;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2012, 2013, 2014, 2015, 2016, 2017 Ludovic Courtès ;;; ;;; This file is part of GNU Guix. ;;; ;;; GNU Guix is free software; you can redistribute it and/or modify it ;;; under the terms of the GNU General Public License as published by ;;; the Free Software Foundation; either version 3 of the License, or (at ;;; your option) any later version. ;;; ;;; GNU Guix is distributed in the hope that it will be useful, but ;;; WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with GNU Guix. If not, see . (define-module (guix records) #:use-module (srfi srfi-1) #:use-module (srfi srfi-9) #:use-module (srfi srfi-26) #:use-module (ice-9 match) #:use-module (ice-9 regex) #:use-module (ice-9 rdelim) #:export (define-record-type* alist->record object->fields recutils->alist)) ;;; Commentary: ;;; ;;; Utilities for dealing with Scheme records. ;;; ;;; Code: (define-syntax record-error (syntax-rules () "Report a syntactic error in use of CONSTRUCTOR." ((_ constructor form fmt args ...) (syntax-violation constructor (format #f fmt args ...) form)))) (define (report-invalid-field-specifier name bindings) "Report the first invalid binding among BINDINGS." (let loop ((bindings bindings)) (syntax-case bindings () (((field value) rest ...) ;good (loop #'(rest ...))) ((weird _ ...) ;weird! (syntax-violation name "invalid field specifier" #'weird))))) (define-syntax make-syntactic-constructor (syntax-rules () "Make the syntactic constructor NAME for TYPE, that calls CTOR, and expects all of EXPECTED fields to be initialized. DEFAULTS is the list of FIELD/DEFAULT-VALUE tuples, THUNKED is the list of identifiers of thunked fields, and DELAYED is the list of identifiers of delayed fields." ((_ type name ctor (expected ...) #:thunked thunked #:delayed delayed #:innate innate #:defaults defaults) (define-syntax name (lambda (s) (define (record-inheritance orig-record field+value) ;; Produce code that returns a record identical to ORIG-RECORD, ;; except that values for the FIELD+VALUE alist prevail. (define (field-inherited-value f) (and=> (find (lambda (x) (eq? f (car (syntax->datum x)))) field+value) car)) ;; Make sure there are no unknown field names. (let* ((fields (map (compose car syntax->datum) field+value)) (unexpected (lset-difference eq? fields '(expected ...)))) (when (pair? unexpected) (record-error 'name s "extraneous field initializers ~a" unexpected))) #`(make-struct/no-tail type #,@(map (lambda (field index) (or (field-inherited-value field) (if (innate-field? field) (wrap-field-value field (field-default-value field)) #`(struct-ref #,orig-record #,index)))) '(expected ...) (iota (length '(expected ...)))))) (define (thunked-field? f) (memq (syntax->datum f) 'thunked)) (define (delayed-field? f) (memq (syntax->datum f) 'delayed)) (define (innate-field? f) (memq (syntax->datum f) 'innate)) (define (wrap-field-value f value) (cond ((thunked-field? f) #`(lambda () #,value)) ((delayed-field? f) #`(delay #,value)) (else value))) (define default-values ;; List of symbol/value tuples. (map (match-lambda ((f v) (list (syntax->datum f) v))) #'defaults)) (define (field-default-value f) (car (assoc-ref default-values (syntax->datum f)))) (define (field-bindings field+value) ;; Return field to value bindings, for use in 'let*' below. (map (lambda (field+value) (syntax-case field+value () ((field value) #`(field #,(wrap-field-value #'field #'value))))) field+value)) (syntax-case s (inherit expected ...) ((_ (inherit orig-record) (field value) (... ...)) #`(let* #,(field-bindings #'((field value) (... ...))) #,(record-inheritance #'orig-record #'((field value) (... ...))))) ((_ (field value) (... ...)) (let ((fields (map syntax->datum #'(field (... ...))))) (define (field-value f) (or (find (lambda (x) (eq? f (syntax->datum x))) #'(field (... ...))) (wrap-field-value f (field-default-value f)))) (let ((fields (append fields (map car default-values)))) (cond ((lset= eq? fields '(expected ...)) #`(let* #,(field-bindings #'((field value) (... ...))) (ctor #,@(map field-value '(expected ...))))) ((pair? (lset-difference eq? fields '(expected ...))) (record-error 'name s "extraneous field initializers ~a" (lset-difference eq? fields '(expected ...)))) (else (record-error 'name s "missing field initializers ~a" (lset-difference eq? '(expected ...) fields))))))) ((_ bindings (... ...)) ;; One of BINDINGS doesn't match the (field value) pattern. ;; Report precisely which one is faulty, instead of letting the ;; "source expression failed to match any pattern" error. (report-invalid-field-specifier 'name #'(bindings (... ...)))))))))) (define-syntax-rule (define-field-property-predicate predicate property) "Define PREDICATE as a procedure that takes a syntax object and, when passed a field specification, returns the field name if it has the given PROPERTY." (define (predicate s) (syntax-case s (property) ((field (property values (... ...)) _ (... ...)) #'field) ((field _ properties (... ...)) (predicate #'(field properties (... ...)))) (_ #f)))) (define-syntax define-record-type* (lambda (s) "Define the given record type such that an additional \"syntactic constructor\" is defined, which allows instances to be constructed with named field initializers, à la SRFI-35, as well as default values. An example use may look like this: (define-record-type* thing make-thing thing? (name thing-name (default \"chbouib\")) (port thing-port (default (current-output-port)) (thunked)) (loc thing-location (innate) (default (current-source-location)))) This example defines a macro 'thing' that can be used to instantiate records of this type: (thing (name \"foo\") (port (current-error-port))) The value of 'name' or 'port' could as well be omitted, in which case the default value specified in the 'define-record-type*' form is used: (thing) The 'port' field is \"thunked\", meaning that calls like '(thing-port x)' will actually compute the field's value in the current dynamic extent, which is useful when referring to fluids in a field's value. A field can also be marked as \"delayed\" instead of \"thunked\", in which case its value is effectively wrapped in a (delay …) form. It is possible to copy an object 'x' created with 'thing' like this: (thing (inherit x) (name \"bar\")) This expression returns a new object equal to 'x' except for its 'name' field and its 'loc' field---the latter is marked as \"innate\", so it is not inherited." (define (field-default-value s) (syntax-case s (default) ((field (default val) _ ...) (list #'field #'val)) ((field _ properties ...) (field-default-value #'(field properties ...))) (_ #f))) (define-field-property-predicate delayed-field? delayed) (define-field-property-predicate thunked-field? thunked) (define-field-property-predicate innate-field? innate) (define (wrapped-field? s) (or (thunked-field? s) (delayed-field? s))) (define (wrapped-field-accessor-name field) ;; Return the name (an unhygienic syntax object) of the "real" ;; getter for field, which is assumed to be a wrapped field. (syntax-case field () ((field get properties ...) (let* ((getter (syntax->datum #'get)) (real-getter (symbol-append '% getter '-real))) (datum->syntax #'get real-getter))))) (define (field-spec->srfi-9 field) ;; Convert a field spec of our style to a SRFI-9 field spec of the ;; form (field get). (syntax-case field () ((name get properties ...) #`(name #,(if (wrapped-field? field) (wrapped-field-accessor-name field) #'get))))) (define (thunked-field-accessor-definition field) ;; Return the real accessor for FIELD, which is assumed to be a ;; thunked field. (syntax-case field () ((name get _ ...) (with-syntax ((real-get (wrapped-field-accessor-name field))) #'(define-inlinable (get x) ;; The real value of that field is a thunk, so call it. ((real-get x))))))) (define (delayed-field-accessor-definition field) ;; Return the real accessor for FIELD, which is assumed to be a ;; delayed field. (syntax-case field () ((name get _ ...) (with-syntax ((real-get (wrapped-field-accessor-name field))) #'(define-inlinable (get x) ;; The real value of that field is a promise, so force it. (force (real-get x))))))) (syntax-case s () ((_ type syntactic-ctor ctor pred (field get properties ...) ...) (let* ((field-spec #'((field get properties ...) ...)) (thunked (filter-map thunked-field? field-spec)) (delayed (filter-map delayed-field? field-spec)) (innate (filter-map innate-field? field-spec)) (defaults (filter-map field-default-value #'((field properties ...) ...)))) (with-syntax (((field-spec* ...) (map field-spec->srfi-9 field-spec)) ((thunked-field-accessor ...) (filter-map (lambda (field) (and (thunked-field? field) (thunked-field-accessor-definition field))) field-spec)) ((delayed-field-accessor ...) (filter-map (lambda (field) (and (delayed-field? field) (delayed-field-accessor-definition field))) field-spec))) #`(begin (define-record-type type (ctor field ...) pred field-spec* ...) thunked-field-accessor ... delayed-field-accessor ... (make-syntactic-constructor type syntactic-ctor ctor (field ...) #:thunked #,thunked #:delayed #,delayed #:innate #,innate #:defaults #,defaults)))))))) (define* (alist->record alist make keys #:optional (multiple-value-keys '())) "Apply MAKE to the values associated with KEYS in ALIST. Items in KEYS that are also in MULTIPLE-VALUE-KEYS are considered to occur possibly multiple times in ALIST, and thus their value is a list." (let ((args (map (lambda (key) (if (member key multiple-value-keys) (filter-map (match-lambda ((k . v) (and (equal? k key) v))) alist) (assoc-ref alist key))) keys))) (apply make args))) (define (object->fields object fields port) "Write OBJECT (typically a record) as a series of recutils-style fields to PORT, according to FIELDS. FIELDS must be a list of field name/getter pairs." (let loop ((fields fields)) (match fields (() object) (((field . get) rest ...) (format port "~a: ~a~%" field (get object)) (loop rest))))) (define %recutils-field-charset ;; Valid characters starting a recutils field. ;; info "(recutils) Fields" (char-set-union char-set:upper-case char-set:lower-case (char-set #\%))) (define (recutils->alist port) "Read a recutils-style record from PORT and return it as a list of key/value pairs. Stop upon an empty line (after consuming it) or EOF." (let loop ((line (read-line port)) (result '())) (cond ((eof-object? line) (reverse result)) ((string-null? line) (if (null? result) (loop (read-line port) result) ; leading space: ignore it (reverse result))) ; end-of-record marker (else ;; Now check the first character of LINE, since that's what the ;; recutils manual says is enough. (let ((first (string-ref line 0))) (cond ((char-set-contains? %recutils-field-charset first) (let* ((colon (string-index line #\:)) (field (string-take line colon)) (value (string-trim (string-drop line (+ 1 colon))))) (loop (read-line port) (alist-cons field value result)))) ((eqv? first #\#) ;info "(recutils) Comments" (loop (read-line port) result)) ((eqv? first #\+) ;info "(recutils) Fields" (let ((new-line (if (string-prefix? "+ " line) (string-drop line 2) (string-drop line 1)))) (match result (((field . value) rest ...) (loop (read-line port) `((,field . ,(string-append value "\n" new-line)) ,@rest)))))) (else (error "unmatched line" line)))))))) ;;; records.scm ends here