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(**************************************************************************)
(* *)
(* OCaml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. *)
(* *)
(* All rights reserved. This file is distributed under the terms of *)
(* the GNU Lesser General Public License version 2.1, with the *)
(* special exception on linking described in the file LICENSE. *)
(* *)
(**************************************************************************)
open Misc
open Asttypes
type compile_time_constant =
| Big_endian
| Word_size
| Int_size
| Max_wosize
| Ostype_unix
| Ostype_win32
| Ostype_cygwin
| Backend_type
type immediate_or_pointer =
| Immediate
| Pointer
type initialization_or_assignment =
| Assignment
| Heap_initialization
| Root_initialization
type is_safe =
| Safe
| Unsafe
type primitive =
| Pidentity
| Pbytes_to_string
| Pbytes_of_string
| Pignore
| Prevapply
| Pdirapply
(* Globals *)
| Pgetglobal of Ident.t
| Psetglobal of Ident.t
(* Operations on heap blocks *)
| Pmakeblock of int * mutable_flag * block_shape
| Pfield of int
| Pfield_computed
| Psetfield of int * immediate_or_pointer * initialization_or_assignment
| Psetfield_computed of immediate_or_pointer * initialization_or_assignment
| Pfloatfield of int
| Psetfloatfield of int * initialization_or_assignment
| Pduprecord of Types.record_representation * int
(* Force lazy values *)
(* External call *)
| Pccall of Primitive.description
(* Exceptions *)
| Praise of raise_kind
(* Boolean operations *)
| Psequand | Psequor | Pnot
(* Integer operations *)
| Pnegint | Paddint | Psubint | Pmulint
| Pdivint of is_safe | Pmodint of is_safe
| Pandint | Porint | Pxorint
| Plslint | Plsrint | Pasrint
| Pintcomp of integer_comparison
| Pcompare_ints | Pcompare_floats | Pcompare_bints of boxed_integer
| Poffsetint of int
| Poffsetref of int
(* Float operations *)
| Pintoffloat | Pfloatofint
| Pnegfloat | Pabsfloat
| Paddfloat | Psubfloat | Pmulfloat | Pdivfloat
| Pfloatcomp of float_comparison
(* String operations *)
| Pstringlength | Pstringrefu | Pstringrefs
| Pbyteslength | Pbytesrefu | Pbytessetu | Pbytesrefs | Pbytessets
(* Array operations *)
| Pmakearray of array_kind * mutable_flag
| Pduparray of array_kind * mutable_flag
| Parraylength of array_kind
| Parrayrefu of array_kind
| Parraysetu of array_kind
| Parrayrefs of array_kind
| Parraysets of array_kind
(* Test if the argument is a block or an immediate integer *)
| Pisint
(* Test if the (integer) argument is outside an interval *)
| Pisout
(* Operations on boxed integers (Nativeint.t, Int32.t, Int64.t) *)
| Pbintofint of boxed_integer
| Pintofbint of boxed_integer
| Pcvtbint of boxed_integer (*source*) * boxed_integer (*destination*)
| Pnegbint of boxed_integer
| Paddbint of boxed_integer
| Psubbint of boxed_integer
| Pmulbint of boxed_integer
| Pdivbint of { size : boxed_integer; is_safe : is_safe }
| Pmodbint of { size : boxed_integer; is_safe : is_safe }
| Pandbint of boxed_integer
| Porbint of boxed_integer
| Pxorbint of boxed_integer
| Plslbint of boxed_integer
| Plsrbint of boxed_integer
| Pasrbint of boxed_integer
| Pbintcomp of boxed_integer * integer_comparison
(* Operations on Bigarrays: (unsafe, #dimensions, kind, layout) *)
| Pbigarrayref of bool * int * bigarray_kind * bigarray_layout
| Pbigarrayset of bool * int * bigarray_kind * bigarray_layout
(* size of the nth dimension of a Bigarray *)
| Pbigarraydim of int
(* load/set 16,32,64 bits from a string: (unsafe)*)
| Pstring_load_16 of bool
| Pstring_load_32 of bool
| Pstring_load_64 of bool
| Pbytes_load_16 of bool
| Pbytes_load_32 of bool
| Pbytes_load_64 of bool
| Pbytes_set_16 of bool
| Pbytes_set_32 of bool
| Pbytes_set_64 of bool
(* load/set 16,32,64 bits from a
(char, int8_unsigned_elt, c_layout) Bigarray.Array1.t : (unsafe) *)
| Pbigstring_load_16 of bool
| Pbigstring_load_32 of bool
| Pbigstring_load_64 of bool
| Pbigstring_set_16 of bool
| Pbigstring_set_32 of bool
| Pbigstring_set_64 of bool
(* Compile time constants *)
| Pctconst of compile_time_constant
(* byte swap *)
| Pbswap16
| Pbbswap of boxed_integer
(* Integer to external pointer *)
| Pint_as_pointer
(* Inhibition of optimisation *)
| Popaque
and integer_comparison =
Ceq | Cne | Clt | Cgt | Cle | Cge
and float_comparison =
CFeq | CFneq | CFlt | CFnlt | CFgt | CFngt | CFle | CFnle | CFge | CFnge
and value_kind =
Pgenval | Pfloatval | Pboxedintval of boxed_integer | Pintval
and block_shape =
value_kind list option
and array_kind =
Pgenarray | Paddrarray | Pintarray | Pfloatarray
and boxed_integer = Primitive.boxed_integer =
Pnativeint | Pint32 | Pint64
and bigarray_kind =
Pbigarray_unknown
| Pbigarray_float32 | Pbigarray_float64
| Pbigarray_sint8 | Pbigarray_uint8
| Pbigarray_sint16 | Pbigarray_uint16
| Pbigarray_int32 | Pbigarray_int64
| Pbigarray_caml_int | Pbigarray_native_int
| Pbigarray_complex32 | Pbigarray_complex64
and bigarray_layout =
Pbigarray_unknown_layout
| Pbigarray_c_layout
| Pbigarray_fortran_layout
and raise_kind =
| Raise_regular
| Raise_reraise
| Raise_notrace
let equal_boxed_integer x y =
match x, y with
| Pnativeint, Pnativeint
| Pint32, Pint32
| Pint64, Pint64 ->
true
| (Pnativeint | Pint32 | Pint64), _ ->
false
let equal_primitive =
(* Should be implemented like [equal_value_kind] of [equal_boxed_integer],
i.e. by matching over the various constructors but the type has more
than 100 constructors... *)
(=)
let equal_value_kind x y =
match x, y with
| Pgenval, Pgenval -> true
| Pfloatval, Pfloatval -> true
| Pboxedintval bi1, Pboxedintval bi2 -> equal_boxed_integer bi1 bi2
| Pintval, Pintval -> true
| (Pgenval | Pfloatval | Pboxedintval _ | Pintval), _ -> false
type structured_constant =
Const_base of constant
| Const_pointer of int
| Const_block of int * structured_constant list
| Const_float_array of string list
| Const_immstring of string
type inline_attribute =
| Always_inline (* [@inline] or [@inline always] *)
| Never_inline (* [@inline never] *)
| Hint_inline (* [@inlined hint] attribute *)
| Unroll of int (* [@unroll x] *)
| Default_inline (* no [@inline] attribute *)
let equal_inline_attribute x y =
match x, y with
| Always_inline, Always_inline
| Never_inline, Never_inline
| Hint_inline, Hint_inline
| Default_inline, Default_inline
->
true
| Unroll u, Unroll v ->
u = v
| (Always_inline | Never_inline
| Hint_inline | Unroll _ | Default_inline), _ ->
false
type specialise_attribute =
| Always_specialise (* [@specialise] or [@specialise always] *)
| Never_specialise (* [@specialise never] *)
| Default_specialise (* no [@specialise] attribute *)
let equal_specialise_attribute x y =
match x, y with
| Always_specialise, Always_specialise
| Never_specialise, Never_specialise
| Default_specialise, Default_specialise ->
true
| (Always_specialise | Never_specialise | Default_specialise), _ ->
false
type local_attribute =
| Always_local (* [@local] or [@local always] *)
| Never_local (* [@local never] *)
| Default_local (* [@local maybe] or no [@local] attribute *)
type function_kind = Curried | Tupled
type let_kind = Strict | Alias | StrictOpt | Variable
type meth_kind = Self | Public | Cached
let equal_meth_kind x y =
match x, y with
| Self, Self -> true
| Public, Public -> true
| Cached, Cached -> true
| (Self | Public | Cached), _ -> false
type shared_code = (int * int) list
type function_attribute = {
inline : inline_attribute;
specialise : specialise_attribute;
local: local_attribute;
is_a_functor: bool;
stub: bool;
}
type scoped_location = Debuginfo.Scoped_location.t
type lambda =
Lvar of Ident.t
| Lconst of structured_constant
| Lapply of lambda_apply
| Lfunction of lfunction
| Llet of let_kind * value_kind * Ident.t * lambda * lambda
| Lletrec of (Ident.t * lambda) list * lambda
| Lprim of primitive * lambda list * Location.t
| Lswitch of lambda * lambda_switch * Location.t
| Lstringswitch of
lambda * (string * lambda) list * lambda option * Location.t
| Lstaticraise of int * lambda list
| Lstaticcatch of lambda * (int * (Ident.t * value_kind) list) * lambda
| Ltrywith of lambda * Ident.t * lambda
| Lifthenelse of lambda * lambda * lambda
| Lsequence of lambda * lambda
| Lwhile of lambda * lambda
| Lfor of Ident.t * lambda * lambda * direction_flag * lambda
| Lassign of Ident.t * lambda
| Lsend of meth_kind * lambda * lambda * lambda list * Location.t
| Levent of lambda * lambda_event
| Lifused of Ident.t * lambda
and lfunction =
{ kind: function_kind;
params: (Ident.t * value_kind) list;
return: value_kind;
body: lambda;
attr: function_attribute; (* specified with [@inline] attribute *)
loc: Location.t; }
and lambda_apply =
{ ap_func : lambda;
ap_args : lambda list;
ap_loc : Location.t;
ap_should_be_tailcall : bool;
ap_inlined : inline_attribute;
ap_specialised : specialise_attribute; }
and lambda_switch =
{ sw_numconsts: int;
sw_consts: (int * lambda) list;
sw_numblocks: int;
sw_blocks: (int * lambda) list;
sw_failaction : lambda option}
and lambda_event =
{ lev_loc: Location.t;
lev_kind: lambda_event_kind;
lev_repr: int ref option;
lev_env: Env.t }
and lambda_event_kind =
Lev_before
| Lev_after of Types.type_expr
| Lev_function
| Lev_pseudo
| Lev_module_definition of Ident.t
type program =
{ module_ident : Ident.t;
main_module_block_size : int;
required_globals : Ident.Set.t;
code : lambda }
let const_unit = Const_pointer 0
let lambda_unit = Lconst const_unit
let default_function_attribute = {
inline = Default_inline;
specialise = Default_specialise;
local = Default_local;
is_a_functor = false;
stub = false;
}
let default_stub_attribute =
{ default_function_attribute with stub = true }
(* Build sharing keys *)
(*
Those keys are later compared with Stdlib.compare.
For that reason, they should not include cycles.
*)
exception Not_simple
let max_raw = 32
let make_key e =
let count = ref 0 (* Used for controlling size *)
and make_key = Ident.make_key_generator () in
(* make_key is used for normalizing let-bound variables *)
let rec tr_rec env e =
incr count ;
if !count > max_raw then raise Not_simple ; (* Too big ! *)
match e with
| Lvar id ->
begin
try Ident.find_same id env
with Not_found -> e
end
| Lconst (Const_base (Const_string _)) ->
(* Mutable constants are not shared *)
raise Not_simple
| Lconst _ -> e
| Lapply ap ->
Lapply {ap with ap_func = tr_rec env ap.ap_func;
ap_args = tr_recs env ap.ap_args;
ap_loc = Location.none}
| Llet (Alias,_k,x,ex,e) -> (* Ignore aliases -> substitute *)
let ex = tr_rec env ex in
tr_rec (Ident.add x ex env) e
| Llet ((Strict | StrictOpt),_k,x,ex,Lvar v) when Ident.same v x ->
tr_rec env ex
| Llet (str,k,x,ex,e) ->
(* Because of side effects, keep other lets with normalized names *)
let ex = tr_rec env ex in
let y = make_key x in
Llet (str,k,y,ex,tr_rec (Ident.add x (Lvar y) env) e)
| Lprim (p,es,_) ->
Lprim (p,tr_recs env es, Location.none)
| Lswitch (e,sw,loc) ->
Lswitch (tr_rec env e,tr_sw env sw,loc)
| Lstringswitch (e,sw,d,_) ->
Lstringswitch
(tr_rec env e,
List.map (fun (s,e) -> s,tr_rec env e) sw,
tr_opt env d,
Location.none)
| Lstaticraise (i,es) ->
Lstaticraise (i,tr_recs env es)
| Lstaticcatch (e1,xs,e2) ->
Lstaticcatch (tr_rec env e1,xs,tr_rec env e2)
| Ltrywith (e1,x,e2) ->
Ltrywith (tr_rec env e1,x,tr_rec env e2)
| Lifthenelse (cond,ifso,ifnot) ->
Lifthenelse (tr_rec env cond,tr_rec env ifso,tr_rec env ifnot)
| Lsequence (e1,e2) ->
Lsequence (tr_rec env e1,tr_rec env e2)
| Lassign (x,e) ->
Lassign (x,tr_rec env e)
| Lsend (m,e1,e2,es,_loc) ->
Lsend (m,tr_rec env e1,tr_rec env e2,tr_recs env es,Location.none)
| Lifused (id,e) -> Lifused (id,tr_rec env e)
| Lletrec _|Lfunction _
| Lfor _ | Lwhile _
(* Beware: (PR#6412) the event argument to Levent
may include cyclic structure of type Type.typexpr *)
| Levent _ ->
raise Not_simple
and tr_recs env es = List.map (tr_rec env) es
and tr_sw env sw =
{ sw with
sw_consts = List.map (fun (i,e) -> i,tr_rec env e) sw.sw_consts ;
sw_blocks = List.map (fun (i,e) -> i,tr_rec env e) sw.sw_blocks ;
sw_failaction = tr_opt env sw.sw_failaction ; }
and tr_opt env = function
| None -> None
| Some e -> Some (tr_rec env e) in
try
Some (tr_rec Ident.empty e)
with Not_simple -> None
(***************)
let name_lambda strict arg fn =
match arg with
Lvar id -> fn id
| _ ->
let id = Ident.create_local "let" in
Llet(strict, Pgenval, id, arg, fn id)
let name_lambda_list args fn =
let rec name_list names = function
[] -> fn (List.rev names)
| (Lvar _ as arg) :: rem ->
name_list (arg :: names) rem
| arg :: rem ->
let id = Ident.create_local "let" in
Llet(Strict, Pgenval, id, arg, name_list (Lvar id :: names) rem) in
name_list [] args
let iter_opt f = function
| None -> ()
| Some e -> f e
let shallow_iter ~tail ~non_tail:f = function
Lvar _
| Lconst _ -> ()
| Lapply{ap_func = fn; ap_args = args} ->
f fn; List.iter f args
| Lfunction{body} ->
f body
| Llet(_str, _k, _id, arg, body) ->
f arg; tail body
| Lletrec(decl, body) ->
tail body;
List.iter (fun (_id, exp) -> f exp) decl
| Lprim (Pidentity, [l], _) ->
tail l
| Lprim (Psequand, [l1; l2], _)
| Lprim (Psequor, [l1; l2], _) ->
f l1;
tail l2
| Lprim(_p, args, _loc) ->
List.iter f args
| Lswitch(arg, sw,_) ->
f arg;
List.iter (fun (_key, case) -> tail case) sw.sw_consts;
List.iter (fun (_key, case) -> tail case) sw.sw_blocks;
iter_opt tail sw.sw_failaction
| Lstringswitch (arg,cases,default,_) ->
f arg ;
List.iter (fun (_,act) -> tail act) cases ;
iter_opt tail default
| Lstaticraise (_,args) ->
List.iter f args
| Lstaticcatch(e1, _, e2) ->
tail e1; tail e2
| Ltrywith(e1, _, e2) ->
f e1; tail e2
| Lifthenelse(e1, e2, e3) ->
f e1; tail e2; tail e3
| Lsequence(e1, e2) ->
f e1; tail e2
| Lwhile(e1, e2) ->
f e1; f e2
| Lfor(_v, e1, e2, _dir, e3) ->
f e1; f e2; f e3
| Lassign(_, e) ->
f e
| Lsend (_k, met, obj, args, _) ->
List.iter f (met::obj::args)
| Levent (e, _evt) ->
tail e
| Lifused (_v, e) ->
tail e
let iter_head_constructor f l =
shallow_iter ~tail:f ~non_tail:f l
let rec free_variables = function
| Lvar id -> Ident.Set.singleton id
| Lconst _ -> Ident.Set.empty
| Lapply{ap_func = fn; ap_args = args} ->
free_variables_list (free_variables fn) args
| Lfunction{body; params} ->
Ident.Set.diff (free_variables body)
(Ident.Set.of_list (List.map fst params))
| Llet(_str, _k, id, arg, body) ->
Ident.Set.union
(free_variables arg)
(Ident.Set.remove id (free_variables body))
| Lletrec(decl, body) ->
let set = free_variables_list (free_variables body) (List.map snd decl) in
Ident.Set.diff set (Ident.Set.of_list (List.map fst decl))
| Lprim(_p, args, _loc) ->
free_variables_list Ident.Set.empty args
| Lswitch(arg, sw,_) ->
let set =
free_variables_list
(free_variables_list (free_variables arg)
(List.map snd sw.sw_consts))
(List.map snd sw.sw_blocks)
in
begin match sw.sw_failaction with
| None -> set
| Some failaction -> Ident.Set.union set (free_variables failaction)
end
| Lstringswitch (arg,cases,default,_) ->
let set =
free_variables_list (free_variables arg)
(List.map snd cases)
in
begin match default with
| None -> set
| Some default -> Ident.Set.union set (free_variables default)
end
| Lstaticraise (_,args) ->
free_variables_list Ident.Set.empty args
| Lstaticcatch(body, (_, params), handler) ->
Ident.Set.union
(Ident.Set.diff
(free_variables handler)
(Ident.Set.of_list (List.map fst params)))
(free_variables body)
| Ltrywith(body, param, handler) ->
Ident.Set.union
(Ident.Set.remove
param
(free_variables handler))
(free_variables body)
| Lifthenelse(e1, e2, e3) ->
Ident.Set.union
(Ident.Set.union (free_variables e1) (free_variables e2))
(free_variables e3)
| Lsequence(e1, e2) ->
Ident.Set.union (free_variables e1) (free_variables e2)
| Lwhile(e1, e2) ->
Ident.Set.union (free_variables e1) (free_variables e2)
| Lfor(v, lo, hi, _dir, body) ->
let set = Ident.Set.union (free_variables lo) (free_variables hi) in
Ident.Set.union set (Ident.Set.remove v (free_variables body))
| Lassign(id, e) ->
Ident.Set.add id (free_variables e)
| Lsend (_k, met, obj, args, _) ->
free_variables_list
(Ident.Set.union (free_variables met) (free_variables obj))
args
| Levent (lam, _evt) ->
free_variables lam
| Lifused (_v, e) ->
(* Shouldn't v be considered a free variable ? *)
free_variables e
and free_variables_list set exprs =
List.fold_left (fun set expr -> Ident.Set.union (free_variables expr) set)
set exprs
(* Check if an action has a "when" guard *)
let raise_count = ref 0
let next_raise_count () =
incr raise_count ;
!raise_count
(* Anticipated staticraise, for guards *)
let staticfail = Lstaticraise (0,[])
let rec is_guarded = function
| Lifthenelse(_cond, _body, Lstaticraise (0,[])) -> true
| Llet(_str, _k, _id, _lam, body) -> is_guarded body
| Levent(lam, _ev) -> is_guarded lam
| _ -> false
let rec patch_guarded patch = function
| Lifthenelse (cond, body, Lstaticraise (0,[])) ->
Lifthenelse (cond, body, patch)
| Llet(str, k, id, lam, body) ->
Llet (str, k, id, lam, patch_guarded patch body)
| Levent(lam, ev) ->
Levent (patch_guarded patch lam, ev)
| _ -> fatal_error "Lambda.patch_guarded"
(* Translate an access path *)
let rec transl_address loc = function
| Env.Aident id ->
if Ident.global id
then Lprim(Pgetglobal id, [], loc)
else Lvar id
| Env.Adot(addr, pos) ->
Lprim(Pfield pos, [transl_address loc addr], loc)
let transl_path find loc env path =
match find path env with
| exception Not_found ->
fatal_error ("Cannot find address for: " ^ (Path.name path))
| addr -> transl_address loc addr
(* Translation of identifiers *)
let transl_module_path loc env path =
transl_path Env.find_module_address loc env path
let transl_value_path loc env path =
transl_path Env.find_value_address loc env path
let transl_extension_path loc env path =
transl_path Env.find_constructor_address loc env path
let transl_class_path loc env path =
transl_path Env.find_class_address loc env path
let transl_prim mod_name name =
let pers = Ident.create_persistent mod_name in
let env = Env.add_persistent_structure pers Env.empty in
let lid = Longident.Ldot (Longident.Lident mod_name, name) in
match Env.find_value_by_name lid env with
| path, _ -> transl_value_path Location.none env path
| exception Not_found ->
fatal_error ("Primitive " ^ name ^ " not found.")
(* Compile a sequence of expressions *)
let rec make_sequence fn = function
[] -> lambda_unit
| [x] -> fn x
| x::rem ->
let lam = fn x in Lsequence(lam, make_sequence fn rem)
(* Apply a substitution to a lambda-term.
Assumes that the image of the substitution is out of reach
of the bound variables of the lambda-term (no capture). *)
let subst update_env s lam =
let rec subst s lam =
let remove_list l s =
List.fold_left (fun s (id, _kind) -> Ident.Map.remove id s) s l
in
match lam with
| Lvar id as l ->
begin try Ident.Map.find id s with Not_found -> l end
| Lconst _ as l -> l
| Lapply ap ->
Lapply{ap with ap_func = subst s ap.ap_func;
ap_args = subst_list s ap.ap_args}
| Lfunction lf ->
let s =
List.fold_right
(fun (id, _) s -> Ident.Map.remove id s)
lf.params s
in
Lfunction {lf with body = subst s lf.body}
| Llet(str, k, id, arg, body) ->
Llet(str, k, id, subst s arg, subst (Ident.Map.remove id s) body)
| Lletrec(decl, body) ->
let s =
List.fold_left (fun s (id, _) -> Ident.Map.remove id s)
s decl
in
Lletrec(List.map (subst_decl s) decl, subst s body)
| Lprim(p, args, loc) -> Lprim(p, subst_list s args, loc)
| Lswitch(arg, sw, loc) ->
Lswitch(subst s arg,
{sw with sw_consts = List.map (subst_case s) sw.sw_consts;
sw_blocks = List.map (subst_case s) sw.sw_blocks;
sw_failaction = subst_opt s sw.sw_failaction; },
loc)
| Lstringswitch (arg,cases,default,loc) ->
Lstringswitch
(subst s arg,List.map (subst_strcase s) cases,subst_opt s default,loc)
| Lstaticraise (i,args) -> Lstaticraise (i, subst_list s args)
| Lstaticcatch(body, (id, params), handler) ->
Lstaticcatch(subst s body, (id, params),
subst (remove_list params s) handler)
| Ltrywith(body, exn, handler) ->
Ltrywith(subst s body, exn, subst (Ident.Map.remove exn s) handler)
| Lifthenelse(e1, e2, e3) -> Lifthenelse(subst s e1, subst s e2, subst s e3)
| Lsequence(e1, e2) -> Lsequence(subst s e1, subst s e2)
| Lwhile(e1, e2) -> Lwhile(subst s e1, subst s e2)
| Lfor(v, lo, hi, dir, body) ->
Lfor(v, subst s lo, subst s hi, dir,
subst (Ident.Map.remove v s) body)
| Lassign(id, e) ->
assert(not (Ident.Map.mem id s));
Lassign(id, subst s e)
| Lsend (k, met, obj, args, loc) ->
Lsend (k, subst s met, subst s obj, subst_list s args, loc)
| Levent (lam, evt) ->
let lev_env =
Ident.Map.fold (fun id _ env ->
match Env.find_value (Path.Pident id) evt.lev_env with
| exception Not_found -> env
| vd -> update_env id vd env
) s evt.lev_env
in
Levent (subst s lam, { evt with lev_env })
| Lifused (v, e) -> Lifused (v, subst s e)
and subst_list s l = List.map (subst s) l
and subst_decl s (id, exp) = (id, subst s exp)
and subst_case s (key, case) = (key, subst s case)
and subst_strcase s (key, case) = (key, subst s case)
and subst_opt s = function
| None -> None
| Some e -> Some (subst s e)
in
subst s lam
let rename idmap lam =
let update_env oldid vd env =
let newid = Ident.Map.find oldid idmap in
Env.add_value newid vd env
in
let s = Ident.Map.map (fun new_id -> Lvar new_id) idmap in
subst update_env s lam
let shallow_map f = function
| Lvar _
| Lconst _ as lam -> lam
| Lapply { ap_func; ap_args; ap_loc; ap_should_be_tailcall;
ap_inlined; ap_specialised } ->
Lapply {
ap_func = f ap_func;
ap_args = List.map f ap_args;
ap_loc;
ap_should_be_tailcall;
ap_inlined;
ap_specialised;
}
| Lfunction { kind; params; return; body; attr; loc; } ->
Lfunction { kind; params; return; body = f body; attr; loc; }
| Llet (str, k, v, e1, e2) ->
Llet (str, k, v, f e1, f e2)
| Lletrec (idel, e2) ->
Lletrec (List.map (fun (v, e) -> (v, f e)) idel, f e2)
| Lprim (p, el, loc) ->
Lprim (p, List.map f el, loc)
| Lswitch (e, sw, loc) ->
Lswitch (f e,
{ sw_numconsts = sw.sw_numconsts;
sw_consts = List.map (fun (n, e) -> (n, f e)) sw.sw_consts;
sw_numblocks = sw.sw_numblocks;
sw_blocks = List.map (fun (n, e) -> (n, f e)) sw.sw_blocks;
sw_failaction = Option.map f sw.sw_failaction;
},
loc)
| Lstringswitch (e, sw, default, loc) ->
Lstringswitch (
f e,
List.map (fun (s, e) -> (s, f e)) sw,
Option.map f default,
loc)
| Lstaticraise (i, args) ->
Lstaticraise (i, List.map f args)
| Lstaticcatch (body, id, handler) ->
Lstaticcatch (f body, id, f handler)
| Ltrywith (e1, v, e2) ->
Ltrywith (f e1, v, f e2)
| Lifthenelse (e1, e2, e3) ->
Lifthenelse (f e1, f e2, f e3)
| Lsequence (e1, e2) ->
Lsequence (f e1, f e2)
| Lwhile (e1, e2) ->
Lwhile (f e1, f e2)
| Lfor (v, e1, e2, dir, e3) ->
Lfor (v, f e1, f e2, dir, f e3)
| Lassign (v, e) ->
Lassign (v, f e)
| Lsend (k, m, o, el, loc) ->
Lsend (k, f m, f o, List.map f el, loc)
| Levent (l, ev) ->
Levent (f l, ev)
| Lifused (v, e) ->
Lifused (v, f e)
let map f =
let rec g lam = f (shallow_map g lam) in
g
(* To let-bind expressions to variables *)
let bind_with_value_kind str (var, kind) exp body =
match exp with
Lvar var' when Ident.same var var' -> body
| _ -> Llet(str, kind, var, exp, body)
let bind str var exp body =
bind_with_value_kind str (var, Pgenval) exp body
let negate_integer_comparison = function
| Ceq -> Cne
| Cne -> Ceq
| Clt -> Cge
| Cle -> Cgt
| Cgt -> Cle
| Cge -> Clt
let swap_integer_comparison = function
| Ceq -> Ceq
| Cne -> Cne
| Clt -> Cgt
| Cle -> Cge
| Cgt -> Clt
| Cge -> Cle
let negate_float_comparison = function
| CFeq -> CFneq
| CFneq -> CFeq
| CFlt -> CFnlt
| CFnlt -> CFlt
| CFgt -> CFngt
| CFngt -> CFgt
| CFle -> CFnle
| CFnle -> CFle
| CFge -> CFnge
| CFnge -> CFge
let swap_float_comparison = function
| CFeq -> CFeq
| CFneq -> CFneq
| CFlt -> CFgt
| CFnlt -> CFngt
| CFle -> CFge
| CFnle -> CFnge
| CFgt -> CFlt
| CFngt -> CFnlt
| CFge -> CFle
| CFnge -> CFnle
let raise_kind = function
| Raise_regular -> "raise"
| Raise_reraise -> "reraise"
| Raise_notrace -> "raise_notrace"
let merge_inline_attributes attr1 attr2 =
match attr1, attr2 with
| Default_inline, _ -> Some attr2
| _, Default_inline -> Some attr1
| _, _ ->
if attr1 = attr2 then Some attr1
else None
let function_is_curried func =
match func.kind with
| Curried -> true
| Tupled -> false
let reset () =
raise_count := 0
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