X-Git-Url: http://plrg.eecs.uci.edu/git/?p=oota-llvm.git;a=blobdiff_plain;f=bindings%2Focaml%2Fexecutionengine%2Fllvm_executionengine.mli;h=bc076beaceab32c58f9ec96350684197cfbdaa27;hp=74a606287f427ea34946e93619aa2596751e7674;hb=e56023a059e5fafa97f0df32c65cf31cfc33ba17;hpb=adb277d42f2a8153c938dedcf3aaaacc1287c803

diff --git a/bindings/ocaml/executionengine/llvm_executionengine.mli b/bindings/ocaml/executionengine/llvm_executionengine.mli
index 74a606287f4..bc076beacea 100644
--- a/bindings/ocaml/executionengine/llvm_executionengine.mli
+++ b/bindings/ocaml/executionengine/llvm_executionengine.mli
@@ -1,4 +1,4 @@
-(*===-- llvm_executionengine.mli - LLVM OCaml Interface ---------*- C++ -*-===*
+(*===-- llvm_executionengine.mli - LLVM OCaml Interface -------*- OCaml -*-===*
  *
  *                     The LLVM Compiler Infrastructure
  *
@@ -10,147 +10,84 @@
 (** JIT Interpreter.
 
     This interface provides an OCaml API for LLVM execution engine (JIT/
-    interpreter), the classes in the ExecutionEngine library. *)
+    interpreter), the classes in the [ExecutionEngine] library. *)
 
 exception Error of string
 
-module GenericValue: sig
-  (** [GenericValue.t] is a boxed union type used to portably pass arguments to
-      and receive values from the execution engine. It supports only a limited
-      selection of types; for more complex argument types, it is necessary to
-      generate a stub function by hand or to pass parameters by reference.
-      See the struct [llvm::GenericValue]. *)
-  type t
-  
-  (** [of_float fpty n] boxes the float [n] in a float-valued generic value
-      according to the floating point type [fpty]. See the fields
-      [llvm::GenericValue::DoubleVal] and [llvm::GenericValue::FloatVal]. *)
-  val of_float : Llvm.lltype -> float -> t
-  
-  (** [of_pointer v] boxes the pointer value [v] in a generic value. See the
-      field [llvm::GenericValue::PointerVal]. *)
-  val of_pointer : 'a -> t
-  
-  (** [of_int32 n w] boxes the int32 [i] in a generic value with the bitwidth
-      [w]. See the field [llvm::GenericValue::IntVal]. *)
-  val of_int32 : Llvm.lltype -> int32 -> t
-  
-  (** [of_int n w] boxes the int [i] in a generic value with the bitwidth
-      [w]. See the field [llvm::GenericValue::IntVal]. *)
-  val of_int : Llvm.lltype -> int -> t
-  
-  (** [of_natint n w] boxes the native int [i] in a generic value with the
-      bitwidth [w]. See the field [llvm::GenericValue::IntVal]. *)
-  val of_nativeint : Llvm.lltype -> nativeint -> t
-
-  (** [of_int64 n w] boxes the int64 [i] in a generic value with the bitwidth
-      [w]. See the field [llvm::GenericValue::IntVal]. *)
-  val of_int64 : Llvm.lltype -> int64 -> t
-
-  (** [as_float fpty gv] unboxes the floating point-valued generic value [gv] of
-      floating point type [fpty]. See the fields [llvm::GenericValue::DoubleVal]
-      and [llvm::GenericValue::FloatVal]. *)
-  val as_float : Llvm.lltype -> t -> float
-  
-  (** [as_pointer gv] unboxes the pointer-valued generic value [gv]. See the
-      field [llvm::GenericValue::PointerVal]. *)
-  val as_pointer : t -> 'a
-  
-  (** [as_int32 gv] unboxes the integer-valued generic value [gv] as an [int32].
-      Is invalid if [gv] has a bitwidth greater than 32 bits. See the field
-      [llvm::GenericValue::IntVal]. *)
-  val as_int32 : t -> int32
-  
-  (** [as_int gv] unboxes the integer-valued generic value [gv] as an [int].
-      Is invalid if [gv] has a bitwidth greater than the host bit width (but the
-      most significant bit may be lost). See the field
-      [llvm::GenericValue::IntVal]. *)
-  val as_int : t -> int
-  
-  (** [as_natint gv] unboxes the integer-valued generic value [gv] as a
-      [nativeint]. Is invalid if [gv] has a bitwidth greater than
-      [nativeint]. See the field [llvm::GenericValue::IntVal]. *)
-  val as_nativeint : t -> nativeint
-  
-  (** [as_int64 gv] returns the integer-valued generic value [gv] as an [int64].
-      Is invalid if [gv] has a bitwidth greater than [int64]. See the field
-      [llvm::GenericValue::IntVal]. *)
-  val as_int64 : t -> int64
-end
-
-
-module ExecutionEngine: sig
-  (** An execution engine is either a JIT compiler or an interpreter, capable of
-      directly loading an LLVM module and executing its functions without first
-      invoking a static compiler and generating a native executable. *)
-  type t
-  
-  (** [create m] creates a new execution engine, taking ownership of the
-      module [m] if successful. Creates a JIT if possible, else falls back to an
-      interpreter. Raises [Error msg] if an error occurrs. The execution engine
-      is not garbage collected and must be destroyed with [dispose ee].
-      See the function [llvm::EngineBuilder::create]. *)
-  val create : Llvm.llmodule -> t
-  
-  (** [create_interpreter m] creates a new interpreter, taking ownership of the
-      module [m] if successful. Raises [Error msg] if an error occurrs. The
-      execution engine is not garbage collected and must be destroyed with
-      [dispose ee].
-      See the function [llvm::EngineBuilder::create]. *)
-  val create_interpreter : Llvm.llmodule -> t
-  
-  (** [create_jit m optlevel] creates a new JIT (just-in-time compiler), taking
-      ownership of the module [m] if successful with the desired optimization
-      level [optlevel]. Raises [Error msg] if an error occurrs. The execution
-      engine is not garbage collected and must be destroyed with [dispose ee].
-      See the function [llvm::EngineBuilder::create]. *)
-  val create_jit : Llvm.llmodule -> int -> t
-
-  (** [dispose ee] releases the memory used by the execution engine and must be
-      invoked to avoid memory leaks. *)
-  val dispose : t -> unit
-
-  (** [add_module m ee] adds the module [m] to the execution engine [ee]. *)
-  val add_module : Llvm.llmodule -> t -> unit
-  
-  (** [remove_module m ee] removes the module [m] from the execution engine
-      [ee], disposing of [m] and the module referenced by [mp]. Raises
-      [Error msg] if an error occurs. *)
-  val remove_module : Llvm.llmodule -> t -> Llvm.llmodule
-
-  (** [find_function n ee] finds the function named [n] defined in any of the
-      modules owned by the execution engine [ee]. Returns [None] if the function
-      is not found and [Some f] otherwise. *)
-  val find_function : string -> t -> Llvm.llvalue option
-  
-  (** [run_function f args ee] synchronously executes the function [f] with the
-      arguments [args], which must be compatible with the parameter types. *)
-  val run_function : Llvm.llvalue -> GenericValue.t array -> t ->
-                     GenericValue.t
-
-  (** [run_static_ctors ee] executes the static constructors of each module in
-      the execution engine [ee]. *)
-  val run_static_ctors : t -> unit
-  
-  (** [run_static_dtors ee] executes the static destructors of each module in
-      the execution engine [ee]. *)
-  val run_static_dtors : t -> unit
-  
-  (** [run_function_as_main f args env ee] executes the function [f] as a main
-      function, passing it [argv] and [argc] according to the string array
-      [args], and [envp] as specified by the array [env]. Returns the integer
-      return value of the function. *)
-  val run_function_as_main : Llvm.llvalue -> string array ->
-                                  (string * string) array -> t -> int
-
-  (** [free_machine_code f ee] releases the memory in the execution engine [ee]
-      used to store the machine code for the function [f]. *)
-  val free_machine_code : Llvm.llvalue -> t -> unit
-
-  (** [data_layout ee] is the data layout of the execution engine [ee]. *)
-  val data_layout : t -> Llvm_target.DataLayout.t
-end
-
-(** [initialize_native_target ()] initializes the native target corresponding
-    to the host. Returns [true] if initialization is {b not} done. *)
-val initialize_native_target : unit -> bool
+(** [initialize ()] initializes the backend corresponding to the host.
+    Returns [true] if initialization is successful; [false] indicates
+    that there is no such backend or it is unable to emit object code
+    via MCJIT. *)
+val initialize : unit -> bool
+
+(** An execution engine is either a JIT compiler or an interpreter, capable of
+    directly loading an LLVM module and executing its functions without first
+    invoking a static compiler and generating a native executable. *)
+type llexecutionengine
+
+(** MCJIT compiler options. See [llvm::TargetOptions]. *)
+type llcompileroptions = {
+  opt_level: int;
+  code_model: Llvm_target.CodeModel.t;
+  no_framepointer_elim: bool;
+  enable_fast_isel: bool;
+}
+
+(** Default MCJIT compiler options:
+    [{ opt_level = 0; code_model = CodeModel.JIT_default;
+       no_framepointer_elim = false; enable_fast_isel = false }] *)
+val default_compiler_options : llcompileroptions
+
+(** [create m optlevel] creates a new MCJIT just-in-time compiler, taking
+    ownership of the module [m] if successful with the desired optimization
+    level [optlevel]. Raises [Error msg] if an error occurrs. The execution
+    engine is not garbage collected and must be destroyed with [dispose ee].
+
+    Run {!initialize} before using this function.
+
+    See the function [llvm::EngineBuilder::create]. *)
+val create : ?options:llcompileroptions -> Llvm.llmodule -> llexecutionengine
+
+(** [dispose ee] releases the memory used by the execution engine and must be
+    invoked to avoid memory leaks. *)
+val dispose : llexecutionengine -> unit
+
+(** [add_module m ee] adds the module [m] to the execution engine [ee]. *)
+val add_module : Llvm.llmodule -> llexecutionengine -> unit
+
+(** [remove_module m ee] removes the module [m] from the execution engine
+    [ee]. Raises [Error msg] if an error occurs. *)
+val remove_module : Llvm.llmodule -> llexecutionengine -> unit
+
+(** [run_static_ctors ee] executes the static constructors of each module in
+    the execution engine [ee]. *)
+val run_static_ctors : llexecutionengine -> unit
+
+(** [run_static_dtors ee] executes the static destructors of each module in
+    the execution engine [ee]. *)
+val run_static_dtors : llexecutionengine -> unit
+
+(** [data_layout ee] is the data layout of the execution engine [ee]. *)
+val data_layout : llexecutionengine -> Llvm_target.DataLayout.t
+
+(** [add_global_mapping gv ptr ee] tells the execution engine [ee] that
+    the global [gv] is at the specified location [ptr], which must outlive
+    [gv] and [ee].
+    All uses of [gv] in the compiled code will refer to [ptr]. *)
+val add_global_mapping : Llvm.llvalue -> 'a Ctypes.ptr -> llexecutionengine -> unit
+
+(** [get_global_value_address id typ ee] returns a pointer to the
+    identifier [id] as type [typ], which will be a pointer type for a
+    value, and which will be live as long as [id] and [ee]
+    are. Caution: this function finalizes, i.e. forces code
+    generation, all loaded modules.  Further modifications to the
+    modules will not have any effect. *)
+val get_global_value_address : string -> 'a Ctypes.typ -> llexecutionengine -> 'a
+
+(** [get_function_address fn typ ee] returns a pointer to the function
+    [fn] as type [typ], which will be a pointer type for a function
+    (e.g. [(int -> int) typ]), and which will be live as long as [fn]
+    and [ee] are. Caution: this function finalizes, i.e. forces code
+    generation, all loaded modules.  Further modifications to the
+    modules will not have any effect. *)
+val get_function_address : string -> 'a Ctypes.typ -> llexecutionengine -> 'a