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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. *)
(* *)
(**************************************************************************)
(* The "lambda" intermediate code *)
open Asttypes
type compile_time_constant =
| Big_endian
| Word_size
| Int_size
| Max_wosize
| Ostype_unix
| Ostype_win32
| Ostype_cygwin
| Backend_type
type loc_kind =
| Loc_FILE
| Loc_LINE
| Loc_MODULE
| Loc_LOC
| Loc_POS
type immediate_or_pointer =
| Immediate
| Pointer
type initialization_or_assignment =
| Assignment
(* Initialization of in heap values, like [caml_initialize] C primitive. The
field should not have been read before and initialization should happen
only once. *)
| Heap_initialization
(* Initialization of roots only. Compiles to a simple store.
No checks are done to preserve GC invariants. *)
| Root_initialization
type is_safe =
| Safe
| Unsafe
type primitive =
| Pidentity
| Pbytes_to_string
| Pbytes_of_string
| Pignore
| Prevapply
| Pdirapply
| Ploc of loc_kind
(* 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 *)
| Plazyforce
(* 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 comparison
| Poffsetint of int
| Poffsetref of int
(* Float operations *)
| Pintoffloat | Pfloatofint
| Pnegfloat | Pabsfloat
| Paddfloat | Psubfloat | Pmulfloat | Pdivfloat
| Pfloatcomp of 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
(** For [Pduparray], the argument must be an immutable array.
The arguments of [Pduparray] give the kind and mutability of the
array being *produced* by the duplication. *)
| 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
(* Bitvect operations *)
| Pbittest
(* 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 * comparison
(* Operations on big arrays: (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 big array *)
| 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
| Pstring_set_16 of bool
| Pstring_set_32 of bool
| Pstring_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 comparison =
Ceq | Cneq | Clt | Cgt | Cle | Cge
and array_kind =
Pgenarray | Paddrarray | Pintarray | Pfloatarray
and value_kind =
Pgenval | Pfloatval | Pboxedintval of boxed_integer | Pintval
and block_shape =
value_kind list option
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
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] *)
| Unroll of int (* [@unroll x] *)
| Default_inline (* no [@inline] attribute *)
type specialise_attribute =
| Always_specialise (* [@specialise] or [@specialise always] *)
| Never_specialise (* [@specialise never] *)
| Default_specialise (* no [@specialise] attribute *)
type function_kind = Curried | Tupled
type let_kind = Strict | Alias | StrictOpt | Variable
(* Meaning of kinds for let x = e in e':
Strict: e may have side-effets; always evaluate e first
(If e is a simple expression, e.g. a variable or constant,
we may still substitute e'[x/e].)
Alias: e is pure, we can substitute e'[x/e] if x has 0 or 1 occurrences
in e'
StrictOpt: e does not have side-effects, but depend on the store;
we can discard e if x does not appear in e'
Variable: the variable x is assigned later in e'
*)
type meth_kind = Self | Public | Cached
type shared_code = (int * int) list (* stack size -> code label *)
type function_attribute = {
inline : inline_attribute;
specialise : specialise_attribute;
is_a_functor: bool;
stub: bool;
}
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
(* switch on strings, clauses are sorted by string order,
strings are pairwise distinct *)
| Lstringswitch of
lambda * (string * lambda) list * lambda option * Location.t
| Lstaticraise of int * lambda list
| Lstaticcatch of lambda * (int * Ident.t 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 list;
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; (* true if [@tailcall] was specified *)
ap_inlined : inline_attribute; (* specified with the [@inlined] attribute *)
ap_specialised : specialise_attribute; }
and lambda_switch =
{ sw_numconsts: int; (* Number of integer cases *)
sw_consts: (int * lambda) list; (* Integer cases *)
sw_numblocks: int; (* Number of tag block cases *)
sw_blocks: (int * lambda) list; (* Tag block cases *)
sw_failaction : lambda option} (* Action to take if failure *)
and lambda_event =
{ lev_loc: Location.t;
lev_kind: lambda_event_kind;
lev_repr: int ref option;
lev_env: Env.summary }
and lambda_event_kind =
Lev_before
| Lev_after of Types.type_expr
| Lev_function
| Lev_pseudo
type program =
{ module_ident : Ident.t;
main_module_block_size : int;
required_globals : Ident.Set.t; (* Modules whose initializer side effects
must occur before [code]. *)
code : lambda }
(* Lambda code for the middle-end.
* In the closure case the code is a sequence of assignments to a
preallocated block of size [main_module_block_size] using
(Setfield(Getglobal(module_ident))). The size is used to preallocate
the block.
* In the flambda case the code is an expression returning a block
value of size [main_module_block_size]. The size is used to build
the module root as an initialize_symbol
Initialize_symbol(module_name, 0,
[getfield 0; ...; getfield (main_module_block_size - 1)])
*)
(* Sharing key *)
val make_key: lambda -> lambda option
val const_unit: structured_constant
val lambda_unit: lambda
val name_lambda: let_kind -> lambda -> (Ident.t -> lambda) -> lambda
val name_lambda_list: lambda list -> (lambda list -> lambda) -> lambda
val iter: (lambda -> unit) -> lambda -> unit
module IdentSet: Set.S with type elt = Ident.t
val free_variables: lambda -> IdentSet.t
val free_methods: lambda -> IdentSet.t
val transl_normal_path: Path.t -> lambda (* Path.t is already normal *)
val transl_path: ?loc:Location.t -> Env.t -> Path.t -> lambda
val make_sequence: ('a -> lambda) -> 'a list -> lambda
val subst_lambda: lambda Ident.tbl -> lambda -> lambda
val map : (lambda -> lambda) -> lambda -> lambda
val bind : let_kind -> Ident.t -> lambda -> lambda -> lambda
val commute_comparison : comparison -> comparison
val negate_comparison : comparison -> comparison
val default_function_attribute : function_attribute
val default_stub_attribute : function_attribute
(***********************)
(* For static failures *)
(***********************)
(* Get a new static failure ident *)
val next_raise_count : unit -> int
val next_negative_raise_count : unit -> int
(* Negative raise counts are used to compile 'match ... with
exception x -> ...'. This disabled some simplifications
performed by the Simplif module that assume that static raises
are in tail position in their handler. *)
val staticfail : lambda (* Anticipated static failure *)
(* Check anticipated failure, substitute its final value *)
val is_guarded: lambda -> bool
val patch_guarded : lambda -> lambda -> lambda
val raise_kind: raise_kind -> string
val lam_of_loc : loc_kind -> Location.t -> lambda
val reset: unit -> unit
|