315 lines
9.0 KiB
OCaml
315 lines
9.0 KiB
OCaml
/***********************************************************************/
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/* */
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/* Objective Caml */
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/* */
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/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
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/* */
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/* Copyright 1996 Institut National de Recherche en Informatique et */
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/* en Automatique. All rights reserved. This file is distributed */
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/* under the terms of the Q Public License version 1.0. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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/* A simple parser for C-- */
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%{
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open Cmm
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open Parsecmmaux
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let rec make_letdef def body =
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match def with
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[] -> body
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| (id, def) :: rem ->
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unbind_ident id;
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Clet(id, def, make_letdef rem body)
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let make_switch n selector caselist =
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let index = Array.create n 0 in
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let casev = Array.of_list caselist in
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let actv = Array.create (Array.length casev) Cexit in
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for i = 0 to Array.length casev - 1 do
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let (posl, e) = casev.(i) in
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List.iter (fun pos -> index.(pos) <- i) posl;
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actv.(i) <- e
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done;
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Cswitch(selector, index, actv)
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let access_array base numelt size =
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match numelt with
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Cconst_int 0 -> base
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| Cconst_int n -> Cop(Cadda, [base; Cconst_int(n * size)])
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| _ -> Cop(Cadda, [base;
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Cop(Clsl, [numelt; Cconst_int(Misc.log2 size)])])
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%}
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%token ABSF
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%token ADDA
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%token ADDF
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%token ADDI
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%token ADDR
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%token ALIGN
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%token ALLOC
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%token AND
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%token APPLY
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%token ASR
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%token ASSIGN
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%token BYTE
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%token CASE
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%token CATCH
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%token CHECKBOUND
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%token COLON
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%token DIVF
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%token DIVI
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%token EOF
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%token EQA
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%token EQF
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%token EQI
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%token EXIT
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%token EXTCALL
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%token FLOAT
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%token <string> FLOATCONST
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%token FLOATOFINT
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%token FUNCTION
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%token GEA
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%token GEF
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%token GEI
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%token GTA
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%token GTF
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%token GTI
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%token HALF
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%token <string> IDENT
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%token IF
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%token INT
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%token <int> INTCONST
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%token INTOFFLOAT
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%token KSTRING
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%token LBRACKET
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%token LEA
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%token LEF
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%token LEI
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%token LET
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%token LOAD
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%token LPAREN
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%token LSL
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%token LSR
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%token LTA
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%token LTF
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%token LTI
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%token MODI
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%token MULF
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%token MULI
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%token NEA
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%token NEF
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%token NEI
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%token OR
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%token <int> POINTER
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%token PROJ
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%token RAISE
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%token RBRACKET
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%token RPAREN
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%token SEQ
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%token SIGNED
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%token SKIP
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%token STAR
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%token STORE
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%token <string> STRING
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%token SUBA
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%token SUBF
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%token SUBI
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%token SWITCH
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%token TRY
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%token UNIT
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%token UNSIGNED
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%token WHILE
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%token WITH
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%token XOR
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%token ADDRAREF
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%token INTAREF
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%token FLOATAREF
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%token ADDRASET
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%token INTASET
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%token FLOATASET
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%start phrase
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%type <Cmm.phrase> phrase
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%%
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phrase:
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fundecl { Cfunction $1 }
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| datadecl { Cdata $1 }
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| EOF { raise End_of_file }
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;
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fundecl:
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LPAREN FUNCTION STRING LPAREN params RPAREN sequence RPAREN
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{ List.iter (fun (id, ty) -> unbind_ident id) $5;
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{fun_name = $3; fun_args = $5; fun_body = $7; fun_fast = true} }
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;
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params:
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oneparam params { $1 :: $2 }
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| /**/ { [] }
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;
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oneparam:
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IDENT COLON machtype { (bind_ident $1, $3) }
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;
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machtype:
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UNIT { [||] }
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| componentlist { Array.of_list(List.rev $1) }
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;
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component:
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ADDR { Addr }
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| INT { Int }
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| FLOAT { Float }
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;
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componentlist:
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component { [$1] }
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| componentlist STAR component { $3 :: $1 }
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;
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expr:
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INTCONST { Cconst_int $1 }
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| FLOATCONST { Cconst_float $1 }
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| STRING { Cconst_symbol $1 }
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| POINTER { Cconst_pointer $1 }
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| IDENT { Cvar(find_ident $1) }
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| LPAREN LET letdef sequence RPAREN { make_letdef $3 $4 }
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| LPAREN ASSIGN IDENT expr RPAREN { Cassign(find_ident $3, $4) }
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| LBRACKET exprlist RBRACKET { Ctuple(List.rev $2) }
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| LPAREN APPLY expr expr machtype RPAREN { Cop(Capply $5, [$3; $4]) }
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| LPAREN EXTCALL STRING expr machtype RPAREN { Cop(Cextcall($3, $5, true), [$4]) }
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| LPAREN LOAD expr machtype RPAREN { Cop(Cload $4, [$3]) }
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| LPAREN SUBF expr RPAREN { Cop(Cnegf, [$3]) }
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| LPAREN SUBF expr expr RPAREN { Cop(Csubf, [$3; $4]) }
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| LPAREN unaryop expr RPAREN { Cop($2, [$3]) }
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| LPAREN binaryop expr expr RPAREN { Cop($2, [$3; $4]) }
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| LPAREN SEQ sequence RPAREN { $3 }
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| LPAREN IF expr expr expr RPAREN { Cifthenelse($3, $4, $5) }
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| LPAREN SWITCH INTCONST expr caselist RPAREN { make_switch $3 $4 $5 }
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| LPAREN WHILE expr sequence RPAREN
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{ Ccatch(Cloop(Cifthenelse($3, $4, Cexit)), Ctuple []) }
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| LPAREN CATCH sequence WITH sequence RPAREN { Ccatch($3, $5) }
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| EXIT { Cexit }
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| LPAREN TRY sequence WITH bind_ident sequence RPAREN
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{ unbind_ident $5; Ctrywith($3, $5, $6) }
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| LPAREN ADDRAREF expr expr RPAREN
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{ Cop(Cload typ_addr, [access_array $3 $4 Arch.size_addr]) }
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| LPAREN INTAREF expr expr RPAREN
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{ Cop(Cload typ_int, [access_array $3 $4 Arch.size_int]) }
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| LPAREN FLOATAREF expr expr RPAREN
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{ Cop(Cload typ_float, [access_array $3 $4 Arch.size_float]) }
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| LPAREN ADDRASET expr expr expr RPAREN
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{ Cop(Cstore, [access_array $3 $4 Arch.size_addr; $5]) }
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| LPAREN INTASET expr expr expr RPAREN
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{ Cop(Cstore, [access_array $3 $4 Arch.size_int; $5]) }
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| LPAREN FLOATASET expr expr expr RPAREN
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{ Cop(Cstore, [access_array $3 $4 Arch.size_float; $5]) }
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;
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exprlist:
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exprlist expr { $2 :: $1 }
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| /**/ { [] }
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;
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letdef:
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oneletdef { [$1] }
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| LPAREN letdefmult RPAREN { $2 }
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;
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letdefmult:
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/**/ { [] }
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| oneletdef letdefmult { $1 :: $2 }
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;
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oneletdef:
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IDENT expr { (bind_ident $1, $2) }
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;
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chunk:
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UNSIGNED BYTE { Byte_unsigned }
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| SIGNED BYTE { Byte_signed }
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| UNSIGNED HALF { Sixteen_unsigned }
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| SIGNED HALF { Sixteen_signed }
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;
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unaryop:
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PROJ INTCONST { Cproj($2, 1) }
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| PROJ INTCONST SUBI INTCONST { Cproj($2, $4 - $2 - 1) }
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| LOAD chunk { Cloadchunk $2 }
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| ALLOC { Calloc }
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| FLOATOFINT { Cfloatofint }
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| INTOFFLOAT { Cintoffloat }
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| RAISE { Craise }
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| ABSF { Cabsf }
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;
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binaryop:
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STORE { Cstore }
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| STORE chunk { Cstorechunk $2 }
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| ADDI { Caddi }
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| SUBI { Csubi }
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| MULI { Cmuli }
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| DIVI { Cdivi }
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| MODI { Cmodi }
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| AND { Cand }
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| OR { Cor }
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| XOR { Cxor }
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| LSL { Clsl }
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| LSR { Clsr }
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| ASR { Casr }
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| EQI { Ccmpi Ceq }
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| NEI { Ccmpi Cne }
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| LTI { Ccmpi Clt }
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| LEI { Ccmpi Cle }
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| GTI { Ccmpi Cgt }
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| GEI { Ccmpi Cge }
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| ADDA { Cadda }
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| SUBA { Csuba }
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| EQA { Ccmpa Ceq }
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| NEA { Ccmpa Cne }
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| LTA { Ccmpa Clt }
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| LEA { Ccmpa Cle }
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| GTA { Ccmpa Cgt }
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| GEA { Ccmpa Cge }
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| ADDF { Caddf }
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| MULF { Cmulf }
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| DIVF { Cdivf }
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| EQF { Ccmpf Ceq }
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| NEF { Ccmpf Cne }
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| LTF { Ccmpf Clt }
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| LEF { Ccmpf Cle }
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| GTF { Ccmpf Cgt }
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| GEF { Ccmpf Cge }
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| CHECKBOUND { Ccheckbound }
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;
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sequence:
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expr sequence { Csequence($1, $2) }
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| expr { $1 }
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;
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caselist:
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onecase sequence caselist { ($1, $2) :: $3 }
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| /**/ { [] }
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;
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onecase:
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CASE INTCONST COLON onecase { $2 :: $4 }
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| CASE INTCONST COLON { [$2] }
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;
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bind_ident:
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IDENT { bind_ident $1 }
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;
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datadecl:
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LPAREN datalist RPAREN { List.rev $2 }
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;
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datalist:
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datalist dataitem { $2 :: $1 }
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| /**/ { [] }
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;
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dataitem:
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STRING COLON { Cdefine_symbol $1 }
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| INTCONST COLON { Cdefine_label $1 }
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| BYTE INTCONST { Cint8 $2 }
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| HALF INTCONST { Cint16 $2 }
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| INT INTCONST { Cint(Nativeint.from $2) }
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| FLOAT FLOATCONST { Cfloat $2 }
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| ADDR STRING { Csymbol_address $2 }
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| ADDR INTCONST { Clabel_address $2 }
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| KSTRING STRING { Cstring $2 }
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| SKIP INTCONST { Cskip $2 }
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| ALIGN INTCONST { Calign $2 }
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;
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