; jne = 85H; jl = 8CH; jge = 8DH; jle = 8EH; jg = 8FH; jb = 82H;
sete = 94H; setne = 95H; setl = 9CH; setge = 9DH; setle = 9EH; setg = 9FH; setc = 92H; setnc = 93H;
shl = IL.opLSL2; shr = IL.opLSR2; sar = IL.opASR2; ror = IL.opROR2;
sCODE = BIN.PICCODE;
sDATA = BIN.PICDATA;
sBSS = BIN.PICBSS;
sIMP = BIN.PICIMP;
FPR_ERR = 41;
TYPE
COMMAND = IL.COMMAND;
Number = POINTER TO RECORD (LISTS.ITEM) value: INTEGER END;
OPRR = PROCEDURE (reg1, reg2: INTEGER);
VAR
R: REG.REGS;
Numbers: LISTS.LIST;
Numbers_Count: INTEGER;
Numbers_Offs: INTEGER;
prog: BIN.PROGRAM;
tcount: INTEGER;
dllret, sofinit: INTEGER;
Win64RegPar: ARRAY 4 OF INTEGER;
SystemVRegPar: ARRAY 6 OF INTEGER;
Xmm: ARRAY 1000 OF INTEGER;
fname: PATHS.PATH;
PROCEDURE OutByte (b: BYTE);
BEGIN
X86.OutByte(b)
END OutByte;
PROCEDURE OutByte2 (a, b: BYTE);
BEGIN
X86.OutByte(a);
X86.OutByte(b)
END OutByte2;
PROCEDURE OutByte3 (a, b, c: BYTE);
BEGIN
X86.OutByte(a);
X86.OutByte(b);
X86.OutByte(c)
END OutByte3;
PROCEDURE OutInt (n: INTEGER);
BEGIN
X86.OutByte(n MOD 256);
X86.OutByte(UTILS.Byte(n, 1));
X86.OutByte(UTILS.Byte(n, 2));
X86.OutByte(UTILS.Byte(n, 3))
END OutInt;
PROCEDURE short (n: INTEGER): INTEGER;
RETURN 2 * ORD(X86.isByte(n))
END short;
PROCEDURE long (n: INTEGER): INTEGER;
RETURN 40H * ORD(~X86.isByte(n))
END long;
PROCEDURE OutIntByte (n: INTEGER);
BEGIN
IF X86.isByte(n) THEN
OutByte(n MOD 256)
ELSE
OutInt(n)
END
END OutIntByte;
PROCEDURE isLong (n: INTEGER): BOOLEAN;
RETURN (n > UTILS.max32) OR (n < UTILS.min32)
END isLong;
PROCEDURE NewNumber (value: INTEGER);
VAR
number: Number;
BEGIN
NEW(number);
number.value := value;
LISTS.push(Numbers, number);
INC(Numbers_Count)
END NewNumber;
PROCEDURE NewLabel (): INTEGER;
BEGIN
BIN.NewLabel(prog)
RETURN IL.NewLabel()
END NewLabel;
PROCEDURE Rex (reg1, reg2: INTEGER);
BEGIN
OutByte(48H + reg1 DIV 8 + 4 * (reg2 DIV 8))
END Rex;
PROCEDURE lea (reg, offset, section: INTEGER);
BEGIN
Rex(0, reg);
OutByte2(8DH, 05H + 8 * (reg MOD 8)); (* lea reg, [rip + offset] *)
X86.Reloc(section, offset)
END lea;
PROCEDURE oprr (op: BYTE; reg1, reg2: INTEGER); (* op reg1, reg2 *)
BEGIN
Rex(reg1, reg2);
OutByte2(op, 0C0H + 8 * (reg2 MOD 8) + reg1 MOD 8)
END oprr;
PROCEDURE oprr2 (op1, op2: BYTE; reg1, reg2: INTEGER); (* op reg1, reg2 *)
BEGIN
Rex(reg1, reg2);
OutByte3(op1, op2, 0C0H + 8 * (reg2 MOD 8) + reg1 MOD 8)
END oprr2;
PROCEDURE mov (reg1, reg2: INTEGER); (* mov reg1, reg2 *)
BEGIN
oprr(89H, reg1, reg2)
END mov;
PROCEDURE xor (reg1, reg2: INTEGER); (* xor reg1, reg2 *)
BEGIN
oprr(31H, reg1, reg2)
END xor;
PROCEDURE and (reg1, reg2: INTEGER); (* and reg1, reg2 *)
BEGIN
oprr(21H, reg1, reg2)
END and;
PROCEDURE _or (reg1, reg2: INTEGER); (* or reg1, reg2 *)
BEGIN
oprr(09H, reg1, reg2)
END _or;
PROCEDURE add (reg1, reg2: INTEGER); (* add reg1, reg2 *)
BEGIN
oprr(01H, reg1, reg2)
END add;
PROCEDURE sub (reg1, reg2: INTEGER); (* sub reg1, reg2 *)
BEGIN
oprr(29H, reg1, reg2)
END sub;
PROCEDURE xchg (reg1, reg2: INTEGER); (* xchg reg1, reg2 *)
BEGIN
IF rax IN {reg1, reg2} THEN
Rex(reg1 + reg2, 0);
OutByte(90H + (reg1 + reg2) MOD 8)
ELSE
oprr(87H, reg1, reg2)
END
END xchg;
PROCEDURE cmprr (reg1, reg2: INTEGER); (* cmp reg1, reg2 *)
BEGIN
oprr(39H, reg1, reg2)
END cmprr;
PROCEDURE pop (reg: INTEGER); (* pop reg *)
BEGIN
IF reg >= 8 THEN
OutByte(41H)
END;
OutByte(58H + reg MOD 8)
END pop;
PROCEDURE push (reg: INTEGER); (* push reg *)
BEGIN
IF reg >= 8 THEN
OutByte(41H)
END;
OutByte(50H + reg MOD 8)
END push;
PROCEDURE decr (reg: INTEGER);
BEGIN
Rex(reg, 0);
OutByte2(0FFH, 0C8H + reg MOD 8) (* dec reg1 *)
END decr;
PROCEDURE incr (reg: INTEGER);
BEGIN
Rex(reg, 0);
OutByte2(0FFH, 0C0H + reg MOD 8) (* inc reg1 *)
END incr;
PROCEDURE drop;
BEGIN
REG.Drop(R)
END drop;
PROCEDURE GetAnyReg (): INTEGER;
RETURN REG.GetAnyReg(R)
END GetAnyReg;
PROCEDURE GetVarReg (offs: INTEGER): INTEGER;
RETURN REG.GetVarReg(R, offs)
END GetVarReg;
PROCEDURE callimp (label: INTEGER);
BEGIN
OutByte2(0FFH, 15H); (* call qword[rip + label + IMP] *)
X86.Reloc(sIMP, label)
END callimp;
PROCEDURE pushDA (offs: INTEGER);
VAR
reg: INTEGER;
BEGIN
reg := GetAnyReg();
lea(reg, offs, sDATA);
push(reg);
drop
END pushDA;
PROCEDURE CallRTL (proc: INTEGER);
VAR
label: INTEGER;
BEGIN
REG.Store(R);
label := IL.codes.rtl[proc];
IF label < 0 THEN
callimp(-label)
ELSE
X86.call(label)
END;
REG.Restore(R)
END CallRTL;
PROCEDURE UnOp (VAR reg: INTEGER);
BEGIN
REG.UnOp(R, reg)
END UnOp;
PROCEDURE BinOp (VAR reg1, reg2: INTEGER);
BEGIN
REG.BinOp(R, reg1, reg2)
END BinOp;
PROCEDURE PushAll (NumberOfParameters: INTEGER);
BEGIN
REG.PushAll(R);
DEC(R.pushed, NumberOfParameters)
END PushAll;
PROCEDURE movabs (reg, n: INTEGER);
VAR
i: INTEGER;
BEGIN
Rex(reg, 0);
OutByte(0B8H + reg MOD 8); (* movabs reg, n *)
FOR i := 0 TO 7 DO
OutByte(UTILS.Byte(n, i))
END
END movabs;
PROCEDURE movrc (reg, n: INTEGER); (* mov reg, n *)
BEGIN
IF isLong(n) THEN
movabs(reg, n)
ELSIF n = 0 THEN
xor(reg, reg)
ELSE
Rex(reg, 0);
OutByte2(0C7H, 0C0H + reg MOD 8);
OutInt(n)
END
END movrc;
PROCEDURE test (reg: INTEGER); (* test reg, reg *)
BEGIN
oprr(85H, reg, reg)
END test;
PROCEDURE oprlongc (reg, n: INTEGER; oprr: OPRR);
VAR
reg2: INTEGER;
BEGIN
reg2 := GetAnyReg();
ASSERT(reg2 # reg);
movabs(reg2, n);
oprr(reg, reg2);
drop
END oprlongc;
PROCEDURE oprc (op, reg, n: INTEGER; oprr: OPRR);
BEGIN
IF isLong(n) THEN
oprlongc(reg, n, oprr)
ELSE
Rex(reg, 0);
X86.oprc(op, reg, n)
END
END oprc;
PROCEDURE cmprc (reg, n: INTEGER); (* cmp reg, n *)
BEGIN
IF n = 0 THEN
test(reg)
ELSE
oprc(0F8H, reg, n, cmprr)
END
END cmprc;
PROCEDURE addrc (reg, n: INTEGER); (* add reg, n *)
BEGIN
oprc(0C0H, reg, n, add)
END addrc;
PROCEDURE subrc (reg, n: INTEGER); (* sub reg, n *)
BEGIN
oprc(0E8H, reg, n, sub)
END subrc;
PROCEDURE andrc (reg, n: INTEGER); (* and reg, n *)
BEGIN
oprc(0E0H, reg, n, and)
END andrc;
PROCEDURE orrc (reg, n: INTEGER); (* or reg, n *)
BEGIN
oprc(0C8H, reg, n, _or)
END orrc;
PROCEDURE xorrc (reg, n: INTEGER); (* xor reg, n *)
BEGIN
oprc(0F0H, reg, n, xor)
END xorrc;
PROCEDURE pushc (n: INTEGER);
VAR
reg2: INTEGER;
BEGIN
IF isLong(n) THEN
reg2 := GetAnyReg();
movabs(reg2, n);
push(reg2);
drop
ELSE
X86.pushc(n)
END
END pushc;
PROCEDURE not (reg: INTEGER); (* not reg *)
BEGIN
Rex(reg, 0);
OutByte2(0F7H, 0D0H + reg MOD 8)
END not;
PROCEDURE neg (reg: INTEGER); (* neg reg *)
BEGIN
Rex(reg, 0);
OutByte2(0F7H, 0D8H + reg MOD 8)
END neg;
PROCEDURE movzx (reg1, reg2, offs: INTEGER; word: BOOLEAN); (* movzx reg1, byte/word[reg2 + offs] *)
BEGIN
Rex(reg2, reg1);
X86.movzx(reg1, reg2, offs, word)
END movzx;
PROCEDURE movmr32 (reg1, offs, reg2: INTEGER); (* mov dword[reg1+offs], reg2_32 *)
BEGIN
X86._movrm(reg2, reg1, offs, 32, TRUE)
END movmr32;
PROCEDURE movrm32 (reg1, reg2, offs: INTEGER); (* mov reg1_32, dword[reg2+offs] *)
BEGIN
X86._movrm(reg1, reg2, offs, 32, FALSE)
END movrm32;
PROCEDURE movmr (reg1, offs, reg2: INTEGER); (* mov qword[reg1+offs], reg2 *)
BEGIN
X86._movrm(reg2, reg1, offs, 64, TRUE)
END movmr;
PROCEDURE movrm (reg1, reg2, offs: INTEGER); (* mov reg1, qword[reg2+offs] *)
BEGIN
X86._movrm(reg1, reg2, offs, 64, FALSE)
END movrm;
PROCEDURE comisd (xmm1, xmm2: INTEGER); (* comisd xmm1, xmm2 *)
BEGIN
OutByte(66H);
IF (xmm1 >= 8) OR (xmm2 >= 8) THEN
OutByte(40H + (xmm1 DIV 8) * 4 + xmm2 DIV 8)
END;
OutByte3(0FH, 2FH, 0C0H + (xmm1 MOD 8) * 8 + xmm2 MOD 8)
END comisd;
PROCEDURE _movsdrm (xmm, reg, offs: INTEGER; mr: BOOLEAN);
VAR
b: BYTE;
BEGIN
OutByte(0F2H);
IF (xmm >= 8) OR (reg >= 8) THEN
OutByte(40H + (xmm DIV 8) * 4 + reg DIV 8)
END;
OutByte2(0FH, 10H + ORD(mr));
IF (offs = 0) & (reg # rbp) THEN
b := 0
ELSE
b := 40H + long(offs)
END;
OutByte(b + (xmm MOD 8) * 8 + reg MOD 8);
IF reg = rsp THEN
OutByte(24H)
END;
IF b # 0 THEN
OutIntByte(offs)
END
END _movsdrm;
PROCEDURE movsdrm (xmm, reg, offs: INTEGER); (* movsd xmm, qword[reg+offs] *)
BEGIN
_movsdrm(xmm, reg, offs, FALSE)
END movsdrm;
PROCEDURE movsdmr (reg, offs, xmm: INTEGER); (* movsd qword[reg+offs], xmm *)
BEGIN
_movsdrm(xmm, reg, offs, TRUE)
END movsdmr;
PROCEDURE opxx (op, xmm1, xmm2: INTEGER);
BEGIN
OutByte(0F2H);
IF (xmm1 >= 8) OR (xmm2 >= 8) THEN
OutByte(40H + (xmm1 DIV 8) * 4 + xmm2 DIV 8)
END;
OutByte3(0FH, op, 0C0H + (xmm1 MOD 8) * 8 + xmm2 MOD 8)
END opxx;
PROCEDURE jcc (cc, label: INTEGER); (* jcc label *)
BEGIN
X86.jcc(cc, label)
END jcc;
PROCEDURE shiftrc (op, reg, n: INTEGER);
BEGIN
Rex(reg, 0);
IF n = 1 THEN
OutByte(0D1H)
ELSE
OutByte(0C1H)
END;
X86.shift(op, reg MOD 8);
IF n # 1 THEN
OutByte(n)
END
END shiftrc;
PROCEDURE getVar (variables: LISTS.LIST; offset: INTEGER): IL.LOCALVAR;
VAR
cur: IL.LOCALVAR;
BEGIN
cur := variables.first(IL.LOCALVAR);
WHILE (cur # NIL) & (cur.offset # offset) DO
cur := cur.next(IL.LOCALVAR)
END
RETURN cur
END getVar;
PROCEDURE allocReg (cmd: COMMAND);
VAR
leave: BOOLEAN;
leaf: BOOLEAN;
cur: COMMAND;
variables: LISTS.LIST;
lvar, rvar: IL.LOCALVAR;
reg: INTEGER;
max: INTEGER;
loop: INTEGER;
BEGIN
loop := 1;
variables := cmd.variables;
leave := FALSE;
leaf := TRUE;
cur := cmd.next(COMMAND);
REPEAT
CASE cur.opcode OF
|IL.opLLOAD64,
IL.opLLOAD8,
IL.opLLOAD16,
IL.opLLOAD32,
IL.opLLOAD64_PARAM,
IL.opLLOAD32_PARAM,
IL.opLADR_SAVE,
IL.opLADR_INC,
IL.opLADR_DEC,
IL.opLADR_INCB,
IL.opLADR_DECB,
IL.opLADR_INCL,
IL.opLADR_EXCL,
IL.opLADR_UNPK:
lvar := getVar(variables, cur.param2);
IF (lvar # NIL) & (lvar.count # -1) THEN
INC(lvar.count, loop)
END
|IL.opLADR_SAVEC,
IL.opLADR_INCC,
IL.opLADR_INCCB,
IL.opLADR_DECCB,
IL.opLADR_INCLC,
IL.opLADR_EXCLC:
lvar := getVar(variables, cur.param1);
IF (lvar # NIL) & (lvar.count # -1) THEN
INC(lvar.count, loop)
END
|IL.opLADR:
lvar := getVar(variables, cur.param2);
IF (lvar # NIL) & (lvar.count # -1) THEN
lvar.count := -1
END
|IL.opLOOP:
INC(loop, 10)
|IL.opENDLOOP:
DEC(loop, 10)
|IL.opLEAVE,
IL.opLEAVER,
IL.opLEAVEF:
leave := TRUE
|IL.opCALL, IL.opCALLP, IL.opCALLI,
IL.opWIN64CALL, IL.opWIN64CALLP, IL.opWIN64CALLI,
IL.opSYSVCALL, IL.opSYSVCALLP, IL.opSYSVCALLI,
IL.opSAVES, IL.opRSET, IL.opRSETR,
IL.opRSETL, IL.opRSET1,
IL.opEQS .. IL.opGES,
IL.opEQSW .. IL.opGESW,
IL.opCOPY, IL.opMOVE, IL.opCOPYA,
IL.opCOPYS, IL.opROT,
IL.opNEW, IL.opDISP, IL.opISREC,
IL.opIS, IL.opTYPEGR, IL.opTYPEGP,
IL.opTYPEGD, IL.opCASET, IL.opDIV,
IL.opDIVL, IL.opMOD,
IL.opMODL, IL.opLENGTH, IL.opLENGTHW:
leaf := FALSE
|IL.opDIVR, IL.opMODR:
leaf := UTILS.Log2(cur.param2) >= 0
ELSE
END;
cur := cur.next(COMMAND)
UNTIL leave OR ~leaf;
IF leaf THEN
REPEAT
reg := -1;
max := -1;
rvar := NIL;
lvar := variables.first(IL.LOCALVAR);
WHILE lvar # NIL DO
IF lvar.count > max THEN
max := lvar.count;
rvar := lvar
END;
lvar := lvar.next(IL.LOCALVAR)
END;
IF rvar # NIL THEN
reg := REG.GetAnyVarReg(R);
IF reg # -1 THEN
REG.Lock(R, reg, rvar.offset, rvar.size);
REG.Load(R, reg);
rvar.count := -1
END
END
UNTIL (rvar = NIL) OR (reg = -1)
END
END allocReg;
PROCEDURE GetRegA;
BEGIN
ASSERT(REG.GetReg(R, rax))
END GetRegA;
PROCEDURE Win64Passing (params: INTEGER);
VAR
n, i: INTEGER;
BEGIN
n := params MOD 32;
params := params DIV 32;
FOR i := 0 TO n - 1 DO
IF i IN BITS(params) THEN
movsdrm(i, rsp, i * 8)
ELSE
movrm(Win64RegPar[i], rsp, i * 8)
END
END
END Win64Passing;
PROCEDURE SysVPassing (params: INTEGER);
VAR
n, i, s, p, ofs: INTEGER;
i_count, f_count: INTEGER;
reg: BOOLEAN;
BEGIN
ASSERT(r10 IN R.regs);
n := params MOD 32;
params := params DIV 32;
s := 0;
i_count := 0;
f_count := 0;
FOR i := 0 TO n - 1 DO
IF i IN BITS(params) THEN
INC(f_count)
ELSE
INC(i_count)
END
END;
s := MAX(0, f_count - 8) + MAX(0, i_count - 6);
p := 0;
subrc(rsp, s * 8);
i_count := 0;
f_count := 0;
FOR i := 0 TO n - 1 DO
ofs := (i + s) * 8;
IF i IN BITS(params) THEN
reg := f_count <= 7;
IF reg THEN
movsdrm(f_count, rsp, ofs);
INC(f_count)
END
ELSE
reg := i_count <= 5;
IF reg THEN
movrm(SystemVRegPar[i_count], rsp, ofs);
INC(i_count)
END
END;
IF ~reg THEN
movrm(r10, rsp, ofs);
movmr(rsp, p, r10);
INC(p, 8)
END
END
END SysVPassing;
PROCEDURE fcmp (op: INTEGER; xmm: INTEGER);
VAR
cc, reg: INTEGER;
BEGIN
reg := GetAnyReg();
xor(reg, reg);
CASE op OF
|IL.opEQF:
comisd(xmm - 1, xmm);
cc := sete
|IL.opNEF:
comisd(xmm - 1, xmm);
cc := setne
|IL.opLTF:
comisd(xmm - 1, xmm);
cc := setc
|IL.opGTF:
comisd(xmm, xmm - 1);
cc := setc
|IL.opLEF:
comisd(xmm, xmm - 1);
cc := setnc
|IL.opGEF:
comisd(xmm - 1, xmm);
cc := setnc
END;
OutByte2(7AH, 3 + reg DIV 8); (* jp L *)
X86.setcc(cc, reg)
(* L: *)
END fcmp;
PROCEDURE translate (commands: LISTS.LIST; stroffs: INTEGER);
VAR
cmd, next: COMMAND;
opcode, param1, param2, param3, a, b, c, n, label, L, i, cc: INTEGER;
reg1, reg2, xmm: INTEGER;
float: REAL;
regVar: BOOLEAN;
BEGIN
xmm := -1;
cmd := commands.first(COMMAND);
WHILE cmd # NIL DO
param1 := cmd.param1;
param2 := cmd.param2;
opcode := cmd.opcode;
CASE opcode OF
|IL.opJMP:
X86.jmp(param1)
|IL.opCALL, IL.opWIN64CALL, IL.opSYSVCALL:
REG.Store(R);
CASE opcode OF
|IL.opCALL:
|IL.opWIN64CALL: Win64Passing(param2)
|IL.opSYSVCALL: SysVPassing(param2)
END;
X86.call(param1);
REG.Restore(R)
|IL.opCALLP, IL.opWIN64CALLP, IL.opSYSVCALLP:
UnOp(reg1);
IF reg1 # rax THEN
GetRegA;
ASSERT(REG.Exchange(R, reg1, rax));
drop
END;
drop;
REG.Store(R);
CASE opcode OF
|IL.opCALLP:
|IL.opWIN64CALLP: Win64Passing(param2)
|IL.opSYSVCALLP: SysVPassing(param2)
END;
OutByte2(0FFH, 0D0H); (* call rax *)
REG.Restore(R);
ASSERT(R.top = -1)
|IL.opCALLI, IL.opWIN64CALLI, IL.opSYSVCALLI:
REG.Store(R);
CASE opcode OF
|IL.opCALLI:
|IL.opWIN64CALLI: Win64Passing(param2)
|IL.opSYSVCALLI: SysVPassing(param2)
END;
callimp(param1);
REG.Restore(R)
|IL.opLABEL:
X86.SetLabel(param1)
|IL.opERR:
CallRTL(IL._error)
|IL.opONERR:
pushc(param2);
X86.jmp(param1)
|IL.opPUSHC:
pushc(param2)
|IL.opPRECALL:
PushAll(0);
IF (param2 # 0) & (xmm >= 0) THEN
subrc(rsp, 8)
END;
INC(Xmm[0]);
Xmm[Xmm[0]] := xmm + 1;
WHILE xmm >= 0 DO
subrc(rsp, 8);
movsdmr(rsp, 0, xmm);
DEC(xmm)
END;
ASSERT(xmm = -1)
|IL.opWIN64ALIGN16:
ASSERT(rax IN R.regs);
mov(rax, rsp);
andrc(rsp, -16);
push(rax);
subrc(rsp, (MAX(param2 - 4, 0) MOD 2 + MAX(4 - param2, 0) + 1) * 8)
|IL.opSYSVALIGN16:
ASSERT(rax IN R.regs);
mov(rax, rsp);
andrc(rsp, -16);
push(rax);
IF ~ODD(param2) THEN
push(rax)
END
|IL.opRESF, IL.opRES:
ASSERT(R.top = -1);
ASSERT(xmm = -1);
n := Xmm[Xmm[0]]; DEC(Xmm[0]);
IF opcode = IL.opRESF THEN
INC(xmm);
IF n > 0 THEN
movsdmr(rsp, n * 8, 0);
DEC(xmm);
INC(n)
END;
IF xmm + n > MAX_XMM THEN
ERRORS.ErrorMsg(fname, param1, param2, FPR_ERR)
END
ELSE
GetRegA
END;
WHILE n > 0 DO
INC(xmm);
movsdrm(xmm, rsp, 0);
addrc(rsp, 8);
DEC(n)
END
|IL.opENTER:
ASSERT(R.top = -1);
X86.SetLabel(param1);
param3 := cmd.param3;
IF param3 > 0 THEN
push(rbp);
mov(rbp, rsp);
n := param3 MOD 32;
param3 := param3 DIV 32;
FOR i := 0 TO n - 1 DO
IF i IN BITS(param3) THEN
movsdmr(rbp, i * 8 + 16, i)
ELSE
movmr(rbp, i * 8 + 16, Win64RegPar[i])
END
END
ELSIF param3 < 0 THEN
param3 := -param3;
n := (param3 MOD 32) * 8;
param3 := param3 DIV 32;
pop(r10);
subrc(rsp, n);
push(r10);
push(rbp);
mov(rbp, rsp);
a := 0;
b := 0;
c := 0;
INC(n, 16);
FOR i := 16 TO n - 8 BY 8 DO
IF ODD(param3) THEN
IF b <= 7 THEN
movsdmr(rbp, i, b);
INC(b)
ELSE
movrm(r10, rbp, n + c);
movmr(rbp, i, r10);
INC(c, 8)
END
ELSE
IF a <= 5 THEN
movmr(rbp, i, SystemVRegPar[a]);
INC(a)
ELSE
movrm(r10, rbp, n + c);
movmr(rbp, i, r10);
INC(c, 8)
END
END;
param3 := param3 DIV 2
END
ELSE
push(rbp);
mov(rbp, rsp)
END;
n := param2;
IF n > 4 THEN
movrc(rcx, n);
(* L: *)
pushc(0);
OutByte2(0E2H, 0FCH) (* loop L *)
ELSE
WHILE n > 0 DO
pushc(0);
DEC(n)
END
END;
IF cmd.allocReg THEN
allocReg(cmd)
END
|IL.opLEAVE, IL.opLEAVER, IL.opLEAVEF:
IF opcode = IL.opLEAVER THEN
UnOp(reg1);
IF reg1 # rax THEN
GetRegA;
ASSERT(REG.Exchange(R, reg1, rax));
drop
END;
drop
END;
ASSERT(R.top = -1);
IF opcode = IL.opLEAVEF THEN
DEC(xmm)
END;
ASSERT(xmm = -1);
IF param1 > 0 THEN
mov(rsp, rbp)
END;
pop(rbp);
IF param2 > 0 THEN
OutByte3(0C2H, (param2 * 8) MOD 256, (param2 * 8) DIV 256) (* ret param2 *)
ELSE
X86.ret
END;
REG.Reset(R)
|IL.opSAVES:
UnOp(reg1);
REG.PushAll_1(R);
pushDA(stroffs + param2);
push(reg1);
drop;
pushc(param1);
CallRTL(IL._move)
|IL.opSADR:
lea(GetAnyReg(), stroffs + param2, sDATA)
|IL.opLOAD8:
UnOp(reg1);
movzx(reg1, reg1, 0, FALSE)
|IL.opLOAD16:
UnOp(reg1);
movzx(reg1, reg1, 0, TRUE)
|IL.opLOAD32:
UnOp(reg1);
movrm32(reg1, reg1, 0);
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32)
|IL.opLOAD64:
UnOp(reg1);
movrm(reg1, reg1, 0)
|IL.opLLOAD64:
reg1 := GetAnyReg();
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
mov(reg1, reg2)
ELSE
movrm(reg1, rbp, param2 * 8)
END
|IL.opLLOAD8,
IL.opLLOAD16:
reg1 := GetAnyReg();
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
mov(reg1, reg2)
ELSE
movzx(reg1, rbp, param2 * 8, opcode = IL.opLLOAD16)
END
|IL.opLLOAD32:
reg1 := GetAnyReg();
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
mov(reg1, reg2)
ELSE
movrm32(reg1, rbp, param2 * 8)
END;
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32)
|IL.opGLOAD64:
reg1 := GetAnyReg();
Rex(0, reg1); (* mov reg1, qword[rip + param2 + BSS] *)
OutByte2(8BH, 05H + 8 * (reg1 MOD 8));
X86.Reloc(sBSS, param2)
|IL.opGLOAD8, IL.opGLOAD16:
reg1 := GetAnyReg();
Rex(0, reg1); (* movzx reg1, byte/word[rip + param2 + BSS] *)
OutByte3(0FH, 0B6H + ORD(opcode = IL.opGLOAD16), 05H + 8 * (reg1 MOD 8));
X86.Reloc(sBSS, param2)
|IL.opGLOAD32:
reg1 := GetAnyReg();
lea(reg1, param2, sBSS);
movrm32(reg1, reg1, 0);
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32)
|IL.opVLOAD64:
reg1 := GetAnyReg();
movrm(reg1, rbp, param2 * 8);
movrm(reg1, reg1, 0)
|IL.opVLOAD8,
IL.opVLOAD16:
reg1 := GetAnyReg();
movrm(reg1, rbp, param2 * 8);
movzx(reg1, reg1, 0, opcode = IL.opVLOAD16)
|IL.opVLOAD32:
reg1 := GetAnyReg();
reg2 := GetAnyReg();
movrm(reg2, rbp, param2 * 8);
movrm32(reg1, reg2, 0);
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32);
drop
|IL.opLADR:
n := param2 * 8;
next := cmd.next(COMMAND);
IF (next.opcode = IL.opSAVEF) OR (next.opcode = IL.opSAVEFI) THEN
ASSERT(xmm >= 0);
movsdmr(rbp, n, xmm);
DEC(xmm);
cmd := next
ELSIF next.opcode = IL.opLOADF THEN
INC(xmm);
IF xmm > MAX_XMM THEN
ERRORS.ErrorMsg(fname, next.param1, next.param2, FPR_ERR)
END;
movsdrm(xmm, rbp, n);
cmd := next
ELSE
IF (next.opcode = IL.opADDC) & ~isLong(n + next.param2) THEN
INC(n, next.param2);
cmd := next
END;
reg1 := GetAnyReg();
Rex(0, reg1);
OutByte2(8DH, 45H + long(n) + (reg1 MOD 8) * 8); (* lea reg1, qword[rbp+n] *)
OutIntByte(n)
END
|IL.opGADR:
next := cmd.next(COMMAND);
IF (next.opcode = IL.opADDC) & ~isLong(param2 + next.param2) THEN
INC(param2, next.param2);
cmd := next
END;
lea(GetAnyReg(), param2, sBSS)
|IL.opVADR:
movrm(GetAnyReg(), rbp, param2 * 8)
|IL.opSAVE8C:
UnOp(reg1);
IF reg1 >= 8 THEN
OutByte(41H)
END;
OutByte3(0C6H, reg1 MOD 8, param2); (* mov byte[reg1], param2 *)
drop
|IL.opSAVE16C:
UnOp(reg1);
OutByte(66H);
IF reg1 >= 8 THEN
OutByte(41H)
END;
OutByte2(0C7H, reg1 MOD 8);
OutByte2(param2 MOD 256, param2 DIV 256); (* mov word[reg1], param2 *)
drop
|IL.opSAVEC:
UnOp(reg1);
IF isLong(param2) THEN
reg2 := GetAnyReg();
movrc(reg2, param2);
movmr(reg1, 0, reg2);
drop
ELSE
Rex(reg1, 0);
OutByte2(0C7H, reg1 MOD 8); (* mov qword[reg1], param2 *)
OutInt(param2)
END;
drop
|IL.opRSET:
PushAll(2);
CallRTL(IL._set);
GetRegA
|IL.opRSETR:
PushAll(1);
pushc(param2);
CallRTL(IL._set);
GetRegA
|IL.opRSETL:
UnOp(reg1);
REG.PushAll_1(R);
pushc(param2);
push(reg1);
drop;
CallRTL(IL._set);
GetRegA
|IL.opRSET1:
PushAll(1);
CallRTL(IL._set1);
GetRegA
|IL.opINCL, IL.opEXCL:
BinOp(reg1, reg2);
cmprc(reg1, 64);
OutByte2(73H, 04H); (* jnb L *)
Rex(reg2, reg1);
OutByte3(0FH, 0ABH + 8 * ORD(opcode = IL.opEXCL), 8 * (reg1 MOD 8) + reg2 MOD 8); (* bts/btr qword[reg2], reg1 *)
(* L: *)
drop;
drop
|IL.opINCLC, IL.opEXCLC:
UnOp(reg1);
Rex(reg1, 0);
OutByte2(0FH, 0BAH); (* bts/btr qword[reg1], param2 *)
OutByte2(28H + 8 * ORD(opcode = IL.opEXCLC) + reg1 MOD 8, param2);
drop
|IL.opEQS .. IL.opGES:
PushAll(4);
pushc(opcode - IL.opEQS);
CallRTL(IL._strcmp);
GetRegA
|IL.opEQSW .. IL.opGESW:
PushAll(4);
pushc(opcode - IL.opEQSW);
CallRTL(IL._strcmpw);
GetRegA
|IL.opCONST:
movrc(GetAnyReg(), param2)
|IL.opEQ..IL.opGE,
IL.opEQC..IL.opGEC:
IF (IL.opEQ <= opcode) & (opcode <= IL.opGE) THEN
BinOp(reg1, reg2);
cmprr(reg1, reg2);
drop
ELSE
UnOp(reg1);
cmprc(reg1, param2)
END;
drop;
cc := X86.cond(opcode);
next := cmd.next(COMMAND);
IF next.opcode = IL.opJNZ THEN
jcc(cc, next.param1);
cmd := next
ELSIF next.opcode = IL.opJZ THEN
jcc(X86.inv0(cc), next.param1);
cmd := next
ELSE
reg1 := GetAnyReg();
X86.setcc(cc + 16, reg1);
andrc(reg1, 1)
END
|IL.opCODE:
OutByte(param2)
|IL.opPUSHIP:
reg1 := GetAnyReg();
lea(reg1, param2, sIMP);
movrm(reg1, reg1, 0)
|IL.opPARAM:
n := param2;
IF n = 1 THEN
UnOp(reg1);
push(reg1);
drop
ELSE
ASSERT(R.top + 1 <= n);
PushAll(n)
END
|IL.opJNZ1:
UnOp(reg1);
test(reg1);
jcc(jne, param1)
|IL.opJG:
UnOp(reg1);
test(reg1);
jcc(jg, param1)
|IL.opJNZ:
UnOp(reg1);
test(reg1);
jcc(jne, param1);
drop
|IL.opJZ:
UnOp(reg1);
test(reg1);
jcc(je, param1);
drop
|IL.opIN, IL.opINR:
IF opcode = IL.opINR THEN
reg2 := GetAnyReg();
movrc(reg2, param2)
END;
label := NewLabel();
L := NewLabel();
BinOp(reg1, reg2);
cmprc(reg1, 64);
jcc(jb, L);
xor(reg1, reg1);
X86.jmp(label);
X86.SetLabel(L);
Rex(reg2, reg1);
OutByte3(0FH, 0A3H, 0C0H + 8 * (reg1 MOD 8) + reg2 MOD 8); (* bt reg2, reg1 *)
X86.setcc(setc, reg1);
andrc(reg1, 1);
X86.SetLabel(label);
drop
|IL.opINL:
UnOp(reg1);
Rex(reg1, 0);
OutByte2(0FH, 0BAH); (* bt reg1, param2 *)
OutByte2(0E0H + reg1 MOD 8, param2);
X86.setcc(setc, reg1);
andrc(reg1, 1)
|IL.opNOT:
UnOp(reg1);
test(reg1);
X86.setcc(sete, reg1);
andrc(reg1, 1)
|IL.opORD:
UnOp(reg1);
test(reg1);
X86.setcc(setne, reg1);
andrc(reg1, 1)
|IL.opABS:
UnOp(reg1);
test(reg1);
OutByte2(7DH, 03H); (* jge L *)
neg(reg1)
(* L: *)
|IL.opEQB, IL.opNEB:
BinOp(reg1, reg2);
drop;
test(reg1);
label := NewLabel();
jcc(je, label);
movrc(reg1, 1);
X86.SetLabel(label);
test(reg2);
label := NewLabel();
jcc(je, label);
movrc(reg2, 1);
X86.SetLabel(label);
cmprr(reg1, reg2);
IF opcode = IL.opEQB THEN
X86.setcc(sete, reg1)
ELSE
X86.setcc(setne, reg1)
END;
andrc(reg1, 1)
|IL.opMULSC:
UnOp(reg1);
andrc(reg1, param2)
|IL.opDIVSC:
UnOp(reg1);
xorrc(reg1, param2)
|IL.opADDSC:
UnOp(reg1);
orrc(reg1, param2)
|IL.opSUBSL:
UnOp(reg1);
not(reg1);
andrc(reg1, param2)
|IL.opSUBSR:
UnOp(reg1);
andrc(reg1, ORD(-BITS(param2)))
|IL.opMULS:
BinOp(reg1, reg2);
and(reg1, reg2);
drop
|IL.opDIVS:
BinOp(reg1, reg2);
xor(reg1, reg2);
drop
|IL.opUMINS:
UnOp(reg1);
not(reg1)
|IL.opCOPY:
PushAll(2);
pushc(param2);
CallRTL(IL._move)
|IL.opMOVE:
PushAll(3);
CallRTL(IL._move)
|IL.opCOPYA:
PushAll(4);
pushc(param2);
CallRTL(IL._arrcpy);
GetRegA
|IL.opCOPYS:
PushAll(4);
pushc(param2);
CallRTL(IL._strcpy)
|IL.opROT:
PushAll(0);
push(rsp);
pushc(param2);
CallRTL(IL._rot)
|IL.opNEW:
PushAll(1);
n := param2 + 16;
ASSERT(UTILS.Align(n, 64));
pushc(n);
pushc(param1);
CallRTL(IL._new)
|IL.opDISP:
PushAll(1);
CallRTL(IL._dispose)
|IL.opPUSHT:
UnOp(reg1);
reg2 := GetAnyReg();
movrm(reg2, reg1, -8)
|IL.opISREC:
PushAll(2);
pushc(param2 * tcount);
CallRTL(IL._isrec);
GetRegA
|IL.opIS:
PushAll(1);
pushc(param2 * tcount);
CallRTL(IL._is);
GetRegA
|IL.opTYPEGR:
PushAll(1);
pushc(param2 * tcount);
CallRTL(IL._guardrec);
GetRegA
|IL.opTYPEGP:
UnOp(reg1);
PushAll(0);
push(reg1);
pushc(param2 * tcount);
CallRTL(IL._guard);
GetRegA
|IL.opTYPEGD:
UnOp(reg1);
PushAll(0);
X86.pushm(reg1, -8);
pushc(param2 * tcount);
CallRTL(IL._guardrec);
GetRegA
|IL.opCASET:
push(r10);
push(r10);
pushc(param2 * tcount);
CallRTL(IL._guardrec);
pop(r10);
test(rax);
jcc(jne, param1)
|IL.opSAVEP:
UnOp(reg1);
reg2 := GetAnyReg();
lea(reg2, param2, sCODE);
movmr(reg1, 0, reg2);
drop;
drop
|IL.opPUSHP:
lea(GetAnyReg(), param2, sCODE)
|IL.opINC, IL.opDEC:
BinOp(reg1, reg2);
(* add/sub qword[reg2], reg1 *)
Rex(reg2, reg1);
OutByte2(01H + 28H * ORD(opcode = IL.opDEC), reg2 MOD 8 + (reg1 MOD 8) * 8);
drop;
drop
|IL.opINCC:
UnOp(reg1);
IF isLong(param2) THEN
reg2 := GetAnyReg();
movrc(reg2, param2);
(* add qword[reg1], reg2 *)
Rex(reg1, reg2);
OutByte2(01H, reg1 MOD 8 + (reg2 MOD 8) * 8);
drop
ELSIF ABS(param2) = 1 THEN
Rex(reg1, 0);
OutByte2(0FFH, reg1 MOD 8 + 8 * ORD(param2 = -1)) (* inc/dec qword[reg1] *)
ELSE
(* add qword[reg1], param2 *)
Rex(reg1, 0);
OutByte2(81H + short(param2), reg1 MOD 8);
OutIntByte(param2)
END;
drop
|IL.opDROP:
UnOp(reg1);
drop
|IL.opSAVE, IL.opSAVE64:
BinOp(reg2, reg1);
movmr(reg1, 0, reg2);
drop;
drop
|IL.opSAVE8:
BinOp(reg2, reg1);
X86.movmr8(reg1, 0, reg2);
drop;
drop
|IL.opSAVE16:
BinOp(reg2, reg1);
X86.movmr16(reg1, 0, reg2);
drop;
drop
|IL.opSAVE32:
BinOp(reg2, reg1);
movmr32(reg1, 0, reg2);
drop;
drop
|IL.opMAX, IL.opMIN:
BinOp(reg1, reg2);
cmprr(reg1, reg2);
OutByte2(7DH + ORD(opcode = IL.opMIN), 3); (* jge/jle L *)
mov(reg1, reg2);
(* L: *)
drop
|IL.opMAXC, IL.opMINC:
UnOp(reg1);
cmprc(reg1, param2);
label := NewLabel();
IF opcode = IL.opMINC THEN
cc := jle
ELSE
cc := jge
END;
jcc(cc, label);
movrc(reg1, param2);
X86.SetLabel(label)
|IL.opSBOOL:
BinOp(reg2, reg1);
test(reg2);
IF reg1 >= 8 THEN
OutByte(41H)
END;
OutByte3(0FH, 95H, reg1 MOD 8); (* setne byte[reg1] *)
drop;
drop
|IL.opSBOOLC:
UnOp(reg1);
IF reg1 >= 8 THEN
OutByte(41H)
END;
OutByte3(0C6H, reg1 MOD 8, ORD(param2 # 0)); (* mov byte[reg1], 0/1 *)
drop
|IL.opUMINUS:
UnOp(reg1);
neg(reg1)
|IL.opADD:
BinOp(reg1, reg2);
add(reg1, reg2);
drop
|IL.opSUB:
BinOp(reg1, reg2);
sub(reg1, reg2);
drop
|IL.opSUBR, IL.opSUBL:
UnOp(reg1);
IF param2 = 1 THEN
decr(reg1)
ELSIF param2 = -1 THEN
incr(reg1)
ELSIF param2 # 0 THEN
subrc(reg1, param2)
END;
IF opcode = IL.opSUBL THEN
neg(reg1)
END
|IL.opADDC:
IF (param2 # 0) & ~isLong(param2) THEN
UnOp(reg1);
next := cmd.next(COMMAND);
CASE next.opcode OF
|IL.opLOAD64:
movrm(reg1, reg1, param2);
cmd := next
|IL.opLOAD32:
movrm32(reg1, reg1, param2);
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32);
cmd := next
|IL.opLOAD16:
movzx(reg1, reg1, param2, TRUE);
cmd := next
|IL.opLOAD8:
movzx(reg1, reg1, param2, FALSE);
cmd := next
|IL.opLOAD64_PARAM:
X86.pushm(reg1, param2);
drop;
cmd := next
ELSE
IF param2 = 1 THEN
incr(reg1)
ELSIF param2 = -1 THEN
decr(reg1)
ELSE
addrc(reg1, param2)
END
END
ELSIF isLong(param2) THEN
addrc(reg1, param2)
END
|IL.opDIV:
PushAll(2);
CallRTL(IL._divmod);
GetRegA
|IL.opDIVR:
n := UTILS.Log2(param2);
IF n > 0 THEN
UnOp(reg1);
shiftrc(sar, reg1, n)
ELSIF n < 0 THEN
PushAll(1);
pushc(param2);
CallRTL(IL._divmod);
GetRegA
END
|IL.opDIVL:
UnOp(reg1);
REG.PushAll_1(R);
pushc(param2);
push(reg1);
drop;
CallRTL(IL._divmod);
GetRegA
|IL.opMOD:
PushAll(2);
CallRTL(IL._divmod);
mov(rax, rdx);
GetRegA
|IL.opMODR:
n := UTILS.Log2(param2);
IF n > 0 THEN
UnOp(reg1);
andrc(reg1, param2 - 1);
ELSIF n < 0 THEN
PushAll(1);
pushc(param2);
CallRTL(IL._divmod);
mov(rax, rdx);
GetRegA
ELSE
UnOp(reg1);
xor(reg1, reg1)
END
|IL.opMODL:
UnOp(reg1);
REG.PushAll_1(R);
pushc(param2);
push(reg1);
drop;
CallRTL(IL._divmod);
mov(rax, rdx);
GetRegA
|IL.opMUL:
BinOp(reg1, reg2);
oprr2(0FH, 0AFH, reg2, reg1); (* imul reg1, reg2 *)
drop
|IL.opMULC:
IF (cmd.next(COMMAND).opcode = IL.opADD) & ((param2 = 2) OR (param2 = 4) OR (param2 = 8)) THEN
BinOp(reg1, reg2);
OutByte2(48H + 5 * (reg1 DIV 8) + 2 * (reg2 DIV 8), 8DH); (* lea reg1, [reg1 + reg2 * param2] *)
reg1 := reg1 MOD 8;
reg2 := reg2 MOD 8;
OutByte2(04H + reg1 * 8, reg1 + reg2 * 8 + 40H * UTILS.Log2(param2));
drop;
cmd := cmd.next(COMMAND)
ELSE
UnOp(reg1);
a := param2;
IF a > 1 THEN
n := UTILS.Log2(a)
ELSIF a < -1 THEN
n := UTILS.Log2(-a)
ELSE
n := -1
END;
IF a = 1 THEN
ELSIF a = -1 THEN
neg(reg1)
ELSIF a = 0 THEN
xor(reg1, reg1)
ELSE
IF n > 0 THEN
IF a < 0 THEN
neg(reg1)
END;
shiftrc(shl, reg1, n)
ELSE
IF isLong(a) THEN
reg2 := GetAnyReg();
movabs(reg2, a);
ASSERT(reg1 # reg2);
oprr2(0FH, 0AFH, reg2, reg1); (* imul reg1, reg2 *)
drop
ELSE
(* imul reg1, a *)
Rex(reg1, reg1);
OutByte2(69H + short(a), 0C0H + (reg1 MOD 8) * 9);
OutIntByte(a)
END
END
END
END
|IL.opADDS:
BinOp(reg1, reg2);
_or(reg1, reg2);
drop
|IL.opSUBS:
BinOp(reg1, reg2);
not(reg2);
and(reg1, reg2);
drop
|IL.opNOP, IL.opAND, IL.opOR:
|IL.opSWITCH:
UnOp(reg1);
IF param2 = 0 THEN
reg2 := rax
ELSE
reg2 := r10
END;
IF reg1 # reg2 THEN
ASSERT(REG.GetReg(R, reg2));
ASSERT(REG.Exchange(R, reg1, reg2));
drop
END;
drop
|IL.opENDSW:
|IL.opCASEL:
GetRegA;
cmprc(rax, param1);
jcc(jl, param2);
drop
|IL.opCASER:
GetRegA;
cmprc(rax, param1);
jcc(jg, param2);
drop
|IL.opCASELR:
GetRegA;
cmprc(rax, param1);
jcc(jl, param2);
jcc(jg, cmd.param3);
drop
|IL.opASR, IL.opROR, IL.opLSL, IL.opLSR:
BinOp(reg1, reg2);
xchg(reg2, rcx);
Rex(reg1, 0);
OutByte(0D3H);
X86.shift(opcode, reg1 MOD 8); (* shift reg1, cl *)
xchg(reg2, rcx);
drop
|IL.opASR1, IL.opROR1, IL.opLSL1, IL.opLSR1:
reg1 := GetAnyReg();
movrc(reg1, param2);
BinOp(reg1, reg2);
xchg(reg1, rcx);
Rex(reg2, 0);
OutByte(0D3H);
X86.shift(opcode, reg2 MOD 8); (* shift reg2, cl *)
xchg(reg1, rcx);
drop;
drop;
ASSERT(REG.GetReg(R, reg2))
|IL.opASR2, IL.opROR2, IL.opLSL2, IL.opLSR2:
UnOp(reg1);
shiftrc(opcode, reg1, param2 MOD 64)
|IL.opGET, IL.opGETC:
IF opcode = IL.opGET THEN
BinOp(reg1, reg2)
ELSIF opcode = IL.opGETC THEN
UnOp(reg2);
reg1 := GetAnyReg();
movrc(reg1, param1)
END;
drop;
drop;
X86._movrm(reg1, reg1, 0, param2 * 8, FALSE);
X86._movrm(reg1, reg2, 0, param2 * 8, TRUE)
|IL.opCHKBYTE:
BinOp(reg1, reg2);
cmprc(reg1, 256);
jcc(jb, param1)
|IL.opCHKIDX:
UnOp(reg1);
cmprc(reg1, param2);
jcc(jb, param1)
|IL.opCHKIDX2:
BinOp(reg1, reg2);
IF param2 # -1 THEN
cmprr(reg2, reg1);
jcc(jb, param1);
END;
INCL(R.regs, reg1);
DEC(R.top);
R.stk[R.top] := reg2
|IL.opLENGTH:
PushAll(2);
CallRTL(IL._length);
GetRegA
|IL.opLENGTHW:
PushAll(2);
CallRTL(IL._lengthw);
GetRegA
|IL.opLEN:
n := param2;
UnOp(reg1);
drop;
EXCL(R.regs, reg1);
WHILE n > 0 DO
UnOp(reg2);
drop;
DEC(n)
END;
INCL(R.regs, reg1);
ASSERT(REG.GetReg(R, reg1))
|IL.opCHR:
UnOp(reg1);
andrc(reg1, 255)
|IL.opWCHR:
UnOp(reg1);
andrc(reg1, 65535)
|IL.opEQP, IL.opNEP, IL.opEQIP, IL.opNEIP:
UnOp(reg1);
reg2 := GetAnyReg();
CASE opcode OF
|IL.opEQP, IL.opNEP:
lea(reg2, param1, sCODE)
|IL.opEQIP, IL.opNEIP:
lea(reg2, param1, sIMP);
movrm(reg2, reg2, 0)
END;
cmprr(reg1, reg2);
drop;
drop;
reg1 := GetAnyReg();
CASE opcode OF
|IL.opEQP, IL.opEQIP: X86.setcc(sete, reg1)
|IL.opNEP, IL.opNEIP: X86.setcc(setne, reg1)
END;
andrc(reg1, 1)
|IL.opINCCB, IL.opDECCB:
UnOp(reg1);
IF reg1 >= 8 THEN
OutByte(41H)
END;
OutByte3(80H, 28H * ORD(opcode = IL.opDECCB) + reg1 MOD 8, param2 MOD 256); (* add/sub byte[reg1], param2 MOD 256 *)
drop
|IL.opINCB, IL.opDECB:
BinOp(reg1, reg2);
IF (reg1 >= 8) OR (reg2 >= 8) THEN
OutByte(40H + reg2 DIV 8 + 4 * (reg1 DIV 8))
END;
OutByte2(28H * ORD(opcode = IL.opDECB), reg2 MOD 8 + 8 * (reg1 MOD 8)); (* add/sub byte[reg2], reg1_8 *)
drop;
drop
|IL.opSAVEIP:
UnOp(reg1);
reg2 := GetAnyReg();
lea(reg2, param2, sIMP);
movrm(reg2, reg2, 0);
push(reg2);
drop;
IF reg1 >= 8 THEN
OutByte(41H)
END;
OutByte2(8FH, reg1 MOD 8); (* pop qword[reg1] *)
drop
|IL.opCLEANUP:
IF param2 # 0 THEN
addrc(rsp, param2 * 8)
END
|IL.opPOPSP:
pop(rsp)
|IL.opLOADF:
UnOp(reg1);
INC(xmm);
IF xmm > MAX_XMM THEN
ERRORS.ErrorMsg(fname, param1, param2, FPR_ERR)
END;
movsdrm(xmm, reg1, 0);
drop
|IL.opPUSHF:
ASSERT(xmm >= 0);
subrc(rsp, 8);
movsdmr(rsp, 0, xmm);
DEC(xmm)
|IL.opCONSTF:
float := cmd.float;
INC(xmm);
IF xmm > MAX_XMM THEN
ERRORS.ErrorMsg(fname, param1, param2, FPR_ERR)
END;
(* movsd xmm, qword ptr [rip + Numbers_Offs + Numbers_Count * 8 + DATA] *)
OutByte(0F2H);
IF xmm >= 8 THEN
OutByte(44H)
END;
OutByte3(0FH, 10H, 05H + 8 * (xmm MOD 8));
X86.Reloc(sDATA, Numbers_Offs + Numbers_Count * 8);
NewNumber(UTILS.splitf(float, a, b))
|IL.opSAVEF, IL.opSAVEFI:
ASSERT(xmm >= 0);
UnOp(reg1);
movsdmr(reg1, 0, xmm);
DEC(xmm);
drop
|IL.opADDF:
ASSERT(xmm >= 1);
opxx(58H, xmm - 1, xmm);
DEC(xmm)
|IL.opSUBF:
ASSERT(xmm >= 1);
opxx(5CH, xmm - 1, xmm);
DEC(xmm)
|IL.opSUBFI:
ASSERT(xmm >= 1);
opxx(5CH, xmm, xmm - 1);
opxx(10H, xmm - 1, xmm);
DEC(xmm)
|IL.opMULF:
ASSERT(xmm >= 1);
opxx(59H, xmm - 1, xmm);
DEC(xmm)
|IL.opDIVF:
ASSERT(xmm >= 1);
opxx(5EH, xmm - 1, xmm);
DEC(xmm)
|IL.opDIVFI:
ASSERT(xmm >= 1);
opxx(5EH, xmm, xmm - 1);
opxx(10H, xmm - 1, xmm);
DEC(xmm)
|IL.opFABS, IL.opUMINF: (* andpd/xorpd xmm, xmmword[rip + Numbers_Offs + (16) + DATA] *)
ASSERT(xmm >= 0);
OutByte(66H);
IF xmm >= 8 THEN
OutByte(44H)
END;
OutByte3(0FH, 54H + 3 * ORD(opcode = IL.opUMINF), 05H + (xmm MOD 8) * 8);
X86.Reloc(sDATA, Numbers_Offs + 16 * ORD(opcode = IL.opFABS))
|IL.opFLT:
UnOp(reg1);
INC(xmm);
IF xmm > MAX_XMM THEN
ERRORS.ErrorMsg(fname, param1, param2, FPR_ERR)
END;
OutByte(0F2H); Rex(reg1, xmm); OutByte(0FH); (* cvtsi2sd xmm, reg1 *)
OutByte2(2AH, 0C0H + (xmm MOD 8) * 8 + reg1 MOD 8);
drop
|IL.opFLOOR:
ASSERT(xmm >= 0);
reg1 := GetAnyReg();
subrc(rsp, 8);
OutByte3(00FH, 0AEH, 05CH); OutByte2(024H, 004H); (* stmxcsr dword[rsp+4]; *)
OutByte2(00FH, 0AEH); OutByte2(01CH, 024H); (* stmxcsr dword[rsp]; *)
OutByte3(081H, 024H, 024H); OutByte2(0FFH, 09FH); OutByte2(0FFH, 0FFH); (* and dword[rsp],11111111111111111001111111111111b; *)
OutByte3(081H, 00CH, 024H); OutByte2(000H, 020H); OutByte2(000H, 000H); (* or dword[rsp],00000000000000000010000000000000b; *)
OutByte2(00FH, 0AEH); OutByte2(014H, 024H); (* ldmxcsr dword[rsp]; *)
OutByte(0F2H); Rex(xmm, reg1); OutByte(0FH); (* cvtsd2si reg1, xmm *)
OutByte2(2DH, 0C0H + xmm MOD 8 + (reg1 MOD 8) * 8);
OutByte3(00FH, 0AEH, 054H); OutByte2(024H, 004H); (* ldmxcsr dword[rsp+4]; *)
addrc(rsp, 8);
DEC(xmm)
|IL.opEQF .. IL.opGEF:
ASSERT(xmm >= 1);
fcmp(opcode, xmm);
DEC(xmm, 2)
|IL.opINF:
INC(xmm);
IF xmm > MAX_XMM THEN
ERRORS.ErrorMsg(fname, param1, param2, FPR_ERR)
END;
(* movsd xmm, qword ptr [rip + Numbers_Offs + 32 + DATA] *)
OutByte(0F2H);
IF xmm >= 8 THEN
OutByte(44H)
END;
OutByte3(0FH, 10H, 05H + 8 * (xmm MOD 8));
X86.Reloc(sDATA, Numbers_Offs + 32)
|IL.opPACK, IL.opPACKC:
IF opcode = IL.opPACK THEN
BinOp(reg1, reg2)
ELSE
UnOp(reg1);
reg2 := GetAnyReg();
movrc(reg2, param2)
END;
push(reg1);
movrm(reg1, reg1, 0);
shiftrc(shl, reg1, 1);
shiftrc(shr, reg1, 53);
add(reg1, reg2);
andrc(reg1, ORD({0..10}));
shiftrc(shl, reg1, 52);
movrm(reg2, rsp, 0);
movrm(reg2, reg2, 0);
push(reg1);
lea(reg1, Numbers_Offs + 40, sDATA); (* {0..51, 63} *)
movrm(reg1, reg1, 0);
and(reg2, reg1);
pop(reg1);
_or(reg2, reg1);
pop(reg1);
movmr(reg1, 0, reg2);
drop;
drop
|IL.opUNPK, IL.opLADR_UNPK:
IF opcode = IL.opLADR_UNPK THEN
n := param2 * 8;
UnOp(reg1);
reg2 := GetVarReg(param2);
regVar := reg2 # -1;
IF ~regVar THEN
reg2 := GetAnyReg();
Rex(0, reg2);
OutByte2(8DH, 45H + long(n) + (reg2 MOD 8) * 8); (* lea reg2, qword[rbp+n] *)
OutIntByte(n)
END
ELSE
BinOp(reg1, reg2);
regVar := FALSE
END;
push(reg1);
movrm(reg1, reg1, 0);
shiftrc(shl, reg1, 1);
shiftrc(shr, reg1, 53);
subrc(reg1, 1023);
IF regVar THEN
mov(reg2, reg1);
reg2 := GetAnyReg()
ELSE
movmr(reg2, 0, reg1)
END;
pop(reg2);
movrm(reg1, reg2, 0);
push(reg2);
lea(reg2, Numbers_Offs + 48, sDATA); (* {52..61} *)
movrm(reg2, reg2, 0);
_or(reg1, reg2);
pop(reg2);
Rex(reg1, 0);
OutByte2(0FH, 0BAH);
OutByte2(0F0H + reg1 MOD 8, 3EH); (* btr reg1, 62 *)
movmr(reg2, 0, reg1);
drop;
drop
|IL.opSADR_PARAM:
pushDA(stroffs + param2)
|IL.opVADR_PARAM:
X86.pushm(rbp, param2 * 8)
|IL.opLOAD64_PARAM:
UnOp(reg1);
X86.pushm(reg1, 0);
drop
|IL.opLLOAD64_PARAM:
reg1 := GetVarReg(param2);
IF reg1 # -1 THEN
push(reg1)
ELSE
X86.pushm(rbp, param2 * 8)
END
|IL.opGLOAD64_PARAM:
OutByte2(0FFH, 35H); (* push qword[rip + param2 + BSS] *)
X86.Reloc(sBSS, param2)
|IL.opCONST_PARAM:
pushc(param2)
|IL.opGLOAD32_PARAM, IL.opLOAD32_PARAM:
IF opcode = IL.opGLOAD32_PARAM THEN
reg1 := GetAnyReg();
lea(reg1, param2, sBSS)
ELSE
UnOp(reg1)
END;
movrm32(reg1, reg1, 0);
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32);
push(reg1);
drop
|IL.opLLOAD32_PARAM:
reg1 := GetAnyReg();
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
mov(reg1, reg2)
ELSE
movrm32(reg1, rbp, param2 * 8)
END;
shiftrc(shl, reg1, 32);
shiftrc(shr, reg1, 32);
push(reg1);
drop
|IL.opLADR_SAVEC:
n := param1 * 8;
reg1 := GetVarReg(param1);
IF reg1 # -1 THEN
movrc(reg1, param2)
ELSE
IF isLong(param2) THEN
reg2 := GetAnyReg();
movrc(reg2, param2);
movmr(rbp, n, reg2);
drop
ELSE
OutByte3(48H, 0C7H, 45H + long(n)); (* mov qword[rbp+n], param2 *)
OutIntByte(n);
OutInt(param2)
END
END
|IL.opGADR_SAVEC:
IF isLong(param2) THEN
reg1 := GetAnyReg();
movrc(reg1, param2);
reg2 := GetAnyReg();
lea(reg2, param1, sBSS);
movmr(reg2, 0, reg1);
drop;
drop
ELSE
(* mov qword[rip + param1 - 4 + BSS], param2 *)
OutByte3(48H, 0C7H, 05H);
X86.Reloc(sBSS, param1 - 4);
OutInt(param2)
END
|IL.opLADR_SAVE:
UnOp(reg1);
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
mov(reg2, reg1)
ELSE
movmr(rbp, param2 * 8, reg1)
END;
drop
|IL.opLADR_INCC:
reg1 := GetVarReg(param1);
IF isLong(param2) THEN
reg2 := GetAnyReg();
movrc(reg2, param2);
IF reg1 # -1 THEN
add(reg1, reg2)
ELSE
n := param1 * 8;
Rex(0, reg2);
OutByte2(01H, 45H + long(n) + (reg2 MOD 8) * 8);
OutIntByte(n) (* add qword[rbp+n], reg2 *)
END;
drop
ELSIF ABS(param2) = 1 THEN
IF reg1 # -1 THEN
IF param2 = 1 THEN
incr(reg1)
ELSE
decr(reg1)
END
ELSE
n := param1 * 8;
OutByte3(48H, 0FFH, 45H + 8 * ORD(param2 = -1) + long(n)); (* inc/dec qword[rbp+n] *)
OutIntByte(n)
END
ELSE
IF reg1 # -1 THEN
addrc(reg1, param2)
ELSE
n := param1 * 8;
OutByte3(48H, 81H + short(param2), 45H + long(n));
OutIntByte(n);
OutIntByte(param2) (* add qword[rbp+n], param2 *)
END
END
|IL.opLADR_INCCB, IL.opLADR_DECCB:
reg1 := GetVarReg(param1);
param2 := param2 MOD 256;
IF reg1 # -1 THEN
IF opcode = IL.opLADR_DECCB THEN
subrc(reg1, param2)
ELSE
addrc(reg1, param2)
END;
andrc(reg1, 255)
ELSE
n := param1 * 8;
OutByte2(80H, 45H + long(n) + 28H * ORD(opcode = IL.opLADR_DECCB));
OutIntByte(n);
OutByte(param2) (* add/sub byte[rbp+n], param2 *)
END
|IL.opLADR_INC, IL.opLADR_DEC:
UnOp(reg1);
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
IF opcode = IL.opLADR_DEC THEN
sub(reg2, reg1)
ELSE
add(reg2, reg1)
END
ELSE
n := param2 * 8;
Rex(0, reg1);
OutByte2(01H + 28H * ORD(opcode = IL.opLADR_DEC), 45H + long(n) + (reg1 MOD 8) * 8);
OutIntByte(n) (* add/sub qword[rbp+n], reg1 *)
END;
drop
|IL.opLADR_INCB, IL.opLADR_DECB:
UnOp(reg1);
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
IF opcode = IL.opLADR_DECB THEN
sub(reg2, reg1)
ELSE
add(reg2, reg1)
END;
andrc(reg2, 255)
ELSE
n := param2 * 8;
IF reg1 >= 8 THEN
OutByte(44H)
END;
OutByte2(28H * ORD(opcode = IL.opLADR_DECB), 45H + long(n) + 8 * (reg1 MOD 8));
OutIntByte(n) (* add/sub byte[rbp+n], reg1_8 *)
END;
drop
|IL.opLADR_INCL, IL.opLADR_EXCL:
UnOp(reg1);
cmprc(reg1, 64);
reg2 := GetVarReg(param2);
IF reg2 # -1 THEN
OutByte2(73H, 4); (* jnb L *)
oprr2(0FH, 0ABH + 8 * ORD(opcode = IL.opLADR_EXCL), reg2, reg1) (* bts/btr reg2, reg1 *)
ELSE
n := param2 * 8;
OutByte2(73H, 5 + 3 * ORD(~X86.isByte(n))); (* jnb L *)
Rex(0, reg1);
OutByte3(0FH, 0ABH + 8 * ORD(opcode = IL.opLADR_EXCL), 45H + long(n) + 8 * (reg1 MOD 8));
OutIntByte(n) (* bts/btr qword[rbp+n], reg1 *)
END;
(* L: *)
drop
|IL.opLADR_INCLC, IL.opLADR_EXCLC:
reg1 := GetVarReg(param1);
IF reg1 # -1 THEN
Rex(reg1, 0);
OutByte3(0FH, 0BAH, 0E8H); (* bts/btr reg1, param2 *)
OutByte2(reg1 MOD 8 + 8 * ORD(opcode = IL.opLADR_EXCLC), param2)
ELSE
n := param1 * 8;
OutByte3(48H, 0FH, 0BAH); (* bts/btr qword[rbp+n], param2 *)
OutByte(6DH + long(n) + 8 * ORD(opcode = IL.opLADR_EXCLC));
OutIntByte(n);
OutByte(param2)
END
|IL.opFNAME:
fname := cmd(IL.FNAMECMD).fname
|IL.opLOOP, IL.opENDLOOP:
END;
cmd := cmd.next(COMMAND)
END;
ASSERT(R.pushed = 0);
ASSERT(R.top = -1);
ASSERT(xmm = -1)
END translate;
PROCEDURE prolog (modname: ARRAY OF CHAR; target, stack_size: INTEGER);
VAR
ModName_Offs, entry, L: INTEGER;
BEGIN
ModName_Offs := tcount * 8 + CHL.Length(IL.codes.data);
Numbers_Offs := ModName_Offs + LENGTH(modname) + 1;
ASSERT(UTILS.Align(Numbers_Offs, 16));
entry := NewLabel();
X86.SetLabel(entry);
IF target = TARGETS.Win64DLL THEN
dllret := NewLabel();
push(r8);
push(rdx);
push(rcx);
CallRTL(IL._dllentry);
test(rax);
jcc(je, dllret);
pushc(0)
ELSIF target = TARGETS.Linux64 THEN
push(rsp)
ELSE
pushc(0)
END;
lea(rax, entry, sCODE);
push(rax);
pushDA(0); (* TYPES *)
pushc(tcount);
pushDA(ModName_Offs); (* MODNAME *)
CallRTL(IL._init);
IF target IN {TARGETS.Win64C, TARGETS.Win64GUI, TARGETS.Linux64} THEN
L := NewLabel();
pushc(0);
push(rsp);
pushc(1024 * 1024 * stack_size);
pushc(0);
CallRTL(IL._new);
pop(rax);
test(rax);
jcc(je, L);
GetRegA;
addrc(rax, 1024 * 1024 * stack_size - 8);
drop;
mov(rsp, rax);
X86.SetLabel(L)
END
END prolog;
PROCEDURE epilog (modname: ARRAY OF CHAR; target: INTEGER);
VAR
i, n: INTEGER;
number: Number;
exp: IL.EXPORT_PROC;
PROCEDURE _import (imp: LISTS.LIST);
VAR
lib: IL.IMPORT_LIB;
proc: IL.IMPORT_PROC;
BEGIN
lib := imp.first(IL.IMPORT_LIB);
WHILE lib # NIL DO
BIN.Import(prog, lib.name, 0);
proc := lib.procs.first(IL.IMPORT_PROC);
WHILE proc # NIL DO
BIN.Import(prog, proc.name, proc.label);
proc := proc.next(IL.IMPORT_PROC)
END;
lib := lib.next(IL.IMPORT_LIB)
END
END _import;
BEGIN
IF target = TARGETS.Win64DLL THEN
X86.SetLabel(dllret);
X86.ret
ELSIF target = TARGETS.Linux64SO THEN
sofinit := NewLabel();
X86.ret;
X86.SetLabel(sofinit);
CallRTL(IL._sofinit);
X86.ret
ELSE
pushc(0);
CallRTL(IL._exit)
END;
X86.fixup;
i := 0;
WHILE i < tcount DO
BIN.PutData64LE(prog, CHL.GetInt(IL.codes.types, i));
INC(i)
END;
i := 0;
WHILE i < CHL.Length(IL.codes.data) DO
BIN.PutData(prog, CHL.GetByte(IL.codes.data, i));
INC(i)
END;
BIN.PutDataStr(prog, modname);
BIN.PutData(prog, 0);
n := CHL.Length(prog.data);
ASSERT(UTILS.Align(n, 16));
i := n - CHL.Length(prog.data);
WHILE i > 0 DO
BIN.PutData(prog, 0);
DEC(i)
END;
number := Numbers.first(Number);
FOR i := 0 TO Numbers_Count - 1 DO
BIN.PutData64LE(prog, number.value);
number := number.next(Number)
END;
exp := IL.codes.export.first(IL.EXPORT_PROC);
WHILE exp # NIL DO
BIN.Export(prog, exp.name, exp.label);
exp := exp.next(IL.EXPORT_PROC)
END;
_import(IL.codes._import)
END epilog;
PROCEDURE rload (reg, offs, size: INTEGER);
BEGIN
offs := offs * 8;
CASE size OF
|1: movzx(reg, rbp, offs, FALSE)
|2: movzx(reg, rbp, offs, TRUE)
|4: xor(reg, reg); movrm32(reg, rbp, offs)
|8: movrm(reg, rbp, offs)
END
END rload;
PROCEDURE rsave (reg, offs, size: INTEGER);
BEGIN
offs := offs * 8;
CASE size OF
|1: X86.movmr8(rbp, offs, reg)
|2: X86.movmr16(rbp, offs, reg)
|4: movmr32(rbp, offs, reg)
|8: movmr(rbp, offs, reg)
END
END rsave;
PROCEDURE CodeGen* (outname: ARRAY OF CHAR; target: INTEGER; options: PROG.OPTIONS);
VAR
path, modname, ext: PATHS.PATH;
BEGIN
Xmm[0] := 0;
tcount := CHL.Length(IL.codes.types);
Win64RegPar[0] := rcx;
Win64RegPar[1] := rdx;
Win64RegPar[2] := r8;
Win64RegPar[3] := r9;
SystemVRegPar[0] := rdi;
SystemVRegPar[1] := rsi;
SystemVRegPar[2] := rdx;
SystemVRegPar[3] := rcx;
SystemVRegPar[4] := r8;
SystemVRegPar[5] := r9;
PATHS.split(outname, path, modname, ext);
S.append(modname, ext);
REG.Init(R, push, pop, mov, xchg, rload, rsave, {rax, r10, r11}, {rcx, rdx, r8, r9});
IL.set_bss(MAX(IL.codes.bss, MAX(IL.codes.dmin - CHL.Length(IL.codes.data), 8)));
Numbers := LISTS.create(NIL);
Numbers_Count := 0;
NewNumber(ROR(1, 1)); (* 8000000000000000H *)
NewNumber(0);
NewNumber(ROR(-2, 1)); (* 7FFFFFFFFFFFFFFFH *)
NewNumber(-1);
NewNumber(ROR(7FFH, 12)); (* +Infinity *)
NewNumber(ORD(-BITS(LSR(ASR(ROR(1, 1), 10), 1)))); (* {0..51, 63} *)
NewNumber(LSR(ASR(ROR(1, 1), 9), 2)); (* {52..61} *)
prog := BIN.create(IL.codes.lcount);
BIN.SetParams(prog, IL.codes.bss, 1, WCHR(1), WCHR(0));
X86.SetProgram(prog);
prolog(modname, target, options.stack);
translate(IL.codes.commands, tcount * 8);
epilog(modname, target);
BIN.fixup(prog);
IF TARGETS.OS = TARGETS.osWIN64 THEN
PE32.write(prog, outname, target = TARGETS.Win64C, target = TARGETS.Win64DLL, TRUE)
ELSIF TARGETS.OS = TARGETS.osLINUX64 THEN
ELF.write(prog, outname, sofinit, target = TARGETS.Linux64SO, TRUE)
END
END CodeGen;
END AMD64.