(module semantic-object mzscheme (require (planet "contract-utils.ss" ("cobbe" "contract-utils.plt" 1))) (require (planet "inspector.ss" ("dherman" "inspector.plt" 1))) (require (planet "struct.ss" ("dherman" "struct.plt" 1))) (require (planet "class.ss" ("dherman" "struct.plt" 1))) (require (lib "list.ss" "srfi" "1")) (require (lib "string.ss" "srfi" "13")) (require (lib "class.ss")) (require (all-except (lib "contract.ss") union)) (require (lib "struct.ss")) ;; TODO: (how) can this eventually work with generics? ;; TODO: put this utility in a separate planet library (define-syntax syntax-for-each (syntax-rules () [(_ transformer (arg ...)) (begin (define-syntax anonymous transformer) (anonymous arg) ...)])) (define-syntax send-map (syntax-rules () [(_ message exp) (map (lambda (elt) (send elt message)) exp)])) (define (union . lists) (apply lset-union equal? lists)) (define (union* lists) (apply lset-union equal? lists)) ;; =========================================================================== ;; DATA DEFINITIONS ;; =========================================================================== (with-public-inspector (define-struct/opt type-name (package type [dimension 0])) ;; TODO: provide with contracts (provide (struct type-name (package type dimension)))) ; (provide/contract (struct type-name ([package (listof symbol?)] ; [type symbol?])))) ;; build-type-name : (listof symbol) -> type-name (define (build-type-name name) (let ([rev (reverse name)]) (make-type-name (reverse (cdr rev)) (car rev)))) ;; dot-notation : (listof symbol) -> string (define (dot-notation los) (string-join (map symbol->string los) "." 'infix)) ;; type-name->string : (optional type-name) -> string (define (type-name->string name) (if (not name) "void" (dot-notation (append (type-name-package name) (list (type-name-type name)))))) (provide/contract [build-type-name ((listof symbol?) . -> . type-name?)] [dot-notation ((listof symbol?) . -> . string?)] [type-name->string ((optional/c type-name?) . -> . string?)]) ;; =========================================================================== ;; INTERFACES ;; =========================================================================== (define semantic-object<%> (interface () ;; to-string : -> string to-string)) (define resolvable<%> (interface () ;; get-related-types : -> (listof type-name) get-related-types)) (define type<%> (interface (semantic-object<%> resolvable<%>) ;; get-type-name : -> type-name get-type-name)) ;; =========================================================================== ;; CLASSES ;; =========================================================================== ;; package-name : (listof symbol) (define package% (class* object% (semantic-object<%>) (init-private name) (define/public (to-string) (dot-notation name)) (super-new))) ;; base-type : type-name (define array-type% (class* object% (type<%>) (init-private base-type) (define name (copy-struct type-name base-type (type-name-dimension (add1 (type-name-dimension base-type))))) (define/public (get-type-name) name) (define/public (get-base-type) base-type) (define/public (get-dimension) (type-name-dimension name)) (define/public (get-related-types) (list base-type)) (define/public (to-string) (format "~a[]" (type-name->string base-type))) (super-new))) ;; package : (listof symbol) ;; name : type-name (define ground-type% (class* object% (type<%>) (init-private package name) (define/public (get-package) package) (define/public (get-type-name) name) (define/pubment (get-related-types) (inner null get-related-types)) (define/public (to-string) (format "~a" name)) (super-new))) (define primitive-type% (class ground-type% (init name) (super-make-object null name))) ;; package : (listof symbol) ;; name : type-name ;; modifiers : (listof access-flag) ;; interfaces : (listof type-name) ;; elements : (listof type-element%) (define declared-type% (class ground-type% (init package name) (init-private modifiers interfaces elements) (define/public (get-modifiers) modifiers) (define/public (get-interfaces) interfaces) (define/public (get-elements) elements) (define/augment (get-related-types) (union* (cons interfaces (cons (inner null get-related-types) (send-map get-related-types elements))))) (super-make-object package name))) ;; superclass : (optional type-name) (define class% (class declared-type% (init package name modifiers interfaces elements) (init-private superclass) (define/public (get-superclass) superclass) (define/augment (get-related-types) (union (if superclass (list superclass) null) (inner null get-related-types))) (super-make-object package name modifiers interfaces elements))) (define interface% (class declared-type% (init package name modifiers interfaces elements) (super-make-object package name modifiers interfaces elements))) ;; TODO: do I really want strings, and not symbols? this is Scheme, after all ;; name : string (define type-element% (class* object% (semantic-object<%> resolvable<%>) (init-private name) (define/public (get-name) name) (define/pubment (get-related-types) (inner null get-related-types)) (define/public (to-string) (format "~a" name)) (super-new))) ;; name : string ;; modifiers : (listof access-flag) ;; type : type-name (define field% (class type-element% (init name) (init-private modifiers type) (inherit get-name) (define/public (get-modifiers) modifiers) (define/public (get-type) type) (define/augment (get-related-types) (union (list type) (inner null get-related-types))) (define/override (to-string) (format "~a ~a" (type-name->string type) (get-name))) (super-make-object name))) (define initializer% (class type-element% (super-make-object #f))) ;; name : string ;; formals : (listof type-name) ;; exceptions : (listof type-name) ;; modifiers : (listof access-flag) (define behavior% (class type-element% (init name) (init-private formals exceptions modifiers) (inherit get-name) (define/public (get-formals) formals) (define/public (get-exceptions) exceptions) (define/public (get-modifiers) modifiers) (define/augment (get-related-types) (union formals exceptions (inner null get-related-types))) (define (to-string) (get-name)) (super-make-object name))) ;; name : string ;; formals : (listof type-name) ;; exceptions : (listof type-name) ;; modifiers : (listof access-flag) (define constructor% (class behavior% (override to-string) (inherit get-name get-formals get-exceptions) (init name formals exceptions modifiers) (define (to-string) (format "~a(~a) throws ~a" (get-name) (string-join (map type-name->string (get-formals)) ", ") (string-join (map type-name->string (get-exceptions)) ", "))) (super-make-object name formals exceptions modifiers))) ;; name : string ;; formals : (listof type-name) ;; exceptions : (listof type-name) ;; modifiers : (listof access-flag) ;; return-type : (optional type-name) (define method% (class behavior% (init name formals exceptions modifiers) (init-private return-type) (inherit get-name get-formals get-exceptions) (define/public (get-return-type) return-type) (define/augment (get-related-types) (union (if return-type (list return-type) null) (inner null get-related-types))) (define/override (to-string) (format "~a ~a(~a) throws ~a" (type-name->string (get-return-type)) (get-name) (string-join (map type-name->string (get-formals)) ", ") (string-join (map type-name->string (get-exceptions)) ", "))) (super-make-object name formals exceptions modifiers))) ;; TODO: make this a type<%>? ;; name : string ;; type : type-name (define inner-type% (class type-element% (init name) (init-private type) (define/public (get-type) type) (define/augment (get-related-types) (union (list type) (inner null get-related-types))) (super-make-object name))) (syntax-for-each (syntax-rules () [(_ prim) (begin (define prim (make-object primitive-type% (build-type-name '(prim)))) (provide/contract (prim (is-a?/c primitive-type%))))]) (byte char double float int long short boolean)) (provide semantic-object<%> type<%> resolvable<%> package% ground-type% primitive-type% declared-type% array-type% class% interface% type-element% field% initializer% behavior% constructor% method% inner-type%))