package ctypes
Combinators for binding to C libraries without writing any C
Install
Dune Dependency
Authors
Maintainers
Sources
0.23.0.tar.gz
sha256=cae47d815b27dd4c824a007f1145856044542fe2588d23a443ef4eefec360bf1
md5=b1af973ec9cf7867a63714e92df82f2a
doc/src/ctypes/ctypes_static.ml.html
Source file ctypes_static.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305(* * Copyright (c) 2013 Jeremy Yallop. * * This file is distributed under the terms of the MIT License. * See the file LICENSE for details. *) (* C type construction *) [@@@warning "-9"] exception IncompleteType exception ModifyingSealedType of string exception Unsupported of string let unsupported fmt = Printf.ksprintf (fun s -> raise (Unsupported s)) fmt type incomplete_size = { mutable isize: int } type structured_spec = { size: int; align: int; } type 'a structspec = Incomplete of incomplete_size | Complete of structured_spec type abstract_type = { aname : string; asize : int; aalignment : int; } type _ ocaml_type = String : string ocaml_type | Bytes : bytes ocaml_type | FloatArray : float array ocaml_type type qualifier = Const | Volatile type _ typ = Void : unit typ | Primitive : 'a Ctypes_primitive_types.prim -> 'a typ | Pointer : 'a typ -> 'a ptr typ | Funptr : 'a fn -> 'a static_funptr typ | Struct : 'a structure_type -> 'a structure typ | Union : 'a union_type -> 'a union typ | Abstract : abstract_type -> 'a abstract typ | View : ('a, 'b) view -> 'a typ | Qualified : qualifier * 'a typ -> 'a typ | Array : 'a typ * int -> 'a carray typ | Bigarray : (_, 'a, _) Ctypes_bigarray.t -> 'a typ | OCaml : 'a ocaml_type -> 'a ocaml typ and 'a carray = { astart : 'a ptr; alength : int } and ('a, 'kind) structured = { structured : ('a, 'kind) structured ptr } [@@unboxed] and 'a union = ('a, [`Union]) structured and 'a structure = ('a, [`Struct]) structured and 'a abstract = ('a, [`Abstract]) structured and (_, _) pointer = CPointer : (Obj.t option,'a typ) Ctypes_ptr.Fat.t -> ('a, [`C]) pointer | OCamlRef : int * 'a * 'a ocaml_type -> ('a, [`OCaml]) pointer and 'a ptr = ('a, [`C]) pointer and 'a ocaml = ('a, [`OCaml]) pointer and 'a static_funptr = Static_funptr : (Obj.t option, 'a fn) Ctypes_ptr.Fat.t -> 'a static_funptr and ('a, 'b) view = { read : 'b -> 'a; write : 'a -> 'b; format_typ: ((Format.formatter -> unit) -> Format.formatter -> unit) option; format: (Format.formatter -> 'a -> unit) option; ty: 'b typ; } and ('a, 's) field = { ftype: 'a typ; foffset: int; fname: string; } and 'a structure_type = { tag: string; mutable spec: 'a structspec; (* fields are in reverse order iff the struct type is incomplete *) mutable fields : 'a structure boxed_field list; } and 'a union_type = { utag: string; mutable uspec: structured_spec option; (* fields are in reverse order iff the union type is incomplete *) mutable ufields : 'a union boxed_field list; } and 's boxed_field = BoxedField : ('a, 's) field -> 's boxed_field and _ fn = | Returns : 'a typ -> 'a fn | Function : 'a typ * 'b fn -> ('a -> 'b) fn type _ bigarray_class = Genarray : < element: 'a; layout: 'l; dims: int array; ba_repr: 'b; bigarray: ('a, 'b, 'l) Bigarray_compat.Genarray.t; carray: 'a carray > bigarray_class | Array1 : < element: 'a; layout: 'l; dims: int; ba_repr: 'b; bigarray: ('a, 'b, 'l) Bigarray_compat.Array1.t; carray: 'a carray > bigarray_class | Array2 : < element: 'a; layout: 'l; dims: int * int; ba_repr: 'b; bigarray: ('a, 'b, 'l) Bigarray_compat.Array2.t; carray: 'a carray carray > bigarray_class | Array3 : < element: 'a; layout: 'l; dims: int * int * int; ba_repr: 'b; bigarray: ('a, 'b, 'l) Bigarray_compat.Array3.t; carray: 'a carray carray carray > bigarray_class type boxed_typ = BoxedType : 'a typ -> boxed_typ let rec sizeof : type a. a typ -> int = function Void -> raise IncompleteType | Primitive p -> Ctypes_primitives.sizeof p | Struct { spec = Incomplete _ } -> raise IncompleteType | Struct { spec = Complete { size } } -> size | Union { uspec = None } -> raise IncompleteType | Union { uspec = Some { size } } -> size | Array (t, i) -> i * sizeof t | Bigarray ba -> Ctypes_bigarray.sizeof ba | Abstract { asize } -> asize | Pointer _ -> Ctypes_primitives.pointer_size | Funptr _ -> Ctypes_primitives.pointer_size | OCaml _ -> raise IncompleteType | View { ty } -> sizeof ty | Qualified (_, ty) -> sizeof ty let rec alignment : type a. a typ -> int = function Void -> raise IncompleteType | Primitive p -> Ctypes_primitives.alignment p | Struct { spec = Incomplete _ } -> raise IncompleteType | Struct { spec = Complete { align } } -> align | Union { uspec = None } -> raise IncompleteType | Union { uspec = Some { align } } -> align | Array (t, _) -> alignment t | Bigarray ba -> Ctypes_bigarray.alignment ba | Abstract { aalignment } -> aalignment | Pointer _ -> Ctypes_primitives.pointer_alignment | Funptr _ -> Ctypes_primitives.pointer_alignment | OCaml _ -> raise IncompleteType | View { ty } -> alignment ty | Qualified (_, ty) -> alignment ty let rec passable : type a. a typ -> bool = function Void -> true | Primitive _ -> true | Struct { spec = Incomplete _ } -> raise IncompleteType | Struct { spec = Complete _ } -> true | Union { uspec = None } -> raise IncompleteType | Union { uspec = Some _ } -> true | Array _ -> false | Bigarray _ -> false | Pointer _ -> true | Funptr _ -> true | Abstract _ -> false | OCaml _ -> true | View { ty } -> passable ty | Qualified (_, ty) -> passable ty (* Whether a value resides in OCaml-managed memory. Values that reside in OCaml memory cannot be accessed when the runtime lock is not held. *) let rec ocaml_value : type a. a typ -> bool = function Void -> false | Primitive _ -> false | Struct _ -> false | Union _ -> false | Array _ -> false | Bigarray _ -> false | Pointer _ -> false | Funptr _ -> false | Abstract _ -> false | OCaml _ -> true | View { ty } -> ocaml_value ty | Qualified (_, ty) -> ocaml_value ty let rec has_ocaml_argument : type a. a fn -> bool = function Returns _ -> false | Function (t, _) when ocaml_value t -> true | Function (_, t) -> has_ocaml_argument t let void = Void let char = Primitive Ctypes_primitive_types.Char let schar = Primitive Ctypes_primitive_types.Schar let float = Primitive Ctypes_primitive_types.Float let double = Primitive Ctypes_primitive_types.Double let ldouble = Primitive Ctypes_primitive_types.LDouble let complex32 = Primitive Ctypes_primitive_types.Complex32 let complex64 = Primitive Ctypes_primitive_types.Complex64 let complexld = Primitive Ctypes_primitive_types.Complexld let short = Primitive Ctypes_primitive_types.Short let int = Primitive Ctypes_primitive_types.Int let sint = Primitive Ctypes_primitive_types.Sint let long = Primitive Ctypes_primitive_types.Long let llong = Primitive Ctypes_primitive_types.Llong let nativeint = Primitive Ctypes_primitive_types.Nativeint let int8_t = Primitive Ctypes_primitive_types.Int8_t let int16_t = Primitive Ctypes_primitive_types.Int16_t let int32_t = Primitive Ctypes_primitive_types.Int32_t let int64_t = Primitive Ctypes_primitive_types.Int64_t let camlint = Primitive Ctypes_primitive_types.Camlint let uchar = Primitive Ctypes_primitive_types.Uchar let bool = Primitive Ctypes_primitive_types.Bool let uint8_t = Primitive Ctypes_primitive_types.Uint8_t let uint16_t = Primitive Ctypes_primitive_types.Uint16_t let uint32_t = Primitive Ctypes_primitive_types.Uint32_t let uint64_t = Primitive Ctypes_primitive_types.Uint64_t let size_t = Primitive Ctypes_primitive_types.Size_t let ushort = Primitive Ctypes_primitive_types.Ushort let uint = Primitive Ctypes_primitive_types.Uint let ulong = Primitive Ctypes_primitive_types.Ulong let ullong = Primitive Ctypes_primitive_types.Ullong let array i t = Array (t, i) let ocaml_string = OCaml String let ocaml_bytes = OCaml Bytes let ocaml_float_array = OCaml FloatArray let ptr t = Pointer t let ( @->) f t = if not (passable f) then raise (Unsupported "Unsupported argument type") else Function (f, t) let abstract ~name ~size ~alignment = Abstract { aname = name; asize = size; aalignment = alignment } let view ?format_typ ?format ~read ~write ty = View { read; write; format_typ; format; ty } let id v = v let typedef old name = view ~format_typ:(fun k fmt -> Format.fprintf fmt "%s%t" name k) ~read:id ~write:id old let bigarray_ : type a b c d e l. < element: a; layout: l; dims: b; ba_repr: c; bigarray: d; carray: e > bigarray_class -> b -> (a, c) Bigarray_compat.kind -> l Bigarray_compat.layout -> d typ = fun spec dims kind l -> match spec with | Genarray -> Bigarray (Ctypes_bigarray.bigarray dims kind l) | Array1 -> Bigarray (Ctypes_bigarray.bigarray1 dims kind l) | Array2 -> let d1, d2 = dims in Bigarray (Ctypes_bigarray.bigarray2 d1 d2 kind l) | Array3 -> let d1, d2, d3 = dims in Bigarray (Ctypes_bigarray.bigarray3 d1 d2 d3 kind l) let bigarray spec c k = bigarray_ spec c k Bigarray_compat.c_layout let fortran_bigarray spec c k = bigarray_ spec c k Bigarray_compat.fortran_layout let returning v = if not (passable v) then raise (Unsupported "Unsupported return type") else Returns v let static_funptr fn = Funptr fn let structure tag = Struct { spec = Incomplete { isize = 0 }; tag; fields = [] } let union utag = Union { utag; uspec = None; ufields = [] } let offsetof { foffset } = foffset let field_type { ftype } = ftype let field_name { fname } = fname let rec const : type a. a typ -> a typ = function | Qualified (Const, _) as ty -> ty | Qualified (Volatile, ty) -> Qualified (Volatile, const ty) | ty -> Qualified (Const, ty) let rec volatile : type a. a typ -> a typ = function | Qualified (Volatile, _) as ty -> ty | Qualified (Const, ty) -> Qualified (Const, volatile ty) | ty -> Qualified (Volatile, ty) (* This corresponds to the enum in ctypes_primitives.h *) type arithmetic = Int8 | Int16 | Int32 | Int64 | Uint8 | Uint16 | Uint32 | Uint64 | Float | Double