X-Git-Url: http://git.joshuawise.com/snipe.git/blobdiff_plain/1144856ba9d6018d9922c6ede7e97779a0fe6373..2ab9671fde5297fc59583361f152e812e66c2d17:/codegen/solidify.sml?ds=inline diff --git a/codegen/solidify.sml b/codegen/solidify.sml index 21b37bc..a2622e1 100644 --- a/codegen/solidify.sml +++ b/codegen/solidify.sml @@ -8,54 +8,58 @@ signature SOLIDIFY = sig type colorings = (Temp.temp * int) list - type asm = x86.insn list + type asm = Blarg.insn list val solidify : colorings -> asm -> asm end structure Solidify :> SOLIDIFY = struct - structure X = x86 + structure X = Blarg structure T = Temp type colorings = (Temp.temp * int) list - type asm = x86.insn list + type asm = Blarg.insn list exception Spilled - + + structure TempMap = SplayMapFn(struct + type ord_key = Temp.temp + val compare = Temp.compare + end) + structure Tm = Temp + fun solidify (regmap : colorings) (instrs : asm) : asm = let - (* r14d and r15d is reserved for spilling *) - val maxreg = X.regtonum X.R13D + (* r11 and r12 is reserved for spilling *) + val maxreg = X.regtonum X.R10 fun numtoreg n = if (n > maxreg) then raise Spilled else X.numtoreg n - fun temptonum (t: T.temp) : int = - (List.hd - (List.map (fn (_, n) => n) - (List.filter (fn (a, _) => (Temp.eq (a, t))) regmap))) - - fun temptoreg (t: T.temp) : x86.reg = + val tempnums = List.foldr (fn ((t,n),b) => TempMap.insert(b,t,n)) (TempMap.empty) regmap + fun temptonum (t: T.temp) : int = valOf (TempMap.find (tempnums, t)) + + fun temptoreg (t: T.temp) : Blarg.reg = numtoreg (temptonum t) - handle Empty => raise ErrorMsg.InternalError ("Uncolored temp "^(Temp.name t)^", agh!") + handle Option => raise ErrorMsg.InternalError ("Uncolored temp "^(Temp.name t)^", agh!") - val spillreg1 = X.R15D - val spillreg2 = X.R14D + val spillreg1 = X.R12 + val spillreg2 = X.R11 (* Determine which need to be saved. *) - val opsused = (map (fn (_, n) => X.REG (numtoreg n handle Spilled => X.R15D)) regmap) @ [X.REG X.R14D] + val opsused = (map (fn (_, n) => X.REG (numtoreg n handle Spilled => X.R12)) regmap) @ [X.REG X.R11] val saveregs = X.OperSet.intersection ( X.OperSet.addList (X.OperSet.empty, opsused), X.OperSet.addList ( X.OperSet.empty, - [X.REG X.EBX, - X.REG X.EBP, - X.REG X.R12D, - X.REG X.R13D, - X.REG X.R14D, - X.REG X.R15D])) + [X.REG X.R7, + X.REG X.R8, + X.REG X.R9, + X.REG X.R10, + X.REG X.R11, + X.REG X.R12])) val savelist = X.OperSet.listItems saveregs val nsave = length savelist @@ -63,183 +67,166 @@ struct val nspilled = Int.max (numreg - maxreg, 0) (* Number of spilled registers. *) fun isspilled (X.TEMP temp) = (temptonum temp) > maxreg (* Whether a register is spilled *) | isspilled (X.STACKARG _) = true - | isspilled (X.REL _) = true - | isspilled (X.OSIZE (_, oo)) = isspilled oo | isspilled _ = false - val stacksz = (nspilled + nsave) * 8 - fun stackpos (reg: int) = stacksz - (reg - maxreg + nsave) * 8 (* Stack position of some register number *) + + val stacksz = (nspilled + nsave) * 1 + fun stackpos (reg: int) = stacksz - (reg - maxreg + nsave) * 1 (* Stack position of some register number *) val prologue = - (X.SUB (X.OSIZE (X.Qword, X.REG X.RSP), X.CONST (Word32.fromInt stacksz))) :: - (ListPair.map - (fn (num, reg) => - X.MOV (X.OSIZE (X.Qword, X.REL (X.REG X.RSP, X.CONST (Word32.fromInt (stacksz - 8*(num+1))))), X.OSIZE (X.Qword, reg))) - (List.tabulate (nsave, fn x => x), savelist)) + [X.INSN (X.AL, X.MOVLIT (X.REG X.R4, Word.fromInt stacksz)), + X.INSN (X.AL, X.SUB (X.REG X.SP, X.REG X.R4))] @ + (List.concat + (ListPair.map + (fn (num, reg) => + [X.INSN (X.AL, X.MOVLIT (X.REG X.R4, Word.fromInt (stacksz - 1*(num+1)))), + X.INSN (X.AL, X.ADD (X.REG X.R4, X.REG X.SP)), + X.INSN (X.AL, X.STO (X.REG X.R4, reg))]) + (List.tabulate (nsave, fn x => x), savelist) + ) + ) val epilogue = - (ListPair.map - (fn (num, reg) => - X.MOV (X.OSIZE (X.Qword, reg), X.REL (X.REG X.RSP, X.CONST (Word32.fromInt (stacksz - 8*(num+1)))))) - (List.tabulate (nsave, fn x => x), savelist)) @ - [X.ADD (X.OSIZE (X.Qword, X.REG X.RSP), X.CONST (Word32.fromInt stacksz))] + (List.concat + (ListPair.map + (fn (num, reg) => + [X.INSN (X.AL, X.MOVLIT (X.REG X.R4, Word.fromInt (stacksz - 1*(num+1)))), + X.INSN (X.AL, X.ADD (X.REG X.R4, X.REG X.SP)), + X.INSN (X.AL, X.LDR (reg, X.REG X.R4))]) + (List.tabulate (nsave, fn x => x), savelist) + ) + ) @ + [X.INSN (X.AL, X.MOVLIT (X.REG X.R4, Word.fromInt stacksz)), + X.INSN (X.AL, X.ADD (X.REG X.SP, X.REG X.R4))] val endlbl = Label.new() - fun spill s (X.TEMP temp, xreg: x86.reg) = (* Spill a register if need be. *) - if (isspilled (X.TEMP temp)) - then [X.MOV (X.OSIZE(s, X.REL (X.REG X.RSP, (X.CONST o Word32.fromInt o stackpos o temptonum) temp)), X.REG xreg)] - else nil - | spill s (X.STACKARG _, _) = raise ErrorMsg.InternalError "Cannot spill to a stack arg" - | spill s (a as X.REL _, xreg) = [X.MOV (X.OSIZE(s,a), X.REG xreg)] - | spill s (X.OSIZE (s', oo), xreg) = spill s' (X.stripsize oo, xreg) - | spill _ _ = nil (* Nothing else can be spilled. *) - fun unspill s (X.TEMP temp, xreg: x86.reg) = (* Unspill a register if need be. *) - if (isspilled (X.TEMP temp)) - then [X.MOV (X.OSIZE(s, X.REG xreg), X.REL (X.REG X.RSP, (X.CONST o Word32.fromInt o stackpos o temptonum) temp))] - else nil - | unspill s (X.STACKARG arg, xreg) = [X.MOV (X.OSIZE(s, X.REG xreg), X.REL (X.REG X.RSP, X.CONST (Word32.fromInt (stacksz + 8 + (arg * 8)))))] - | unspill s (a as X.REL _, xreg) = [X.MOV (X.OSIZE(s, X.REG xreg), a)] - | unspill s (X.OSIZE (s', oo), xreg) = unspill s' (X.stripsize oo, xreg) - | unspill _ _ = nil - - fun realoper (X.TEMP temp) = X.OSIZE (X.sts (Temp.size temp), X.REG (temptoreg temp)) (* Makes a operand 'real'. *) - | realoper (X.STACKARG arg) = raise Spilled - | realoper (X.REL _) = raise Spilled - | realoper (X.OSIZE (s, oo)) = X.OSIZE (s, realoper (X.stripsize oo)) - | realoper r = r - - fun stackoper (X.TEMP temp) = - if not (isspilled (X.TEMP temp)) then raise ErrorMsg.InternalError "stackoper on unspilled temp?" - else X.OSIZE (X.sts (Temp.size temp), X.REL (X.REG X.RSP, (X.CONST o Word32.fromInt o stackpos o temptonum) temp)) - | stackoper (X.STACKARG arg) = X.REL (X.REG X.RSP, (X.CONST o Word32.fromInt) (stacksz + 8 + (arg * 8))) - | stackoper (a as X.REL _) = a - | stackoper (X.OSIZE (s, oo)) = X.OSIZE (s, stackoper (X.stripsize oo)) - | stackoper _ = raise ErrorMsg.InternalError "stackoper on not temp?" - - fun ophit (X.OSIZE (s, oo)) = let val (insns, p) = ophit (X.stripsize oo) in (insns, X.OSIZE (s, p)) end - | ophit (X.REL(op1, op2)) = - let - val t1 = X.stripsize op1 - val (s, t2) = X.sizeoper op2 - in - if (isspilled t1 andalso isspilled t2) then - ([X.MOV (X.OSIZE (s, X.REG spillreg1), stackoper t2), - X.ADD (X.OSIZE (X.Qword, X.REG spillreg1), stackoper t1)], - X.REL (X.REG spillreg1, X.CONST 0w0)) - else if(isspilled t1) then - ([X.MOV (X.OSIZE (X.Qword, X.REG spillreg1), stackoper t1)], - X.REL (X.REG spillreg1, realoper t2)) - else if(isspilled t2) then - ([X.MOV (X.OSIZE (s, X.REG spillreg1), stackoper t2)], - X.REL (realoper t1, X.REG spillreg1)) - else - ([], - X.REL (realoper t1, realoper t2)) - end - | ophit a = (nil, realoper a handle Spilled => stackoper a) - - fun transform (X.DIRECTIVE s) = [X.DIRECTIVE s] - | transform (X.COMMENT s) = [X.COMMENT s] - | transform (X.LIVEIGN a) = transform a - | transform (X.MOV (dest, src)) = + fun spill (X.TEMP temp, xreg: Blarg.reg) = (* Spill a register if need be. *) let - val (insns1, realop1) = ophit dest - val (insns2, realop2) = ophit src + val base = X.REG X.SP + val offs = Word.fromInt (stackpos (temptonum temp)) in - if(isspilled dest andalso isspilled src) then - insns2 @ [X.MOV (X.REG spillreg2, realop2)] @ insns1 @ [X.MOV (realop1, X.REG spillreg2)] - else - insns1 @ insns2 @ [X.MOV (realop1, realop2)] + if (isspilled (X.TEMP temp)) + then raise ErrorMsg.InternalError "unspill not supported" (*[X.MOV ((X.REL (base, offs, 0w1), Tm.Quad), (X.REG xreg, Tm.Quad))]*) + else nil end - | transform (X.LEA (dest, src)) = + | spill (X.STACKARG _, _) = raise ErrorMsg.InternalError "Cannot spill to a stack arg" + | spill _ = nil (* Nothing else can be spilled. *) + fun unspill (X.TEMP temp, xreg: Blarg.reg) = (* Unspill a register if need be. *) let - val (insns1, realop1) = ophit dest - val (insns2, realop2) = ophit src + val base = X.REG X.SP + val offs = Word.fromInt (stackpos (temptonum temp)) in - if(isspilled dest andalso isspilled src) then - insns2 @ [X.MOV (X.REG spillreg2, realop2)] @ insns1 @ [X.LEA (realop1, X.REG spillreg2)] - else - insns1 @ insns2 @ [X.LEA (realop1, realop2)] + if (isspilled (X.TEMP temp)) + then raise ErrorMsg.InternalError "unspill not supported" (*[X.MOV ((X.REG xreg, Tm.Quad), (X.REL (base, offs, 0w1), Tm.Quad))]*) + else nil end - | transform (X.SUB (dest, src)) = + | unspill (X.STACKARG arg, xreg) = let - val (insns, realop) = ophit dest + val base = X.REG X.SP + val offs = Word.fromInt (stacksz + 8 + (arg * 8)) in - unspill X.Long (src, spillreg2) @ insns @ - [ X.SUB(realop, - realoper src handle Spilled => X.REG spillreg2)] + (*[X.MOV ((X.REG xreg, s), (X.REL (base, offs, 0w1), s))]*) + raise ErrorMsg.InternalError "unspill from stack not supported" end - | transform (X.IMUL (dest, src)) = - unspill X.Long (dest, spillreg1) @ - [ X.IMUL( - realoper dest handle Spilled => X.REG spillreg1, - realoper src handle Spilled => stackoper src)] @ - spill X.Long (dest, spillreg1) - | transform (X.IMUL3 (dest, src, const)) = - unspill X.Long ((X.stripsize src), spillreg2) @ - [ X.IMUL3( - realoper dest handle Spilled => X.REG spillreg1, - realoper src handle Spilled => X.REG spillreg2, - const)] @ - spill X.Long (dest, spillreg1) - | transform (X.ADD (dest, src)) = - let - val (insns, realop) = ophit dest - in - unspill X.Long (src, spillreg2) @ insns @ - [ X.ADD(realop, - realoper src handle Spilled => X.REG spillreg2)] - end - | transform (X.IDIV (src)) = [ X.IDIV(realoper src handle Spilled => stackoper src)] - | transform (X.NEG (src)) = [ X.NEG(realoper src handle Spilled => stackoper src)] - | transform (X.NOT (src)) = [ X.NOT(realoper src handle Spilled => stackoper src)] - | transform (X.SAL (dest, shft)) = - [ X.SAL ( - realoper dest handle Spilled => stackoper dest, - shft)] - | transform (X.SAR (dest, shft)) = - [ X.SAR ( - realoper dest handle Spilled => stackoper dest, - shft)] - | transform (X.CLTD) = [ X.CLTD ] - | transform (X.AND (dest, src)) = - unspill X.Long (src, spillreg1) @ - [ X.AND( - realoper dest handle Spilled => stackoper dest, - realoper src handle Spilled => X.REG spillreg1)] - | transform (X.OR (dest, src)) = - unspill X.Long (src, spillreg1) @ - [ X.OR( - realoper dest handle Spilled => stackoper dest, - realoper src handle Spilled => X.REG spillreg1)] - | transform (X.XOR (dest, src)) = - unspill X.Long (src, spillreg1) @ - [ X.XOR( - realoper dest handle Spilled => stackoper dest, - realoper src handle Spilled => X.REG spillreg1)] - | transform (X.CMP (op1, op2)) = - unspill X.Long (op2, spillreg1) @ - [ X.CMP( - realoper op1 handle Spilled => stackoper op1, - realoper op2 handle Spilled => X.REG spillreg1)] - | transform (X.TEST (op1, op2)) = - unspill X.Long (op2, spillreg1) @ - [ X.TEST( - realoper op1 handle Spilled => stackoper op1, - realoper op2 handle Spilled => X.REG spillreg1)] - | transform (X.SETcc (c,src)) = [ X.SETcc(c, realoper src handle Spilled => stackoper src)] - | transform (X.CALL l) = [ X.CALL l ] - | transform (X.MOVZB (dest, src)) = - [ X.MOVZB( - realoper dest handle Spilled => X.REG spillreg1, - realoper src handle Spilled => stackoper src)] - @ spill X.Long (dest, spillreg1) - | transform (X.RET) = if nsave < 2 then (epilogue @ [X.RET]) else [X.JMP endlbl] - | transform (X.LABEL l) = [ X.LABEL l ] - | transform (X.JMP l) = [ X.JMP l ] - | transform (X.Jcc (c,l)) = [X.Jcc (c,l)] + | unspill _ = nil + + fun unspill_ops (op1, op2) = + case (isspilled op1, isspilled op2) + of (false, false) => [] + | (true, false) => unspill (op1, spillreg1) + | (false, true) => unspill (op2, spillreg2) + | (true, true) => unspill (op1, spillreg1) @ unspill (op2, spillreg2) + + fun respill_ops (op1, op2) = + case (isspilled op1, isspilled op2) (* no instruction writes back to op2 *) + of (false, _) => [] + | (true, _) => spill (op1, spillreg1) + + fun real_op1 op1 = + case op1 + of (X.TEMP temp) => if isspilled op1 + then (X.REG spillreg1) + else X.REG (temptoreg temp) + | (X.STACKARG arg) => X.REG spillreg1 + | r => r + + fun real_ops (op1, op2) = + (case op1 + of (X.TEMP temp) => if isspilled op1 + then (X.REG spillreg1) + else X.REG (temptoreg temp) + | (X.STACKARG arg) => X.REG spillreg1 + | r => r, + case op2 + of (X.TEMP temp) => if isspilled op2 + then (X.REG spillreg2) + else X.REG (temptoreg temp) + | (X.STACKARG arg) => X.REG spillreg2 + | r => r) + + fun whack_insn (pred, insn, op1, op2) = + (map (fn i => X.INSN (pred, i)) (unspill_ops (op1, op2))) @ + [ X.INSN (pred, insn (real_ops (op1, op2))) ] @ + (map (fn i => X.INSN (pred, i)) (respill_ops (op1, op2))) + + fun transform (X.DIRECTIVE s) = [X.DIRECTIVE s] + | transform (X.COMMENT s) = [X.COMMENT s] + | transform (X.LABEL l) = [X.LABEL l] + | transform (X.LIVEIGN a) = transform a + + (* god the special cases are going to suck *) + | transform (X.INSN (pred, X.MOVLIT (op1, w))) = + [ X.INSN (pred, X.MOVLIT (real_op1 op1, w)) ] @ + (if isspilled op1 + then spill (op1, spillreg1) + else []) + | transform (X.INSN (pred, X.MOVSYM (op1, w))) = + [ X.INSN (pred, X.MOVSYM (real_op1 op1, w)) ] @ + (if isspilled op1 + then spill (op1, spillreg1) + else []) + | transform (X.INSN (pred, X.MOVLBL (op1, w))) = + [ X.INSN (pred, X.MOVLBL (real_op1 op1, w)) ] @ + (if isspilled op1 + then spill (op1, spillreg1) + else []) + + (* and here comes the boilerplate *) + | transform (X.INSN (pred, X.LDR (op1, op2))) = whack_insn (pred, X.LDR, op1, op2) + | transform (X.INSN (pred, X.STO (op1, op2))) = whack_insn (pred, X.STO, op1, op2) + | transform (X.INSN (pred, X.MOV (op1, op2))) = whack_insn (pred, X.MOV, op1, op2) + | transform (X.INSN (pred, X.MOVS (op1, op2))) = whack_insn (pred, X.MOVS, op1, op2) + | transform (X.INSN (pred, X.ADD (op1, op2))) = whack_insn (pred, X.ADD, op1, op2) + | transform (X.INSN (pred, X.ADDS (op1, op2))) = whack_insn (pred, X.ADDS, op1, op2) + | transform (X.INSN (pred, X.SUB (op1, op2))) = whack_insn (pred, X.SUB, op1, op2) + | transform (X.INSN (pred, X.SUBS (op1, op2))) = whack_insn (pred, X.SUBS, op1, op2) + | transform (X.INSN (pred, X.AND (op1, op2))) = whack_insn (pred, X.AND, op1, op2) + | transform (X.INSN (pred, X.ANDS (op1, op2))) = whack_insn (pred, X.ANDS, op1, op2) + | transform (X.INSN (pred, X.NOT (op1, op2))) = whack_insn (pred, X.NOT, op1, op2) + | transform (X.INSN (pred, X.NOTS (op1, op2))) = whack_insn (pred, X.NOTS, op1, op2) + | transform (X.INSN (pred, X.PUSH (op1, op2))) = if isspilled op2 + then raise ErrorMsg.InternalError "PUSH on spilled op2 is not possible" + else [ X.INSN (pred, X.PUSH (real_ops (op1, op2))) ] + | transform (X.INSN (pred, X.POP (X.REG X.SP, X.REG X.PC))) = [ X.INSN (pred, X.MOVLBL (X.REG X.PC, endlbl)) ] (* optimize epilogue? *) + | transform (X.INSN (pred, X.POP (op1, op2))) = if isspilled op2 + then raise ErrorMsg.InternalError "POP on spilled op2 is not possible" + else [ X.INSN (pred, X.POP (real_ops (op1, op2))) ] + | transform (X.INSN (pred, X.CALL (op1, op2, i))) = if isspilled op2 + then raise ErrorMsg.InternalError "CALL on spilled op2 is not possible" + else [ X.INSN (pred, X.CALL ((fn (x, y) => (x, y, i)) (real_ops (op1, op2)))) ] + | transform (X.INSN (pred, X.SHR (op1, op2))) = whack_insn (pred, X.SHR, op1, op2) + | transform (X.INSN (pred, X.SHL (op1, op2))) = whack_insn (pred, X.SHL, op1, op2) + (*| transform _ = raise ErrorMsg.InternalError "unimplemented"*) in - if (nsave < 2) then + (*if (nsave < 2) then List.concat (prologue :: (map transform instrs)) else - List.concat (prologue :: ((map transform instrs) @ [[X.LABEL endlbl], epilogue, [X.RET]])) + *) + List.concat (prologue :: + ((map transform instrs) @ + [[X.LABEL endlbl], + epilogue, + [X.INSN (X.AL, X.POP (X.REG X.SP, X.REG X.PC))] + ] + ) + ) end end