open Identifiers open Types open Values open Expressions module FunDefId = IdGen () type var = { index : VarId.id; (** Unique variable identifier *) name : string option; var_ty : ety; (** The variable type - erased type, because variables are not used ** in function signatures: they are only used to declare the list of ** variables manipulated by a function body *) } [@@deriving show] (** A variable, as used in a function definition *) type assumed_fun_id = BoxNew | BoxDeref | BoxDerefMut | BoxFree [@@deriving show] type fun_id = Local of FunDefId.id | Assumed of assumed_fun_id [@@deriving show] type assertion = { cond : operand; expected : bool } [@@deriving show] type fun_sig = { region_params : region_var list; num_early_bound_regions : int; type_params : type_var list; inputs : sty list; output : sty; } [@@deriving show] type call = { func : fun_id; region_params : erased_region list; type_params : ety list; args : operand list; dest : place; } [@@deriving show] type statement = | Assign of place * rvalue | FakeRead of place | SetDiscriminant of place * VariantId.id | Drop of place | Assert of assertion | Call of call | Panic | Return | Break of int (** Break to (outer) loop. The [int] identifies the loop to break to: * 0: break to the first outer loop (the current loop) * 1: break to the second outer loop * ... *) | Continue of int (** Continue to (outer) loop. The loop identifier works the same way as for [Break] *) | Nop | Sequence of statement * statement | Switch of operand * switch_targets | Loop of statement [@@deriving show] and switch_targets = | If of statement * statement (** Gives the "if" and "else" blocks *) | SwitchInt of integer_type * (scalar_value * statement) list * statement (** The targets for a switch over an integer are: - the list `(matched value, statement to execute)` - the "otherwise" statement. Also note that we precise the type of the integer (uint32, int64, etc.) which we switch on. *) [@@deriving show] type fun_def = { def_id : FunDefId.id; name : name; signature : fun_sig; divergent : bool; arg_count : int; locals : var list; body : statement; } [@@deriving show] (** TODO: function definitions (and maybe type definitions in the future) * contain information like `divergent`. I wonder if this information should * be stored directly inside the definitions or inside separate maps/sets. * Of course, if everything is stored in separate maps/sets, nothing * prevents us from computing this info in Charon (and thus exporting directly * it with the type/function defs), in which case we just have to implement special * treatment when deserializing, to move the info to a separate map. *)