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View of /sml/trunk/src/MLRISC/sparc/emit/sparcAsm.sml

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Revision 1003 - (download) (annotate)
Fri Dec 7 02:45:32 2001 UTC (18 years, 1 month ago) by george
File size: 20054 byte(s)
Changed the representation of instructions from being fully abstract
to being partially concrete. That is to say:

  from
	type instruction

  to
	type instr				(* machine instruction *)

	datatype instruction =
	    LIVE of {regs: C.cellset, spilled: C.cellset}
          | KILL of {regs: C.cellset, spilled: C.cellset}
          | COPYXXX of {k: CB.cellkind, dst: CB.cell list, src: CB.cell list}
          | ANNOTATION of {i: instruction, a: Annotations.annotation}
          | INSTR of instr

This makes the handling of certain special instructions that appear on
all architectures easier and uniform.

LIVE and KILL say that a list of registers are live or killed at the
program point where they appear. No spill code is generated when an
element of the 'regs' field is spilled, but the register is moved to
the 'spilled' (which is present, more for debugging than anything else).

LIVE replaces the (now deprecated) DEFFREG instruction on the alpha.
We used to generate:

	DEFFREG f1
	f1 := f2 + f3
        trapb

but now generate:

	f1 := f2 + f3
	trapb
	LIVE {regs=[f1,f2,f3], spilled=[]}

Furthermore, the DEFFREG (hack) required that all floating point instruction
use all registers mentioned in the instruction. Therefore f1 := f2 + f3,
defines f1 and uses [f1,f2,f3]! This hack is no longer required resulting
in a cleaner alpha implementation. (Hopefully, intel will not get rid of
this architecture).

COPYXXX is intended to replace the parallel COPY and FCOPY  available on
all the architectures. This will result in further simplification of the
register allocator that must be aware of them for coalescing purposes, and
will also simplify certain aspects of the machine description that provides
callbacks related to parallel copies.

ANNOTATION should be obvious, and now INSTR represents the honest to God
machine instruction set!

The <arch>/instructions/<arch>Instr.sml files define certain utility
functions for making porting easier -- essentially converting upper case
to lower case. All machine instructions (of type instr) are in upper case,
and the lower case form generates an MLRISC instruction. For example on
the alpha we have:

  datatype instr =
     LDA of {r:cell, b:cell, d:operand}
   | ...

  val lda : {r:cell, b:cell, d:operand} -> instruction
    ...

where lda is just (INSTR o LDA), etc.
(*
 * WARNING: This file was automatically generated by MDLGen (v3.0)
 * from the machine description file "sparc/sparc.mdl".
 * DO NOT EDIT this file directly
 *)


functor SparcAsmEmitter(structure S : INSTRUCTION_STREAM
                        structure Instr : SPARCINSTR
                           where T = S.P.T
                        structure Shuffle : SPARCSHUFFLE
                           where I = Instr
                        structure MLTreeEval : MLTREE_EVAL
                           where T = Instr.T

(*#line 466.21 "sparc/sparc.mdl"*)
                        val V9 : bool
                       ) : INSTRUCTION_EMITTER =
struct
   structure I  = Instr
   structure C  = I.C
   structure T  = I.T
   structure S  = S
   structure P  = S.P
   structure Constant = I.Constant
   
   val show_cellset = MLRiscControl.getFlag "asm-show-cellset"
   val show_region  = MLRiscControl.getFlag "asm-show-region"
   val show_cutsTo = MLRiscControl.getFlag "asm-show-cutsto"
   val indent_copies = MLRiscControl.getFlag "asm-indent-copies"
   
   fun error msg = MLRiscErrorMsg.error("SparcAsmEmitter",msg)
   
   fun makeStream formatAnnotations =
   let val stream = !AsmStream.asmOutStream
       fun emit' s = TextIO.output(stream,s)
       val newline = ref true
       val tabs = ref 0
       fun tabbing 0 = ()
         | tabbing n = (emit' "\t"; tabbing(n-1))
       fun emit s = (tabbing(!tabs); tabs := 0; newline := false; emit' s)
       fun nl() = (tabs := 0; if !newline then () else (newline := true; emit' "\n"))
       fun comma() = emit ","
       fun tab() = tabs := 1
       fun indent() = tabs := 2
       fun ms n = let val s = Int.toString n
                  in  if n<0 then "-"^String.substring(s,1,size s-1)
                      else s
                  end
       fun emit_label lab = emit(P.Client.AsmPseudoOps.lexpToString(T.LABEL lab))
       fun emit_labexp le = emit(P.Client.AsmPseudoOps.lexpToString (T.LABEXP le))
       fun emit_const c = emit(Constant.toString c)
       fun emit_int i = emit(ms i)
       fun paren f = (emit "("; f(); emit ")")
       fun defineLabel lab = emit(P.Client.AsmPseudoOps.defineLabel lab^":\n")
       fun entryLabel lab = defineLabel lab
       fun comment msg = (tab(); emit("/* " ^ msg ^ " */\n"))
       fun annotation a = (comment(Annotations.toString a); nl())
       fun getAnnotations() = error "getAnnotations"
       fun doNothing _ = ()
       fun fail _ = raise Fail "AsmEmitter"
       fun emit_region mem = comment(I.Region.toString mem)
       val emit_region = 
          if !show_region then emit_region else doNothing
       fun pseudoOp pOp = (emit(P.toString pOp); emit "\n")
       fun init size = (comment("Code Size = " ^ ms size); nl())
       val emitCellInfo = AsmFormatUtil.reginfo
                                (emit,formatAnnotations)
       fun emitCell r = (emit(CellsBasis.toString r); emitCellInfo r)
       fun emit_cellset(title,cellset) =
         (nl(); comment(title^CellsBasis.CellSet.toString cellset))
       val emit_cellset = 
         if !show_cellset then emit_cellset else doNothing
       fun emit_defs cellset = emit_cellset("defs: ",cellset)
       fun emit_uses cellset = emit_cellset("uses: ",cellset)
       val emit_cutsTo = 
         if !show_cutsTo then AsmFormatUtil.emit_cutsTo emit
         else doNothing
       fun emitter instr =
       let
   fun asm_load (I.LDSB) = "ldsb"
     | asm_load (I.LDSH) = "ldsh"
     | asm_load (I.LDUB) = "ldub"
     | asm_load (I.LDUH) = "lduh"
     | asm_load (I.LD) = "ld"
     | asm_load (I.LDX) = "ldx"
     | asm_load (I.LDD) = "ldd"
   and emit_load x = emit (asm_load x)
   and asm_store (I.STB) = "stb"
     | asm_store (I.STH) = "sth"
     | asm_store (I.ST) = "st"
     | asm_store (I.STX) = "stx"
     | asm_store (I.STD) = "std"
   and emit_store x = emit (asm_store x)
   and asm_fload (I.LDF) = "ldf"
     | asm_fload (I.LDDF) = "lddf"
     | asm_fload (I.LDQF) = "ldqf"
     | asm_fload (I.LDFSR) = "ldfsr"
     | asm_fload (I.LDXFSR) = "ldxfsr"
   and emit_fload x = emit (asm_fload x)
   and asm_fstore (I.STF) = "stf"
     | asm_fstore (I.STDF) = "stdf"
     | asm_fstore (I.STFSR) = "stfsr"
   and emit_fstore x = emit (asm_fstore x)
   and asm_arith (I.AND) = "and"
     | asm_arith (I.ANDCC) = "andcc"
     | asm_arith (I.ANDN) = "andn"
     | asm_arith (I.ANDNCC) = "andncc"
     | asm_arith (I.OR) = "or"
     | asm_arith (I.ORCC) = "orcc"
     | asm_arith (I.ORN) = "orn"
     | asm_arith (I.ORNCC) = "orncc"
     | asm_arith (I.XOR) = "xor"
     | asm_arith (I.XORCC) = "xorcc"
     | asm_arith (I.XNOR) = "xnor"
     | asm_arith (I.XNORCC) = "xnorcc"
     | asm_arith (I.ADD) = "add"
     | asm_arith (I.ADDCC) = "addcc"
     | asm_arith (I.TADD) = "tadd"
     | asm_arith (I.TADDCC) = "taddcc"
     | asm_arith (I.TADDTV) = "taddtv"
     | asm_arith (I.TADDTVCC) = "taddtvcc"
     | asm_arith (I.SUB) = "sub"
     | asm_arith (I.SUBCC) = "subcc"
     | asm_arith (I.TSUB) = "tsub"
     | asm_arith (I.TSUBCC) = "tsubcc"
     | asm_arith (I.TSUBTV) = "tsubtv"
     | asm_arith (I.TSUBTVCC) = "tsubtvcc"
     | asm_arith (I.UMUL) = "umul"
     | asm_arith (I.UMULCC) = "umulcc"
     | asm_arith (I.SMUL) = "smul"
     | asm_arith (I.SMULCC) = "smulcc"
     | asm_arith (I.UDIV) = "udiv"
     | asm_arith (I.UDIVCC) = "udivcc"
     | asm_arith (I.SDIV) = "sdiv"
     | asm_arith (I.SDIVCC) = "sdivcc"
     | asm_arith (I.MULX) = "mulx"
     | asm_arith (I.SDIVX) = "sdivx"
     | asm_arith (I.UDIVX) = "udivx"
   and emit_arith x = emit (asm_arith x)
   and asm_shift (I.SLL) = "sll"
     | asm_shift (I.SRL) = "srl"
     | asm_shift (I.SRA) = "sra"
     | asm_shift (I.SLLX) = "sllx"
     | asm_shift (I.SRLX) = "srlx"
     | asm_shift (I.SRAX) = "srax"
   and emit_shift x = emit (asm_shift x)
   and asm_farith1 (I.FiTOs) = "fitos"
     | asm_farith1 (I.FiTOd) = "fitod"
     | asm_farith1 (I.FiTOq) = "fitoq"
     | asm_farith1 (I.FsTOi) = "fstoi"
     | asm_farith1 (I.FdTOi) = "fdtoi"
     | asm_farith1 (I.FqTOi) = "fqtoi"
     | asm_farith1 (I.FsTOd) = "fstod"
     | asm_farith1 (I.FsTOq) = "fstoq"
     | asm_farith1 (I.FdTOs) = "fdtos"
     | asm_farith1 (I.FdTOq) = "fdtoq"
     | asm_farith1 (I.FqTOs) = "fqtos"
     | asm_farith1 (I.FqTOd) = "fqtod"
     | asm_farith1 (I.FMOVs) = "fmovs"
     | asm_farith1 (I.FNEGs) = "fnegs"
     | asm_farith1 (I.FABSs) = "fabss"
     | asm_farith1 (I.FMOVd) = "fmovd"
     | asm_farith1 (I.FNEGd) = "fnegd"
     | asm_farith1 (I.FABSd) = "fabsd"
     | asm_farith1 (I.FMOVq) = "fmovq"
     | asm_farith1 (I.FNEGq) = "fnegq"
     | asm_farith1 (I.FABSq) = "fabsq"
     | asm_farith1 (I.FSQRTs) = "fsqrts"
     | asm_farith1 (I.FSQRTd) = "fsqrtd"
     | asm_farith1 (I.FSQRTq) = "fsqrtq"
   and emit_farith1 x = emit (asm_farith1 x)
   and asm_farith2 (I.FADDs) = "fadds"
     | asm_farith2 (I.FADDd) = "faddd"
     | asm_farith2 (I.FADDq) = "faddq"
     | asm_farith2 (I.FSUBs) = "fsubs"
     | asm_farith2 (I.FSUBd) = "fsubd"
     | asm_farith2 (I.FSUBq) = "fsubq"
     | asm_farith2 (I.FMULs) = "fmuls"
     | asm_farith2 (I.FMULd) = "fmuld"
     | asm_farith2 (I.FMULq) = "fmulq"
     | asm_farith2 (I.FsMULd) = "fsmuld"
     | asm_farith2 (I.FdMULq) = "fdmulq"
     | asm_farith2 (I.FDIVs) = "fdivs"
     | asm_farith2 (I.FDIVd) = "fdivd"
     | asm_farith2 (I.FDIVq) = "fdivq"
   and emit_farith2 x = emit (asm_farith2 x)
   and asm_fcmp (I.FCMPs) = "fcmps"
     | asm_fcmp (I.FCMPd) = "fcmpd"
     | asm_fcmp (I.FCMPq) = "fcmpq"
     | asm_fcmp (I.FCMPEs) = "fcmpes"
     | asm_fcmp (I.FCMPEd) = "fcmped"
     | asm_fcmp (I.FCMPEq) = "fcmpeq"
   and emit_fcmp x = emit (asm_fcmp x)
   and asm_branch (I.BN) = "n"
     | asm_branch (I.BE) = "e"
     | asm_branch (I.BLE) = "le"
     | asm_branch (I.BL) = "l"
     | asm_branch (I.BLEU) = "leu"
     | asm_branch (I.BCS) = "cs"
     | asm_branch (I.BNEG) = "neg"
     | asm_branch (I.BVS) = "vs"
     | asm_branch (I.BA) = ""
     | asm_branch (I.BNE) = "ne"
     | asm_branch (I.BG) = "g"
     | asm_branch (I.BGE) = "ge"
     | asm_branch (I.BGU) = "gu"
     | asm_branch (I.BCC) = "cc"
     | asm_branch (I.BPOS) = "pos"
     | asm_branch (I.BVC) = "vs"
   and emit_branch x = emit (asm_branch x)
   and asm_rcond (I.RZ) = "rz"
     | asm_rcond (I.RLEZ) = "rlez"
     | asm_rcond (I.RLZ) = "rlz"
     | asm_rcond (I.RNZ) = "rnz"
     | asm_rcond (I.RGZ) = "rgz"
     | asm_rcond (I.RGEZ) = "rgez"
   and emit_rcond x = emit (asm_rcond x)
   and asm_prediction (I.PT) = "pt"
     | asm_prediction (I.PN) = "pn"
   and emit_prediction x = emit (asm_prediction x)
   and asm_fbranch (I.FBN) = "fbn"
     | asm_fbranch (I.FBNE) = "fbne"
     | asm_fbranch (I.FBLG) = "fblg"
     | asm_fbranch (I.FBUL) = "fbul"
     | asm_fbranch (I.FBL) = "fbl"
     | asm_fbranch (I.FBUG) = "fbug"
     | asm_fbranch (I.FBG) = "fbg"
     | asm_fbranch (I.FBU) = "fbu"
     | asm_fbranch (I.FBA) = "fb"
     | asm_fbranch (I.FBE) = "fbe"
     | asm_fbranch (I.FBUE) = "fbue"
     | asm_fbranch (I.FBGE) = "fbge"
     | asm_fbranch (I.FBUGE) = "fbuge"
     | asm_fbranch (I.FBLE) = "fble"
     | asm_fbranch (I.FBULE) = "fbule"
     | asm_fbranch (I.FBO) = "fbo"
   and emit_fbranch x = emit (asm_fbranch x)
   and asm_fsize (I.S) = "s"
     | asm_fsize (I.D) = "d"
     | asm_fsize (I.Q) = "q"
   and emit_fsize x = emit (asm_fsize x)
   and emit_operand (I.REG GP) = emitCell GP
     | emit_operand (I.IMMED int) = emit_int int
     | emit_operand (I.LAB labexp) = emit_labexp labexp
     | emit_operand (I.LO labexp) = 
       ( emit "%lo("; 
         emit_labexp labexp; 
         emit ")" )
     | emit_operand (I.HI labexp) = 
       ( emit "%hi("; 
         emit_labexp labexp; 
         emit ")" )

(*#line 469.7 "sparc/sparc.mdl"*)
   fun emit_leaf false = ()
     | emit_leaf true = emit "l"

(*#line 470.7 "sparc/sparc.mdl"*)
   fun emit_nop false = ()
     | emit_nop true = emit "\n\tnop"

(*#line 471.7 "sparc/sparc.mdl"*)
   fun emit_a false = ()
     | emit_a true = emit ",a"

(*#line 472.7 "sparc/sparc.mdl"*)
   fun emit_cc false = ()
     | emit_cc true = emit "cc"
   fun emitInstr' instr = 
       (case instr of
         I.LOAD{l, d, r, i, mem} => 
         ( emit_load l; 
           emit "\t["; 
           emitCell r; 
           emit "+"; 
           emit_operand i; 
           emit "], "; 
           emitCell d; 
           emit_region mem )
       | I.STORE{s, d, r, i, mem} => 
         ( emit_store s; 
           emit "\t"; 
           emitCell d; 
           emit ", ["; 
           emitCell r; 
           emit "+"; 
           emit_operand i; 
           emit "]"; 
           emit_region mem )
       | I.FLOAD{l, r, i, d, mem} => 
         ( emit_fload l; 
           emit "\t["; 
           emitCell r; 
           emit "+"; 
           emit_operand i; 
           emit "], "; 
           emitCell d; 
           emit_region mem )
       | I.FSTORE{s, d, r, i, mem} => 
         ( emit_fstore s; 
           emit "\t["; 
           emitCell r; 
           emit "+"; 
           emit_operand i; 
           emit "], "; 
           emitCell d; 
           emit_region mem )
       | I.UNIMP{const22} => 
         ( emit "unimp "; 
           emit_int const22 )
       | I.SETHI{i, d} => 
         let 
(*#line 656.18 "sparc/sparc.mdl"*)
             val i = Word32.toString (Word32.<< (Word32.fromInt i, 0wxa))
         in 
            ( emit "sethi\t%hi(0x"; 
              emit i; 
              emit "), "; 
              emitCell d )
         end
       | I.ARITH{a, r, i, d} => 
         (case (a, CellsBasis.registerId r, CellsBasis.registerId d, i) of
           (I.OR, 0, _, I.REG _) => 
           ( emit "mov\t"; 
             emit_operand i; 
             emit ", "; 
             emitCell d )
         | (I.OR, 0, _, _) => 
           ( emit "set\t"; 
             emit_operand i; 
             emit ", "; 
             emitCell d )
         | (I.SUBCC, _, 0, _) => 
           ( emit "cmp\t"; 
             emitCell r; 
             emit ", "; 
             emit_operand i )
         | _ => 
           ( emit_arith a; 
             emit "\t"; 
             emitCell r; 
             emit ", "; 
             emit_operand i; 
             emit ", "; 
             emitCell d )
         )
       | I.SHIFT{s, r, i, d} => 
         ( emit_shift s; 
           emit "\t"; 
           emitCell r; 
           emit ", "; 
           emit_operand i; 
           emit ", "; 
           emitCell d )
       | I.MOVicc{b, i, d} => 
         ( emit "mov"; 
           emit_branch b; 
           emit "\t"; 
           emit_operand i; 
           emit ", "; 
           emitCell d )
       | I.MOVfcc{b, i, d} => 
         ( emit "mov"; 
           emit_fbranch b; 
           emit "\t"; 
           emit_operand i; 
           emit ", "; 
           emitCell d )
       | I.MOVR{rcond, r, i, d} => 
         ( emit "movr"; 
           emit_rcond rcond; 
           emit "\t"; 
           emitCell r; 
           emit ", "; 
           emit_operand i; 
           emit ", "; 
           emitCell d )
       | I.FMOVicc{sz, b, r, d} => 
         ( emit "fmov"; 
           emit_fsize sz; 
           emit_branch b; 
           emit "\t"; 
           emitCell r; 
           emit ", "; 
           emitCell d )
       | I.FMOVfcc{sz, b, r, d} => 
         ( emit "fmov"; 
           emit_fsize sz; 
           emit_fbranch b; 
           emit "\t"; 
           emitCell r; 
           emit ", "; 
           emitCell d )
       | I.Bicc{b, a, label, nop} => 
         ( emit "b"; 
           emit_branch b; 
           emit_a a; 
           emit "\t"; 
           emit_label label; 
           emit_nop nop )
       | I.FBfcc{b, a, label, nop} => 
         ( emit_fbranch b; 
           emit_a a; 
           emit "\t"; 
           emit_label label; 
           emit_nop nop )
       | I.BR{rcond, p, r, a, label, nop} => 
         ( emit "b"; 
           emit_rcond rcond; 
           emit_a a; 
           emit_prediction p; 
           emit "\t"; 
           emitCell r; 
           emit ", "; 
           emit_label label; 
           emit_nop nop )
       | I.BP{b, p, cc, a, label, nop} => 
         ( emit "bp"; 
           emit_branch b; 
           emit_a a; 
           emit_prediction p; 
           emit "\t%"; 
           emit (if (cc = I.ICC)
              then "i"
              else "x"); 
           emit "cc, "; 
           emit_label label; 
           emit_nop nop )
       | I.JMP{r, i, labs, nop} => 
         ( emit "jmp\t["; 
           emitCell r; 
           emit "+"; 
           emit_operand i; 
           emit "]"; 
           emit_nop nop )
       | I.JMPL{r, i, d, defs, uses, cutsTo, nop, mem} => 
         ( emit "jmpl\t["; 
           emitCell r; 
           emit "+"; 
           emit_operand i; 
           emit "], "; 
           emitCell d; 
           emit_region mem; 
           emit_defs defs; 
           emit_uses uses; 
           emit_cutsTo cutsTo; 
           emit_nop nop )
       | I.CALL{defs, uses, label, cutsTo, nop, mem} => 
         ( emit "call\t"; 
           emit_label label; 
           emit_region mem; 
           emit_defs defs; 
           emit_uses uses; 
           emit_cutsTo cutsTo; 
           emit_nop nop )
       | I.Ticc{t, cc, r, i} => 
         ( emit "t"; 
           emit_branch t; 
           emit "\t"; 
           (if (cc = I.ICC)
              then ()
              else (emit "%xcc, ")); 
           emitCell r; 
           emit "+"; 
           emit_operand i )
       | I.FPop1{a, r, d} => 
         let 
(*#line 764.18 "sparc/sparc.mdl"*)
             fun f (a, r, d) = 
                 ( emit a; 
                   emit "\t"; 
                   emit (C.showFP r); 
                   emit ", "; 
                   emit (C.showFP d))

(*#line 769.18 "sparc/sparc.mdl"*)
             fun g (a, r, d) = 
                 let 
(*#line 770.22 "sparc/sparc.mdl"*)
                     val r = CellsBasis.registerNum r
                     and d = CellsBasis.registerNum d
                 in f (a, r, d); 
                    emit "\n\t"; 
                    f ("fmovs", r + 1, d + 1)
                 end

(*#line 774.18 "sparc/sparc.mdl"*)
             fun h (a, r, d) = 
                 let 
(*#line 775.22 "sparc/sparc.mdl"*)
                     val r = CellsBasis.registerNum r
                     and d = CellsBasis.registerNum d
                 in f (a, r, d); 
                    emit "\n\t"; 
                    f ("fmovs", r + 1, d + 1); 
                    emit "\n\t"; 
                    f ("fmovs", r + 2, d + 2); 
                    emit "\n\t"; 
                    f ("fmovs", r + 3, d + 3)
                 end
         in (if V9
               then 
               ( emit_farith1 a; 
                 emit "\t"; 
                 emitCell r; 
                 emit ", "; 
                 emitCell d )
               else 
               (case a of
                 I.FMOVd => g ("fmovs", r, d)
               | I.FNEGd => g ("fnegs", r, d)
               | I.FABSd => g ("fabss", r, d)
               | I.FMOVq => h ("fmovs", r, d)
               | I.FNEGq => h ("fnegs", r, d)
               | I.FABSq => h ("fabss", r, d)
               | _ => 
                 ( emit_farith1 a; 
                   emit "\t"; 
                   emitCell r; 
                   emit ", "; 
                   emitCell d )
               ))
         end
       | I.FPop2{a, r1, r2, d} => 
         ( emit_farith2 a; 
           emit "\t"; 
           emitCell r1; 
           emit ", "; 
           emitCell r2; 
           emit ", "; 
           emitCell d )
       | I.FCMP{cmp, r1, r2, nop} => 
         ( emit_fcmp cmp; 
           emit "\t"; 
           emitCell r1; 
           emit ", "; 
           emitCell r2; 
           emit_nop nop )
       | I.COPY{dst, src, impl, tmp} => emitInstrs (Shuffle.shuffle {tmp=tmp, 
            src=src, dst=dst})
       | I.FCOPY{dst, src, impl, tmp} => emitInstrs (Shuffle.shufflefp {tmp=tmp, 
            src=src, dst=dst})
       | I.SAVE{r, i, d} => 
         ( emit "save\t"; 
           emitCell r; 
           emit ", "; 
           emit_operand i; 
           emit ", "; 
           emitCell d )
       | I.RESTORE{r, i, d} => 
         ( emit "restore\t"; 
           emitCell r; 
           emit ", "; 
           emit_operand i; 
           emit ", "; 
           emitCell d )
       | I.RDY{d} => 
         ( emit "rd\t%y, "; 
           emitCell d )
       | I.WRY{r, i} => 
         ( emit "wr\t"; 
           emitCell r; 
           emit ", "; 
           emit_operand i; 
           emit ", %y" )
       | I.RET{leaf, nop} => 
         ( emit "ret"; 
           emit_leaf leaf; 
           emit_nop nop )
       | I.SOURCE{} => emit "source"
       | I.SINK{} => emit "sink"
       | I.PHI{} => emit "phi"
       )
      in  tab(); emitInstr' instr; nl()
      end (* emitter *)
      and emitInstrIndented i = (indent(); emitInstr i; nl())
      and emitInstrs instrs =
           app (if !indent_copies then emitInstrIndented
                else emitInstr) instrs
   
      and emitInstr(I.ANNOTATION{i,a}) =
           ( comment(Annotations.toString a);
              nl();
              emitInstr i )
        | emitInstr(I.LIVE{regs, spilled})  = 
            comment("live= " ^ CellsBasis.CellSet.toString regs ^
                    "spilled= " ^ CellsBasis.CellSet.toString spilled)
        | emitInstr(I.KILL{regs, spilled})  = 
            comment("killed:: " ^ CellsBasis.CellSet.toString regs ^
                    "spilled:: " ^ CellsBasis.CellSet.toString spilled)
        | emitInstr(I.INSTR i) = emitter i
        | emitInstr _ = error "emitInstr"
   
   in  S.STREAM{beginCluster=init,
                pseudoOp=pseudoOp,
                emit=emitInstr,
                endCluster=fail,
                defineLabel=defineLabel,
                entryLabel=entryLabel,
                comment=comment,
                exitBlock=doNothing,
                annotation=annotation,
                getAnnotations=getAnnotations
               }
   end
end


root@smlnj-gforge.cs.uchicago.edu
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