module T = Types module PV = PrimitiveValues module V = Values module E = Expressions module C = Contexts module Subst = Substitute module A = LlbcAst module L = Logging module Inv = Invariants module S = SynthesizeSymbolic open Cps open InterpreterExpressions (** Pop the current frame. Drop all the local variables (which has the effect of moving their values to dummy variables, after ending the proper borrows of course) but the return variable, move the return value out of the return variable, remove all the local variables (but preserve the abstractions!), remove the {!constructor:C.env_elem.Frame} indicator delimiting the current frame and handle the return value to the continuation. If the boolean is false, we don't move the return value, and call the continuation with [None]. *) val pop_frame : C.config -> bool -> (V.typed_value option -> m_fun) -> m_fun (** Instantiate a function signature, introducing **fresh** abstraction ids and region ids. This is mostly used in preparation of function calls, when evaluating in symbolic mode of course. Note: there are no region parameters, because they should be erased. *) val instantiate_fun_sig : T.ety list -> T.const_generic list -> LA.fun_sig -> LA.inst_fun_sig (** Helper. Create a list of abstractions from a list of regions groups, and insert them in the context. Parameters: - [call_id] - [kind] - [rgl]: "region group list" - [region_can_end]: gives the region groups from which we generate functions which can end or not. - [compute_abs_avalues]: this function must compute, given an initialized, empty (i.e., with no avalues) abstraction, compute the avalues which should be inserted in this abstraction before we insert it in the context. Note that this function may update the context: it is necessary when computing borrow projections, for instance. - [ctx] *) val create_push_abstractions_from_abs_region_groups : (T.RegionGroupId.id -> V.abs_kind) -> LA.abs_region_group list -> (T.RegionGroupId.id -> bool) -> (V.abs -> C.eval_ctx -> C.eval_ctx * V.typed_avalue list) -> C.eval_ctx -> C.eval_ctx (** Evaluate a statement *) val eval_statement : C.config -> LA.statement -> st_cm_fun (** Evaluate a statement seen as a function body *) val eval_function_body : C.config -> LA.statement -> st_cm_fun