diff options
author | Son Ho | 2024-03-08 21:35:27 +0100 |
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committer | Son Ho | 2024-03-08 21:35:27 +0100 |
commit | 4c29c8ac811da52bf630a24b04b5f9ca67aa67c6 (patch) | |
tree | 48b9a5bcb26b9b5152f857098d1b53165c0f032e | |
parent | 677d7678f6b88075332a7e9ee6befc7c887b6a4f (diff) |
Fix a last issue
-rw-r--r-- | compiler/InterpreterLoops.ml | 3 | ||||
-rw-r--r-- | compiler/SymbolicToPure.ml | 158 |
2 files changed, 110 insertions, 51 deletions
diff --git a/compiler/InterpreterLoops.ml b/compiler/InterpreterLoops.ml index 55836e48..1d774e0e 100644 --- a/compiler/InterpreterLoops.ml +++ b/compiler/InterpreterLoops.ml @@ -190,6 +190,9 @@ let eval_loop_symbolic (config : config) (meta : meta) Moreover, we list the borrows in the same order as the loans (this is important in {!SymbolicToPure}, where we expect the given back values to have a specific order. + + Also, we filter the backward functions which and + return nothing. *) let compute_abs_given_back_tys (abs : abs) : rty list = let is_borrow (av : typed_avalue) : bool = diff --git a/compiler/SymbolicToPure.ml b/compiler/SymbolicToPure.ml index 06294af7..8e53f18a 100644 --- a/compiler/SymbolicToPure.ml +++ b/compiler/SymbolicToPure.ml @@ -128,6 +128,7 @@ type loop_info = { back_outputs : ty list RegionGroupId.Map.t; (** The map from region group ids to the types of the values given back by the corresponding loop abstractions. + This map is partial. *) back_funs : texpression option RegionGroupId.Map.t option; (** Same as {!call_info.back_funs}. @@ -329,6 +330,10 @@ let pure_ty_to_string (ctx : bs_ctx) (ty : ty) : string = let env = bs_ctx_to_pure_fmt_env ctx in PrintPure.ty_to_string env false ty +let pure_var_to_string (ctx : bs_ctx) (v : var) : string = + let env = bs_ctx_to_pure_fmt_env ctx in + PrintPure.var_to_string env v + let ty_to_string (ctx : bs_ctx) (ty : T.ty) : string = let env = bs_ctx_to_fmt_env ctx in Print.Types.ty_to_string env ty @@ -1251,41 +1256,56 @@ let mk_back_output_ty_from_effect_info (effect_info : fun_effect_info) (** Compute the arrow types for all the backward functions. If a backward function has no inputs/outputs we filter it. + + We may also filter the region group ids (param [keep_rg_ids]). + This is useful for the loops: not all the + parent function region groups can be linked to a region abstraction + introduced by the loop. *) let compute_back_tys_with_info (dsg : Pure.decomposed_fun_sig) + ?(keep_rg_ids : RegionGroupId.Set.t option = None) (subst : (generic_args * trait_instance_id) option) : (back_sg_info * ty) option list = + let keep_rg_id = + match keep_rg_ids with + | None -> fun _ -> true + | Some ids -> fun id -> RegionGroupId.Set.mem id ids + in List.map - (fun (back_sg : back_sg_info) -> - let effect_info = back_sg.effect_info in - (* Compute the input/output types *) - let inputs = List.map snd back_sg.inputs in - let outputs = back_sg.outputs in - (* Filter if necessary *) - if !Config.simplify_merged_fwd_backs && inputs = [] && outputs = [] then - None - else - let output = mk_simpl_tuple_ty outputs in - let output = - mk_back_output_ty_from_effect_info effect_info inputs output - in - let ty = mk_arrows inputs output in - (* Substitute - TODO: normalize *) - let ty = - match subst with - | None -> ty - | Some (generics, tr_self) -> - let subst = - make_subst_from_generics dsg.generics generics tr_self - in - ty_substitute subst ty - in - Some (back_sg, ty)) - (RegionGroupId.Map.values dsg.back_sg) + (fun ((rg_id, back_sg) : RegionGroupId.id * back_sg_info) -> + if keep_rg_id rg_id then + let effect_info = back_sg.effect_info in + (* Compute the input/output types *) + let inputs = List.map snd back_sg.inputs in + let outputs = back_sg.outputs in + (* Filter if necessary *) + if !Config.simplify_merged_fwd_backs && inputs = [] && outputs = [] then + None + else + let output = mk_simpl_tuple_ty outputs in + let output = + mk_back_output_ty_from_effect_info effect_info inputs output + in + let ty = mk_arrows inputs output in + (* Substitute - TODO: normalize *) + let ty = + match subst with + | None -> ty + | Some (generics, tr_self) -> + let subst = + make_subst_from_generics dsg.generics generics tr_self + in + ty_substitute subst ty + in + Some (back_sg, ty) + else (* We ignore this region group *) + None) + (RegionGroupId.Map.bindings dsg.back_sg) let compute_back_tys (dsg : Pure.decomposed_fun_sig) + ?(keep_rg_ids : RegionGroupId.Set.t option = None) (subst : (generic_args * trait_instance_id) option) : ty option list = - List.map (Option.map snd) (compute_back_tys_with_info dsg subst) + List.map (Option.map snd) (compute_back_tys_with_info dsg ~keep_rg_ids subst) (** Compute the output type of a function, from a decomposed signature (the output type contains the type of the value returned by the forward @@ -1405,8 +1425,14 @@ let fresh_opt_vars (vars : (string option * ty) option list) (ctx : bs_ctx) : (ctx, Some var)) ctx vars -(* Introduce variables for the backward functions *) -let fresh_back_vars_for_current_fun (ctx : bs_ctx) : bs_ctx * var option list = +(* Introduce variables for the backward functions. + + We may filter the region group ids. This is useful for the loops: not all the + parent function region groups can be linked to a region abstraction + introduced by the loop. +*) +let fresh_back_vars_for_current_fun (ctx : bs_ctx) + (keep_rg_ids : RegionGroupId.Set.t option) : bs_ctx * var option list = (* We lookup the LLBC definition in an attempt to derive pretty names for the backward functions. *) let back_var_names = @@ -1436,7 +1462,9 @@ let fresh_back_vars_for_current_fun (ctx : bs_ctx) : bs_ctx * var option list = Some name) (RegionGroupId.Map.bindings ctx.sg.back_sg) in - let back_vars = List.combine back_var_names (compute_back_tys ctx.sg None) in + let back_vars = + List.combine back_var_names (compute_back_tys ctx.sg ~keep_rg_ids None) + in let back_vars = List.map (fun (name, ty) -> @@ -1858,9 +1886,11 @@ let mk_emeta_symbolic_assignments (vars : var list) (values : texpression list) let rec translate_expression (e : S.expression) (ctx : bs_ctx) : texpression = match e with | S.Return (ectx, opt_v) -> - (* Remark: we can't get there if we are inside a loop *) + (* We reached a return. + Remark: we can't get there if we are inside a loop. *) translate_return ectx opt_v ctx | ReturnWithLoop (loop_id, is_continue) -> + (* We end the function with a call to a loop function. *) translate_return_with_loop loop_id is_continue ctx | Panic -> translate_panic ctx | FunCall (call, e) -> translate_function_call call e ctx @@ -1872,6 +1902,7 @@ let rec translate_expression (e : S.expression) (ctx : bs_ctx) : texpression = translate_intro_symbolic ectx p sv v e ctx | Meta (meta, e) -> translate_emeta meta e ctx | ForwardEnd (ectx, loop_input_values, e, back_e) -> + (* Translate the end of a function, or the end of a loop *) translate_forward_end ectx loop_input_values e back_e ctx | Loop loop -> translate_loop loop ctx @@ -2124,7 +2155,7 @@ and translate_function_call (call : S.call) (e : S.expression) (ctx : bs_ctx) : | Some (back_sg, ty) -> (* We insert a name for the variable only if the function can fail: if it can fail, it means the call returns a backward - function. Otherwise, we it directly returns the value given + function. Otherwise, it directly returns the value given back by the backward function, which means we shouldn't give it a name like "back..." (it doesn't make sense) *) let name = @@ -2997,15 +3028,9 @@ and translate_forward_end (ectx : C.eval_ctx) finish e in - (* There are two cases, depending on whether we are splitting the forward/backward - functions or not. - - - if we split, then we simply need to translate the proper "end" expression, - that is the end of the forward function, or of the backward function we - are currently translating. - - if we don't split, then we need to translate the end of the forward - function (this is the value we will return) and generate the bodies - of the backward functions (which we will also return). + (* We need to translate the end of the forward + function (this is the value we will return) and generate the bodies + of the backward functions (which we will also return). Update the current state with the additional state received by the backward function, if needs be, and lookup the proper expression. @@ -3016,11 +3041,28 @@ and translate_forward_end (ectx : C.eval_ctx) let ctx, pure_fwd_var = fresh_var None ctx.sg.fwd_output ctx in let fwd_e = translate_one_end ctx None in - (* Introduce the backward functions. *) + (* If we are translating a loop, we need to ignore the backward functions + which are not associated to region abstractions of the loop. *) + let keep_rg_ids = + match ctx.loop_id with + | None -> None + | Some loop_id -> + let loop_info = LoopId.Map.find loop_id ctx.loops in + Some + (RegionGroupId.Set.of_list + (RegionGroupId.Map.keys loop_info.back_outputs)) + in + let keep_rg_id = + match keep_rg_ids with + | None -> fun _ -> true + | Some ids -> fun id -> RegionGroupId.Set.mem id ids + in + let back_el = List.map (fun ((gid, _) : RegionGroupId.id * back_sg_info) -> - translate_one_end ctx (Some gid)) + if keep_rg_id gid then Some (translate_one_end ctx (Some gid)) + else None) (RegionGroupId.Map.bindings ctx.sg.back_sg) in @@ -3030,17 +3072,20 @@ and translate_forward_end (ectx : C.eval_ctx) inputs. *) let evaluate_backs = List.map - (fun (sg : back_sg_info) -> - if !Config.simplify_merged_fwd_backs then - sg.inputs = [] && sg.effect_info.can_fail - else false) - (RegionGroupId.Map.values ctx.sg.back_sg) + (fun ((rg_id, sg) : RegionGroupId.id * back_sg_info) -> + if keep_rg_id rg_id then + Some + (if !Config.simplify_merged_fwd_backs then + sg.inputs = [] && sg.effect_info.can_fail + else false) + else None) + (RegionGroupId.Map.bindings ctx.sg.back_sg) in (* Introduce variables for the backward functions. We lookup the LLBC definition in an attempt to derive pretty names for those functions. *) - let _, back_vars = fresh_back_vars_for_current_fun ctx in + let _, back_vars = fresh_back_vars_for_current_fun ctx keep_rg_ids in (* Create the return expressions *) let vars = @@ -3075,7 +3120,9 @@ and translate_forward_end (ectx : C.eval_ctx) let back_vars_els = List.filter_map (fun (v, (eval, el)) -> - match v with None -> None | Some v -> Some (v, eval, el)) + match v with + | None -> None + | Some v -> Some (v, Option.get eval, Option.get el)) (List.combine back_vars (List.combine evaluate_backs back_el)) in let e = @@ -3157,7 +3204,16 @@ and translate_forward_end (ectx : C.eval_ctx) backward functions of the outer function. *) let ctx, back_funs_map, back_funs = - let ctx, back_vars = fresh_back_vars_for_current_fun ctx in + (* We need to filter the region groups which are not linked to region + abstractions appearing in the loop, so as not to introduce unnecessary + backward functions. *) + let keep_rg_ids = + RegionGroupId.Set.of_list + (RegionGroupId.Map.keys loop_info.back_outputs) + in + let ctx, back_vars = + fresh_back_vars_for_current_fun ctx (Some keep_rg_ids) + in let back_funs = List.filter_map (fun v -> |