#lang racket/base (require (for-syntax racket/base syntax/stx syntax/private/id-table syntax/keyword racket/syntax "minimatch.rkt" "rep-attrs.rkt" "rep-data.rkt" "rep-patterns.rkt" "rep.rkt" "kws.rkt" "opt.rkt" "txlift.rkt") "keywords.rkt" racket/syntax racket/stxparam syntax/stx unstable/struct syntax/parse/private/residual ;; keep abs. path syntax/parse/private/runtime ;; keep abs.path syntax/parse/private/runtime-reflect) ;; keep abs. path ;; ============================================================ (provide define-syntax-class define-splicing-syntax-class define-integrable-syntax-class syntax-parse syntax-parser define/syntax-parse syntax-parser/template parser/rhs define-eh-alternative-set (for-syntax rhs->parser)) (begin-for-syntax (define (tx:define-*-syntax-class stx splicing?) (syntax-case stx () [(_ header . rhss) (parameterize ((current-syntax-context stx)) (let-values ([(name formals arity) (let ([p (check-stxclass-header #'header stx)]) (values (car p) (cadr p) (caddr p)))]) (let ([the-rhs (parse-rhs #'rhss #f splicing? #:context stx)]) (with-syntax ([name name] [formals formals] [parser (generate-temporary (format-symbol "parse-~a" name))] [arity arity] [attrs (rhs-attrs the-rhs)] [options (rhs-options the-rhs)]) #`(begin (define-syntax name (stxclass 'name 'arity 'attrs (quote-syntax parser) '#,splicing? options #f)) (define-values (parser) (parser/rhs name formals attrs rhss #,splicing? #,stx)))))))]))) (define-syntax define-syntax-class (lambda (stx) (tx:define-*-syntax-class stx #f))) (define-syntax define-splicing-syntax-class (lambda (stx) (tx:define-*-syntax-class stx #t))) (define-syntax (define-integrable-syntax-class stx) (syntax-case stx (quote) [(_ name (quote description) predicate) (with-syntax ([parser (generate-temporary (format-symbol "parse-~a" (syntax-e #'name)))] [no-arity no-arity]) #'(begin (define-syntax name (stxclass 'name no-arity '() (quote-syntax parser) #f '#s(options #t #t) (integrate (quote-syntax predicate) 'description))) (define (parser x cx pr es fh0 cp0 rl success) (if (predicate x) (success fh0) (let ([es (es-add-thing pr 'description #t rl es)]) (fh0 (failure pr es)))))))])) (define-syntax (parser/rhs stx) (syntax-case stx () [(parser/rhs name formals relsattrs rhss splicing? ctx) (with-disappeared-uses (let () (define the-rhs (parameterize ((current-syntax-context #'ctx)) (parse-rhs #'rhss (syntax->datum #'relsattrs) (syntax-e #'splicing?) #:context #'ctx))) (rhs->parser #'name #'formals #'relsattrs the-rhs (syntax-e #'splicing?))))])) (begin-for-syntax (define (rhs->parser name formals relsattrs the-rhs splicing?) (define-values (transparent? description variants defs commit? delimit-cut?) (match the-rhs [(rhs _ _ transparent? description variants defs (options commit? delimit-cut?) _) (values transparent? description variants defs commit? delimit-cut?)])) (define vdefss (map variant-definitions variants)) (define formals* (rewrite-formals formals #'x #'rl)) (define body (cond [(null? variants) #'(fail (failure pr es))] [splicing? (with-syntax ([(alternative ...) (for/list ([variant (in-list variants)]) (define pattern (variant-pattern variant)) (with-syntax ([pattern pattern] [relsattrs relsattrs] [iattrs (pattern-attrs pattern)] [commit? commit?] [result-pr (if transparent? #'rest-pr #'(ps-pop-opaque rest-pr))]) #'(parse:H x cx rest-x rest-cx rest-pr pattern pr es (variant-success relsattrs iattrs (rest-x rest-cx result-pr) success cp0 commit?))))]) #'(try alternative ...))] [else (with-syntax ([matrix (optimize-matrix (for/list ([variant (in-list variants)]) (define pattern (variant-pattern variant)) (with-syntax ([iattrs (pattern-attrs pattern)] [relsattrs relsattrs] [commit? commit?]) (pk1 (list pattern) #'(variant-success relsattrs iattrs () success cp0 commit?)))))]) #'(parse:matrix ((x cx pr es)) matrix))])) (with-syntax ([formals* formals*] [(def ...) defs] [((vdef ...) ...) vdefss] [description (or description (symbol->string (syntax-e name)))] [transparent? transparent?] [delimit-cut? delimit-cut?] [body body]) #`(lambda (x cx pr es fh0 cp0 rl success . formals*) (with ([this-syntax x] [this-role rl]) def ... vdef ... ... (#%expression (syntax-parameterize ((this-context-syntax (syntax-rules () [(tbs) (ps-context-syntax pr)]))) (let ([es (es-add-thing pr description 'transparent? rl es)] [pr (if 'transparent? pr (ps-add-opaque pr))]) (with ([fail-handler fh0] [cut-prompt cp0]) ;; Update the prompt, if required ;; FIXME: can be optimized away if no cut exposed within variants (with-maybe-delimit-cut delimit-cut? body)))))))))) (define-syntax (syntax-parse stx) (syntax-case stx () [(syntax-parse stx-expr . clauses) (quasisyntax/loc stx (let ([x (datum->syntax #f stx-expr)]) (parse:clauses x clauses body-sequence #,((make-syntax-introducer) stx))))])) (define-syntax (syntax-parser stx) (syntax-case stx () [(syntax-parser . clauses) (quasisyntax/loc stx (lambda (x) (let ([x (datum->syntax #f x)]) (parse:clauses x clauses body-sequence #,((make-syntax-introducer) stx)))))])) (define-syntax (syntax-parser/template stx) (syntax-case stx () [(syntax-parser/template ctx . clauses) (quasisyntax/loc stx (lambda (x) (let ([x (datum->syntax #f x)]) (parse:clauses x clauses one-template ctx))))])) (define-syntax (define/syntax-parse stx) (syntax-case stx () [(define/syntax-parse pattern . rest) (let-values ([(rest pattern defs) (parse-pattern+sides #'pattern #'rest #:splicing? #f #:decls (new-declenv null) #:context stx)]) (let ([expr (syntax-case rest () [( expr ) #'expr] [_ (raise-syntax-error #f "bad syntax" stx)])] [attrs (pattern-attrs pattern)]) (with-syntax ([(a ...) attrs] [(#s(attr name _ _) ...) attrs] [pattern pattern] [(def ...) defs] [expr expr]) #'(defattrs/unpack (a ...) (let* ([x (datum->syntax #f expr)] [cx x] [pr (ps-empty x x)] [es #f] [fh0 (syntax-patterns-fail x)]) (parameterize ((current-syntax-context x)) def ... (#%expression (with ([fail-handler fh0] [cut-prompt fh0]) (parse:S x cx pattern pr es (list (attribute name) ...))))))))))])) ;; ============================================================ #| Parsing protocols: (parse: pr es success-expr) : Ans : x cx : x cx rest-x rest-cx rest-pr : x cx ??? : x cx x is term to parse, usually syntax but can be pair/null (stx-list?) in cdr patterns cx is most recent syntax object: if x must be coerced to syntax, use cx as lexctx and src pr, es are progress and expectstack, respectively rest-x, rest-cx, rest-pr are variable names to bind in context of success-expr (stxclass-parser x cx pr es fail-handler cut-prompt role success-proc arg ...) : Ans success-proc: for stxclass, is (fail-handler attr-value ... -> Ans) for splicing-stxclass, is (fail-handler rest-x rest-cx rest-pr attr-value -> Ans) fail-handler, cut-prompt : failure -> Ans Fail-handler is normally represented with stxparam 'fail-handler', but must be threaded through stxclass calls (in through stxclass-parser, out through success-proc) to support backtracking. Cut-prompt is never changed within stxclass or within alternative, so no threading needed. Usually sub-patterns processed in tail position, but *can* do non-tail calls for: - ~commit - var of stxclass with ~commit It is also safe to keep normal tail-call protocol and just adjust fail-handler. There is no real benefit to specializing ~commit, since it does not involve creating a success closure. Some optimizations: - commit protocol for stxclasses (but not ~commit, no point) - avoid continue-vs-end choice point in (EH ... . ()) by eager pair check - integrable stxclasses, specialize ellipses of integrable stxclasses |# ;; ---- (begin-for-syntax (define (wash stx) (syntax-e stx)) (define (wash-list washer stx) (let ([l (stx->list stx)]) (unless l (raise-type-error 'wash-list "stx-list" stx)) (map washer l))) (define (wash-iattr stx) (with-syntax ([#s(attr name depth syntax?) stx]) (attr #'name (wash #'depth) (wash #'syntax?)))) (define (wash-sattr stx) (with-syntax ([#s(attr name depth syntax?) stx]) (attr (wash #'name) (wash #'depth) (wash #'syntax?)))) (define (wash-iattrs stx) (wash-list wash-iattr stx)) (define (wash-sattrs stx) (wash-list wash-sattr stx)) (define (generate-n-temporaries n) (generate-temporaries (for/list ([i (in-range n)]) (string->symbol (format "g~sx" i)))))) ;; ---- #| Conventions: - rhs : RHS - iattr : IAttr - relsattr : SAttr - splicing? : bool - x : id (var) - cx : id (var, may be shadowed) - pr : id (var, may be shadowed) - es : id (var, may be shadowed) - success : var (bound to success procedure) - k : expr - rest-x, rest-cx, rest-pr : id (to be bound) - fh, cp, rl : id (var) |# (begin-for-syntax (define (rewrite-formals fstx x-id rl-id) (with-syntax ([x x-id] [rl rl-id]) (let loop ([fstx fstx]) (syntax-case fstx () [([kw arg default] . more) (keyword? (syntax-e #'kw)) (cons #'(kw arg (with ([this-syntax x] [this-role rl]) default)) (loop #'more))] [([arg default] . more) (not (keyword? (syntax-e #'kw))) (cons #'(arg (with ([this-syntax x] [this-role rl]) default)) (loop #'more))] [(formal . more) (cons #'formal (loop #'more))] [_ fstx]))))) ;; (with-maybe-delimit-cut bool expr) (define-syntax with-maybe-delimit-cut (syntax-rules () [(wmdc #t k) (with ([cut-prompt fail-handler]) k)] [(wmdc #f k) k])) ;; (variant-success relsattrs variant (also:id ...) success bool) : expr[Ans] (define-syntax (variant-success stx) (syntax-case stx () [(variant-success relsattrs iattrs (also ...) success cp0 commit?) #`(with-maybe-reset-fail commit? cp0 (base-success-expr iattrs relsattrs (also ...) success))])) ;; (with-maybe-reset-fail bool id expr) (define-syntax with-maybe-reset-fail (syntax-rules () [(wmrs #t cp0 k) (with ([fail-handler cp0]) k)] [(wmrs #f cp0 k) k])) ;; (base-success-expr iattrs relsattrs (also:id ...) success) : expr[Ans] (define-syntax (base-success-expr stx) (syntax-case stx () [(base-success-expr iattrs relsattrs (also ...) success) (let ([reliattrs (reorder-iattrs (wash-sattrs #'relsattrs) (wash-iattrs #'iattrs))]) (with-syntax ([(#s(attr name _ _) ...) reliattrs]) #'(success fail-handler also ... (attribute name) ...)))])) ;; ---- ;; (parse:clauses x clauses ctx) (define-syntax (parse:clauses stx) (syntax-case stx () [(parse:clauses x clauses body-mode ctx) ;; if templates? is true, expect one form after kwargs in clause, wrap it with syntax ;; otherwise, expect non-empty body sequence (defs and exprs) (with-disappeared-uses (with-txlifts (lambda () (define-values (chunks clauses-stx) (parse-keyword-options #'clauses parse-directive-table #:context #'ctx #:no-duplicates? #t)) (define context (options-select-value chunks '#:context #:default #'x)) (define colon-notation? (not (assq '#:disable-colon-notation chunks))) (define-values (decls0 defs) (get-decls+defs chunks #t #:context #'ctx)) ;; for-clause : stx -> (values pattern stx (listof stx)) (define (for-clause clause) (syntax-case clause () [[p . rest] (let-values ([(rest pattern defs2) (parameterize ((stxclass-colon-notation? colon-notation?)) (parse-pattern+sides #'p #'rest #:splicing? #f #:decls decls0 #:context #'ctx))]) (let ([body-expr (case (syntax-e #'body-mode) ((one-template) (syntax-case rest () [(template) #'(syntax template)] [_ (raise-syntax-error #f "expected exactly one template" #'ctx)])) ((body-sequence) (syntax-case rest () [(e0 e ...) #'(let () e0 e ...)] [_ (raise-syntax-error #f "expected non-empty clause body" #'ctx clause)])) (else (raise-syntax-error #f "internal error: unknown body mode" #'ctx #'body-mode)))]) (values pattern body-expr defs2)))])) (unless (stx-list? clauses-stx) (raise-syntax-error #f "expected sequence of clauses" #'ctx)) (define-values (patterns body-exprs defs2s) (for/lists (patterns body-exprs defs2s) ([clause (in-list (stx->list clauses-stx))]) (for-clause clause))) (with-syntax ([(def ...) (apply append (get-txlifts-as-definitions) defs defs2s)]) #`(let* ([ctx0 #,context] [pr (ps-empty x ctx0)] [es #f] [cx x] [fh0 (syntax-patterns-fail ctx0)]) def ... (parameterize ((current-syntax-context ctx0)) (with ([fail-handler fh0] [cut-prompt fh0]) #,(cond [(pair? patterns) (with-syntax ([matrix (optimize-matrix (for/list ([pattern (in-list patterns)] [body-expr (in-list body-exprs)]) (pk1 (list pattern) body-expr)))]) #'(parse:matrix ((x cx pr es)) matrix)) #| (with-syntax ([(alternative ...) (for/list ([pattern (in-list patterns)] [body-expr (in-list body-exprs)]) #`(parse:S x cx #,pattern pr es #,body-expr))]) #`(try alternative ...)) |#] [else #`(fail (failure pr es))]))))))))])) ;; ---- ;; (parse:matrix ((x cx pr es) ...) (PK ...)) : expr[Ans] ;; (parse:matrix (in1 ... inN) (#s(pk1 (P11 ... P1N) e1) ... #s(pk1 (PM1 ... PMN) eM))) ;; represents the matching matrix ;; [_in1_..._inN_|____] ;; [ P11 ... P1N | e1 ] ;; [ ⋮ ⋮ | ⋮ ] ;; [ PM1 ... PMN | eM ] (define-syntax (parse:matrix stx) (syntax-case stx () [(parse:matrix ins (pk ...)) #'(try (parse:pk ins pk) ...)])) (define-syntax (parse:pk stx) (syntax-case stx () [(parse:pk () #s(pk1 () k)) #'k] [(parse:pk ((x cx pr es) . ins) #s(pk1 (pat1 . pats) k)) #'(parse:S x cx pat1 pr es (parse:pk ins #s(pk1 pats k)))] [(parse:pk ((x cx pr es) . ins) #s(pk/same pat1 inner)) #'(parse:S x cx pat1 pr es (parse:matrix ins inner))] [(parse:pk ((x cx pr es) . ins) #s(pk/pair inner)) #'(let-values ([(datum tcx) (if (syntax? x) (values (syntax-e x) x) (values x cx))]) (if (pair? datum) (let ([hx (car datum)] [hcx (car datum)] [hpr (ps-add-car pr)] [tx (cdr datum)] [tpr (ps-add-cdr pr)]) (parse:matrix ((hx hcx hpr es) (tx tcx tpr es) . ins) inner)) (fail (failure pr es))))] [(parse:pk (in1 . ins) #s(pk/and inner)) #'(parse:matrix (in1 in1 . ins) inner)])) ;; ---- ;; (parse:S x cx S-pattern pr es k) : expr[Ans] ;; In k: attrs(S-pattern) are bound. (define-syntax (parse:S stx) (syntax-case stx () [(parse:S x cx pattern0 pr es k) (syntax-case #'pattern0 () [#s(internal-rest-pattern rest-x rest-cx rest-pr) #`(let ([rest-x x] [rest-cx cx] [rest-pr pr]) k)] [#s(pat:any _attrs) #'k] [#s(pat:var _attrs name #f _ () _ _ _) #'(let-attributes ([#s(attr name 0 #t) (datum->syntax cx x cx)]) k)] [#s(pat:var _attrs name parser argu (nested-a ...) attr-count commit? role) (with-syntax ([(av ...) (generate-n-temporaries (syntax-e #'attr-count))] [(name-attr ...) (if (identifier? #'name) #'([#s(attr name 0 #t) (datum->syntax cx x cx)]) #'())]) (if (not (syntax-e #'commit?)) ;; The normal protocol #'(app-argu parser x cx pr es fail-handler cut-prompt role (lambda (fh av ...) (let-attributes (name-attr ...) (let-attributes* ((nested-a ...) (av ...)) (with ([fail-handler fh]) k)))) argu) ;; The commit protocol ;; (Avoids putting k in procedure) #'(let-values ([(fs av ...) (with ([fail-handler (lambda (fs) (values fs (let ([av #f]) av) ...))]) (with ([cut-prompt fail-handler]) (app-argu parser x cx pr es fail-handler cut-prompt role (lambda (fh av ...) (values #f av ...)) argu)))]) (if fs (fail fs) (let-attributes (name-attr ...) (let-attributes* ((nested-a ...) (av ...)) k))))))] [#s(pat:reflect _attrs obj argu attr-decls name (nested-a ...)) (with-syntax ([(name-attr ...) (if (identifier? #'name) #'([#s(attr name 0 #t) (datum->syntax cx x cx)]) #'())]) (with-syntax ([arity (arguments->arity (syntax->datum #'argu))]) #'(let ([parser (reflect-parser obj 'arity 'attr-decls #f)]) (app-argu parser x cx pr es fail-handler cut-prompt #f (lambda (fh . result) (let-attributes (name-attr ...) (let/unpack ((nested-a ...) result) (with ([fail-handler fh]) k)))) argu))))] [#s(pat:datum attrs datum) #`(let ([d (if (syntax? x) (syntax-e x) x)]) (if (equal? d (quote datum)) k (fail (failure pr (es-add-atom 'datum es)))))] [#s(pat:literal attrs literal input-phase lit-phase) #`(if (and (identifier? x) (free-identifier=? x (quote-syntax literal) input-phase lit-phase)) k (fail (failure pr (es-add-literal (quote-syntax literal) es))))] [#s(pat:action attrs action subpattern) #'(parse:A x cx action pr es (parse:S x cx subpattern pr es k))] [#s(pat:head attrs head tail) #`(parse:H x cx rest-x rest-cx rest-pr head pr es (parse:S rest-x rest-cx tail rest-pr es k))] [#s(pat:dots attrs head tail) #`(parse:dots x cx head tail pr es k)] [#s(pat:and attrs subpatterns) (for/fold ([k #'k]) ([subpattern (in-list (reverse (syntax->list #'subpatterns)))]) #`(parse:S x cx #,subpattern pr es #,k))] [#s(pat:or (a ...) (subpattern ...)) (with-syntax ([(#s(attr id _ _) ...) #'(a ...)]) #`(let ([success (lambda (fh id ...) (let-attributes ([a id] ...) (with ([fail-handler fh]) k)))]) (try (parse:S x cx subpattern pr es (disjunct subpattern success () (id ...))) ...)))] [#s(pat:not () subpattern) #`(let* ([fh0 fail-handler] [pr0 pr] [es0 es] [fail-to-succeed (lambda (fs) k)]) ;; ~not implicitly prompts to be safe, ;; but ~! not allowed within ~not (unless within ~delimit-cut, etc) ;; (statically checked!) (with ([fail-handler fail-to-succeed] [cut-prompt fail-to-succeed]) ;; to be safe (parse:S x cx subpattern pr es (fh0 (failure pr0 es0)))))] [#s(pat:pair _attrs head tail) #`(let-values ([(datum cx) (if (syntax? x) (values (syntax-e x) x) (values x cx))]) (if (pair? datum) (let ([hx (car datum)] [hcx (car datum)] [hpr (ps-add-car pr)] [tx (cdr datum)] [tpr (ps-add-cdr pr)]) (parse:S hx hcx head hpr es (parse:S tx cx tail tpr es k))) (fail (failure pr es))))] [#s(pat:vector _attrs subpattern) #`(let ([datum (if (syntax? x) (syntax-e x) x)]) (if (vector? datum) (let ([datum (vector->list datum)] [vcx (if (syntax? x) x cx)] ;; FIXME: (vector? datum) => (syntax? x) ??? [pr* (ps-add-unvector pr)]) (parse:S datum vcx subpattern pr* es k)) (fail (failure pr es))))] [#s(pat:box _attrs subpattern) #`(let ([datum (if (syntax? x) (syntax-e x) x)]) (if (box? datum) (let ([datum (unbox datum)] [bcx (if (syntax? x) x cx)] ;; FIXME: (box? datum) => (syntax? x) ??? [pr* (ps-add-unbox pr)]) (parse:S datum bcx subpattern pr* es k)) (fail (failure pr es))))] [#s(pat:pstruct _attrs key subpattern) #`(let ([datum (if (syntax? x) (syntax-e x) x)]) (if (let ([xkey (prefab-struct-key datum)]) (and xkey (equal? xkey 'key))) (let ([datum (struct->list datum)] [scx (if (syntax? x) x cx)] ;; FIXME: (struct? datum) => (syntax? x) ??? [pr* (ps-add-unpstruct pr)]) (parse:S datum scx subpattern pr* es k)) (fail (failure pr es))))] [#s(pat:describe attrs pattern description transparent? role) #`(let ([es* (es-add-thing pr description transparent? role es)] [pr* (if 'transparent? pr (ps-add-opaque pr))]) (parse:S x cx pattern pr* es* k))] [#s(pat:delimit attrs pattern) #`(let ([cp0 cut-prompt]) (with ([cut-prompt fail-handler]) (parse:S x cx pattern pr es (with ([cut-prompt cp0]) k))))] [#s(pat:commit attrs pattern) #`(let ([fh0 fail-handler] [cp0 cut-prompt]) (with ([cut-prompt fh0]) (parse:S x cx pattern pr es (with ([cut-prompt cp0] [fail-handler fh0]) k))))] [#s(pat:post attrs pattern) #`(let ([pr* (ps-add-post pr)]) (parse:S x cx pattern pr* es k))] [#s(pat:integrated _attrs name predicate description role) (with-syntax ([(name-attr ...) (if (identifier? #'name) #'([#s(attr name 0 #t) x*]) #'())]) #'(let ([x* (datum->syntax cx x cx)]) (if (predicate x*) (let-attributes (name-attr ...) k) (let ([es* (es-add-thing pr 'description #t role es)]) (fail (failure pr es*))))))])])) ;; (disjunct ???-pattern success (pre:expr ...) (id:id ...)) : expr[Ans] (define-syntax (disjunct stx) (syntax-case stx () [(disjunct pattern success (pre ...) (id ...)) (with-syntax ([(#s(attr sub-id _ _) ...) (pattern-attrs (wash #'pattern))]) (with-syntax ([(alt-sub-id ...) (generate-temporaries #'(sub-id ...))]) #`(let ([alt-sub-id (attribute sub-id)] ...) (let ([id #f] ...) (let ([sub-id alt-sub-id] ...) (success fail-handler pre ... id ...))))))])) ;; (disjunct/sides clauses success (pre:expr ...) (id:id ...)) : expr[Ans] (define-syntax (disjunct/sides stx) (syntax-case stx () [(disjunct/sides clauses success (pre ...) (id ...)) (with-syntax ([(#s(clause:attr #s(attr sub-id _ _) _) ...) #'clauses]) (with-syntax ([(alt-sub-id ...) (generate-temporaries #'(sub-id ...))]) #`(let ([alt-sub-id (attribute sub-id)] ...) (let ([id #f] ...) (let ([sub-id alt-sub-id] ...) (success fail-handler pre ... id ...))))))])) ;; (parse:A x cx A-pattern pr es k) : expr[Ans] ;; In k: attrs(A-pattern) are bound. (define-syntax (parse:A stx) (syntax-case stx () [(parse:A x cx pattern0 pr es k) (syntax-case #'pattern0 () [#s(action:cut _) #'(with ([fail-handler cut-prompt]) k)] [#s(action:bind _ (side ...)) #'(bind/sides (side ...) k)] [#s(action:fail _ condition message) #`(let ([c (wrap-user-code condition)]) (if c (let ([pr* (if (syntax? c) (ps-add-stx pr c) pr)] [es* (es-add-message message es)]) (fail (failure pr* es*))) k))] [#s(action:parse _ pattern expr) #`(let* ([y (datum->syntax #f (wrap-user-code expr) #f)] [cy y] [pr* (ps-add-stx pr y)]) (parse:S y cy pattern pr* es k))] [#s(action:do _ (stmt ...)) #'(let () (no-shadow stmt) ... (#%expression k))] [#s(action:post _ pattern) #'(let ([pr* (ps-add-post pr)]) (parse:A x cx pattern pr* es k))])])) ;; (bind/sides clauses k) : expr[Ans] ;; In k: attrs(clauses) are bound. (define-syntax (bind/sides stx) (syntax-case stx () [(_ (side ...) k) (for/fold ([k #'k]) ([side (in-list (reverse (syntax->list #'(side ...))))]) (syntax-case side () [#s(clause:attr a expr) #`(let-attributes ([a (wrap-user-code (check-list^depth a expr))]) #,k)]))])) (begin-for-syntax ;; convert-list-pattern : ListPattern id -> SinglePattern ;; Converts '() datum pattern at end of list to bind (cons stx index) ;; to rest-var. (define (convert-list-pattern pattern end-pattern) (syntax-case pattern () [#s(pat:datum () ()) end-pattern] [#s(pat:action attrs action tail) (with-syntax ([tail (convert-list-pattern #'tail end-pattern)]) #'#s(pat:action attrs action tail))] [#s(pat:head attrs head tail) (with-syntax ([tail (convert-list-pattern #'tail end-pattern)]) #'#s(pat:head attrs head tail))] [#s(pat:dots attrs head tail) (with-syntax ([tail (convert-list-pattern #'tail end-pattern)]) #'#s(pat:dots attrs head tail))] [#s(pat:pair attrs head-part tail-part) (with-syntax ([tail-part (convert-list-pattern #'tail-part end-pattern)]) #'#s(pat:pair attrs head-part tail-part))]))) ;; (parse:H x cx rest-x rest-cx rest-pr H-pattern pr es k) ;; In k: rest, rest-pr, attrs(H-pattern) are bound. (define-syntax (parse:H stx) (syntax-case stx () [(parse:H x cx rest-x rest-cx rest-pr head pr es k) (syntax-case #'head () [#s(hpat:describe _ pattern description transparent? role) #`(let ([es* (es-add-thing pr description transparent? role es)] [pr* (if 'transparent? pr (ps-add-opaque pr))]) (parse:H x cx rest-x rest-cx rest-pr pattern pr* es* (let ([rest-pr (if 'transparent? rest-pr (ps-pop-opaque rest-pr))]) k)))] [#s(hpat:var _attrs name parser argu (nested-a ...) attr-count commit? role) (with-syntax ([(av ...) (generate-n-temporaries (syntax-e #'attr-count))] [(name-attr ...) (if (identifier? #'name) #'([#s(attr name 0 #t) (stx-list-take x (ps-difference pr rest-pr))]) #'())]) (if (not (syntax-e #'commit?)) ;; The normal protocol #`(app-argu parser x cx pr es fail-handler cut-prompt role (lambda (fh rest-x rest-cx rest-pr av ...) (let-attributes (name-attr ...) (let-attributes* ((nested-a ...) (av ...)) (with ([fail-handler fh]) k)))) argu) ;; The commit protocol ;; (Avoids putting k in procedure) #'(let-values ([(fs rest-x rest-cx rest-pr av ...) (with ([fail-handler (lambda (fs) (values fs #f #f #f (let ([av #f]) av) ...))]) (with ([cut-prompt fail-handler]) (app-argu parser x cx pr es fail-handler cut-prompt role (lambda (fh rest-x rest-cx rest-pr av ...) (values #f rest-x rest-cx rest-pr av ...)) argu)))]) (if fs (fail fs) (let-attributes (name-attr ...) (let-attributes* ((nested-a ...) (av ...)) k))))))] [#s(hpat:reflect _attrs obj argu attr-decls name (nested-a ...)) (with-syntax ([(name-attr ...) (if (identifier? #'name) #'([#s(attr name 0 #t) (stx-list-take x (ps-difference pr rest-pr))]) #'())]) (with-syntax ([arity (arguments->arity (syntax->datum #'argu))]) #'(let ([parser (reflect-parser obj 'arity 'attr-decls #t)]) (app-argu parser x cx pr es fail-handler cut-prompt #f (lambda (fh rest-x rest-cx rest-pr . result) (let-attributes (name-attr ...) (let/unpack ((nested-a ...) result) (with ([fail-handler fh]) k)))) argu))))] [#s(hpat:and (a ...) head single) #`(let ([cx0 cx]) (parse:H x cx rest-x rest-cx rest-pr head pr es (let ([lst (stx-list-take x (ps-difference pr rest-pr))]) (parse:S lst cx0 single pr es k))))] [#s(hpat:or (a ...) (subpattern ...)) (with-syntax ([(#s(attr id _ _) ...) #'(a ...)]) #`(let ([success (lambda (fh rest-x rest-cx rest-pr id ...) (let-attributes ([a id] ...) (with ([fail-handler fh]) k)))]) (try (parse:H x cx rest-x rest-cx rest-pr subpattern pr es (disjunct subpattern success (rest-x rest-cx rest-pr) (id ...))) ...)))] [#s(hpat:seq attrs pattern) (with-syntax ([pattern (convert-list-pattern #'pattern #'#s(internal-rest-pattern rest-x rest-cx rest-pr))]) #'(parse:S x cx pattern pr es k))] [#s(hpat:optional (a ...) pattern defaults) (with-syntax ([(#s(attr id _ _) ...) #'(a ...)]) #`(let ([success (lambda (fh rest-x rest-cx rest-pr id ...) (let-attributes ([a id] ...) (with ([fail-handler fh]) k)))]) (try (parse:H x cx rest-x rest-cx rest-pr pattern pr es (success fail-handler rest-x rest-cx rest-pr (attribute id) ...)) (let ([rest-x x] [rest-cx cx] [rest-pr pr]) (bind/sides defaults (disjunct/sides defaults success (rest-x rest-cx rest-pr) (id ...)))))))] [#s(hpat:delimit _attrs pattern) #'(let ([cp0 cut-prompt]) (with ([cut-prompt fail-handler]) (parse:H x cx rest-x rest-cx rest-pr pattern pr es (with ([cut-prompt cp0]) k))))] [#s(hpat:commit attrs pattern) #`(let ([fh0 fail-handler] [cp0 cut-prompt]) (with ([cut-prompt fh0]) (parse:H x cx rest-x rest-cx rest-pr pattern pr es (with ([cut-prompt cp0] [fail-handler fh0]) k))))] [#s(hpat:post _ pattern) #'(let ([pr (ps-add-post pr)]) (parse:H x cx rest-x rest-cx rest-pr pattern pr es k))] [#s(hpat:peek _ pattern) #`(let ([saved-x x] [saved-cx cx] [saved-pr pr]) (parse:H x cx dummy-x dummy-cx dummy-pr pattern pr es (let ([rest-x saved-x] [rest-cx saved-cx] [rest-pr saved-pr]) k)))] [#s(hpat:peek-not () subpattern) #`(let* ([fh0 fail-handler] [pr0 pr] [es0 es] [fail-to-succeed (lambda (fs) (let ([rest-x x] [rest-cx cx] [rest-pr pr]) k))]) ;; ~not implicitly prompts to be safe, ;; but ~! not allowed within ~not (unless within ~delimit-cut, etc) ;; (statically checked!) (with ([fail-handler fail-to-succeed] [cut-prompt fail-to-succeed]) ;; to be safe (parse:H x cx rest-x rest-cx rest-pr subpattern pr es (fh0 (failure pr0 es0)))))] [_ (with-syntax ([attrs (pattern-attrs (wash #'head))]) #'(parse:S x cx #s(pat:pair attrs head #s(internal-rest-pattern rest-x rest-cx rest-pr)) pr es k))])])) ;; (parse:dots x cx EH-pattern S-pattern pr es k) : expr[Ans] ;; In k: attrs(EH-pattern, S-pattern) are bound. (define-syntax (parse:dots stx) (syntax-case stx () ;; == Specialized cases ;; -- (x ... . ()) [(parse:dots x cx (#s(ehpat (attr0) #s(pat:var _attrs name #f _ () _ _ _) #f)) #s(pat:datum () ()) pr es k) #'(let-values ([(status result) (predicate-ellipsis-parser x cx pr es void #f #f)]) (case status ((ok) (let-attributes ([attr0 result]) k)) (else (fail result))))] ;; -- (x:sc ... . ()) where sc is an integrable stxclass like id or expr [(parse:dots x cx (#s(ehpat (attr0) #s(pat:integrated _attrs _name pred? desc role) #f)) #s(pat:datum () ()) pr es k) #'(let-values ([(status result) (predicate-ellipsis-parser x cx pr es pred? desc role)]) (case status ((ok) (let-attributes ([attr0 result]) k)) (else (fail result))))] ;; -- (x:sc ... . ()) where sc is a stxclass with commit ;; Since head pattern does commit, no need to thread fail-handler, cut-prompt through. ;; Microbenchmark suggests this isn't a useful specialization ;; (probably try-or-pair/null-check already does the useful part) ;; == General case [(parse:dots x cx (#s(ehpat head-attrs head head-repc) ...) tail pr es k) (let () (define repcs (wash-list wash #'(head-repc ...))) (define rep-ids (for/list ([repc (in-list repcs)]) (and repc (generate-temporary 'rep)))) (define rel-repcs (filter values repcs)) (define rel-rep-ids (filter values rep-ids)) (define aattrs (for/list ([head-attrs (in-list (syntax->list #'(head-attrs ...)))] [repc (in-list repcs)] #:when #t [a (in-list (wash-iattrs head-attrs))]) (cons a repc))) (define attrs (map car aattrs)) (define attr-repcs (map cdr aattrs)) (define ids (map attr-name attrs)) (with-syntax ([(id ...) ids] [(alt-id ...) (generate-temporaries ids)] [reps rel-rep-ids] [(head-rep ...) rep-ids] [(rel-rep ...) rel-rep-ids] [(rel-repc ...) rel-repcs] [(a ...) attrs] [(attr-repc ...) attr-repcs] [tail-pattern-is-null? (equal? (syntax->datum #'tail) '#s(pat:datum () ()))]) (define/with-syntax alt-map #'((id . alt-id) ...)) (define/with-syntax loop-k #'(dots-loop dx* dcx* loop-pr* fail-handler rel-rep ... alt-id ...)) #`(let () ;; dots-loop : stx progress rel-rep ... alt-id ... -> Ans (define (dots-loop dx dcx loop-pr fh rel-rep ... alt-id ...) (with ([fail-handler fh]) (try-or-pair/null-check tail-pattern-is-null? dx dcx loop-pr es (try (parse:EH dx dcx loop-pr head-repc dx* dcx* loop-pr* alt-map head-rep head es loop-k) ...) (cond [(< rel-rep (rep:min-number rel-repc)) (let ([es (expectation-of-reps/too-few es rel-rep rel-repc)]) (fail (failure loop-pr es)))] ... [else (let-attributes ([a (rep:finalize a attr-repc alt-id)] ...) (parse:S dx dcx tail loop-pr es k))])))) (let ([rel-rep 0] ... [alt-id (rep:initial-value attr-repc)] ...) (dots-loop x cx pr fail-handler rel-rep ... alt-id ...)))))])) ;; (try-or-pair/null-check bool x cx es pr pair-alt maybe-null-alt) (define-syntax try-or-pair/null-check (syntax-rules () [(topc #t x cx pr es pair-alt null-alt) (cond [(stx-pair? x) pair-alt] [(stx-null? x) null-alt] [else (fail (failure pr es))])] [(topc _ x cx pr es alt1 alt2) (try alt1 alt2)])) ;; (parse:EH x cx pr repc x* cx* pr* alts rep H-pattern es k) : expr[Ans] ;; In k: x*, cx*, pr*, alts`attrs(H-pattern) are bound and rep is shadowed. (define-syntax (parse:EH stx) (syntax-case stx () [(parse:EH x cx pr repc x* cx* pr* alts rep head es k) (let () (define/with-syntax k* (let* ([main-attrs (wash-iattrs (pattern-attrs (wash #'head)))] [ids (map attr-name main-attrs)] [alt-ids (let ([table (make-bound-id-table)]) (for ([entry (in-list (syntax->list #'alts))]) (let ([entry (syntax-e entry)]) (bound-id-table-set! table (car entry) (cdr entry)))) (for/list ([id (in-list ids)]) (bound-id-table-ref table id)))]) (with-syntax ([(id ...) ids] [(alt-id ...) alt-ids] [(alt-a ...) (map rename-attr main-attrs alt-ids)]) #`(let ([alt-id (rep:combine repc (attribute id) alt-id)] ...) k)))) (syntax-case #'repc () [#f #`(parse:H x cx x* cx* pr* head pr es k*)] [_ #`(parse:H x cx x* cx* pr* head pr es (if (< rep (rep:max-number repc)) (let ([rep (add1 rep)]) k*) (let ([es* (expectation-of-reps/too-many es rep repc)]) (fail (failure pr* es*)))))]))])) ;; (rep:initial-value RepConstraint) : expr (define-syntax (rep:initial-value stx) (syntax-case stx () [(_ #s(rep:once _ _ _)) #'#f] [(_ #s(rep:optional _ _ _)) #'#f] [(_ _) #'null])) ;; (rep:finalize RepConstraint expr) : expr (define-syntax (rep:finalize stx) (syntax-case stx () [(_ a #s(rep:optional _ _ defaults) v) (with-syntax ([#s(attr name _ _) #'a] [(#s(clause:attr da de) ...) #'defaults]) (let ([default (for/or ([da (in-list (syntax->list #'(da ...)))] [de (in-list (syntax->list #'(de ...)))]) (with-syntax ([#s(attr dname _ _) da]) (and (bound-identifier=? #'name #'dname) de)))]) (if default #`(or v #,default) #'v)))] [(_ a #s(rep:once _ _ _) v) #'v] [(_ a _ v) #'(reverse v)])) ;; (rep:min-number RepConstraint) : expr (define-syntax (rep:min-number stx) (syntax-case stx () [(_ #s(rep:once _ _ _)) #'1] [(_ #s(rep:optional _ _ _)) #'0] [(_ #s(rep:bounds min max _ _ _)) #'min])) ;; (rep:max-number RepConstraint) : expr (define-syntax (rep:max-number stx) (syntax-case stx () [(_ #s(rep:once _ _ _)) #'1] [(_ #s(rep:optional _ _ _)) #'1] [(_ #s(rep:bounds min max _ _ _)) #'max])) ;; (rep:combine RepConstraint expr expr) : expr (define-syntax (rep:combine stx) (syntax-case stx () [(_ #s(rep:once _ _ _) a b) #'a] [(_ #s(rep:optional _ _ _) a b) #'a] [(_ _ a b) #'(cons a b)])) ;; ---- (define-syntax expectation-of-reps/too-few (syntax-rules () [(_ es rep #s(rep:once name too-few-msg too-many-msg)) (es-add-message (or too-few-msg (name->too-few/once name)) es)] [(_ es rep #s(rep:optional name too-many-msg _)) (error 'syntax-parse "INTERNAL ERROR: impossible (too-few)")] [(_ es rep #s(rep:bounds min max name too-few-msg too-many-msg)) (es-add-message (or too-few-msg (name->too-few name)) es)])) (define-syntax expectation-of-reps/too-many (syntax-rules () [(_ es rep #s(rep:once name too-few-msg too-many-msg)) (es-add-message (or too-many-msg (name->too-many name)) es)] [(_ es rep #s(rep:optional name too-many-msg _)) (es-add-message (or too-many-msg (name->too-many name)) es)] [(_ es rep #s(rep:bounds min max name too-few-msg too-many-msg)) (es-add-message (or too-many-msg (name->too-many name)) es)])) ;; ==== (define-syntax (define-eh-alternative-set stx) (define (parse-alt x) (syntax-case x (pattern) [(pattern alt) #'alt] [else (wrong-syntax x "expected eh-alternative-set alternative")])) (parameterize ((current-syntax-context stx)) (syntax-case stx () [(_ name a ...) (unless (identifier? #'name) (wrong-syntax #'name "expected identifier")) (let* ([alts (map parse-alt (syntax->list #'(a ...)))] [decls (new-declenv null #:conventions null)] [ehpat+hstx-list (apply append (for/list ([alt (in-list alts)]) (parse*-ellipsis-head-pattern alt decls #t #:context stx)))] [eh-alt+defs-list (for/list ([ehpat+hstx (in-list ehpat+hstx-list)]) (let ([ehpat (car ehpat+hstx)] [hstx (cadr ehpat+hstx)]) (cond [(syntax? hstx) (with-syntax ([(parser) (generate-temporaries '(eh-alt-parser))]) (let ([attrs (iattrs->sattrs (pattern-attrs (ehpat-head ehpat)))]) (list (eh-alternative (ehpat-repc ehpat) attrs #'parser) (list #`(define parser (parser/rhs parser () #,attrs [#:description #f (pattern #,hstx)] #t #,stx))))))] [(eh-alternative? hstx) (list hstx null)] [else (error 'define-eh-alternative-set "internal error: unexpected ~e" hstx)])))] [eh-alts (map car eh-alt+defs-list)] [defs (apply append (map cadr eh-alt+defs-list))]) (with-syntax ([(def ...) defs] [(alt-expr ...) (for/list ([alt (in-list eh-alts)]) (with-syntax ([repc-expr (match (eh-alternative-repc alt) ['#f #'(quote #f)] [(rep:once n u o) #`(rep:once (quote-syntax #,n) (quote-syntax #,u) (quote-syntax #,o))] [(rep:optional n o d) #`(rep:optional (quote-syntax #,n) (quote-syntax #,o) (quote-syntax #,d))] [(rep:bounds min max n u o) #`(rep:bounds (quote #,min) (quote #,max) (quote-syntax #,n) (quote-syntax #,u) (quote-syntax #,o))])] [attrs-expr #`(quote #,(eh-alternative-attrs alt))] [parser-expr #`(quote-syntax #,(eh-alternative-parser alt))]) #'(eh-alternative repc-expr attrs-expr parser-expr)))]) #'(begin def ... (define-syntax name (eh-alternative-set (list alt-expr ...))))))])))