package ocaml-base-compiler

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type machtype_component =
  1. | Val
  2. | Addr
  3. | Int
  4. | Float
type machtype = machtype_component array
val typ_void : machtype
val typ_val : machtype
val typ_addr : machtype
val typ_int : machtype
val typ_float : machtype

Least upper bound of two machtype_components.

val ge_component : machtype_component -> machtype_component -> bool

Returns true iff the first supplied machtype_component is greater than or equal to the second under the relation used by lub_component.

type exttype =
  1. | XInt
    (*

    r OCaml value, word-sized integer

    *)
  2. | XInt32
    (*

    r 32-bit integer

    *)
  3. | XInt64
    (*

    r 64-bit integer

    *)
  4. | XFloat
    (*

    r double-precision FP number

    *)

A variant of machtype used to describe arguments to external C functions

val machtype_of_exttype : exttype -> machtype
val machtype_of_exttype_list : exttype list -> machtype
type integer_comparison = Lambda.integer_comparison =
  1. | Ceq
  2. | Cne
  3. | Clt
  4. | Cgt
  5. | Cle
  6. | Cge
val negate_integer_comparison : integer_comparison -> integer_comparison
val swap_integer_comparison : integer_comparison -> integer_comparison
type float_comparison = Lambda.float_comparison =
  1. | CFeq
  2. | CFneq
  3. | CFlt
  4. | CFnlt
  5. | CFgt
  6. | CFngt
  7. | CFle
  8. | CFnle
  9. | CFge
  10. | CFnge
val negate_float_comparison : float_comparison -> float_comparison
val swap_float_comparison : float_comparison -> float_comparison
type label = int
val new_label : unit -> label
type rec_flag =
  1. | Nonrecursive
  2. | Recursive
type phantom_defining_expr =
  1. | Cphantom_const_int of Targetint.t
    (*

    The phantom-let-bound variable is a constant integer. The argument must be the tagged representation of an integer within the range of type int on the target. (Analogously to Cconst_int.)

    *)
  2. | Cphantom_const_symbol of string
    (*

    The phantom-let-bound variable is an alias for a symbol.

    *)
  3. | Cphantom_var of Backend_var.t
    (*

    The phantom-let-bound variable is an alias for another variable. The aliased variable must not be a bound by a phantom let.

    *)
  4. | Cphantom_offset_var of {
    1. var : Backend_var.t;
    2. offset_in_words : int;
    }
    (*

    The phantom-let-bound-variable's value is defined by adding the given number of words to the pointer contained in the given identifier.

    *)
  5. | Cphantom_read_field of {
    1. var : Backend_var.t;
    2. field : int;
    }
    (*

    The phantom-let-bound-variable's value is found by adding the given number of words to the pointer contained in the given identifier, then dereferencing.

    *)
  6. | Cphantom_read_symbol_field of {
    1. sym : string;
    2. field : int;
    }
    (*

    As for Uphantom_read_var_field, but with the pointer specified by a symbol.

    *)
  7. | Cphantom_block of {
    1. tag : int;
    2. fields : Backend_var.t list;
    }
    (*

    The phantom-let-bound variable points at a block with the given structure.

    *)
type memory_chunk =
  1. | Byte_unsigned
  2. | Byte_signed
  3. | Sixteen_unsigned
  4. | Sixteen_signed
  5. | Thirtytwo_unsigned
  6. | Thirtytwo_signed
  7. | Word_int
  8. | Word_val
  9. | Single
  10. | Double
  11. | Double_u
and operation =
  1. | Capply of machtype
  2. | Cextcall of string * machtype * exttype list * bool * label option
    (*

    The machtype is the machine type of the result. The exttype list describes the unboxing types of the arguments. An empty list means "all arguments are machine words XInt".

    *)
  3. | Cload of memory_chunk * Asttypes.mutable_flag
  4. | Calloc
  5. | Cstore of memory_chunk * Lambda.initialization_or_assignment
  6. | Caddi
  7. | Csubi
  8. | Cmuli
  9. | Cmulhi
  10. | Cdivi
  11. | Cmodi
  12. | Cand
  13. | Cor
  14. | Cxor
  15. | Clsl
  16. | Clsr
  17. | Casr
  18. | Ccmpi of integer_comparison
  19. | Caddv
  20. | Cadda
  21. | Ccmpa of integer_comparison
  22. | Cnegf
  23. | Cabsf
  24. | Caddf
  25. | Csubf
  26. | Cmulf
  27. | Cdivf
  28. | Cfloatofint
  29. | Cintoffloat
  30. | Ccmpf of float_comparison
  31. | Craise of Lambda.raise_kind
  32. | Ccheckbound
and expression =
  1. | Cconst_int of int * Debuginfo.t
  2. | Cconst_natint of nativeint * Debuginfo.t
  3. | Cconst_float of float * Debuginfo.t
  4. | Cconst_symbol of string * Debuginfo.t
  5. | Cconst_pointer of int * Debuginfo.t
  6. | Cconst_natpointer of nativeint * Debuginfo.t
  7. | Cblockheader of nativeint * Debuginfo.t
  8. | Cvar of Backend_var.t
  9. | Clet of Backend_var.With_provenance.t * expression * expression
  10. | Cphantom_let of Backend_var.With_provenance.t * phantom_defining_expr option * expression
  11. | Cassign of Backend_var.t * expression
  12. | Ctuple of expression list
  13. | Cop of operation * expression list * Debuginfo.t
  14. | Csequence of expression * expression
  15. | Cifthenelse of expression * Debuginfo.t * expression * Debuginfo.t * expression * Debuginfo.t
  16. | Cswitch of expression * int array * (expression * Debuginfo.t) array * Debuginfo.t
  17. | Ccatch of rec_flag * (int * (Backend_var.With_provenance.t * machtype) list * expression * Debuginfo.t) list * expression
  18. | Cexit of int * expression list
  19. | Ctrywith of expression * Backend_var.With_provenance.t * expression * Debuginfo.t

Every basic block should have a corresponding Debuginfo.t for its beginning.

type codegen_option =
  1. | Reduce_code_size
  2. | No_CSE
type fundecl = {
  1. fun_name : string;
  2. fun_args : (Backend_var.With_provenance.t * machtype) list;
  3. fun_body : expression;
  4. fun_codegen_options : codegen_option list;
  5. fun_dbg : Debuginfo.t;
}
type data_item =
  1. | Cdefine_symbol of string
  2. | Cglobal_symbol of string
  3. | Cint8 of int
  4. | Cint16 of int
  5. | Cint32 of nativeint
  6. | Cint of nativeint
  7. | Csingle of float
  8. | Cdouble of float
  9. | Csymbol_address of string
  10. | Cstring of string
  11. | Cskip of int
  12. | Calign of int
type phrase =
  1. | Cfunction of fundecl
  2. | Cdata of data_item list
val reset : unit -> unit
val iter_shallow_tail : (expression -> unit) -> expression -> bool

Either apply the callback to all immediate sub-expressions that can produce the final result for the expression and return true, or do nothing and return false. Note that the notion of "tail" sub-expression used here does not match the one used to trigger tail calls; in particular, try...with handlers are considered to be in tail position (because their result become the final result for the expression).

val map_tail : (expression -> expression) -> expression -> expression

Apply the transformation to an expression, trying to push it to all inner sub-expressions that can produce the final result. Same disclaimer as for iter_shallow_tail about the notion of "tail" sub-expression.

val map_shallow : (expression -> expression) -> expression -> expression

Apply the transformation to each immediate sub-expression.

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