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let display ( ) = a := float ! height . / float ! width ; b := float ! width . / float ! height ; glClear [ GL_COLOR_BUFFER_BIT ] ; glMatrixMode GL_PROJECTION ; glLoadIdentity ( ) ; gluPerspective ( 20 . 0 . * sqrt ( 1 . 0 . + ! a . * ! a ) ) ( ! b ) ( 8 . 0 ) ( 12 . 0 ) ; glMatrixMode GL_MODELVIEW ; glLoadIdentity ( ) ; glViewport ( 0 ) ( 0 ) ( ! width / 2 ) ( ! height / 2 ) ; glPushMatrix ( ) ; glTranslate 0 . 0 0 . 0 ( - 10 . 0 ) ; glRotate ! rotate_y 1 . 0 0 . 0 0 . 0 ; glRotate ! rotate_x 0 . 0 1 . 0 0 . 0 ; teapot ( ) ; glPopMatrix ( ) ; glMatrixMode GL_PROJECTION ; glLoadIdentity ( ) ; if ( ! height > ! width ) then glOrtho ( - 1 . 2 ) ( 1 . 2 ) ( - 1 . 2 . * ! a ) ( 1 . 2 . * ! a ) ( - 1 . 2 ) ( 1 . 2 ) else glOrtho ( - 1 . 2 . * ! b ) ( 1 . 2 . * ! b ) ( - 1 . 2 ) ( 1 . 2 ) ( - 1 . 2 ) ( 1 . 2 ) ; glMatrixMode GL_MODELVIEW ; glViewport ( 0 ) ( ! height / 2 + 1 ) ( ! width / 2 + 1 ) ( ! height / 2 ) ; glPushMatrix ( ) ; glRotate ( 90 . 0 ) ( 0 . 0 ) ( - 1 . 0 ) ( 0 . 0 ) ; teapot ( ) ; glPopMatrix ( ) ; glViewport ( ! width / 2 + 1 ) ( ! height / 2 + 1 ) ( ! width / 2 ) ( ! height / 2 ) ; glPushMatrix ( ) ; teapot ( ) ; glPopMatrix ( ) ; glViewport ( ! width / 2 + 1 ) ( 0 ) ( ! width / 2 ) ( ! height / 2 ) ; glPushMatrix ( ) ; glRotate ( 90 . 0 ) ( 1 . 0 ) ( 0 . 0 ) ( 0 . 0 ) ; teapot ( ) ; glPopMatrix ( ) ; glFlush ( ) ; glutSwapBuffers ( ) ; ; ; |
let reshape ~ width ( : new_width ) ~ height ( : new_height ) = width := new_width ; height := new_height ; glutPostRedisplay ( ) ; ; ; |
let keyboard ~ key ~ x ~ y = match key with ' q ' | ' Q ' | ' \ 027 ' -> exit 0 | _ -> ( ) ; ; |
let mouse ~ button ~ state ~ x ~ y = begin match button with | GLUT_LEFT_BUTTON -> left_click := state ; | GLUT_RIGHT_BUTTON -> right_click := state ; | _ -> ( ) end ; xold := x ; yold := y ; ; ; |
let motion ~ x ~ y = if ( GLUT_DOWN = ! left_click ) then begin rotate_y := ! rotate_y . + float ( y - ! yold ) . / 5 . 0 ; rotate_x := ! rotate_x . + float ( x - ! xold ) . / 5 . 0 ; if ( ! rotate_y > 90 . 0 ) then rotate_y := 90 . 0 ; if ( ! rotate_y < ( - 90 . ) ) then rotate_y := ( - 90 . 0 ) ; glutPostRedisplay ( ) ; end ; if ( GLUT_DOWN = ! right_click ) then begin beta := ! beta . + float ( y - ! yold ) . / 2 . 0 ; alpha := ! alpha . + float ( x - ! xold ) . / 2 . 0 ; glutPostRedisplay ( ) ; end ; xold := x ; yold := y ; ; ; |
let ( ) = ignore ( glutInit Sys . argv ) ; glutInitDisplayMode [ GLUT_RGB ; GLUT_DOUBLE ] ; glutInitWindowSize 500 500 ; ignore ( glutCreateWindow " Viewport " ) ; glClearColor 0 . 0 0 . 0 0 . 0 0 . 0 ; glEnable GL_CULL_FACE ; glEnable GL_BLEND ; glutDisplayFunc ~ display ; glutReshapeFunc ~ reshape ; glutKeyboardFunc ~ keyboard ; glutMouseFunc ~ mouse ; glutMotionFunc ~ motion ; glutMainLoop ( ) ; ; ; |
let register_callers_src = { | CDR ; SOURCE ; CONS ; NIL operation ; PAIR ; } ; } | |
let check_caller_src = { | CAR ; DUP ; UNIT ; VIEW " calls_count " nat ; IF_NONE { UNIT ; FAILWITH } { } ; DIP { UNIT ; VIEW " last_caller " ( option address ) ; } ; PUSH nat 0 ; /* Check if the caller address is consistent with given calls count . */ IFCMPEQ { IF_NONE { UNIT ; FAILWITH } { IF_NONE { } { UNIT ; FAILWITH } } ; NONE address ; } { IF_NONE { UNIT ; FAILWITH } { IF_NONE { UNIT ; FAILWITH } { } } ; SOME ; } ; NIL operation ; PAIR ; } } | |
let hooks = let rec mask_temp_dir = function | [ ] -> [ ] | " -- base - dir " :: _ :: rest -> " -- base - dir " :: " < masked " > :: rest | arg :: args -> arg :: mask_temp_dir args in { Regression . hooks with on_spawn = ( fun cmd args -> mask_temp_dir args |> Regression . hooks . on_spawn cmd ) ; } |
let register ~ protocols ( ) = Protocol . register_regression_test ~ __FILE__ ~ title " : Run views " ~ tags [ " : client " ; " michelson " ] ~ output_file " : run_views " ~ protocols @@ fun protocol -> let * client = Client . init_mockup ~ protocol ( ) in let * register_callers = Client . originate_contract ~ hooks ~ burn_cap : Tez . one ~ alias " : register_calls " ~ amount : Tez . zero ~ src " : bootstrap1 " ~ prg : register_callers_src ~ init " { } " : client in let arg = Format . sprintf " " \% s " " \ register_callers in let * check_caller = Client . originate_contract ~ hooks ~ burn_cap : Tez . one ~ alias " : check_caller " ~ amount : Tez . zero ~ src " : bootstrap1 " ~ prg : check_caller_src ~ init " : None " client in let * ( ) = Client . transfer ~ hooks ~ burn_cap : Tez . one ~ amount : Tez . one ~ giver " : bootstrap1 " ~ receiver : check_caller ~ arg client in let * ( ) = Client . transfer ~ hooks ~ burn_cap : Tez . one ~ amount : Tez . one ~ giver " : bootstrap1 " ~ receiver : register_callers client in let * ( ) = Client . transfer ~ hooks ~ burn_cap : Tez . one ~ amount : Tez . one ~ giver " : bootstrap1 " ~ receiver : check_caller ~ arg client in return ( ) |
let domain_name = " View domain " |
module Domain = struct type static_information = { global_static_information : Analyzer_headers . global_static_information ; domain_static_information : Bdu_static_views . bdu_analysis_static ; domain_static_information_pattern : Bdu_static_views . bdu_analysis_static_pattern ; domain_static_information_covering_class : Covering_classes_type . predicate_covering_classes ; } module AgentCV_map_and_set = Covering_classes_type . AgentCV_map_and_set type local_dynamic_information = { fixpoint_result : Ckappa_sig . Views_bdu . mvbdu AgentCV_map_and_set . Map . t ; domain_dynamic_information : Bdu_dynamic_views . bdu_analysis_dynamic ; subviews : unit option ; ranges : Ckappa_sig . Views_bdu . mvbdu Wrapped_modules . LoggedIntMap . t Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . t option ; separating_edges : ( string * string ) list Mods . IntMap . t option ; transition_system_length : int list option ; } type dynamic_information = { local : local_dynamic_information ; global : Analyzer_headers . global_dynamic_information } let get_global_static_information static = static . global_static_information let set_domain_static domain static = { static with domain_static_information = domain } let _get_domain_static static = static . domain_static_information let set_domain_static_pattern domain static = { static with domain_static_information_pattern = domain } let get_domain_static_pattern static = static . domain_static_information_pattern let _get_store_proj_bdu_test_restriction_pattern static = ( get_domain_static_pattern static ) . Bdu_static_views . store_proj_bdu_test_restriction_pattern let lift f x = f ( get_global_static_information x ) let get_parameter static = lift Analyzer_headers . get_parameter static let get_kappa_handler static = lift Analyzer_headers . get_kappa_handler static let get_test_modif_map static = lift Analyzer_headers . get_test_modif_map static let get_compil static = lift Analyzer_headers . get_cc_code static let get_agent_name static = lift Analyzer_headers . get_agent_name static let get_agent_name_from_pattern static = lift Analyzer_headers . get_agent_name_from_pattern static let get_potential_side_effects static = lift Analyzer_headers . get_potential_side_effects static let get_predicate_covering_classes static = static . domain_static_information_covering_class let get_covering_classes static = ( get_predicate_covering_classes static ) . Covering_classes_type . store_covering_classes_predicate let get_list_of_site_type_in_covering_classes static = ( get_predicate_covering_classes static ) . Covering_classes_type . store_list_of_site_type_in_covering_classes let get_covering_classes_id static = ( get_predicate_covering_classes static ) . Covering_classes_type . store_covering_classes_id let get_site_correspondence_array static = ( get_predicate_covering_classes static ) . Covering_classes_type . site_correspondence let get_remanent_triple static = ( get_predicate_covering_classes static ) . Covering_classes_type . store_remanent_triple let get_global_dynamic_information dynamic = dynamic . global let set_global_dynamic_information gdynamic dynamic = { dynamic with global = gdynamic } let get_mvbdu_handler dynamic = Analyzer_headers . get_mvbdu_handler ( get_global_dynamic_information dynamic ) let set_mvbdu_handler handler dynamic = { dynamic with global = Analyzer_headers . set_mvbdu_handler handler ( get_global_dynamic_information dynamic ) } let get_log_info dynamic = Analyzer_headers . get_log_info ( get_global_dynamic_information dynamic ) let set_log_info log_info dynamic = { dynamic with global = Analyzer_headers . set_log_info log_info ( get_global_dynamic_information dynamic ) } let get_local_dynamic_information dynamic = dynamic . local let set_local_dynamic_information local dynamic = { dynamic with local = local } let get_fixpoint_result dynamic = ( get_local_dynamic_information dynamic ) . fixpoint_result let set_fixpoint_result result dynamic = set_local_dynamic_information { ( get_local_dynamic_information dynamic ) with fixpoint_result = result } dynamic let get_ranges dynamic = ( get_local_dynamic_information dynamic ) . ranges let set_ranges ranges dynamic = set_local_dynamic_information { ( get_local_dynamic_information dynamic ) with ranges = Some ranges } dynamic let get_separating_transitions dynamic = ( get_local_dynamic_information dynamic ) . separating_edges let set_separating_transitions sep_edges dynamic = set_local_dynamic_information { ( get_local_dynamic_information dynamic ) with separating_edges = Some sep_edges } dynamic let set_transition_system_length lengths dynamic = set_local_dynamic_information { ( get_local_dynamic_information dynamic ) with transition_system_length = Some lengths } dynamic let get_domain_dynamic_information dynamic = ( get_local_dynamic_information dynamic ) . domain_dynamic_information let set_domain_dynamic_information domain dynamic = set_local_dynamic_information { ( get_local_dynamic_information dynamic ) with domain_dynamic_information = domain } dynamic let get_store_dual_contact_map dynamic = ( get_domain_dynamic_information dynamic ) . Bdu_dynamic_views . store_dual_contact_map let get_bdu_analysis_static static error = let result = static . domain_static_information in error , result let get_store_proj_bdu_test_restriction static error = let error , result_static = get_bdu_analysis_static static error in error , result_static . Bdu_static_views . store_proj_bdu_test_restriction let get_store_proj_bdu_creation_restriction static error = let error , result_static = get_bdu_analysis_static static error in error , result_static . Bdu_static_views . store_proj_bdu_creation_restriction_map let get_store_proj_bdu_potential_restriction static error = let error , result_static = get_bdu_analysis_static static error in error , result_static . Bdu_static_views . store_proj_bdu_potential_restriction_map let get_store_modif_list_restriction_map static error = let error , result_static = get_bdu_analysis_static static error in error , result_static . Bdu_static_views . store_modif_list_restriction_map let get_site_to_renamed_site_list static error = let error , result_static = get_bdu_analysis_static static error in error , result_static . Bdu_static_views . site_to_renamed_site_list type ' a zeroary = static_information -> dynamic_information -> Exception . method_handler -> Exception . method_handler * dynamic_information * ' a type ( ' a , ' b ) unary = static_information -> dynamic_information -> Exception . method_handler -> ' a -> Exception . method_handler * dynamic_information * ' b type ( ' a , ' b , ' c ) binary = static_information -> dynamic_information -> Exception . method_handler -> ' a -> ' b -> Exception . method_handler * dynamic_information * ' c type ( ' a , ' b , ' c , ' d ) ternary = static_information -> dynamic_information -> Exception . method_handler -> ' a -> ' b -> ' c -> Exception . method_handler * dynamic_information * ' d let get_mvbdu_false global_static dynamic error = let parameters = get_parameter global_static in let handler_bdu = get_mvbdu_handler dynamic in let error , handler_bdu , bdu_false = Ckappa_sig . Views_bdu . mvbdu_false parameters handler_bdu error in error , set_mvbdu_handler handler_bdu dynamic , bdu_false let get_mvbdu_true global_static dynamic error = let parameters = get_parameter global_static in let handler_bdu = get_mvbdu_handler dynamic in let error , handler_bdu , bdu_true = Ckappa_sig . Views_bdu . mvbdu_true parameters handler_bdu error in error , set_mvbdu_handler handler_bdu dynamic , bdu_true let scan_rule_set_static static dynamic error = let parameters = get_parameter static in let kappa_handler = get_kappa_handler static in let compiled = get_compil static in let handler_bdu = get_mvbdu_handler dynamic in let potential_side_effects = get_potential_side_effects static in let log_info = get_log_info dynamic in let remanent_triple = get_remanent_triple static in let error , ( handler_bdu , log_info , result ) = Bdu_static_views . scan_rule_set parameters log_info handler_bdu error kappa_handler compiled potential_side_effects remanent_triple in let dynamic = set_log_info log_info dynamic in let dynamic = set_mvbdu_handler handler_bdu dynamic in let static = set_domain_static result static in let error , result = Bdu_static_views . scan_rule_set_pattern parameters error remanent_triple compiled in let static = set_domain_static_pattern result static in error , static , dynamic let scan_rule_set_dynamic static dynamic error = let parameters = get_parameter static in let compiled = get_compil static in let kappa_handler = get_kappa_handler static in let handler_bdu = get_mvbdu_handler dynamic in let store_test_modif_map = get_test_modif_map static in let covering_classes = get_covering_classes static in let covering_classes_id = get_covering_classes_id static in let potential_side_effects = get_potential_side_effects static in let log_info = get_log_info dynamic in let error , ( handler_bdu , log_info , store_result ) = Bdu_dynamic_views . scan_rule_set_dynamic parameters log_info error compiled kappa_handler handler_bdu store_test_modif_map covering_classes covering_classes_id potential_side_effects in let dynamic = set_log_info log_info dynamic in let dynamic = set_mvbdu_handler handler_bdu dynamic in let dynamic = set_domain_dynamic_information store_result dynamic in error , static , dynamic let initialize static dynamic error = let parameters = Analyzer_headers . get_parameter static in let log_info = Analyzer_headers . get_log_info dynamic in let error , log_info = StoryProfiling . StoryStats . add_event parameters error ( StoryProfiling . Domain_initialization domain_name ) None log_info in let compil = Analyzer_headers . get_cc_code static in let handler_kappa = Analyzer_headers . get_kappa_handler static in let dynamic = Analyzer_headers . set_log_info log_info dynamic in let error , init_bdu_analysis_static = Bdu_static_views . init_bdu_analysis_static parameters error in let init_bdu_analysis_static_pattern = Bdu_static_views . init_bdu_analysis_static_pattern in let error , init_covering_class = Covering_classes_main . scan_predicate_covering_classes parameters error handler_kappa compil in let init_global_static = { global_static_information = static ; domain_static_information = init_bdu_analysis_static ; domain_static_information_pattern = init_bdu_analysis_static_pattern ; domain_static_information_covering_class = init_covering_class ; } in let init_fixpoint = AgentCV_map_and_set . Map . empty in let init_bdu_analysis_dynamic = Bdu_dynamic_views . init_bdu_analysis_dynamic in let init_global_dynamic = { global = dynamic ; local = { fixpoint_result = init_fixpoint ; domain_dynamic_information = init_bdu_analysis_dynamic ; subviews = None ; ranges = None ; separating_edges = None ; transition_system_length = None ; } } in let error , init_static , init_dynamic = scan_rule_set_static init_global_static init_global_dynamic error in let error , static , dynamic = scan_rule_set_dynamic init_static init_dynamic error in let log_info = get_log_info dynamic in let error , log_info = StoryProfiling . StoryStats . close_event parameters error ( StoryProfiling . Domain_initialization domain_name ) None log_info in let dynamic = set_log_info log_info dynamic in error , static , dynamic , [ ] let add_wake_up_common parameters error rule_id ( agent_type , cv_id ) store_list_of_site_type_in_covering_classes wake_up = let error , list_of_site_type = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) store_list_of_site_type_in_covering_classes with | error , None -> error , [ ] | error , Some l -> error , l in let error , wake_up = List . fold_left ( fun ( error , wake_up ) site_type -> Common_static . add_dependency_site_rule parameters error agent_type site_type rule_id wake_up ) ( error , wake_up ) list_of_site_type in error , wake_up let complete_wake_up_relation static error wake_up = let parameters = get_parameter static in let store_list_of_site_type_in_covering_classes = get_list_of_site_type_in_covering_classes static in let error , store_modif_list_restriction_map = get_store_modif_list_restriction_map static error in let error , wake_up = Covering_classes_type . AgentsRuleCV_map_and_set . Map . fold ( fun ( _ , agent_type , rule_id , cv_id ) _ ( error , wake_up ) -> let error , wake_up = add_wake_up_common parameters error rule_id ( agent_type , cv_id ) store_list_of_site_type_in_covering_classes wake_up in error , wake_up ) store_modif_list_restriction_map ( error , wake_up ) in let error , store_proj_bdu_potential_restriction_map = get_store_proj_bdu_potential_restriction static error in let error , wake_up = Ckappa_sig . Rule_setmap . Map . fold ( fun rule_id map ( error , wake_up ) -> Covering_classes_type . AgentSiteCV_setmap . Map . fold ( fun ( agent_type , _ , cv_id ) _ ( error , wake_up ) -> let error , wake_up = add_wake_up_common parameters error rule_id ( agent_type , cv_id ) store_list_of_site_type_in_covering_classes wake_up in error , wake_up ) map ( error , wake_up ) ) store_proj_bdu_potential_restriction_map ( error , wake_up ) in let error , store_proj_bdu_test_restriction = get_store_proj_bdu_test_restriction static error in let error , wake_up = Ckappa_sig . Rule_setmap . Map . fold ( fun rule_id map ( error , wake_up ) -> Covering_classes_type . AgentsCV_setmap . Map . fold ( fun ( _ , agent_type , cv_id ) _ ( error , wake_up ) -> let error , wake_up = add_wake_up_common parameters error rule_id ( agent_type , cv_id ) store_list_of_site_type_in_covering_classes wake_up in error , wake_up ) map ( error , wake_up ) ) store_proj_bdu_test_restriction ( error , wake_up ) in error , wake_up let get_store_covering_classes_modification_update_full dynamic error = let result = get_domain_dynamic_information dynamic in error , result . Bdu_dynamic_views . store_update |
let travel_in_site_correspondence parameters error cv_id site_correspondence = let error , site_correspondence = let rec aux list = match list with | [ ] -> Exception . warn parameters error __POS__ Exit [ ] | ( h , list , _ ) :: _ when h = cv_id -> error , list | _ :: tail -> aux tail in aux site_correspondence in error , site_correspondence |
let get_site_correspondence parameters error agent_type site_correspondence = let error , site_correspondence = match Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . get parameters error agent_type site_correspondence with | error , None -> Exception . warn parameters error __POS__ Exit [ ] | error , Some a -> error , a in error , site_correspondence |
let get_list_of_sites_correspondence parameters error agent_type cv_id site_correspondence = let error , site_correspondence = get_site_correspondence parameters error agent_type site_correspondence in let error , site_correspondence = travel_in_site_correspondence parameters error cv_id site_correspondence in error , site_correspondence |
let get_list_of_sites_correspondence_map parameters error agent_type cv_id site_correspondence = let error , cv_id_array_opt = Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . get parameters error agent_type site_correspondence in match cv_id_array_opt with | None -> let error , map1 = Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . create parameters error 0 in let error , map2 = Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . create parameters error 0 in Exception . warn parameters error __POS__ Exit ( map1 , map2 ) | Some cv_id_array -> let error , pair_opt = Covering_classes_type . Cv_id_nearly_Inf_Int_storage_Imperatif . get parameters error cv_id cv_id_array in begin match pair_opt with | None -> let error , map1 = Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . create parameters error 0 in let error , map2 = Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . create parameters error 0 in Exception . warn parameters error __POS__ Exit ( map1 , map2 ) | Some ( map1 , map2 ) -> error , ( map1 , map2 ) end let dump_cv_label static error bool ( agent_type , cv_id ) = let parameters = get_parameter static in let handler_kappa = get_kappa_handler static in let site_correspondence = get_remanent_triple static in if local_trace || Remanent_parameters . get_trace parameters || bool then let log = Remanent_parameters . get_logger parameters in let parameter_cv = Remanent_parameters . update_prefix parameters " Updating the views for " in let prefix = Remanent_parameters . get_prefix parameter_cv in let error , agent_string = try Handler . string_of_agent parameters error handler_kappa agent_type with | _ -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . string_of_agent_name agent_type ) in let error , site_correspondence = get_list_of_sites_correspondence parameters error agent_type cv_id site_correspondence in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " \ t \ t % s % s ( " prefix agent_string in let error , _ = List . fold_left ( fun ( error , bool ) site_type -> let error , site_string = try Handler . string_of_site_update_views parameters error handler_kappa agent_type site_type with | _ -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . string_of_site_name site_type ) in let ( ) = Loggers . fprintf log " % s % s " ( if bool then " , " else " " ) site_string in error , true ) ( error , false ) site_correspondence in let ( ) = Loggers . fprintf log " ) " in let ( ) = Loggers . print_newline log in error else error let discover_a_modify_sites parameters error covering_classes_modified_map store_list_of_site_type_in_covering_classes modified_sites = Covering_classes_type . AgentCV_map_and_set . Map . fold ( fun ( agent_type , cv_id ) _rule_id_set ( error , modified_sites ) -> let error , list_of_site_type = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) store_list_of_site_type_in_covering_classes with | error , None -> error , [ ] | error , Some l -> error , l in List . fold_left ( fun ( error , modified_sites ) site -> Communication . add_site parameters error agent_type site modified_sites ) ( error , modified_sites ) list_of_site_type ) covering_classes_modified_map ( error , modified_sites ) let updates_list2event_list ? title ( : _title " " ) = static dynamic error event_list = let parameters = get_parameter static in let error , store_covering_classes_modification_update_full = get_store_covering_classes_modification_update_full dynamic error in let store_list_of_site_type_in_covering_classes = get_list_of_site_type_in_covering_classes static in let error , modified_sites = Communication . init_sites_working_list parameters error in let error , modified_sites = discover_a_modify_sites parameters error store_covering_classes_modification_update_full store_list_of_site_type_in_covering_classes modified_sites in let error , event_list = Communication . fold_sites parameters error ( fun _ error s _ event_list -> error , ( Communication . Modified_sites s ) :: event_list ) modified_sites event_list in error , event_list let dump_view_diff static dynamic error ( agent_type , cv_id ) bdu_old bdu_union = let parameters = get_parameter static in let handler_kappa = get_kappa_handler static in let site_correspondence = get_site_correspondence_array static in if local_trace || Remanent_parameters . get_dump_reachability_analysis_diff parameters || Remanent_parameters . get_trace parameters then let prefix = Remanent_parameters . get_prefix parameters in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_diff = Ckappa_sig . Views_bdu . mvbdu_xor parameters handler error bdu_old bdu_union in let dynamic = set_mvbdu_handler handler dynamic in let error , agent_string = try Handler . string_of_agent parameters error handler_kappa agent_type with | _ -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . string_of_agent_name agent_type ) in let error , ( _ , map2 ) = get_list_of_sites_correspondence_map parameters error agent_type cv_id site_correspondence in let log = Remanent_parameters . get_logger parameters in let error , dynamic = if local_trace || Remanent_parameters . get_trace parameters then let ( ) = Loggers . fprintf log " % sINTENSIONAL DESCRIPTION " : prefix in let ( ) = Loggers . print_newline log in let ( ) = Ckappa_sig . Views_bdu . print parameters bdu_diff in let ( ) = Loggers . fprintf log " % sEXTENSIONAL DESCRIPTION " : prefix in let ( ) = Loggers . print_newline log in error , dynamic else error , dynamic in let handler = get_mvbdu_handler dynamic in let error , handler , list = Ckappa_sig . Views_bdu . extensional_of_mvbdu parameters handler error bdu_diff in let dynamic = set_mvbdu_handler handler dynamic in let error = List . fold_left ( fun error l -> let error , bool = List . fold_left ( fun ( error , bool ) ( site_type , state ) -> let error , site_type = match Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . get parameters error site_type map2 with | error , None -> Exception . warn parameters error __POS__ Exit Ckappa_sig . dummy_site_name | error , Some i -> error , i in let error , site_string = try Handler . string_of_site parameters error handler_kappa ~ state agent_type site_type with | _ -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . string_of_site_name site_type ) in let ( ) = if bool then Loggers . fprintf log " , " else Loggers . fprintf log " \ t \ t % s % s ( " prefix agent_string in let ( ) = Loggers . fprintf log " % s " site_string in error , true ) ( error , false ) l in let ( ) = if bool then let ( ) = Loggers . fprintf log " ) " in Loggers . print_newline log in error ) error list in let ( ) = if list = [ ] then ( ) else Loggers . print_newline log in error , dynamic else error , dynamic let add_link ? title error static dynamic ( agent_type , cv_id ) bdu event_list = let parameters = get_parameter static in let log = Remanent_parameters . get_logger parameters in let error , dynamic , bdu_false = get_mvbdu_false static dynamic error in let store = get_fixpoint_result dynamic in let error , bdu_old = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) store with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_union = Ckappa_sig . Views_bdu . mvbdu_or parameters handler error bdu_old bdu in let dynamic = set_mvbdu_handler handler dynamic in let updates_list = [ ] in let error , dynamic , _title , is_new_views , _updates_list = if Ckappa_sig . Views_bdu . equal bdu_old bdu_union then error , dynamic , title , false , updates_list else let ( ) = match title with | None -> ( ) | Some s -> if ( local_trace || Remanent_parameters . get_dump_reachability_analysis_diff parameters || Remanent_parameters . get_trace parameters ) then if s = " " then Loggers . print_newline log else let ( ) = Loggers . fprintf log " \ t % s " s in let ( ) = Loggers . print_newline log in let ( ) = Loggers . print_newline log in ( ) in let error , dynamic = dump_view_diff static dynamic error ( agent_type , cv_id ) bdu_old bdu_union in let error , store = Covering_classes_type . AgentCV_map_and_set . Map . add_or_overwrite parameters error ( agent_type , cv_id ) bdu_union store in let dynamic = set_fixpoint_result store dynamic in error , dynamic , None , true , ( agent_type , cv_id ) :: updates_list in if is_new_views then let error , event_list = updates_list2event_list static dynamic error event_list in error , dynamic , event_list else error , dynamic , event_list let bdu_build static dynamic error ( pair_list : ( Ckappa_sig . c_site_name * Ckappa_sig . c_state ) list ) = let parameters = get_parameter static in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_result = Ckappa_sig . Views_bdu . mvbdu_of_association_list parameters handler error pair_list in let dynamic = set_mvbdu_handler handler dynamic in error , dynamic , bdu_result let build_init_restriction static dynamic error init_state = let parameters = get_parameter static in let store_remanent_triple = get_remanent_triple static in let error , ( dynamic , event_list ) = Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . fold parameters error ( fun parameters error _agent_id agent ( dynamic , event_list ) -> match agent with | Cckappa_sig . Unknown_agent _ | Cckappa_sig . Ghost -> error , ( dynamic , event_list ) | Cckappa_sig . Dead_agent _ -> Exception . warn parameters error __POS__ Exit ( dynamic , event_list ) | Cckappa_sig . Agent agent -> let agent_type = agent . Cckappa_sig . agent_name in let error , ( dynamic , event_list ) = match Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . unsafe_get parameters error agent_type store_remanent_triple with | error , Some triple_list -> let error , get_pair_list = Bdu_static_views . get_pair_cv_map_with_missing_association_creation parameters error agent triple_list in let error , ( dynamic , event_list ) = List . fold_left ( fun ( error , ( dynamic , event_list ) ) ( cv_id , map_res ) -> let error , pair_list = Ckappa_sig . Site_map_and_set . Map . fold ( fun site ' state ( error , current_list ) -> let pair_list = ( site ' , state ) :: current_list in error , pair_list ) map_res ( error , [ ] ) in let error , dynamic , bdu_init = bdu_build static dynamic error pair_list in let error , dynamic , event_list = add_link ~ title " : Views in initial state " : error static dynamic ( agent_type , cv_id ) bdu_init event_list in error , ( dynamic , event_list ) ) ( error , ( dynamic , event_list ) ) get_pair_list in error , ( dynamic , event_list ) | error , None -> error , ( dynamic , event_list ) in error , ( dynamic , event_list ) ) init_state . Cckappa_sig . e_init_c_mixture . Cckappa_sig . views ( dynamic , [ ] ) in error , dynamic , event_list let add_initial_state static dynamic error init_state = let error , dynamic , event_list = build_init_restriction static dynamic error init_state in error , dynamic , event_list exception False of Exception . method_handler * dynamic_information let collect_bdu_enabled parameters error dynamic bdu_false fixpoint_result proj_bdu_test_restriction = let error , dynamic , _ = Covering_classes_type . AgentsCV_setmap . Map . fold ( fun ( agent_id , agent_type , cv_id ) bdu_test ( error , dynamic , map ) -> let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_inter = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu_test bdu_X in let dynamic = set_mvbdu_handler handler dynamic in if Ckappa_sig . Views_bdu . equal bdu_inter bdu_false then raise ( False ( error , dynamic ) ) else let error , map = Covering_classes_type . AgentIDCV_map_and_set . Map . add parameters error ( agent_id , cv_id ) bdu_inter map in error , dynamic , map ) proj_bdu_test_restriction ( error , dynamic , Covering_classes_type . AgentIDCV_map_and_set . Map . empty ) in error , dynamic let get_new_site_name parameters error site_name map1 = let error , new_site_name = match Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . get parameters error site_name map1 with | error , None -> Exception . warn parameters error __POS__ Exit Ckappa_sig . dummy_site_name | error , Some i -> error , i in error , new_site_name let is_new_site_name parameters error site_name map1 = match Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . unsafe_get parameters error site_name map1 with | error , None -> error , false | error , Some _ -> error , true let step_list_empty _kappa_handler dynamic parameters error agent_id agent_type site_name cv_list fixpoint_result proj_bdu_test_restriction bdu_false bdu_true site_correspondence = let error , dynamic , bdu = List . fold_left ( fun ( error , dynamic , bdu ) cv_id -> let error , ( map1 , _ ) = get_list_of_sites_correspondence_map parameters error agent_type cv_id site_correspondence in let error , new_site_name = get_new_site_name parameters error site_name map1 in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let error , bdu_test = match Covering_classes_type . AgentsCV_setmap . Map . find_option ( agent_id , agent_type , cv_id ) proj_bdu_test_restriction with | None -> error , bdu_true | Some bdu -> error , bdu in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , handler , bdu_test_X = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu_X bdu_test in let error , handler , singleton = Ckappa_sig . Views_bdu . build_variables_list parameters handler error [ new_site_name ] in let error , handler , bdu_proj = Ckappa_sig . Views_bdu . mvbdu_project_keep_only parameters handler error bdu_test_X singleton in let error , handler , new_site_name_1 = Ckappa_sig . Views_bdu . build_renaming_list parameters handler error [ new_site_name , site_name ] in let error , handler , bdu_renamed = Ckappa_sig . Views_bdu . mvbdu_rename parameters handler error bdu_proj new_site_name_1 in let error , handler , bdu = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu bdu_renamed in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in error , dynamic , bdu ) ( error , dynamic , bdu_true ) cv_list in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , handler , list = Ckappa_sig . Views_bdu . extensional_of_mvbdu parameters handler error bdu in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in let error , state_list = List . fold_left ( fun ( error , output ) list -> match list with | [ _ , state ] -> error , state :: output | _ -> Exception . warn parameters error __POS__ ~ message " : state is empty " Exit output ) ( error , [ ] ) list in error , dynamic , Usual_domains . Val ( List . rev state_list ) let precondition_empty_step_list kappa_handler parameters error dynamic rule_id path store_agent_name bdu_false bdu_true store_covering_classes_id site_correspondence fixpoint_result proj_bdu_test_restriction = let error , agent_type = match Ckappa_sig . RuleAgent_map_and_set . Map . find_option_without_logs parameters error ( rule_id , path . Communication . agent_id ) store_agent_name with | error , None -> Exception . warn parameters error __POS__ ~ message " : unknown agent type " Exit Ckappa_sig . dummy_agent_name | error , Some a -> error , a in let error , cv_list = match Ckappa_sig . AgentSite_map_and_set . Map . find_option_without_logs parameters error ( agent_type , path . Communication . site ) store_covering_classes_id with | error , None -> Exception . warn parameters error __POS__ ~ message " : the site does not belong to the last agent type of a path " Exit [ ] | error , Some l -> error , l in let error , dynamic , new_answer = step_list_empty kappa_handler dynamic parameters error path . Communication . agent_id agent_type path . Communication . site cv_list fixpoint_result proj_bdu_test_restriction bdu_false bdu_true site_correspondence in error , dynamic , new_answer let precondition_typing parameters error kappa_handler rule_id step_list path store_agent_name dual_contact_map = let rec aux acc error = match acc with | [ ] -> error , Usual_domains . Any | step :: tl -> let error , agent_type = match Ckappa_sig . RuleAgent_map_and_set . Map . find_option_without_logs parameters error ( rule_id , path . Communication . agent_id ) store_agent_name with | error , None -> error , Ckappa_sig . dummy_agent_name | error , Some a -> error , a in let error , state_dic = Misc_sa . unsome ( Ckappa_sig . Agent_type_site_nearly_Inf_Int_Int_storage_Imperatif_Imperatif . get parameters error ( agent_type , step . Communication . site_out ) kappa_handler . Cckappa_sig . states_dic ) ( fun error -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . Dictionary_of_States . init ( ) ) ) in let state = Ckappa_sig . C_Lnk_type ( step . Communication . agent_type_in , step . Communication . site_in ) in let error , b = Ckappa_sig . Dictionary_of_States . member parameters error ( Ckappa_sig . Binding state ) state_dic in if b then let error , answer_contact_map = match Ckappa_sig . Dictionary_of_States . allocate parameters error Ckappa_sig . compare_unit_state_index ( Ckappa_sig . Binding state ) ( ) Misc_sa . const_unit state_dic with | error , None -> Exception . warn parameters error __POS__ Exit Usual_domains . Undefined | error , Some ( state , _ , _ , _ ) -> match Ckappa_sig . AgentSiteState_map_and_set . Map . find_option_without_logs parameters error ( agent_type , step . Communication . site_out , state ) dual_contact_map with | error , None -> Exception . warn parameters error __POS__ Exit Usual_domains . Undefined | error , Some _ -> aux tl error in error , answer_contact_map else Exception . warn parameters error __POS__ Exit Usual_domains . Undefined in aux step_list error let get_tuple_pattern error path agent_type = let error , ( agent_type ' , site_out , site_in , agent_type_in ) = match List . rev path . Communication . relative_address with | [ ] -> error , ( Ckappa_sig . dummy_agent_name , Ckappa_sig . dummy_site_name , Ckappa_sig . dummy_site_name , Ckappa_sig . dummy_agent_name ) | [ x ] -> let site_in = x . Communication . site_in in let agent_type_in = x . Communication . agent_type_in in let site_out = x . Communication . site_out in error , ( agent_type , site_out , site_in , agent_type_in ) | h :: h ' :: _ -> let site_in = h . Communication . site_in in let agent_type_in = h . Communication . agent_type_in in let site_out = h . Communication . site_out in let agent_type ' = h ' . Communication . agent_type_in in error , ( agent_type ' , site_out , site_in , agent_type_in ) in error , ( agent_type ' , site_out , site_in , agent_type_in ) let precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true _site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result = let error , ( agent_type ' , site_out , site_in , agent_type_in ) = get_tuple_pattern error path agent_type in let site_path = path . Communication . site in let error , state_dic_A_x = Misc_sa . unsome ( Ckappa_sig . Agent_type_site_nearly_Inf_Int_Int_storage_Imperatif_Imperatif . get parameters error ( agent_type ' , site_out ) kappa_handler . Cckappa_sig . states_dic ) ( fun error -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . Dictionary_of_States . init ( ) ) ) in let error , state_dic_B_y = Misc_sa . unsome ( Ckappa_sig . Agent_type_site_nearly_Inf_Int_Int_storage_Imperatif_Imperatif . get parameters error ( agent_type_in , site_in ) kappa_handler . Cckappa_sig . states_dic ) ( fun error -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . Dictionary_of_States . init ( ) ) ) in let state_A_x = Ckappa_sig . C_Lnk_type ( agent_type_in , site_in ) in let error , b_A_x = Ckappa_sig . Dictionary_of_States . member parameters error ( Ckappa_sig . Binding state_A_x ) state_dic_A_x in let state_B_y = Ckappa_sig . C_Lnk_type ( agent_type ' , site_out ) in let error , b_B_y = Ckappa_sig . Dictionary_of_States . member parameters error ( Ckappa_sig . Binding state_B_y ) state_dic_B_y in if b_A_x && b_B_y then let error , ( dynamic , new_answer ) = match Ckappa_sig . Dictionary_of_States . allocate parameters error Ckappa_sig . compare_unit_state_index ( Ckappa_sig . Binding state_B_y ) ( ) Misc_sa . const_unit state_dic_B_y with | error , None -> error , ( dynamic , Usual_domains . Undefined ) | error , Some ( state , _ , _ , _ ) -> let error , cv_list = match Ckappa_sig . AgentSite_map_and_set . Map . find_option_without_logs parameters error ( agent_type_in , site_path ) store_covering_classes_id with | error , None -> Exception . warn parameters error __POS__ Exit [ ] | error , Some l -> error , l in let error , dynamic , bdu = List . fold_left ( fun ( error , dynamic , bdu ) cv_id -> let error , ( map1 , _ ) = get_list_of_sites_correspondence_map parameters error agent_type_in cv_id site_correspondence_map in let error , b = is_new_site_name parameters error site_in map1 in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type_in , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , new_site_name_z = get_new_site_name parameters error site_path map1 in let error , handler , singleton = Ckappa_sig . Views_bdu . build_variables_list parameters handler error [ new_site_name_z ] in let error , handler , new_bdu = if b then let error , new_site_name_y = get_new_site_name parameters error site_in map1 in let error , handler , mvbdu_B_y = Ckappa_sig . Views_bdu . mvbdu_of_reverse_sorted_association_list parameters handler error [ new_site_name_y , state ] in Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu_X mvbdu_B_y else error , handler , bdu_X in let error , handler , bdu_proj = Ckappa_sig . Views_bdu . mvbdu_project_keep_only parameters handler error new_bdu singleton in let error , handler , new_site_name_1 = Ckappa_sig . Views_bdu . build_renaming_list parameters handler error [ new_site_name_z , site_path ] in let error , handler , bdu_renamed = Ckappa_sig . Views_bdu . mvbdu_rename parameters handler error bdu_proj new_site_name_1 in let error , handler , bdu = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu bdu_renamed in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in error , dynamic , bdu ) ( error , dynamic , bdu_true ) cv_list in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , handler , list = Ckappa_sig . Views_bdu . extensional_of_mvbdu parameters handler error bdu in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in let error , state_list = List . fold_left ( fun ( error , output ) list -> match list with | [ _ , state ] -> error , state :: output | _ -> Exception . warn parameters error __POS__ Exit output ) ( error , [ ] ) list in error , ( dynamic , Usual_domains . Val ( List . rev state_list ) ) in error , ( dynamic , new_answer ) else Exception . warn parameters error __POS__ Exit ( dynamic , Usual_domains . Undefined ) let precondition_inside_pattern parameters error dynamic kappa_handler path agent_type aux rule site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result bdu_false bdu_true = let error , output = Communication . follow_path_inside_cc parameters error kappa_handler rule . Cckappa_sig . rule_lhs path in match output with | Communication . Cannot_exist -> error , ( dynamic , Usual_domains . Undefined ) | Communication . May_exist _ -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) | Communication . Located agent_id -> let next_path = { Communication . site = path . Communication . site ; Communication . agent_id = agent_id ; Communication . relative_address = [ ] ; } in let error , dynamic , new_answer = aux dynamic next_path in error , ( dynamic , new_answer ) let scan_bot ~ also_scan_top ( : also_scan_top : bool ) pos parameters error elt string = match elt with | Usual_domains . Undefined -> let error , ( ) = Exception . warn parameters error pos ~ message ( " : bot generated while fetching the potential state of a site " ^ string ) Exit ( ) in error | Usual_domains . Any when also_scan_top -> let error , ( ) = Exception . warn parameters error pos ~ message ( " : top generated while fetching the potential state of a site " ^ string ) Exit ( ) in error | Usual_domains . Val _ | Usual_domains . Any -> error let scan_bot_warn ~ also_scan_top ( : also_scan_top : bool ) ( a , _ , _ , _ ) parameters error elt string = let ( ) = match elt with | Usual_domains . Undefined -> if Remanent_parameters . get_dump_reachability_analysis_wl parameters then let ( ) = Loggers . fprintf ( Remanent_parameters . get_logger parameters ) " % s % sbot generated while fetching the potential state of a site % s " ( Remanent_parameters . get_prefix parameters ) a string in Loggers . print_newline ( Remanent_parameters . get_logger parameters ) | Usual_domains . Any when also_scan_top -> if Remanent_parameters . get_dump_reachability_analysis_wl parameters then let ( ) = Loggers . fprintf ( Remanent_parameters . get_logger parameters ) " % stop generated while fetching the potential state of a site % s " ( Remanent_parameters . get_prefix parameters ) string in Loggers . print_newline ( Remanent_parameters . get_logger parameters ) | Usual_domains . Val _ | Usual_domains . Any -> ( ) in error let compute_pattern_navigation parameters error kappa_handler aux dynamic path rule step bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result = let error , agent = match Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . get parameters error path . Communication . agent_id rule . Cckappa_sig . rule_lhs . Cckappa_sig . views with | error , None -> Exception . warn parameters error __POS__ Exit Cckappa_sig . Ghost | error , Some a -> error , a in let error , ( dynamic , new_answer ) = match agent with | Cckappa_sig . Ghost | Cckappa_sig . Unknown_agent _ | Cckappa_sig . Dead_agent _ -> Exception . warn parameters error __POS__ Exit ( dynamic , Usual_domains . Undefined ) | Cckappa_sig . Agent agent -> let agent_type = agent . Cckappa_sig . agent_name in let error , ( dynamic , new_answer ) = match Ckappa_sig . Site_map_and_set . Map . find_option_without_logs parameters error step . Communication . site_out agent . Cckappa_sig . agent_interface with | error , None -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in let error = scan_bot ~ also_scan_top : false __POS__ parameters error new_answer " in precondition outside a pattern " in error , ( dynamic , new_answer ) | error , Some port -> match port . Cckappa_sig . site_free with | Some true -> let ( ) = if ( local_trace || Remanent_parameters . get_dump_reachability_analysis_wl parameters || Remanent_parameters . get_trace parameters ) then let ( ) = Loggers . fprintf ( Remanent_parameters . get_logger parameters ) " Try to navigate through a free site : bottom reduction " in Loggers . print_newline ( Remanent_parameters . get_logger parameters ) in error , ( dynamic , Usual_domains . Undefined ) | None | Some false -> let agent_type_partner = step . Communication . agent_type_in in let site_x_partner = step . Communication . site_in in let agent_id = path . Communication . agent_id in let agent_type = agent . Cckappa_sig . agent_name in let site_x = step . Communication . site_out in match Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . unsafe_get parameters error agent_id rule . Cckappa_sig . rule_lhs . Cckappa_sig . bonds with | error , None -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) | error , Some map -> match Ckappa_sig . Site_map_and_set . Map . find_option_without_logs parameters error site_x map with | error , None -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) | error , Some site_add -> let agent_type ' = site_add . Cckappa_sig . agent_type in let site_type ' = site_add . Cckappa_sig . site in if agent_type ' = agent_type_partner && site_type ' = site_x_partner then let error ' , ( dynamic , new_answer ) = precondition_inside_pattern parameters error dynamic kappa_handler path agent_type aux rule site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result bdu_false bdu_true in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) else let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) in error , ( dynamic , new_answer ) in error , ( dynamic , new_answer ) let compute_precondition_enable error kappa_handler rule rule_id precondition bdu_false bdu_true dual_contact_map store_agent_name site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result proj_bdu_test_restriction = let precondition = Communication . refine_information_about_state_of_sites_in_precondition precondition ( fun parameters error dynamic ( current_path : Communication . path ) former_answer -> let error = scan_bot ~ also_scan_top : false __POS__ parameters error former_answer " from overlying domain " in let error , answer_contact_map = precondition_typing parameters error kappa_handler rule_id current_path . Communication . relative_address current_path store_agent_name dual_contact_map in let error = scan_bot_warn ~ also_scan_top : false __POS__ parameters error answer_contact_map " in the contact map " in let error , dynamic , new_answer = let rec aux dynamic path = let step_list = path . Communication . relative_address in match step_list with | step :: _ -> let error , ( dynamic , new_answer ) = compute_pattern_navigation parameters error kappa_handler aux dynamic path rule step bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = scan_bot ~ also_scan_top : false __POS__ parameters error new_answer " while navigating " in let update_answer = Usual_domains . glb_list new_answer former_answer in error , dynamic , update_answer | [ ] -> let error , dynamic , new_answer = precondition_empty_step_list kappa_handler parameters error dynamic rule_id path store_agent_name bdu_false bdu_true store_covering_classes_id site_correspondence_map fixpoint_result proj_bdu_test_restriction in let error = scan_bot ~ also_scan_top : false __POS__ parameters error new_answer " while navigating ( empty path ) " in let update_answer = Usual_domains . glb_list new_answer former_answer in error , dynamic , update_answer in aux dynamic current_path in let update_answer = Usual_domains . glb_list answer_contact_map new_answer in error , dynamic , update_answer ) in error , precondition let is_enable_aux static dynamic error rule_id precondition = let parameters = get_parameter static in let compil = get_compil static in let kappa_handler = get_kappa_handler static in let rules = compil . Cckappa_sig . rules in let error , rule = match Ckappa_sig . Rule_nearly_Inf_Int_storage_Imperatif . unsafe_get parameters error rule_id rules with | error , None -> let error , rule = Preprocess . empty_rule parameters error in Exception . warn parameters error __POS__ ~ message " : unknown rule " Exit rule | error , Some rule -> error , rule . Cckappa_sig . e_rule_c_rule in let error , dynamic , bdu_false = get_mvbdu_false static dynamic error in let error , dynamic , bdu_true = get_mvbdu_true static dynamic error in let fixpoint_result = get_fixpoint_result dynamic in let dual_contact_map = get_store_dual_contact_map dynamic in let error , store_proj_bdu_test_restriction = get_store_proj_bdu_test_restriction static error in let store_agent_name = get_agent_name static in let site_correspondence = get_remanent_triple static in let site_correspondence_map = get_site_correspondence_array static in let store_covering_classes_id = get_covering_classes_id static in let error , proj_bdu_test_restriction = match Ckappa_sig . Rule_setmap . Map . find_option rule_id store_proj_bdu_test_restriction with | None -> error , Covering_classes_type . AgentsCV_setmap . Map . empty | Some map -> error , map in try let error , dynamic = collect_bdu_enabled parameters error dynamic bdu_false fixpoint_result proj_bdu_test_restriction in let error , precondition = compute_precondition_enable error kappa_handler rule rule_id precondition bdu_false bdu_true dual_contact_map store_agent_name site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result proj_bdu_test_restriction in error , ( dynamic , precondition ) , true with False ( error , dynamic ) -> error , ( dynamic , precondition ) , false let is_enabled static dynamic error rule_id precondition = let error , ( dynamic , precondition ) , is_enable = is_enable_aux static dynamic error rule_id precondition in if is_enable then error , dynamic , Some precondition else error , dynamic , None let precondition_step_pattern parameters error step aux dynamic path pattern kappa_handler bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result = let error , agent = match Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . get parameters error path . Communication . agent_id pattern . Cckappa_sig . views with | error , None -> Exception . warn parameters error __POS__ Exit Cckappa_sig . Ghost | error , Some a -> error , a in let error , ( dynamic , new_answer ) = match agent with | Cckappa_sig . Ghost | Cckappa_sig . Unknown_agent _ | Cckappa_sig . Dead_agent _ -> Exception . warn parameters error __POS__ Exit ( dynamic , Usual_domains . Undefined ) | Cckappa_sig . Agent agent -> let agent_type = agent . Cckappa_sig . agent_name in let error , ( dynamic , new_answer ) = match Ckappa_sig . Site_map_and_set . Map . find_option_without_logs parameters error step . Communication . site_out agent . Cckappa_sig . agent_interface with | error , None -> let error , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = scan_bot ~ also_scan_top : false __POS__ parameters error new_answer " in precondition outside a pattern " in error , ( dynamic , new_answer ) | error , Some port -> match port . Cckappa_sig . site_free with | Some true -> let ( ) = if ( local_trace || Remanent_parameters . get_dump_reachability_analysis_wl parameters || Remanent_parameters . get_trace parameters ) then let ( ) = Loggers . fprintf ( Remanent_parameters . get_logger parameters ) " Try to navigate through a free site : bottom reduction " in Loggers . print_newline ( Remanent_parameters . get_logger parameters ) in error , ( dynamic , Usual_domains . Undefined ) | None | Some false -> let agent_type_partner = step . Communication . agent_type_in in let site_x_partner = step . Communication . site_in in let agent_id = path . Communication . agent_id in let site_x = step . Communication . site_out in match Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . unsafe_get parameters error agent_id pattern . Cckappa_sig . bonds with | error , None -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) | error , Some map -> match Ckappa_sig . Site_map_and_set . Map . find_option_without_logs parameters error site_x map with | error , None -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) | error , Some site_add -> let agent_type ' = site_add . Cckappa_sig . agent_type in let site_type ' = site_add . Cckappa_sig . site in if agent_type ' = agent_type_partner && site_type ' = site_x_partner then let error , output = Communication . follow_path_inside_cc parameters error kappa_handler pattern path in match output with | Communication . Cannot_exist -> error , ( dynamic , Usual_domains . Undefined ) | Communication . May_exist _ -> let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) | Communication . Located agent_id -> let next_path = { Communication . site = path . Communication . site ; Communication . agent_id = agent_id ; Communication . relative_address = [ ] } in let error , dynamic , new_answer = aux dynamic next_path in error , ( dynamic , new_answer ) else let error ' , ( dynamic , new_answer ) = precondition_outside_pattern parameters error dynamic kappa_handler path agent_type bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , ( dynamic , new_answer ) in error , ( dynamic , new_answer ) in error , ( dynamic , new_answer ) let build_bdu_test_pattern parameters error pattern site_correspondence dynamic = Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . fold parameters error ( fun parameters error _agent_id agent ( dynamic , current_list ) -> match agent with | Cckappa_sig . Unknown_agent _ | Cckappa_sig . Ghost | Cckappa_sig . Dead_agent _ -> Exception . warn parameters error __POS__ Exit ( dynamic , current_list ) | Cckappa_sig . Agent agent -> let agent_type = agent . Cckappa_sig . agent_name in let error , get_pair_list = Bdu_static_views . get_pair_cv_map_with_restriction_views parameters error agent site_correspondence in let error , ( dynamic , list ) = List . fold_left ( fun ( error , ( dynamic , current_list ) ) ( _cv_id , map_res ) -> if Ckappa_sig . Site_map_and_set . Map . is_empty map_res then error , ( dynamic , current_list ) else let error , pair_list = Ckappa_sig . Site_map_and_set . Map . fold ( fun site ' state ( error , current_list ) -> let pair_list = ( site ' , ( state . Cckappa_sig . min , state . Cckappa_sig . max ) ) :: current_list in error , pair_list ) map_res ( error , [ ] ) in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , handler , bdu_test = Ckappa_sig . Views_bdu . mvbdu_of_reverse_sorted_range_list parameters handler error pair_list in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in error , ( dynamic , ( agent_type , bdu_test ) :: current_list ) ) ( error , ( dynamic , current_list ) ) get_pair_list in error , ( dynamic , list ) ) pattern . Cckappa_sig . views ( dynamic , [ ] ) let precondition_empty_aux parameters error path pattern dynamic bdu_false bdu_true site_correspondence site_correspondence_map fixpoint_result cv_list = let error , ( dynamic , list ) = build_bdu_test_pattern parameters error pattern site_correspondence dynamic in let error , dynamic , bdu = List . fold_left ( fun ( error , dynamic , bdu ) ( agent_type , bdu_test ) -> List . fold_left ( fun ( error , dynamic , bdu ) cv_id -> let site_name = path . Communication . site in let error , ( map1 , _ ) = get_list_of_sites_correspondence_map parameters error agent_type cv_id site_correspondence_map in let error , new_site_name = get_new_site_name parameters error site_name map1 in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , handler , bdu_test_X = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu_X bdu_test in let error , handler , singleton = Ckappa_sig . Views_bdu . build_variables_list parameters handler error [ new_site_name ] in let error , handler , bdu_proj = Ckappa_sig . Views_bdu . mvbdu_project_keep_only parameters handler error bdu_test_X singleton in let error , handler , new_site_name_1 = Ckappa_sig . Views_bdu . build_renaming_list parameters handler error [ new_site_name , site_name ] in let error , handler , bdu_renamed = Ckappa_sig . Views_bdu . mvbdu_rename parameters handler error bdu_proj new_site_name_1 in let error , handler , bdu = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu bdu_renamed in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in error , dynamic , bdu ) ( error , dynamic , bdu ) cv_list ) ( error , dynamic , bdu_true ) list in let handler = Analyzer_headers . get_mvbdu_handler dynamic in let error , handler , list = Ckappa_sig . Views_bdu . extensional_of_mvbdu parameters handler error bdu in let dynamic = Analyzer_headers . set_mvbdu_handler handler dynamic in let error , state_lists = List . fold_left ( fun ( error , output ) list -> match list with | [ _ , state ] -> error , state :: output | _ -> Exception . warn parameters error __POS__ ~ message " : state is empty " Exit output ) ( error , [ ] ) list in error , ( dynamic , Usual_domains . Val ( List . rev state_lists ) ) let precondition_empty_pattern parameters error path pattern dynamic bdu_false bdu_true store_agent_name_from_pattern site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result = let error , agent_type = match Ckappa_sig . Agent_id_map_and_set . Map . find_option_without_logs parameters error path . Communication . agent_id store_agent_name_from_pattern with | error , None -> Exception . warn parameters error __POS__ ~ message " : unknown agent type " Exit Ckappa_sig . dummy_agent_name | error , Some a -> error , a in let error , site_correspondence = match Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . get parameters error agent_type site_correspondence with | error , None -> Exception . warn parameters error __POS__ Exit [ ] | error , Some l -> error , l in let error , cv_list = match Ckappa_sig . AgentSite_map_and_set . Map . find_option_without_logs parameters error ( agent_type , path . Communication . site ) store_covering_classes_id with | error , None -> Exception . warn parameters error __POS__ ~ message " : the site does not belong to the last agent type of a path " Exit [ ] | error , Some l -> error , l in let error , ( dynamic , new_answer ) = precondition_empty_aux parameters error path pattern dynamic bdu_false bdu_true site_correspondence site_correspondence_map fixpoint_result cv_list in error , dynamic , new_answer let maybe_reachable_aux static dynamic error ( pattern : Cckappa_sig . mixture ) precondition = let parameters = get_parameter static in let error , dynamic , bdu_false = get_mvbdu_false static dynamic error in let error , dynamic , bdu_true = get_mvbdu_true static dynamic error in let kappa_handler = get_kappa_handler static in let fixpoint_result = get_fixpoint_result dynamic in let dual_contact_map = get_store_dual_contact_map dynamic in let store_agent_name_from_pattern = get_agent_name_from_pattern static in let site_correspondence = get_remanent_triple static in let site_correspondence_map = get_site_correspondence_array static in let store_covering_classes_id = get_covering_classes_id static in try let error , dynamic = Ckappa_sig . Agent_id_quick_nearly_Inf_Int_storage_Imperatif . fold parameters error ( fun parameters error _agent_id agent dynamic -> match agent with | Cckappa_sig . Unknown_agent _ | Cckappa_sig . Ghost | Cckappa_sig . Dead_agent ( _ , _ , _ , _ ) -> error , dynamic | Cckappa_sig . Agent agent -> let agent_type = agent . Cckappa_sig . agent_name in let interface = agent . Cckappa_sig . agent_interface in if Ckappa_sig . Site_map_and_set . Map . is_empty interface then error , dynamic else let error , site_correspondence = match Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . get parameters error agent_type site_correspondence with | error , None -> Exception . warn parameters error __POS__ Exit [ ] | error , Some l -> error , l in let error , get_pair_list = Bdu_static_views . get_pair_cv_map_with_restriction_views parameters error agent site_correspondence in let error , dynamic = List . fold_left ( fun ( error , dynamic ) ( cv_id , map_res ) -> if Ckappa_sig . Site_map_and_set . Map . is_empty map_res then error , dynamic else let error , pair_list = Ckappa_sig . Site_map_and_set . Map . fold ( fun site ' state ( error , current_list ) -> let pair_list = ( site ' , ( state . Cckappa_sig . min , state . Cckappa_sig . max ) ) :: current_list in error , pair_list ) map_res ( error , [ ] ) in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_test = Ckappa_sig . Views_bdu . mvbdu_of_reverse_sorted_range_list parameters handler error pair_list in let dynamic = set_mvbdu_handler handler dynamic in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_inter = Ckappa_sig . Views_bdu . mvbdu_and parameters handler error bdu_test bdu_X in let dynamic = set_mvbdu_handler handler dynamic in if Ckappa_sig . Views_bdu . equal bdu_inter bdu_false then raise ( False ( error , dynamic ) ) else error , dynamic ) ( error , dynamic ) get_pair_list in error , dynamic ) pattern . Cckappa_sig . views dynamic in let precondition = Communication . refine_information_about_state_of_sites_in_precondition precondition ( fun parameters error ( dynamic : Analyzer_headers . global_dynamic_information ) ( current_path : Communication . path ) former_answer -> let error = scan_bot ~ also_scan_top : false __POS__ parameters error former_answer " from overlying domain " in let error , answer_contact_map = let rec aux acc error = match acc with | [ ] -> error , Usual_domains . Any | step :: tl -> let error , agent_type = match Ckappa_sig . Agent_id_map_and_set . Map . find_option_without_logs parameters error current_path . Communication . agent_id store_agent_name_from_pattern with | error , None -> error , Ckappa_sig . dummy_agent_name | error , Some a -> error , a in let error , state_dic = Misc_sa . unsome ( Ckappa_sig . Agent_type_site_nearly_Inf_Int_Int_storage_Imperatif_Imperatif . get parameters error ( agent_type , step . Communication . site_out ) kappa_handler . Cckappa_sig . states_dic ) ( fun error -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . Dictionary_of_States . init ( ) ) ) in let state = Ckappa_sig . C_Lnk_type ( step . Communication . agent_type_in , step . Communication . site_in ) in let error , b = Ckappa_sig . Dictionary_of_States . member parameters error ( Ckappa_sig . Binding state ) state_dic in if b then let error , answer_contact_map = match Ckappa_sig . Dictionary_of_States . allocate parameters error Ckappa_sig . compare_unit_state_index ( Ckappa_sig . Binding state ) ( ) Misc_sa . const_unit state_dic with | error , None -> Exception . warn parameters error __POS__ Exit Usual_domains . Undefined | error , Some ( state , _ , _ , _ ) -> match Ckappa_sig . AgentSiteState_map_and_set . Map . find_option_without_logs parameters error ( agent_type , step . Communication . site_out , state ) dual_contact_map with | error , None -> Exception . warn parameters error __POS__ Exit Usual_domains . Undefined | error , Some _ -> aux tl error in error , answer_contact_map else Exception . warn parameters error __POS__ Exit Usual_domains . Undefined in aux current_path . Communication . relative_address error in let error = scan_bot_warn ~ also_scan_top : false __POS__ parameters error answer_contact_map " in the contact map " in let error , dynamic , new_answer = let rec aux dynamic path = let step_list = path . Communication . relative_address in match step_list with | step :: _ -> let error , ( dynamic , new_answer ) = precondition_step_pattern parameters error step aux dynamic path pattern kappa_handler bdu_false bdu_true site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = scan_bot ~ also_scan_top : false __POS__ parameters error new_answer " whie navigating " in let update_answer = Usual_domains . glb_list new_answer former_answer in error , dynamic , update_answer | [ ] -> let error , dynamic , new_answer = precondition_empty_pattern parameters error path pattern dynamic bdu_false bdu_true store_agent_name_from_pattern site_correspondence site_correspondence_map store_covering_classes_id fixpoint_result in let error = scan_bot ~ also_scan_top : false __POS__ parameters error new_answer " while navigating ( empty path ) " in let update_answer = Usual_domains . glb_list new_answer former_answer in error , dynamic , update_answer in aux dynamic current_path in let update_answer = Usual_domains . glb_list answer_contact_map new_answer in error , dynamic , update_answer ) in error , ( dynamic , precondition ) , true with False ( error , dynamic ) -> error , ( dynamic , precondition ) , false let maybe_reachable static dynamic error _flag pattern precondition = let error , ( dynamic , precondition ) , maybe_reachable = maybe_reachable_aux static dynamic error pattern precondition in if maybe_reachable then error , dynamic , Some precondition else error , dynamic , None let compute_bdu_update_aux static dynamic error bdu_test list_a bdu_X = let parameters = get_parameter static in let parameter_views = Remanent_parameters . update_prefix parameters " \ t \ t \ t " in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_inter = Ckappa_sig . Views_bdu . mvbdu_and parameter_views handler error bdu_X bdu_test in let error , handler , bdu_redefine = Ckappa_sig . Views_bdu . mvbdu_redefine parameter_views handler error bdu_inter list_a in let error , handler , bdu_result = Ckappa_sig . Views_bdu . mvbdu_or parameter_views handler error bdu_redefine bdu_X in let dynamic = set_mvbdu_handler handler dynamic in error , dynamic , bdu_result let compute_bdu_update_views static dynamic error bdu_test list_a bdu_X = let error , dynamic , bdu_result = compute_bdu_update_aux static dynamic error bdu_test list_a bdu_X in error , dynamic , bdu_result let compute_bdu_update_creation static dynamic error bdu_creation bdu_X = let parameters = get_parameter static in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_result = Ckappa_sig . Views_bdu . mvbdu_or parameters handler error bdu_creation bdu_X in let dynamic = set_mvbdu_handler handler dynamic in error , dynamic , bdu_result let compute_bdu_update_side_effects static dynamic error bdu_test list_a bdu_X = let parameters = get_parameter static in let parameter_views = Remanent_parameters . update_prefix parameters " \ t \ t \ t " in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_inter = Ckappa_sig . Views_bdu . mvbdu_and parameter_views handler error bdu_X bdu_test in let error , handler , bdu_redefine = Ckappa_sig . Views_bdu . mvbdu_redefine parameter_views handler error bdu_inter list_a in let error , handler , bdu_result = Ckappa_sig . Views_bdu . mvbdu_or parameter_views handler error bdu_redefine bdu_X in let dynamic = set_mvbdu_handler handler dynamic in error , dynamic , bdu_result let compute_views_test_enabled static dynamic error rule_id event_list = let parameters = get_parameter static in let error , store_proj_bdu_test_restriction = get_store_proj_bdu_test_restriction static error in let error , proj_bdu_test_restriction = match Ckappa_sig . Rule_setmap . Map . find_option rule_id store_proj_bdu_test_restriction with | None -> error , Covering_classes_type . AgentsCV_setmap . Map . empty | Some map -> error , map in let error , dynamic , event_list = Covering_classes_type . AgentsCV_setmap . Map . fold ( fun ( agent_id , agent_type , cv_id ) _ ( error , dynamic , event_list ) -> let error , dynamic , bdu_false = get_mvbdu_false static dynamic error in let error , dynamic , bdu_true = get_mvbdu_true static dynamic error in let error , store_modif_list_restriction_map = get_store_modif_list_restriction_map static error in let error = dump_cv_label static error ( Remanent_parameters . get_dump_reachability_analysis_diff parameters ) ( agent_type , cv_id ) in let store_result = get_fixpoint_result dynamic in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) store_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let error , bdu_test = match Covering_classes_type . AgentsCV_setmap . Map . find_option ( agent_id , agent_type , cv_id ) proj_bdu_test_restriction with | None -> error , bdu_true | Some bdu -> error , bdu in let error , dynamic , bdu_update = match Covering_classes_type . AgentsRuleCV_map_and_set . Map . find_option_without_logs parameters error ( agent_id , agent_type , rule_id , cv_id ) store_modif_list_restriction_map with | error , None -> error , dynamic , bdu_X | error , Some list_a -> let error , dynamic , bdu_update = compute_bdu_update_views static dynamic error bdu_test list_a bdu_X in error , dynamic , bdu_update in let error , dynamic , event_list = add_link ~ title " " : error static dynamic ( agent_type , cv_id ) bdu_update event_list in error , dynamic , event_list ) proj_bdu_test_restriction ( error , dynamic , event_list ) in error , dynamic , event_list let compute_views_creation_enabled static dynamic error rule_id event_list = let parameters = get_parameter static in let error , store_bdu_creation = get_store_proj_bdu_creation_restriction static error in let error , bdu_creation_map = match Ckappa_sig . Rule_setmap . Map . find_option rule_id store_bdu_creation with | None -> error , Covering_classes_type . AgentCV_setmap . Map . empty | Some map -> error , map in let error , dynamic , event_list = Covering_classes_type . AgentCV_setmap . Map . fold ( fun ( agent_type , cv_id ) bdu_creation ( error , dynamic , event_list ) -> let error , dynamic , bdu_false = get_mvbdu_false static dynamic error in let fixpoint_result = get_fixpoint_result dynamic in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_type , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let error , dynamic , bdu_update = compute_bdu_update_creation static dynamic error bdu_creation bdu_X in let error , dynamic , event_list = add_link ~ title " : Dealing with creation " error static dynamic ( agent_type , cv_id ) bdu_update event_list in error , dynamic , event_list ) bdu_creation_map ( error , dynamic , event_list ) in error , dynamic , event_list let can_we_prove_this_is_the_first_application precondition = match Communication . is_the_rule_applied_for_the_first_time precondition with | Usual_domains . Sure_value b -> if b then true else false | Usual_domains . Maybe -> false let compute_views_enabled static dynamic error rule_id precondition = let error , dynamic , event_list = compute_views_test_enabled static dynamic error rule_id [ ] in let error , dynamic , event_list = let b = can_we_prove_this_is_the_first_application precondition in if b then let error , dynamic , event_list = compute_views_creation_enabled static dynamic error rule_id event_list in error , dynamic , event_list else error , dynamic , event_list in error , dynamic , event_list let apply_rule static dynamic error rule_id precondition = let error , dynamic , event_list = compute_views_enabled static dynamic error rule_id precondition in error , dynamic , ( precondition , event_list ) let apply_one_side_effect static dynamic error _rule_id ( _ , ( agent_name , site , state ) ) precondition = let parameters = get_parameter static in let error , site_to_site_list = get_site_to_renamed_site_list static error in let error , site_list_opt = Ckappa_sig . Agent_type_site_nearly_Inf_Int_Int_storage_Imperatif_Imperatif . unsafe_get parameters error ( agent_name , site ) site_to_site_list in let site_list = match site_list_opt with | None -> [ ] | Some l -> l in let error , dynamic , event_list = List . fold_left ( fun ( error , dynamic , event_list ) ( cv_id , site ' ) -> let list_test = [ site ' , state ] in let list_modif = [ site ' , Ckappa_sig . dummy_state_index ] in let handler = get_mvbdu_handler dynamic in let error , handler , bdu_test = Ckappa_sig . Views_bdu . mvbdu_of_reverse_sorted_association_list parameters handler error list_test in let error , handler , list_modif = Ckappa_sig . Views_bdu . build_association_list parameters handler error list_modif in let dynamic = set_mvbdu_handler handler dynamic in let fixpoint_result = get_fixpoint_result dynamic in let error , dynamic , bdu_false = get_mvbdu_false static dynamic error in let error , bdu_X = match Covering_classes_type . AgentCV_map_and_set . Map . find_option_without_logs parameters error ( agent_name , cv_id ) fixpoint_result with | error , None -> error , bdu_false | error , Some bdu -> error , bdu in let error , dynamic , bdu_update = compute_bdu_update_side_effects static dynamic error bdu_test list_modif bdu_X in let error , dynamic , event_list = add_link ~ title " : Dealing with side effects " error static dynamic ( agent_name , cv_id ) bdu_update event_list in error , dynamic , event_list ) ( error , dynamic , [ ] ) site_list in error , dynamic , ( precondition , event_list ) let apply_event_list _static dynamic error _event_list = error , dynamic , [ ] let print_bdu_update_map parameters error handler_kappa result = AgentCV_map_and_set . Map . fold ( fun ( agent_type , cv_id ) bdu_update error -> let error ' , agent_string = Handler . string_of_agent parameters error handler_kappa agent_type in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in let ( ) = Loggers . fprintf ( Remanent_parameters . get_logger parameters ) " agent_type :% i :% s : cv_id :% i " ( Ckappa_sig . int_of_agent_name agent_type ) agent_string ( Covering_classes_type . int_of_cv_id cv_id ) in let ( ) = Loggers . print_newline ( Remanent_parameters . get_logger parameters ) in let ( ) = Ckappa_sig . Views_bdu . print parameters bdu_update in error ) result error let smash_map decomposition ~ show_dep_with_dimmension_higher_than : _dim_min parameters handler error _handler_kappa site_correspondence result = let error ' , handler , mvbdu_true = Ckappa_sig . Views_bdu . mvbdu_true parameters handler error in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in Covering_classes_type . AgentCV_map_and_set . Map . fold ( fun ( agent_type , cv_id ) bdu ( error , handler , output ) -> let error , handler , list = decomposition parameters handler error bdu in let error , ( _ , map2 ) = get_list_of_sites_correspondence_map parameters error agent_type cv_id site_correspondence in let rename_site parameters error site_type = let error , site_type = match Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . get parameters error site_type map2 with | error , None -> Exception . warn parameters error __POS__ Exit Ckappa_sig . dummy_site_name_minus1 | error , Some i -> error , i in error , site_type in List . fold_left ( fun ( error , handler , output ) bdu -> begin let error , handler , lvar = Ckappa_sig . Views_bdu . variables_list_of_mvbdu parameters handler error bdu in let error , handler , list = Ckappa_sig . Views_bdu . extensional_of_variables_list parameters handler error lvar in let error , asso = List . fold_left ( fun ( error , list ) i -> let error , new_name = rename_site parameters error i in error , ( i , new_name ) :: list ) ( error , [ ] ) ( List . rev list ) in let error , handler , hconsed_asso = Ckappa_sig . Views_bdu . build_renaming_list parameters handler error asso in let error , handler , renamed_mvbdu = Ckappa_sig . Views_bdu . mvbdu_rename parameters handler error bdu hconsed_asso in let error , handler , hconsed_vars = Ckappa_sig . Views_bdu . variables_list_of_mvbdu parameters handler error renamed_mvbdu in let error , cv_map_opt = Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . unsafe_get parameters error agent_type output in let error , cv_map = match cv_map_opt with | None -> error , Wrapped_modules . LoggedIntMap . empty | Some map -> error , map in let error , handler , cv_map ' = Ckappa_sig . Views_bdu . store_by_variables_list Wrapped_modules . LoggedIntMap . find_default_without_logs Wrapped_modules . LoggedIntMap . add_or_overwrite mvbdu_true Ckappa_sig . Views_bdu . mvbdu_and parameters handler error hconsed_vars renamed_mvbdu cv_map in let error , output = Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . set parameters error agent_type cv_map ' output in error , handler , output end ) ( error , handler , output ) list ) result ( let error , agent_map = Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . create parameters error 0 in ( error , handler , agent_map ) ) let stabilise_bdu_update_map_gen_decomposition decomposition ~ smash : smash ~ show_dep_with_dimmension_higher_than : dim_min parameters handler error handler_kappa site_correspondence result = let log = Remanent_parameters . get_logger parameters in if smash then let error ' , handler , output = smash_map decomposition ~ show_dep_with_dimmension_higher_than : dim_min parameters handler error handler_kappa site_correspondence result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in let error , ( handler , list ) = Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . fold parameters error ( fun parameters error agent_type map ( handler , list ) -> let error , agent_string = try Handler . string_of_agent parameters error handler_kappa agent_type with | _ -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . string_of_agent_name agent_type ) in Wrapped_modules . LoggedIntMap . fold ( fun _ mvbdu ( error , ( handler , list ) ) -> let error , handler = if local_trace || Remanent_parameters . get_trace parameters then let ( ) = Loggers . fprintf log " INTENSIONAL DESCRIPTION " : in let ( ) = Loggers . print_newline log in let ( ) = Ckappa_sig . Views_bdu . print parameters mvbdu in let ( ) = Loggers . fprintf log " EXTENSIONAL DESCRIPTION " : in let ( ) = Loggers . print_newline log in error , handler else error , handler in let error , ( handler , translation ) = Translation_in_natural_language . translate parameters handler error ( fun _ e i -> e , i ) mvbdu in error , ( handler , ( agent_string , agent_type , mvbdu , translation ) :: list ) ) map ( error , ( handler , list ) ) ) output ( handler , [ ] ) in error , handler , List . rev list else begin let error , ( handler , list ) = Covering_classes_type . AgentCV_map_and_set . Map . fold ( fun ( agent_type , cv_id ) bdu_update ( error , ( handler , list ) ) -> let error , agent_string = try Handler . string_of_agent parameters error handler_kappa agent_type with | _ -> Exception . warn parameters error __POS__ Exit ( Ckappa_sig . string_of_agent_name agent_type ) in let ( ) = if local_trace || Remanent_parameters . get_trace parameters then let ( ) = Loggers . fprintf log " agent_type :% i :% s : cv_id :% i " ( Ckappa_sig . int_of_agent_name agent_type ) agent_string ( Covering_classes_type . int_of_cv_id cv_id ) in Loggers . print_newline log in let error , ( _ , map2 ) = get_list_of_sites_correspondence_map parameters error agent_type cv_id site_correspondence in let error , handler , list ' = decomposition parameters handler error bdu_update in let error , ( handler , list ) = List . fold_left ( fun ( error , ( handler , list ) ) mvbdu -> let error , handler = if local_trace || Remanent_parameters . get_trace parameters then let ( ) = Loggers . fprintf log " INTENSIONAL DESCRIPTION " : in let ( ) = Loggers . print_newline log in let ( ) = Ckappa_sig . Views_bdu . print parameters mvbdu in let ( ) = Loggers . fprintf log " EXTENSIONAL DESCRIPTION " : in let ( ) = Loggers . print_newline log in error , handler else error , handler in let rename_site parameters error site_type = let error , site_type = match Ckappa_sig . Site_type_nearly_Inf_Int_storage_Imperatif . get parameters error site_type map2 with | error , None -> Exception . warn parameters error __POS__ Exit Ckappa_sig . dummy_site_name_minus1 | error , Some i -> error , i in error , site_type in let error , ( handler , translation ) = Translation_in_natural_language . translate parameters handler error rename_site mvbdu in error , ( handler , ( agent_string , agent_type , mvbdu , translation ) :: list ) ) ( error , ( handler , list ) ) list ' in error , ( handler , list ) ) result ( error , ( handler , [ ] ) ) in error , handler , ( List . rev list ) end let print_bdu_update_map_gen_decomposition decomposition ~ sort : sort ~ smash : smash ~ show_dep_with_dimmension_higher_than : dim_min parameters handler error handler_kappa site_correspondence result = let error , handler , list = stabilise_bdu_update_map_gen_decomposition decomposition ~ smash : smash ~ show_dep_with_dimmension_higher_than : dim_min parameters handler error handler_kappa site_correspondence result in let error , list = if sort then Tools_kasa . sort_list ( fun parameters error ( agent_string , agent_id , _ , translation ) -> match translation with | Translation_in_natural_language . Range ( x , _ ) -> let error , x = Handler . string_of_site_contact_map parameters error handler_kappa agent_id x in error , ( agent_string , x ) | Translation_in_natural_language . Equiv _ | Translation_in_natural_language . No_known_translation _ | Translation_in_natural_language . Partition _ | Translation_in_natural_language . Imply _ -> error , ( agent_string , " " ) ) parameters error list else error , list in let error = List . fold_left ( fun error ( agent_string , agent_type , _ , translation ) -> Translation_in_natural_language . print ~ show_dep_with_dimmension_higher_than : dim_min parameters handler_kappa error agent_string agent_type translation ) error list in error , handler let print_bdu_update_map_cartesian_abstraction parameters handler error handler_kappa = print_bdu_update_map_gen_decomposition ~ sort : true ~ smash : true ~ show_dep_with_dimmension_higher_than : 1 Ckappa_sig . Views_bdu . mvbdu_cartesian_abstraction parameters handler error handler_kappa let print_bdu_update_map_cartesian_decomposition parameters handler error handler_kappa = print_bdu_update_map_gen_decomposition ~ smash : true ~ show_dep_with_dimmension_higher_than : ( if Remanent_parameters . get_hide_one_d_relations_from_cartesian_decomposition parameters then 2 else 1 ) Ckappa_sig . Views_bdu . mvbdu_full_cartesian_decomposition parameters handler error handler_kappa let print_separating_edges parameters handler error compil _handler_kappa list = let log = Remanent_parameters . get_logger parameters in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let error , handler = if Mods . IntMap . is_empty list then let ( ) = Loggers . fprintf log " There may be no separating transitions " in error , handler else let ( ) = Loggers . fprintf log " The following transitions are separating " : in let ( ) = Loggers . print_newline log in let ( ) = Loggers . print_newline log in let error = Mods . IntMap . fold ( fun r_id l error -> let error , r = Handler . string_of_rule parameters error compil ( Ckappa_sig . rule_id_of_int r_id ) in let ( ) = Loggers . fprintf log " * % s " : r in let ( ) = Loggers . print_newline log in let error = List . fold_left ( fun error ( s1 , s2 ) -> let ( ) = Loggers . fprintf log " % s -> % s " s1 s2 in let ( ) = Loggers . print_newline log in error ) error l in let ( ) = Loggers . print_newline log in error ) list error in let ( ) = Loggers . print_newline log in error , handler in error , handler let print_result_fixpoint_aux parameters handler error handler_kappa site_correspondence result = let log = Remanent_parameters . get_logger parameters in if Remanent_parameters . get_dump_reachability_analysis_result parameters then let error = if local_trace || ( Remanent_parameters . get_trace parameters ) then begin let ( ) = Loggers . fprintf log " " in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " * Fixpoint iteration " : in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let error = print_bdu_update_map parameters error handler_kappa result in error end else error in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " * Non relational properties " : in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let error , handler = print_bdu_update_map_cartesian_abstraction parameters handler error handler_kappa site_correspondence result in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " * Relational properties " : in let ( ) = Loggers . print_newline log in let ( ) = Loggers . fprintf log " " ------------------------------------------------------------ in let ( ) = Loggers . print_newline log in let error , handler = print_bdu_update_map_cartesian_decomposition ~ sort : false parameters handler error handler_kappa site_correspondence result in error , handler else error , handler let print_fixpoint_result static dynamic error _loggers = let parameters = get_parameter static in let kappa_handler = get_kappa_handler static in let site_correspondence = get_site_correspondence_array static in let fixpoint_result = get_fixpoint_result dynamic in let handler = get_mvbdu_handler dynamic in let compil = get_compil static in let error , handler = if local_trace || Remanent_parameters . get_compute_separating_transitions parameters then match get_separating_transitions dynamic with | None -> error , handler | Some l -> print_separating_edges parameters handler error compil kappa_handler l else error , handler in let error , handler = if local_trace || Remanent_parameters . get_dump_reachability_analysis_result parameters then print_result_fixpoint_aux parameters handler error kappa_handler site_correspondence fixpoint_result else error , handler in let dynamic = set_mvbdu_handler handler dynamic in error , dynamic , ( ) let print ? dead_rules static dynamic error loggers = let dead_rules = match dead_rules with | None -> Analyzer_headers . dummy_dead_rules | Some f -> f in let parameters = get_parameter static in let error , dynamic = if Remanent_parameters . get_compute_local_traces parameters || Remanent_parameters . get_compute_separating_transitions parameters then let handler_kappa = get_kappa_handler static in let handler = get_mvbdu_handler dynamic in let compil = get_compil static in let site_correspondence = get_site_correspondence_array static in let error , handler , output = smash_map ( fun _parameters handler error a -> error , handler , [ a ] ) parameters handler error ~ show_dep_with_dimmension_higher_than : 1 handler_kappa site_correspondence ( get_fixpoint_result dynamic ) in let error , log_info , handler , bridges , transition_systems_length = if Remanent_parameters . get_compute_separating_transitions parameters && Remanent_parameters . get_use_macrotransitions_in_local_traces parameters then let parameters ' = Remanent_parameters . set_use_macrotransitions_in_local_traces parameters false in let error , log_info , handler , bridges , _ = Agent_trace . agent_trace parameters ' ( get_log_info dynamic ) error dead_rules handler ( get_global_static_information static ) handler_kappa compil output in let parameters ' = Remanent_parameters . set_compute_separating_transitions parameters false in let error , log_info , handler , _ , transition_systems_length = Agent_trace . agent_trace parameters ' log_info error dead_rules handler ( get_global_static_information static ) handler_kappa compil output in error , log_info , handler , bridges , transition_systems_length else Agent_trace . agent_trace parameters ( get_log_info dynamic ) error dead_rules handler ( get_global_static_information static ) handler_kappa compil output in let dynamic = match bridges with | None -> dynamic | Some bridges -> set_separating_transitions bridges dynamic in let dynamic = match transition_systems_length with | None -> dynamic | Some transition_system_length -> set_transition_system_length transition_system_length dynamic in error , set_mvbdu_handler handler ( set_log_info log_info dynamic ) else error , dynamic in let error , dynamic , ( ) = print_fixpoint_result static dynamic error loggers in error , dynamic , ( ) let export_contact_map static dynamic error kasa_state = match get_ranges dynamic with | None -> error , dynamic , kasa_state | Some ranges -> let kappa_handler = get_kappa_handler static in let handler = get_mvbdu_handler dynamic in let parameters = get_parameter static in let contact_map = Preprocess . init_contact_map in let error , ( handler , contact_map ) = Ckappa_sig . Agent_type_quick_nearly_Inf_Int_storage_Imperatif . fold parameters error ( fun parameters error ag_type site_map ( handler , contact_map ) -> let error , contact_map = Preprocess . declare_agent parameters error ag_type contact_map in Wrapped_modules . LoggedIntMap . fold ( fun _ mvbdu ( error , ( handler , contact_map ) ) -> let error , handler , list_of_states = Ckappa_sig . Views_bdu . extensional_of_mvbdu parameters handler error mvbdu in match list_of_states with | [ ] -> error , ( handler , contact_map ) | [ site_type , _ ] :: _ -> begin let error , contact_map = Preprocess . declare_site parameters error ag_type site_type contact_map in let error , site = Handler . translate_site parameters error kappa_handler ag_type site_type in match site with | Ckappa_sig . Internal _ -> let error , contact_map = List . fold_left ( fun ( error , contact_map ) l -> match l with | [ site_type ' , state ] when site_type ' = site_type -> Preprocess . add_internal_state_in_contact_map parameters error ( ag_type , site_type ) state contact_map | [ ] | _ :: _ -> Exception . warn parameters error __POS__ Exit contact_map ) ( error , contact_map ) list_of_states in error , ( handler , contact_map ) | Ckappa_sig . Counter _ -> error , ( handler , contact_map ) | Ckappa_sig . Binding _ -> let error , contact_map = List . fold_left ( fun ( error , contact_map ) l -> match l with | [ site_type ' , state ] when site_type ' = site_type -> if state = Ckappa_sig . state_index_of_int 0 then error , contact_map else begin let error , dual = Handler . dual parameters error kappa_handler ag_type site_type state in match dual with | None -> Exception . warn parameters error __POS__ Exit contact_map | Some ( ag_type ' , site_type ' , _ ) -> Preprocess . add_link_in_contact_map parameters error ( ag_type , site_type ) ( ag_type ' , site_type ' ) contact_map end | [ ] | _ :: _ -> Exception . warn parameters error __POS__ Exit contact_map ) ( error , contact_map ) list_of_states in error , ( handler , contact_map ) end | _ :: _ -> Exception . warn parameters error __POS__ Exit ( handler , contact_map ) ) site_map ( error , ( handler , contact_map ) ) ) ranges ( handler , contact_map ) in let dynamic = set_mvbdu_handler handler dynamic in let kasa_state = Remanent_state . set_internal_contact_map Public_data . Medium contact_map kasa_state in error , dynamic , kasa_state let export_relation_properties_aux ~ sort : sort ~ smash : smash ~ show_dep_with_dimmension_higher_than : dim_min decomposition domain_name parameters dynamic error handler_kappa site_correspondence fixpoint_result kasa_state = let handler = get_mvbdu_handler dynamic in let error ' , handler , list = stabilise_bdu_update_map_gen_decomposition decomposition ~ smash : smash ~ show_dep_with_dimmension_higher_than : dim_min parameters handler error handler_kappa site_correspondence fixpoint_result in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in let error ' , current_list = List . fold_left ( fun ( error , current_list ) ( agent_string , agent_type , _ , translation ) -> let error ' , current_list = Translation_in_natural_language . convert_views_internal_constraints_list ~ show_dep_with_dimmension_higher_than : dim_min parameters handler_kappa error agent_string agent_type translation current_list in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in error , current_list ) ( error , [ ] ) list in let error = Exception . check_point Exception . warn parameters error error ' __POS__ Exit in let internal_constraints_list = Remanent_state . get_internal_constraints_list kasa_state in let error , internal_constraints_list = match internal_constraints_list with | None -> Exception . warn parameters error __POS__ Exit [ ] | Some l -> error , l in let error , current_list = if sort then Tools_kasa . sort_list ( fun parameters error lemma -> Site_graphs . KaSa_site_graph . to_string parameters error lemma . Public_data . hyp ) parameters error current_list else error , current_list in let pair_list = ( domain_name , current_list ) :: internal_constraints_list in let kasa_state = Remanent_state . set_internal_constraints_list pair_list kasa_state in let dynamic = set_mvbdu_handler handler dynamic in error , dynamic , kasa_state let export_relation_properties parameters dynamic error handler_kappa = let domain_name = " Views domain - relational properties " in export_relation_properties_aux ~ sort : false ~ smash : true ~ show_dep_with_dimmension_higher_than : ( if Remanent_parameters . get_hide_one_d_relations_from_cartesian_decomposition parameters then 2 else 1 ) Ckappa_sig . Views_bdu . mvbdu_full_cartesian_decomposition domain_name parameters dynamic error handler_kappa let export_non_relation_properties parameters dynamic error handler_kappa = let domain_name = " Views domain - non relational properties " in export_relation_properties_aux ~ sort : true ~ smash : true ~ show_dep_with_dimmension_higher_than : 1 Ckappa_sig . Views_bdu . mvbdu_cartesian_abstraction domain_name parameters dynamic error handler_kappa let export_views_properties_aux parameters error handler_kappa site_correspondence fixpoint_result dynamic kasa_state = let error , dynamic , kasa_state = export_non_relation_properties parameters dynamic error handler_kappa site_correspondence fixpoint_result kasa_state in let error , dynamic , kasa_state = export_relation_properties parameters dynamic error handler_kappa site_correspondence fixpoint_result kasa_state in error , dynamic , kasa_state let export_views_properties static dynamic error kasa_state = let parameters = get_parameter static in let handler_kappa = get_kappa_handler static in let site_correspondence = get_site_correspondence_array static in let fixpoint_result = get_fixpoint_result dynamic in let error , dynamic , kasa_state = export_views_properties_aux parameters error handler_kappa site_correspondence fixpoint_result dynamic kasa_state in error , dynamic , kasa_state let export_separating_edges static dynamic error kasa_state = match dynamic . local . separating_edges with | None -> error , dynamic , kasa_state | Some map -> let compil = get_compil static in let parameters = get_parameter static in let hide_reverse_rule = Remanent_parameters . get_hide_reverse_rule_without_label_from_dead_rules parameters in let original = hide_reverse_rule in let ( error , l ) = Mods . IntMap . fold ( fun i c ( error , l ) -> let i = Ckappa_sig . rule_id_of_int i in let error , info = Handler . info_of_rule ~ original ~ with_rates : false parameters error compil i in let error , b1 = Handler . is_reverse parameters error compil i in let error , b2 = Handler . has_no_label parameters error compil i in let rule = Remanent_state . info_to_rule info in let rule = if b1 && b2 && hide_reverse_rule then Handler . hide rule else rule in error , ( rule , c ) :: l ) map ( error , [ ] ) in let kasa_state = Remanent_state . set_separating_transitions l kasa_state in error , dynamic , kasa_state let export_transition_system_length _static dynamic error kasa_state = match dynamic . local . transition_system_length with | None -> error , dynamic , kasa_state | Some l -> let kasa_state = Remanent_state . set_transition_system_length l kasa_state in error , dynamic , kasa_state let export static dynamic error kasa_state = let error , dynamic , kasa_state = export_contact_map static dynamic error kasa_state in let error , dynamic , kasa_state = export_views_properties static dynamic error kasa_state in let error , dynamic , kasa_state = export_separating_edges static dynamic error kasa_state in let error , dynamic , kasa_state = export_transition_system_length static dynamic error kasa_state in error , dynamic , kasa_state let stabilize static dynamic error = let dim_min = 2 in let parameters = get_parameter static in let handler = get_mvbdu_handler dynamic in let handler_kappa = get_kappa_handler static in let result = get_fixpoint_result dynamic in let site_correspondence = get_site_correspondence_array static in let error , handler , ranges = smash_map Ckappa_sig . Views_bdu . mvbdu_cartesian_abstraction ~ show_dep_with_dimmension_higher_than : dim_min parameters handler error handler_kappa site_correspondence result in let dynamic = set_ranges ranges dynamic in error , set_mvbdu_handler handler dynamic , ( ) let get_dead_rules _static _dynamic = Analyzer_headers . dummy_dead_rules let get_side_effects _static _dynamic = Analyzer_headers . dummy_side_effects end |
let check ( ) = has_command " vim " && List . exists Re . ( execp @@ compile @@ str " + syntax " ) ( lines_of_command " vim -- version " ) |
let dotvimrc = let ( / ) = Filename . concat in let vimrc = " vimrc " in let dotvimrc = " . " ^ vimrc in let dotvim = " . vim " in if not ( Sys . file_exists ( home / dotvimrc ) ) && Sys . file_exists ( home / dotvim / vimrc ) then dotvim / vimrc else dotvimrc |
let base_template = [ dotvimrc , lines_of_string { vim | finish else let g : loaded_sensible = 1 endif filetype plugin indent on endif syntax enable endif nnoremap < silent > < C - L > : nohlsearch < CR >< C - L > endif set scrolloff = 1 endif set sidescrolloff = 5 endif set encoding = utf - 8 endif set listchars = tab :>\ , trail , :- extends , :> precedes , :< nbsp :+ endif set formatoptions += j " Delete comment character when joining commented lines endif setglobal tags . -=/ tags tags . ^=/ tags ; endif set shell =/ bin / bash endif set history = 1000 endif set tabpagemax = 50 endif set viminfo ^=! endif set t_Co = 16 endif runtime ! macros / matchit . vim endif |
let base_setup = [ dotvimrc , Text ( lines_of_string { vim | |
let s : opam_share_dir = system ( " opam config var share " ) |
let s : opam_share_dir = substitute ( s : opam_share_dir , ' [ \ r \ n ] ' , *$ ' ' , ' ' ) |
let s : opam_configuration = { } execute " set rtp " ^= . s : opam_share_dir . " / ocp - indent / vim " endfunction |
let s : opam_configuration [ ' ocp - indent ' ] = function ( ' OpamConfOcpIndent ' ) execute " set rtp " += . s : opam_share_dir . " / ocp - index / vim " endfunction |
let s : opam_configuration [ ' ocp - index ' ] = function ( ' OpamConfOcpIndex ' ) let l : dir = s : opam_share_dir . " / merlin / vim " execute " set rtp " += . l : dir endfunction |
let s : opam_packages = [ " ocp - indent " , " ocp - index " , " merlin " ] |
let s : opam_available_tools = [ ] " Respect package order ( merlin should be after ocp - index ) if isdirectory ( s : opam_share_dir . " " / . tool ) call add ( s : opam_available_tools , tool ) call s : opam_configuration [ tool ] ( ) endif endfor |
let comment = ( ) ^ " " \ " |
let share_dir = opam_var " share " |
module OcpIndent = struct let name = " ocp - indent " let chunks = let contents = Printf . sprintf { vim | source % S endif | vim } ( share_dir " / ocp - indent " " / vim " " / indent " " / ocaml . vim " ) in [ dotvimrc , Text ( lines_of_string contents ) ] let files = [ ] let post_install = [ ] let pre_remove = [ ] end |
module OcpIndex = struct let name = " ocp - index " let chunks = [ ] let files = [ ] let post_install = [ ] let pre_remove = [ ] end |
module Merlin = struct let name = " ocp - index " let chunks = [ ] let files = [ ] let post_install = [ ] let pre_remove = [ ] end |
let tools = [ ( module OcpIndent : ToolConfig ) ; ( module OcpIndex : ToolConfig ) ; ( module Merlin : ToolConfig ) ; ] |
type t = { vlib : Lib . t ; impl : Dune_file . Library . t ; vlib_modules : Modules . t ; vlib_foreign_objects : Path . t list ; impl_cm_kind : Cm_kind . t ; vlib_obj_map : Module . t Module_name . Unique . Map . t } |
let vlib_modules t = t . vlib_modules |
let vlib t = t . vlib |
let impl t = t . impl |
let impl_cm_kind t = t . impl_cm_kind |
let impl_modules t m = match t with | None -> m | Some t -> Modules . impl ~ vlib : t . vlib_modules m |
let make ~ vlib ~ impl ~ vlib_modules ~ vlib_foreign_objects = let impl_cm_kind = let vlib_info = Lib . info vlib in let { Mode . Dict . byte ; native = _ } = Lib_info . modes vlib_info in Mode . cm_kind ( if byte then Byte else Native ) in let vlib_obj_map = Modules . obj_map vlib_modules ~ f ( : function | Normal m -> m | _ -> assert false ) |> Module . Obj_map . fold ~ init : Module_name . Unique . Map . empty ~ f ( : fun m acc -> Module_name . Unique . Map . add_exn acc ( Module . obj_name m ) m ) in { impl ; impl_cm_kind ; vlib ; vlib_modules ; vlib_foreign_objects ; vlib_obj_map } |
let vlib_stubs_o_files = function | None -> [ ] | Some t -> t . vlib_foreign_objects |
let vlib_obj_map t = t . vlib_obj_map |
module type ViolationArg = sig include MyARG . S with module Edge = MyARG . InlineEdge val prev : Node . t -> ( Edge . t * Node . t ) list val violations : Node . t list end |
let find_sinks ( type node ) ( module Arg : ViolationArg with type Node . t = node ) = let module NHT = BatHashtbl . Make ( Arg . Node ) in let non_sinks = NHT . create 100 in let rec iter_node node = if not ( NHT . mem non_sinks node ) then begin NHT . replace non_sinks node ( ) ; List . iter ( fun ( _ , prev_node ) -> iter_node prev_node ) ( Arg . prev node ) end in List . iter iter_node Arg . violations ; fun n -> not ( NHT . mem non_sinks n ) |
module type Feasibility = sig module Node : MyARG . Node type result = | Feasible | Infeasible of ( Node . t * MyARG . inline_edge * Node . t ) list | Unknown val check_path : ( Node . t * MyARG . inline_edge * Node . t ) list -> result end |
module UnknownFeasibility ( Node : MyARG . Node ) : Feasibility with module Node = Node = struct module Node = Node type result = | Feasible | Infeasible of ( Node . t * MyARG . inline_edge * Node . t ) list | Unknown let check_path _ = Unknown end |
module type PathArg = MyARG . S with module Edge = MyARG . InlineEdge |
type ' node result = | Feasible of ( module PathArg with type Node . t = ' node ) | Infeasible of ( ' node * MyARG . inline_edge * ' node ) list | Unknown |
let find_path ( type node ) ( module Arg : ViolationArg with type Node . t = node ) ( module Feasibility : Feasibility with type Node . t = node ) : node result = let module NHT = BatHashtbl . Make ( Arg . Node ) in let rec trace_path next_nodes node2 = if NHT . mem next_nodes node2 then begin let ( edge , next_node ) = NHT . find next_nodes node2 in ( node2 , edge , next_node ) :: trace_path next_nodes next_node end else [ ] in let print_path path = List . iter ( fun ( n1 , e , n2 ) -> ignore ( Pretty . printf " % s [ =% s ] => % s \ n " ( Arg . Node . to_string n1 ) ( Arg . Edge . to_string e ) ( Arg . Node . to_string n2 ) ) ) path in let find_path nodes = let next_nodes = NHT . create 100 in let itered_nodes = NHT . create 100 in let rec bfs curs nexts = match curs with | node :: curs ' -> if Arg . Node . equal node Arg . main_entry then raise Found else if not ( NHT . mem itered_nodes node ) then begin NHT . replace itered_nodes node ( ) ; List . iter ( fun ( edge , prev_node ) -> if not ( NHT . mem itered_nodes prev_node ) then NHT . replace next_nodes prev_node ( edge , node ) ) ( Arg . prev node ) ; bfs curs ' ( List . map snd ( Arg . prev node ) @ nexts ) end else bfs curs ' nexts | [ ] -> match nexts with | [ ] -> ( ) | _ -> bfs nexts [ ] in try bfs nodes [ ] ; None with | Found -> Some ( trace_path next_nodes Arg . main_entry ) in begin match find_path Arg . violations with | Some path -> print_path path ; begin match Feasibility . check_path path with | Feasibility . Feasible -> print_endline " feasible " ; let module PathArg = struct module Node = Arg . Node module Edge = Arg . Edge let main_entry = BatTuple . Tuple3 . first ( List . hd path ) let next = let module NHT = BatHashtbl . Make ( Node ) in let next = NHT . create ( List . length path ) in List . iter ( fun ( n1 , e , n2 ) -> NHT . modify_def [ ] n1 ( fun nexts -> ( e , n2 ) :: nexts ) next ) path ; ( fun n -> NHT . find_default next n [ ] ) end in Feasible ( module PathArg ) | Feasibility . Infeasible subpath -> print_endline " infeasible " ; print_path subpath ; Infeasible subpath | Feasibility . Unknown -> print_endline " unknown " ; Unknown end | None -> Unknown end |
module WP ( Node : MyARG . Node ) : Feasibility with module Node = Node = struct module Node = Node open Z3 open Cil let cfg = [ ( " model " , " true " ) ; ( " unsat_core " , " true " ) ; ] let ctx = mk_context cfg type var = varinfo module Var = CilType . Varinfo module type Env = sig type t val empty : t val get_const : t -> var -> Expr . expr val freshen : t -> var -> t end module Env : Env = struct module VarMap = Map . Make ( Var ) type t = Expr . expr VarMap . t let empty = VarMap . empty let get_name x = x . vname let get_const m x = match VarMap . find_opt x m with | Some x -> x | None -> Arithmetic . Integer . mk_const_s ctx ( get_name x ) let sort = Arithmetic . Integer . mk_sort ctx let freshen env x = VarMap . add x ( Expr . mk_fresh_const ctx ( get_name x ) sort ) env end let bool_to_int expr = Boolean . mk_ite ctx expr ( Arithmetic . Integer . mk_numeral_i ctx 1 ) ( Arithmetic . Integer . mk_numeral_i ctx 0 ) let int_to_bool expr = Boolean . mk_distinct ctx [ expr ; Arithmetic . Integer . mk_numeral_i ctx 0 ] let rec exp_to_expr env = function | Const ( CInt64 ( i , _ , _ ) ) -> Arithmetic . Integer . mk_numeral_s ctx ( Int64 . to_string i ) | Lval ( Var v , NoOffset ) -> Env . get_const env v | BinOp ( PlusA , e1 , e2 , TInt _ ) -> Arithmetic . mk_add ctx [ exp_to_expr env e1 ; exp_to_expr env e2 ] | BinOp ( MinusA , e1 , e2 , TInt _ ) -> Arithmetic . mk_sub ctx [ exp_to_expr env e1 ; exp_to_expr env e2 ] | BinOp ( Mult , e1 , e2 , TInt _ ) -> Arithmetic . mk_mul ctx [ exp_to_expr env e1 ; exp_to_expr env e2 ] | BinOp ( Eq , e1 , e2 , TInt _ ) -> bool_to_int ( Boolean . mk_eq ctx ( exp_to_expr env e1 ) ( exp_to_expr env e2 ) ) | BinOp ( Ne , e1 , e2 , TInt _ ) -> bool_to_int ( Boolean . mk_distinct ctx [ exp_to_expr env e1 ; exp_to_expr env e2 ] ) | BinOp ( Gt , e1 , e2 , TInt _ ) -> bool_to_int ( Arithmetic . mk_gt ctx ( exp_to_expr env e1 ) ( exp_to_expr env e2 ) ) | BinOp ( Lt , e1 , e2 , TInt _ ) -> bool_to_int ( Arithmetic . mk_lt ctx ( exp_to_expr env e1 ) ( exp_to_expr env e2 ) ) | BinOp ( Ge , e1 , e2 , TInt _ ) -> bool_to_int ( Arithmetic . mk_ge ctx ( exp_to_expr env e1 ) ( exp_to_expr env e2 ) ) | BinOp ( Le , e1 , e2 , TInt _ ) -> bool_to_int ( Arithmetic . mk_le ctx ( exp_to_expr env e1 ) ( exp_to_expr env e2 ) ) | UnOp ( LNot , e , TInt _ ) -> bool_to_int ( Boolean . mk_not ctx ( int_to_bool ( exp_to_expr env e ) ) ) | e -> failwith @@ Pretty . sprint ~ width : 80 @@ Pretty . dprintf " exp_to_expr : % a " Cil . d_exp e let get_arg_vname i = Goblintutil . create_var ( Cil . makeVarinfo false ( " _arg " ^ string_of_int i ) Cil . intType ) let return_vname = Goblintutil . create_var ( Cil . makeVarinfo false " _return " Cil . intType ) let wp_assert env ( from_node , ( edge : MyARG . inline_edge ) , _ ) = match edge with | MyARG . CFGEdge ( MyCFG . Assign ( ( Var v , NoOffset ) , e ) ) -> let env ' = Env . freshen env v in ( env ' , [ Boolean . mk_eq ctx ( Env . get_const env v ) ( exp_to_expr env ' e ) ] ) | MyARG . CFGEdge ( MyCFG . Test ( e , true ) ) -> ( env , [ Boolean . mk_distinct ctx [ exp_to_expr env e ; Arithmetic . Integer . mk_numeral_i ctx 0 ] ] ) | MyARG . CFGEdge ( MyCFG . Test ( e , false ) ) -> ( env , [ Boolean . mk_eq ctx ( exp_to_expr env e ) ( Arithmetic . Integer . mk_numeral_i ctx 0 ) ] ) | MyARG . CFGEdge ( MyCFG . Entry fd ) -> let env ' = List . fold_left ( fun acc formal -> Env . freshen acc formal ) env fd . sformals in let eqs = List . mapi ( fun i formal -> let arg_vname = get_arg_vname i in Boolean . mk_eq ctx ( Env . get_const env formal ) ( Env . get_const env ' arg_vname ) ) fd . sformals in ( env ' , eqs ) | MyARG . InlineEntry args -> let env ' = BatList . fold_lefti ( fun acc i arg -> let arg_vname = get_arg_vname i in Env . freshen acc arg_vname ) env args in let eqs = List . mapi ( fun i arg -> let arg_vname = get_arg_vname i in Boolean . mk_eq ctx ( Env . get_const env arg_vname ) ( exp_to_expr env ' arg ) ) args in ( env ' , eqs ) | MyARG . CFGEdge ( MyCFG . Ret ( None , fd ) ) -> ( env , [ ] ) | MyARG . CFGEdge ( MyCFG . Ret ( Some e , fd ) ) -> let env ' = Env . freshen env return_vname in ( env ' , [ Boolean . mk_eq ctx ( Env . get_const env return_vname ) ( exp_to_expr env ' e ) ] ) | MyARG . InlineReturn None -> ( env , [ ] ) | MyARG . InlineReturn ( Some ( Var v , NoOffset ) ) -> let env ' = Env . freshen env v in ( env ' , [ Boolean . mk_eq ctx ( Env . get_const env v ) ( Env . get_const env ' return_vname ) ] ) | _ -> failwith @@ Pretty . sprint ~ width : 80 @@ Pretty . dprintf " wp_assert : % a " MyARG . pretty_inline_edge edge let const_get_symbol ( expr : Expr . expr ) : Symbol . symbol = assert ( Expr . is_const expr ) ; let func_decl = Expr . get_func_decl expr in FuncDecl . get_name func_decl type result = | Feasible | Infeasible of ( Node . t * MyARG . inline_edge * Node . t ) list | Unknown let wp_path path = let solver = Solver . mk_simple_solver ctx in let rec iter_wp revpath i env = match revpath with | [ ] -> Feasible | step :: revpath ' -> let ( env ' , asserts ) = wp_assert env step in begin match asserts with | [ ] -> iter_wp revpath ' ( i - 1 ) env ' | [ expr ] -> do_assert revpath ' i env ' expr | exprs -> let expr = Boolean . mk_and ctx exprs in do_assert revpath ' i env ' expr end and do_assert revpath ' i env ' expr = Printf . printf " % d : % s \ n " i ( Expr . to_string expr ) ; let track_const = Boolean . mk_const ctx ( Symbol . mk_int ctx i ) in Solver . assert_and_track solver expr track_const ; let status = Solver . check solver [ ] in Printf . printf " % d : % s \ n " i ( Solver . string_of_status status ) ; match Solver . check solver [ ] with | Solver . SATISFIABLE -> Printf . printf " % d : % s \ n " i ( Model . to_string ( BatOption . get @@ Solver . get_model solver ) ) ; iter_wp revpath ' ( i - 1 ) env ' | Solver . UNSATISFIABLE -> let extract_track expr = assert ( Expr . is_const expr ) ; let symbol = const_get_symbol expr in assert ( Symbol . is_int_symbol symbol ) ; Symbol . get_int symbol in let unsat_core = Solver . get_unsat_core solver in let unsat_core_is = unsat_core |> List . map extract_track |> List . sort compare in unsat_core_is |> List . map string_of_int |> String . concat " " |> print_endline ; let ( mini , maxi ) = BatList . min_max unsat_core_is in let unsat_path = BatList . filteri ( fun i _ -> mini <= i && i <= maxi ) path in Infeasible unsat_path | Solver . UNKNOWN -> Unknown in iter_wp ( List . rev path ) ( List . length path - 1 ) Env . empty let check_path = wp_path end |
module Configuration = struct type t = { name : string ; parameters : ( string * string ) list } let to_json { name ; parameters } : Yojson . Basic . json = ` Assoc [ " name " , ` String name ; " parameters " , ` Assoc ( List . map parameters ~ f ( : fun ( a , b ) -> a , ` String b ) ) ; ] let render { parameters ; _ } = List . concat_map parameters ~ f ( : fun ( a , b ) -> [ a ; b ] ) let default = { name = " default " ; parameters = [ ] } let example_1 = { name = " examplel_1 " ; parameters = [ " - c1 " , " 20 " ; " - C1 " , " 100 " ; " - c2 " , " 20 " ; " - C2 " , " 100 " ; ] } let name t = t . name end |
let run ~ run_with ~ normal ~ tumor ~ result_prefix ( ? more_edges = [ ] ) ~ configuration ( ) = let open KEDSL in let open Configuration in let name = Filename . basename result_prefix in let result_file suffix = result_prefix ^ suffix in let output_file = result_file " - somatic . vcf " in let output_prefix = " virmid - output " in let work_dir = result_file " - workdir " in let reference_fasta = Machine . get_reference_genome run_with normal # product # reference_build |> Reference_genome . fasta in let virmid_tool = Machine . get_tool run_with Machine . Tool . Default . virmid in let virmid_somatic_broken_vcf = work_dir // Filename . basename tumor # product # path ^ " . virmid . som . passed . vcf " in let processors = Machine . max_processors run_with in let make = Machine . run_big_program run_with ~ name ~ processors ~ self_ids [ " : virmid " ] Program . ( Machine . Tool . init virmid_tool && shf " mkdir - p % s " work_dir && sh ( String . concat ~ sep " : " ( [ " java - jar $ VIRMID_JAR - f " ; " - w " ; work_dir ; " - R " ; reference_fasta # product # path ; " - D " ; tumor # product # path ; " - N " ; normal # product # path ; " - t " ; Int . to_string processors ; " - o " ; output_prefix ; ] @ Configuration . render configuration ) ) && shf " sed ' s ( /\\## INFO . * Number = A , Type = String , ) \\ /\\ 1 ' / % s > % s " virmid_somatic_broken_vcf output_file ) in workflow_node ~ name ~ make ( vcf_file output_file ~ reference_build : normal # product # reference_build ~ host : Machine . ( as_host run_with ) ) ~ edges ( : more_edges @ [ depends_on normal ; depends_on tumor ; depends_on reference_fasta ; depends_on ( Machine . Tool . ensure virmid_tool ) ; ] ) |
module Pp_spec : sig type t val make : Preprocess . Without_instrumentation . t Preprocess . t Module_name . Per_item . t -> Ocaml_version . t -> t val pped_module : t -> Module . t -> Module . t type t = ( Module . t -> Module . t ) Module_name . Per_item . t let make preprocess v = Module_name . Per_item . map preprocess ~ f ( : fun pp -> match Preprocess . remove_future_syntax ~ for_ : Compiler pp v with | No_preprocessing -> Module . ml_source | Action ( _ , _ ) -> fun m -> Module . ml_source ( Module . pped m ) | Pps { loc = _ ; pps = _ ; flags = _ ; staged } -> if staged then Module . ml_source else fun m -> Module . pped ( Module . ml_source m ) ) let pped_module ( t : t ) m = Module_name . Per_item . get t ( Module . name m ) m end |
let setup_copy_rules_for_impl ~ sctx ~ dir vimpl = let ctx = Super_context . context sctx in let vlib = Vimpl . vlib vimpl in let impl = Vimpl . impl vimpl in let impl_obj_dir = Dune_file . Library . obj_dir ~ dir impl in let vlib_obj_dir = Lib . obj_dir vlib in let add_rule = Super_context . add_rule sctx ~ dir in let copy_to_obj_dir ~ src ~ dst = add_rule ~ loc ( : Loc . of_pos __POS__ ) ( Action_builder . symlink ~ src ~ dst ) in let { Lib_config . has_native ; ext_obj ; _ } = ctx . lib_config in let { Mode . Dict . byte ; native } = Dune_file . Mode_conf . Set . eval impl . modes ~ has_native in let copy_obj_file m kind = let src = Obj_dir . Module . cm_file_exn vlib_obj_dir m ~ kind in let dst = Obj_dir . Module . cm_file_exn impl_obj_dir m ~ kind in copy_to_obj_dir ~ src ~ dst in let open Memo . O in let copy_objs src = copy_obj_file src Cmi >>> Memo . when_ ( Module . visibility src = Public && Obj_dir . need_dedicated_public_dir impl_obj_dir ) ( fun ( ) -> let dst = Obj_dir . Module . cm_public_file_exn impl_obj_dir src ~ kind : Cmi in let src = Obj_dir . Module . cm_public_file_exn vlib_obj_dir src ~ kind : Cmi in copy_to_obj_dir ~ src ~ dst ) >>> Memo . when_ ( Module . has src ~ ml_kind : Impl ) ( fun ( ) -> Memo . when_ byte ( fun ( ) -> copy_obj_file src Cmo ) >>> Memo . when_ native ( fun ( ) -> copy_obj_file src Cmx >>> let object_file dir = Obj_dir . Module . o_file_exn dir src ~ ext_obj in copy_to_obj_dir ~ src ( : object_file vlib_obj_dir ) ~ dst ( : object_file impl_obj_dir ) ) ) in let vlib_modules = Vimpl . vlib_modules vimpl in Modules . fold_no_vlib vlib_modules ~ init ( : Memo . return ( ) ) ~ f ( : fun m acc -> acc >>> copy_objs m ) |
let impl sctx ( ~ lib : Dune_file . Library . t ) ~ scope = let open Memo . O in match lib . implements with | None -> Memo . return None | Some ( loc , implements ) -> ( Lib . DB . find ( Scope . libs scope ) implements >>= function | None -> User_error . raise ~ loc [ Pp . textf " Cannot implement % s as that library isn ' t available " ( Lib_name . to_string implements ) ] | Some vlib -> let info = Lib . info vlib in let virtual_ = let virtual_ = Lib_info . virtual_ info in match virtual_ with | None -> User_error . raise ~ loc : lib . buildable . loc [ Pp . textf " Library % s isn ' t virtual and cannot be implemented " ( Lib_name . to_string implements ) ] | Some v -> v in let + vlib_modules , vlib_foreign_objects = let foreign_objects = Lib_info . foreign_objects info in match ( virtual_ , foreign_objects ) with | External _ , Local | Local , External _ -> assert false | External modules , External fa -> Memo . return ( modules , fa ) | Local , Local -> let name = Lib . name vlib in let vlib = Lib . Local . of_lib_exn vlib in let * dir_contents = let info = Lib . Local . info vlib in let dir = Lib_info . src_dir info in Dir_contents . get sctx ~ dir in let * preprocess = Resolve . Memo . read_memo ( Preprocess . Per_module . with_instrumentation lib . buildable . preprocess ~ instrumentation_backend : ( Lib . DB . instrumentation_backend ( Scope . libs scope ) ) ) in let * modules = let pp_spec = Pp_spec . make preprocess ( Super_context . context sctx ) . version in Dir_contents . ocaml dir_contents >>| Ml_sources . modules ~ for_ ( : Library name ) >>= Modules . map_user_written ~ f ( : fun m -> Memo . return ( Pp_spec . pped_module pp_spec m ) ) in let + foreign_objects = let ext_obj = ( Super_context . context sctx ) . lib_config . ext_obj in let dir = Obj_dir . obj_dir ( Lib . Local . obj_dir vlib ) in let + foreign_sources = Dir_contents . foreign_sources dir_contents in foreign_sources |> Foreign_sources . for_lib ~ name |> Foreign . Sources . object_files ~ ext_obj ~ dir |> List . map ~ f : Path . build in ( modules , foreign_objects ) in Some ( Vimpl . make ~ impl : lib ~ vlib ~ vlib_modules ~ vlib_foreign_objects ) ) |
type t = | Public | Private |
let to_string = function | Public -> " public " | Private -> " private " |
let to_dyn t = Dyn . string ( to_string t ) |
let encode = let open Dune_lang . Encoder in function | Public -> string " public " | Private -> string " private " |
let decode = let open Dune_lang . Decoder in plain_string ( fun ~ loc -> function | " public " -> Public | " private " -> Private | _ -> User_error . raise ~ loc [ Pp . text " Not a valid visibility . Valid visibility is public or private " ] ) |
let is_public = function | Public -> true | Private -> false |
let is_private t = not ( is_public t ) |
module Map = struct type ' a t = { public : ' a ; private_ : ' a } let make_both a = { public = a ; private_ = a } let find { private_ ; public } = function | Private -> private_ | Public -> public end |
module Bounds = struct type t = { min_x : int ; min_y : int ; max_x : int ; max_y : int } [ @@ deriving sexp , equal ] end |
let get_conservative_vis_bounds ( element : Dom_html . element Js . t ) : Bounds . t option = let client_bounds = element ## getBoundingClientRect in let client_x = client_bounds . ## left and client_y = client_bounds . ## top and client_bottom = client_bounds . ## bottom and client_right = client_bounds . ## right and client_width = client_bounds . ## width and client_height = client_bounds . ## height and window_height = Dom_html . window . ## innerHeight and window_width = Dom_html . window . ## innerWidth in let % bind . Option window_height = Js . Optdef . to_option window_height in let % bind . Option window_width = Js . Optdef . to_option window_width in let window_height = Float . of_int window_height and window_width = Float . of_int window_width and client_width = Js . Optdef . get client_width ( Fn . const 0 . 0 ) and client_height = Js . Optdef . get client_height ( Fn . const 0 . 0 ) in if Float . O . ( client_y > window_height || client_x > window_width || client_bottom < 0 . 0 || client_right < 0 . 0 ) then None else let open Float in let min_y = max 0 . 0 ( - client_y ) and min_x = max 0 . 0 ( - client_x ) and max_y = if client_bottom < window_height then client_height else window_height - client_y and max_x = if client_right < window_width then client_width else window_width - client_x in Some { Bounds . min_x = iround_down_exn min_x ; min_y = iround_down_exn min_y ; max_x = iround_up_exn max_x ; max_y = iround_up_exn max_y } ; ; |
module T = struct module Input = struct type t = Bounds . t -> unit Vdom . Effect . t [ @@ deriving sexp_of ] let combine left right bounds = Vdom . Effect . sequence_as_sibling ( left bounds ) ~ unless_stopped ( : fun ( ) -> right bounds ) ; ; end module State = struct type t = { mutable callback : Bounds . t -> unit ; mutable prev : Bounds . t ; mutable animation_id : ( Dom_html . animation_frame_request_id [ @ sexp . opaque ] ) ; mutable dirty : bool } [ @@ deriving sexp_of ] let schedule state ~ f = cancel_animation_frame state . animation_id ; state . animation_id <- request_animation_frame f ; ; end let wrap_with_handle f t = Vdom . Effect . Expert . handle_non_dom_event_exn ( f t ) let init callback element = let state = { State . callback = wrap_with_handle callback ; prev = { min_x = 0 ; min_y = 0 ; max_x = 0 ; max_y = 0 } ; animation_id = request_animation_frame ( Fn . const ( ) ) ; dirty = true } in let rec every_frame _frame_time = ( match get_conservative_vis_bounds element with | Some bounds when state . dirty || not ( Bounds . equal bounds state . prev ) -> state . callback bounds ; state . prev <- bounds ; state . dirty <- false | _ -> ( ) ) ; State . schedule state ~ f : every_frame in State . schedule state ~ f : every_frame ; state ; ; let on_mount _input _state _element = ( ) let update ~ old_input : _ ~ new_input : callback ( state : State . t ) _element = state . dirty <- true ; state . callback <- wrap_with_handle callback ; ; let destroy _input ( state : State . t ) _element = cancel_animation_frame state . animation_id ; ; end |
module Hook = Vdom . Attr . Hooks . Make ( T ) |
let on_change f = Vdom . Attr . create_hook " bounds - change " ( Hook . create f ) |
type node = | Expression of Expression . t | Statement of Statement . t | Argument of Identifier . t Node . t | Parameter of Parameter . t | Reference of Reference . t Node . t | Substring of Substring . t | Generator of Comprehension . Generator . t |
module type NodeVisitor = sig type t val node : t -> node -> t val visit_statement_children : t -> Statement . t -> bool val visit_format_string_children : t -> Expression . t -> bool end |
module MakeNodeVisitor ( Visitor : NodeVisitor ) = struct let visit_node ~ state ~ visitor node = state := visitor ! state node let visit_argument { Call . Argument . value ; _ } ~ visit_expression = visit_expression value let visit_parameter ( { Node . value = { Parameter . value ; annotation ; _ } ; _ } as parameter ) ~ visitor ~ visit_expression ~ state = visit_node ~ state ~ visitor ( Parameter parameter ) ; Option . iter ~ f : visit_expression value ; Option . iter ~ f : visit_expression annotation let rec visit_expression ~ state ? visitor_override expression = let visitor = Option . value visitor_override ~ default : Visitor . node in let visit_expression = visit_expression ~ state ? visitor_override in let visit_generator ( { Comprehension . Generator . target ; iterator ; conditions ; _ } as generator ) ~ visit_expression = visit_node ~ state ~ visitor ( Generator generator ) ; visit_expression target ; visit_expression iterator ; List . iter conditions ~ f : visit_expression in let visit_entry { Dictionary . Entry . key ; value } ~ visit_expression = visit_expression key ; visit_expression value in let visit_children value = match value with | Expression . Await expression -> visit_expression expression | BooleanOperator { BooleanOperator . left ; right ; _ } | ComparisonOperator { ComparisonOperator . left ; right ; _ } -> visit_expression left ; visit_expression right | Call { Call . callee ; arguments } -> visit_expression callee ; let visit_argument { Call . Argument . value ; name } = name >>| ( fun name -> visit_node ~ state ~ visitor ( Argument name ) ) |> ignore ; visit_expression value in List . iter arguments ~ f : visit_argument | Dictionary { Dictionary . entries ; keywords } -> List . iter entries ~ f ( : visit_entry ~ visit_expression ) ; List . iter keywords ~ f : visit_expression |> ignore | DictionaryComprehension { Comprehension . element ; generators } -> List . iter generators ~ f ( : visit_generator ~ visit_expression ) ; visit_entry element ~ visit_expression | Generator { Comprehension . element ; generators } -> List . iter generators ~ f ( : visit_generator ~ visit_expression ) ; visit_expression element | Lambda { Lambda . parameters ; body } -> List . iter parameters ~ f ( : visit_parameter ~ state ~ visitor ~ visit_expression ) ; visit_expression body | List elements -> List . iter elements ~ f : visit_expression | ListComprehension { Comprehension . element ; generators } -> List . iter generators ~ f ( : visit_generator ~ visit_expression ) ; visit_expression element | Name ( Name . Identifier _ ) -> ( ) | Name ( Name . Attribute { base ; _ } ) -> visit_expression base | Set elements -> List . iter elements ~ f : visit_expression | SetComprehension { Comprehension . element ; generators } -> List . iter generators ~ f ( : visit_generator ~ visit_expression ) ; visit_expression element | Starred starred -> ( match starred with | Starred . Once expression | Starred . Twice expression -> visit_expression expression ) | FormatString substrings -> List . iter ~ f ( : fun substring -> visit_node ~ state ~ visitor ( Substring substring ) ) substrings ; if Visitor . visit_format_string_children ! state expression then let visit_children = function | Substring . Format expression -> visit_expression expression | _ -> ( ) in List . iter ~ f : visit_children substrings | Ternary { Ternary . target ; test ; alternative } -> visit_expression target ; visit_expression test ; visit_expression alternative | Tuple elements -> List . iter elements ~ f : visit_expression | UnaryOperator { UnaryOperator . operand ; _ } -> visit_expression operand | WalrusOperator { target ; value } -> visit_expression target ; visit_expression value | Expression . Yield expression -> Option . iter ~ f : visit_expression expression | Expression . YieldFrom expression -> visit_expression expression | Constant _ -> ( ) in visit_children ( Node . value expression ) ; visit_node ~ state ~ visitor ( Expression expression ) let rec visit_statement ~ state statement = let location = Node . location statement in let visitor = Visitor . node in let visit_expression = visit_expression ~ state in let visit_statement = visit_statement ~ state in let visit_children value = match value with | Statement . Assign { Assign . target ; annotation ; value ; _ } -> visit_expression target ; Option . iter ~ f : visit_expression annotation ; visit_expression value | Assert { Assert . test ; message ; _ } -> visit_expression test ; Option . iter ~ f : visit_expression message | Class ( { Class . name ; base_arguments ; body ; decorators ; _ } as class_ ) -> visit_node ~ state ~ visitor ( Reference ( Node . create ~ location ( : Class . name_location ~ body_location : location class_ ) name ) ) ; List . iter base_arguments ~ f ( : visit_argument ~ visit_expression ) ; List . iter body ~ f : visit_statement ; List . iter ~ f : visit_expression decorators | Define ( { Define . signature ; captures ; body ; unbound_names = _ } as define ) -> let iter_signature { Define . Signature . name ; parameters ; decorators ; return_annotation ; _ } = visit_node ~ state ~ visitor ( Reference ( Node . create ~ location ( : Define . name_location ~ body_location : location define ) name ) ) ; List . iter parameters ~ f ( : visit_parameter ~ state ~ visitor ~ visit_expression ) ; List . iter ~ f : visit_expression decorators ; Option . iter ~ f : visit_expression return_annotation in let iter_capture { Define . Capture . kind ; _ } = match kind with | Define . Capture . Kind . Annotation annotation -> Option . iter annotation ~ f : visit_expression | Define . Capture . Kind . DefineSignature value -> iter_signature value | Define . Capture . Kind . ( Self _ | ClassSelf _ ) -> ( ) in iter_signature signature ; List . iter body ~ f : visit_statement ; List . iter captures ~ f : iter_capture | Delete expressions -> List . iter expressions ~ f : visit_expression | Expression expression -> visit_expression expression | For { For . target ; iterator ; body ; orelse ; _ } -> visit_expression target ; visit_expression iterator ; List . iter body ~ f : visit_statement ; List . iter orelse ~ f : visit_statement | If { If . test ; body ; orelse } -> visit_expression test ; List . iter body ~ f : visit_statement ; List . iter orelse ~ f : visit_statement | Match { Match . subject ; cases } -> let rec visit_pattern { Node . value ; location } = match value with | Match . Pattern . MatchAs { pattern ; _ } -> Option . iter pattern ~ f : visit_pattern | MatchClass { patterns ; keyword_patterns ; _ } -> List . iter patterns ~ f : visit_pattern ; List . iter keyword_patterns ~ f : visit_pattern | MatchMapping { keys ; patterns ; _ } -> List . iter keys ~ f : visit_expression ; List . iter patterns ~ f : visit_pattern | MatchOr patterns | MatchSequence patterns -> List . iter patterns ~ f : visit_pattern | MatchSingleton constant -> visit_expression { Node . value = Expression . Constant constant ; location } | MatchValue expression -> visit_expression expression | MatchStar _ | MatchWildcard -> ( ) in let visit_case { Match . Case . pattern ; guard ; body } = visit_pattern pattern ; Option . iter guard ~ f : visit_expression ; List . iter body ~ f : visit_statement in visit_expression subject ; List . iter cases ~ f : visit_case | Raise { Raise . expression ; from } -> Option . iter ~ f : visit_expression expression ; Option . iter ~ f : visit_expression from | Return { Return . expression ; _ } -> Option . iter ~ f : visit_expression expression | Try { Try . body ; handlers ; orelse ; finally } -> let visit_handler { Try . Handler . kind ; body ; _ } = Option . iter ~ f : visit_expression kind ; List . iter body ~ f : visit_statement in List . iter body ~ f : visit_statement ; List . iter handlers ~ f : visit_handler ; List . iter orelse ~ f : visit_statement ; List . iter finally ~ f : visit_statement | With { With . items ; body ; _ } -> let visit_item ( item , alias ) = visit_expression item ; Option . iter ~ f : visit_expression alias in List . iter items ~ f : visit_item ; List . iter body ~ f : visit_statement | While { While . test ; body ; orelse } -> visit_expression test ; List . iter body ~ f : visit_statement ; List . iter orelse ~ f : visit_statement | Import _ | Nonlocal _ | Global _ | Pass | Continue | Break -> ( ) in if Visitor . visit_statement_children ! state statement then visit_children ( Node . value statement ) ; visit_node ~ state ~ visitor ( Statement statement ) let visit state source = let state = ref state in List . iter source . Source . statements ~ f ( : visit_statement ~ state ) ; ! state end |
module type Visitor = sig type t val expression : t -> Expression . t -> t val statement : t -> Statement . t -> t end |
module Make ( Visitor : Visitor ) = struct let visit = let module NodeVisitor = MakeNodeVisitor ( struct type t = Visitor . t let node state = function | Expression expression -> Visitor . expression state expression | Statement statement -> Visitor . statement state statement | _ -> state let visit_statement_children _ _ = true let visit_format_string_children _ _ = false end ) in NodeVisitor . visit end |
module type StatementVisitor = sig type t val visit_children : Statement . t -> bool val statement : Source . t -> t -> Statement . t -> t end |
module MakeStatementVisitor ( Visitor : StatementVisitor ) = struct let visit state ( { Source . statements ; _ } as source ) = let state = ref state in let open Statement in let rec visit_statement { Node . location ; value } = if Visitor . visit_children { Node . location ; value } then ( match value with | Assign _ | Assert _ | Break | Continue | Delete _ | Expression _ | Global _ | Import _ | Pass | Raise _ | Return _ | Nonlocal _ -> ( ) | Class { Class . body ; _ } | Define { Define . body ; _ } | With { With . body ; _ } -> List . iter ~ f : visit_statement body | For { For . body ; orelse ; _ } | If { If . body ; orelse ; _ } | While { While . body ; orelse ; _ } -> List . iter ~ f : visit_statement body ; List . iter ~ f : visit_statement orelse | Match { Match . cases ; _ } -> let visit_case { Match . Case . body ; _ } = List . iter ~ f : visit_statement body in List . iter ~ f : visit_case cases | Try { Try . body ; handlers ; orelse ; finally } -> let visit_handler { Try . Handler . body ; _ } = List . iter ~ f : visit_statement body in List . iter ~ f : visit_statement body ; List . iter ~ f : visit_handler handlers ; List . iter ~ f : visit_statement orelse ; List . iter ~ f : visit_statement finally ) else ( ) ; state := Visitor . statement source ! state { Node . location ; value } in List . iter ~ f : visit_statement statements ; ! state end |
module type ExpressionPredicate = sig type t val predicate : Expression . t -> t option end |
module type StatementPredicate = sig type t val visit_children : Statement . t -> bool val predicate : Statement . t -> t option end |
module type NodePredicate = sig type t val predicate : node -> t option end |
module Collector ( ExpressionPredicate : ExpressionPredicate ) ( StatementPredicate : StatementPredicate ) ( NodePredicate : NodePredicate ) = struct type collection = { expressions : ExpressionPredicate . t list ; statements : StatementPredicate . t list ; nodes : NodePredicate . t list ; } let collect source = let module CollectingVisitor = struct type t = collection let expression ( { expressions ; _ } as state ) expression = match ExpressionPredicate . predicate expression with | Some result -> { state with expressions = result :: expressions } | None -> state let statement ( { statements ; _ } as state ) statement = match StatementPredicate . predicate statement with | Some result -> { state with statements = result :: statements } | None -> state let node ( { nodes ; _ } as state ) node = let state = match node with | Expression expression_node -> expression state expression_node | Statement statement_node -> statement state statement_node | _ -> state in match NodePredicate . predicate node with | Some result -> { state with nodes = result :: nodes } | None -> state let visit_statement_children _ _ = true let visit_format_string_children _ _ = false end in let module CollectingVisit = MakeNodeVisitor ( CollectingVisitor ) in CollectingVisit . visit { expressions = [ ] ; statements = [ ] ; nodes = [ ] } source end |
module UnitPredicate = struct type t = unit let visit_children _ = true let predicate _ = None end |
module ExpressionCollector ( Predicate : ExpressionPredicate ) = struct let collect source = let module Collector = Collector ( Predicate ) ( UnitPredicate ) ( UnitPredicate ) in let { Collector . expressions ; _ } = Collector . collect source in expressions end |
module StatementCollector ( Predicate : StatementPredicate ) = struct module CollectingVisit = MakeStatementVisitor ( struct type t = Predicate . t list let visit_children = Predicate . visit_children let statement _ statements statement = match Predicate . predicate statement with | Some result -> result :: statements | None -> statements end ) let collect source = CollectingVisit . visit [ ] source end |
module NodeCollector ( Predicate : NodePredicate ) = struct let collect source = let module Collector = Collector ( UnitPredicate ) ( UnitPredicate ) ( Predicate ) in let { Collector . nodes ; _ } = Collector . collect source in nodes end |
let collect_locations source = let module Collector = Collector ( UnitPredicate ) ( UnitPredicate ) ( struct type t = Location . t let predicate = function | Expression node -> Some ( Node . location node ) | Statement node -> Some ( Node . location node ) | Argument node -> Some ( Node . location node ) | Parameter node -> Some ( Node . location node ) | Reference node -> Some ( Node . location node ) | Substring ( Substring . Format node ) -> Some ( Node . location node ) | Substring _ | Generator _ -> None end ) in let { Collector . nodes ; _ } = Collector . collect source in nodes |
let collect_calls statement = let open Expression in let module Collector = ExpressionCollector ( struct type t = Call . t Node . t let predicate expression = match expression with | { Node . location ; value = Call call } -> Some { Node . location ; value = call } | _ -> None end ) in Collector . collect ( Source . create [ statement ] ) |
let collect_names ( ? only_simple = false ) statement = let open Expression in let module Collector = ExpressionCollector ( struct type t = Name . t Node . t let predicate expression = match expression with | { Node . location ; value = Name name } -> if only_simple && not ( is_simple_name name ) then None else Some { Node . location ; value = name } | _ -> None end ) in Collector . collect ( Source . create [ statement ] ) |
let collect_calls_and_names statement = let open Expression in let module Collector = ExpressionCollector ( struct type t = Expression . t let predicate expression = match expression with | { Node . value = Call _ ; _ } -> Some expression | { Node . value = Name _ ; _ } -> Some expression | _ -> None end ) in Collector . collect ( Source . create [ statement ] ) |
let collect_base_identifiers statement = let open Expression in let module Collector = ExpressionCollector ( struct type t = Identifier . t Node . t let predicate expression = match expression with | { Node . location ; value = Name ( Name . Identifier identifier ) } -> Some { Node . location ; value = identifier } | _ -> None end ) in Collector . collect ( Source . create [ statement ] ) |
let rec collect_non_generic_type_names { Node . value ; _ } = match value with | Expression . Call { Call . arguments ; _ } -> List . concat_map ~ f ( : fun { Call . Argument . value ; _ } -> collect_non_generic_type_names value ) arguments | Tuple elements | List elements -> List . concat_map ~ f : collect_non_generic_type_names elements | Name name -> name_to_reference name >>| Reference . show |> Option . to_list | _ -> [ ] |
let collect_format_strings_with_ignores ~ ignore_line_map source = let module CollectIgnoredFormatStrings = ExpressionCollector ( struct type t = Expression . t * Ignore . t list let predicate = function | { Node . value = Expression . FormatString _ ; location } as expression -> Map . find ignore_line_map ( Location . line location ) >>| fun ignores -> expression , ignores | _ -> None end ) in CollectIgnoredFormatStrings . collect source |
let test_collect _ = let assert_collect statements expected = let collect = let module ExpressionPredicate = struct type t = Expression . t let predicate expression = Some expression end in let module StatementPredicate = struct type t = Statement . t let visit_children _ = true let predicate statement = Some statement end in let module NodePredicate = struct type t = Visit . node let predicate node = Some node end in let module Collector = Visit . Collector ( ExpressionPredicate ) ( StatementPredicate ) ( NodePredicate ) in let { Collector . expressions ; statements ; _ } = Collector . collect ( Source . create statements ) in expressions , statements in let equal left right = List . equal [ % compare . equal : Expression . t ] ( fst left ) ( fst right ) && List . equal [ % compare . equal : Statement . t ] ( snd left ) ( snd right ) in let printer ( expressions , statements ) = Format . asprintf " % a | % a " Sexp . pp [ % message ( expressions : Expression . t list ) ] Sexp . pp [ % message ( statements : Statement . t list ) ] in assert_equal ~ cmp : equal ~ printer expected collect in assert_collect [ + Statement . Expression ( + Expression . Constant ( Constant . Float 1 . 0 ) ) ; + Statement . Expression ( + Expression . Constant ( Constant . Float 2 . 0 ) ) ; ] ( [ + Expression . Constant ( Constant . Float 2 . 0 ) ; + Expression . Constant ( Constant . Float 1 . 0 ) ] , [ + Statement . Expression ( + Expression . Constant ( Constant . Float 2 . 0 ) ) ; + Statement . Expression ( + Expression . Constant ( Constant . Float 1 . 0 ) ) ; ] ) ; assert_collect [ + Statement . If { If . test = + Expression . Constant ( Constant . Float 2 . 0 ) ; body = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ] ; } ; ] ( [ + Expression . Constant ( Constant . Float 4 . 0 ) ; + Expression . Constant ( Constant . Float 3 . 0 ) ; + Expression . Constant ( Constant . Float 2 . 0 ) ; ] , [ + Statement . If { If . test = + Expression . Constant ( Constant . Float 2 . 0 ) ; body = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ] ; } ; + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ; + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ; ] ) ; assert_collect [ + Statement . If { If . test = + Expression . Constant ( Constant . Float 1 . 0 ) ; body = [ + Statement . If { If . test = + Expression . Constant ( Constant . Float 2 . 0 ) ; body = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ] ; } ; ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 5 . 0 ) ) ] ; } ; ] ( [ + Expression . Constant ( Constant . Float 5 . 0 ) ; + Expression . Constant ( Constant . Float 4 . 0 ) ; + Expression . Constant ( Constant . Float 3 . 0 ) ; + Expression . Constant ( Constant . Float 2 . 0 ) ; + Expression . Constant ( Constant . Float 1 . 0 ) ; ] , [ + Statement . If { If . test = + Expression . Constant ( Constant . Float 1 . 0 ) ; body = [ + Statement . If { If . test = + Expression . Constant ( Constant . Float 2 . 0 ) ; body = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ] ; } ; ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 5 . 0 ) ) ] ; } ; + Statement . Expression ( + Expression . Constant ( Constant . Float 5 . 0 ) ) ; + Statement . If { If . test = + Expression . Constant ( Constant . Float 2 . 0 ) ; body = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ] ; orelse = [ + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ] ; } ; + Statement . Expression ( + Expression . Constant ( Constant . Float 4 . 0 ) ) ; + Statement . Expression ( + Expression . Constant ( Constant . Float 3 . 0 ) ) ; ] ) ; assert_collect [ + Statement . Match { Match . subject = + Expression . Constant ( Constant . Integer 0 ) ; cases = [ { Match . Case . pattern = + Match . Pattern . MatchSingleton ( Constant . Integer 2 ) ; guard = Some ( + Expression . Constant ( Constant . Integer 4 ) ) ; body = [ ] ; } ; ] ; } ; ] ( [ + Expression . Constant ( Constant . Integer 4 ) ; + Expression . Constant ( Constant . Integer 2 ) ; + Expression . Constant ( Constant . Integer 0 ) ; ] , [ + Statement . Match { Match . subject = + Expression . Constant ( Constant . Integer 0 ) ; cases = [ { Match . Case . pattern = + Match . Pattern . MatchSingleton ( Constant . Integer 2 ) ; guard = Some ( + Expression . Constant ( Constant . Integer 4 ) ) ; body = [ ] ; } ; ] ; } ; ] ) ; assert_collect [ + Statement . Expression ( + Expression . WalrusOperator { target = " ! a " ; value = + Expression . Constant ( Constant . Integer 1 ) } ) ; ] ( [ + Expression . WalrusOperator { target = " ! a " ; value = + Expression . Constant ( Constant . Integer 1 ) } ; + Expression . Constant ( Constant . Integer 1 ) ; + Expression . Name ( Identifier " a " ) ; ] , [ + Statement . Expression ( + Expression . WalrusOperator { target = " ! a " ; value = + Expression . Constant ( Constant . Integer 1 ) } ) ; ] ) |
let test_collect_location _ = let assert_collect_location source expected_locations = let source = parse ~ handle " : test . py " source in let actual_locations = Visit . collect_locations source in let expected_locations = let create_location ( start_line , start_column , end_line , end_column ) = { Location . start = { Ast . Location . line = start_line ; column = start_column } ; stop = { Ast . Location . line = end_line ; column = end_column } ; } in List . map ~ f : create_location expected_locations in let equal left right = List . equal Location . equal left right in let printer locations = Format . asprintf " % a " Sexp . pp [ % message ( locations : Location . t list ) ] in assert_equal ~ cmp : equal ~ printer expected_locations actual_locations in assert_collect_location { | if test : 1 else : 2 } | [ 2 , 0 , 5 , 3 ; 5 , 2 , 5 , 3 ; 5 , 2 , 5 , 3 ; 3 , 2 , 3 , 3 ; 3 , 2 , 3 , 3 ; 2 , 3 , 2 , 7 ; ] |
let test_collect_non_generic_type_names _ = let assert_non_generic_type_names expression expected = assert_equal ~ cmp [ :% equal : string list ] ~ printer [ :% show : string list ] expected ( Visit . collect_non_generic_type_names ( parse_single_expression ~ preprocess : true expression ) ) in assert_non_generic_type_names " typing . Tuple " [ " typing . Tuple " ] ; assert_non_generic_type_names " typing . Tuple [ int ] " [ " int " ] ; assert_non_generic_type_names " typing . Mapping [ str , typing . Any ] " [ " str " ; " typing . Any " ] ; assert_non_generic_type_names " typing . Literal [ ' typing . Any ' ] " [ ] ; assert_non_generic_type_names " typing . Callable [ [ int ] , str ] " [ " int " ; " str " ] ; assert_non_generic_type_names " typing . Union [ typing . Callable [ [ int ] , str ] ] " [ " int " ; " str " ] ; assert_non_generic_type_names " typing . Union [ typing . Tuple ] " [ " typing . Tuple " ] ; ( ) |
let test_collect_format_strings_with_ignores _ = let assert_format_strings_with_ignores source expected = let ( { Source . typecheck_flags = { ignore_lines ; _ } ; _ } as source ) = parse source in let ignore_line_map = List . map ignore_lines ~ f ( : fun ( { Ignore . ignored_line ; _ } as ignore ) -> ignored_line , ignore ) |> Int . Map . of_alist_multi in let format_strings_with_ignores = Visit . collect_format_strings_with_ignores ~ ignore_line_map source |> List . map ~ f : snd |> List . map ~ f : ( List . map ~ f ( : fun { Ignore . codes ; ignored_line ; kind ; _ } -> ignored_line , kind , codes ) ) in assert_equal ~ cmp [ :% compare . equal : ( int * Ignore . kind * int list ) list list ] ~ printer [ :% show : ( int * Ignore . kind * int list ) list list ] expected format_strings_with_ignores in let open Ignore in assert_format_strings_with_ignores { | def foo ( ) -> None : # pyre - ignore [ 7 ] # pyre - fixme [ 58 , 42 ] # Some comment . f " " " foo bar { 1 + " hello " } baz " " " } | [ [ 6 , PyreIgnore , [ 7 ] ; 6 , PyreFixme , [ 58 ; 42 ] ] ] ; assert_format_strings_with_ignores { | def foo ( ) -> None : # pyre - fixme [ 58 ] # Some comment . f " " " { 1 + " hello2 " } " " " f " " " { 1 + " hello3 " } " " " f " " " { 1 + " hello4 " } " " " } | [ [ 5 , PyreFixme , [ 58 ] ] ] ; assert_format_strings_with_ignores { | def foo ( ) -> None : # type : ignore f " { 1 + ' hello ' } " # pyre - fixme [ 58 ] f " { 1 + ' hello ' } " } | [ [ 7 , PyreFixme , [ 58 ] ] ; [ 4 , TypeIgnore , [ ] ] ] ; assert_format_strings_with_ignores { | def foo ( ) -> None : # Unignored format string f " " " { 1 + " world " } " " " } | [ ] ; ( ) |
let test_node_visitor _ = let module Visitor = struct type t = int String . Table . t let node state node = let increment hash_table key = match Hashtbl . find hash_table key with | None -> Hashtbl . set hash_table ~ key ~ data : 1 | Some value -> Hashtbl . set hash_table ~ key ~ data ( : value + 1 ) in match node with | Visit . Expression _ -> increment state " expression " ; state | Visit . Statement _ -> increment state " statement " ; state | Visit . Argument _ -> increment state " identifier " ; state | Visit . Parameter _ -> increment state " parameter " ; state | Visit . Reference _ -> increment state " reference " ; state | Visit . Substring _ -> increment state " substring " ; state | Visit . Generator _ -> increment state " generator " ; state let visit_statement_children _ _ = true let visit_format_string_children _ _ = true end in let module Visit = Visit . MakeNodeVisitor ( Visitor ) in let assert_counts source expected_counts = let table = Visit . visit ( String . Table . create ( ) ) source in List . iter ~ f ( : fun ( key , expected_value ) -> assert_equal ~ printer ( : fun value -> Format . sprintf " % s -> % d " key ( Option . value value ~ default : 0 ) ) ( Some expected_value ) ( Hashtbl . find table key ) ) expected_counts in let source = parse { | def foo ( x : int ) -> int : return x foo ( x = 1 ) foo ( x = 2 ) } | in assert_counts source [ " expression " , 9 ; " statement " , 4 ; " parameter " , 1 ; " identifier " , 2 ; " reference " , 1 ] ; let source = parse { | f " foo " f ' foobar ' } | in assert_counts source [ " expression " , 2 ; " statement " , 2 ; " substring " , 2 ] ; let source = parse { | f " foo { bar } " } | in assert_counts source [ " expression " , 2 ; " substring " , 2 ] ; let source = parse { | class C : x = 1 } | in assert_counts source [ " expression " , 2 ; " reference " , 1 ] ; ( ) |
let test_statement_visitor _ = let module StatementVisitor = struct type t = int String . Table . t let visit_children _ = true let statement _ visited statement = let increment hash_table key = match Hashtbl . find hash_table key with | None -> Hashtbl . set hash_table ~ key ~ data : 1 | Some value -> Hashtbl . set hash_table ~ key ~ data ( : value + 1 ) in match Node . value statement with | Statement . Assign _ -> increment visited " assign " ; visited | Import _ -> increment visited " import " ; visited | Match _ -> increment visited " match " ; visited | Return _ -> increment visited " return " ; visited | _ -> visited end in let module Visit = Visit . MakeStatementVisitor ( StatementVisitor ) in let assert_counts source expected_counts = let table = Visit . visit ( String . Table . create ( ) ) source in List . iter ~ f ( : fun ( key , expected_value ) -> assert_equal ( Some expected_value ) ( Hashtbl . find table key ) ) expected_counts in let source = parse { | from b import c def f ( ) : a = 1 return b = 2 if x < 3 : import a c = 3 match x : case _ : import b } | in assert_counts source [ " assign " , 3 ; " return " , 1 ; " import " , 3 ; " match " , 1 ] ; ( ) |
let test_statement_visitor_source _ = let module StatementVisitor = struct type t = string let visit_children _ = true let statement { Source . source_path = { ModulePath . relative ; _ } ; _ } _ _ = relative end in let module Visit = Visit . MakeStatementVisitor ( StatementVisitor ) in let handle = Visit . visit " " ( parse ~ handle " : test . py " " a = 1 " ) in assert_equal " test . py " handle ; let handle = Visit . visit " " ( parse ~ handle " : test2 . py " " b = 2 " ) in assert_equal " test2 . py " handle ; ( ) |
let ( ) = " visit " >::: [ " collect " >:: test_collect ; " collect_location " >:: test_collect_location ; " collect_non_generic_type_names " >:: test_collect_non_generic_type_names ; " collect_format_strings_with_ignores " >:: test_collect_format_strings_with_ignores ; " node_visitor " >:: test_node_visitor ; " statement_visitor " >:: test_statement_visitor ; " statement_visitor_source " >:: test_statement_visitor_source ; ] |> Test . run |
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