diff options
Diffstat (limited to 'src')
-rw-r--r-- | src/PureMicroPasses.ml | 60 | ||||
-rw-r--r-- | src/Translate.ml | 15 |
2 files changed, 61 insertions, 14 deletions
diff --git a/src/PureMicroPasses.ml b/src/PureMicroPasses.ml index 6b9b7425..2cf27a7f 100644 --- a/src/PureMicroPasses.ml +++ b/src/PureMicroPasses.ml @@ -8,6 +8,26 @@ open TranslateCore (** The local logger *) let log = L.pure_micro_passes_log +type config = { + unfold_monadic_let_bindings : bool; + (** Controls the unfolding of monadic let-bindings to explicit matches: + `y <-- f x; ...` + becomes: + `match f x with | Failure -> Failure | Return y -> ...` + + This is useful when extracting to F*: the support for monadic + definitions is not super powerful. + *) + filter_unused_monadic_calls : bool; + (** Controls whether we try to filter the calls to monadic functions + (which can fail) when their outputs are not used. + + See the comments for [expression_contains_child_call_in_all_paths] + for additional explanations. + *) +} +(** A configuration to control the application of the passes *) + (** Small utility. We sometimes have to insert new fresh variables in a function body, in which @@ -465,7 +485,8 @@ let expression_contains_child_call_in_all_paths (ctx : trans_ctx) (call0 : call) (** Filter the unused assignments (removes the unused variables, filters the function calls) *) -let filter_unused_assignments (ctx : trans_ctx) (def : fun_def) : fun_def = +let filter_unused_assignments (filter_monadic_calls : bool) (ctx : trans_ctx) + (def : fun_def) : fun_def = (* We first need a transformation on *left-values*, which filters the unused * variables and tells us whether the value contains any variable which has * not been replaced by `_` (in which case we need to keep the assignment, @@ -544,8 +565,8 @@ let filter_unused_assignments (ctx : trans_ctx) (def : fun_def) : fun_def = (* Monadic let-binding: trickier. * We can filter if the right-expression is a function call, * under some conditions. *) - match re with - | Call call -> + match (filter_monadic_calls, re) with + | true, Call call -> (* We need to check if there is a child call - see * the comments for: * [expression_contains_child_call_in_all_paths] *) @@ -557,7 +578,7 @@ let filter_unused_assignments (ctx : trans_ctx) (def : fun_def) : fun_def = else (* No child call: don't filter *) dont_filter () | _ -> - (* Not a call: we can't filter *) + (* Not a call or not allowed to filter: we can't filter *) dont_filter () else (* There are used variables: don't filter *) dont_filter () @@ -644,11 +665,16 @@ let unit_vars_to_unit (def : fun_def) : fun_def = (* Return *) { def with body; inputs_lvs } +(** Unfold the monadic let-bindings to explicit matches. *) +let unfold_monadic_let_bindings (ctx : trans_ctx) (def : fun_def) : fun_def = + raise Unimplemented + (** Apply all the micro-passes to a function. [ctx]: used only for printing. *) -let apply_passes_to_def (ctx : trans_ctx) (def : fun_def) : fun_def = +let apply_passes_to_def (config : config) (ctx : trans_ctx) (def : fun_def) : + fun_def = (* Debug *) log#ldebug (lazy @@ -694,18 +720,32 @@ let apply_passes_to_def (ctx : trans_ctx) (def : fun_def) : fun_def = (* Filter the unused assignments (removes the unused variables, filters * the function calls) *) - let def = filter_unused_assignments ctx def in + let def = + filter_unused_assignments config.filter_unused_monadic_calls ctx def + in log#ldebug (lazy ("filter_unused_assignments:\n\n" ^ fun_def_to_string ctx def ^ "\n")); - (* TODO: deconstruct the monadic bindings into matches *) + (* Unfold the monadic let-bindings *) + let def = + if config.unfold_monadic_let_bindings then ( + let def = unfold_monadic_let_bindings ctx def in + log#ldebug + (lazy + ("unfold_monadic_let_bindings:\n\n" ^ fun_def_to_string ctx def ^ "\n")); + def) + else ( + log#ldebug + (lazy "ignoring unfold_monadic_let_bindings due to the configuration\n"); + def) + in (* We are done *) def -let apply_passes_to_pure_fun_translation (ctx : trans_ctx) +let apply_passes_to_pure_fun_translation (config : config) (ctx : trans_ctx) (trans : pure_fun_translation) : pure_fun_translation = let forward, backwards = trans in - let forward = apply_passes_to_def ctx forward in - let backwards = List.map (apply_passes_to_def ctx) backwards in + let forward = apply_passes_to_def config ctx forward in + let backwards = List.map (apply_passes_to_def config ctx) backwards in (forward, backwards) diff --git a/src/Translate.ml b/src/Translate.ml index 005ace94..de408a24 100644 --- a/src/Translate.ml +++ b/src/Translate.ml @@ -16,11 +16,11 @@ type symbolic_fun_translation = V.symbolic_value list * SA.expression (** The result of running the symbolic interpreter on a function: - the list of symbolic values used for the input values - the generated symbolic AST - *) +*) (** Execute the symbolic interpreter on a function to generate a list of symbolic ASTs, for the forward function and the backward functions. - *) +*) let translate_function_to_symbolics (config : C.partial_config) (trans_ctx : trans_ctx) (fdef : A.fun_def) : symbolic_fun_translation * symbolic_fun_translation list = @@ -57,7 +57,7 @@ let translate_function_to_symbolics (config : C.partial_config) [fun_sigs]: maps the forward/backward functions to their signatures. In case of backward functions, we also provide names for the outputs. TODO: maybe we should introduce a record for this. - *) +*) let translate_function_to_pure (config : C.partial_config) (trans_ctx : trans_ctx) (fun_sigs : @@ -245,9 +245,16 @@ let translate_module_to_pure (config : C.partial_config) (m : M.cfim_module) : in (* Apply the micro-passes *) + (* TODO: move the configuration *) + let passes_config = + { + Micro.unfold_monadic_let_bindings = true; + filter_unused_monadic_calls = true; + } + in let pure_translations = List.map - (Micro.apply_passes_to_pure_fun_translation trans_ctx) + (Micro.apply_passes_to_pure_fun_translation passes_config trans_ctx) pure_translations in |