#lang typed/racket ;;; dds/utils ;;; Various utilities. (require (for-syntax syntax/parse) (for-syntax racket/list)) (provide auto-hash-ref/explicit auto-hash-ref/:) ;;; HashTable Injection ;;; This section of the file contains some utilities to streamline the ;;; usage of hash tables mapping symbols to values. The goal is ;;; essentially to avoid having to write explicit hash-ref calls. ;;; Given a (HashTable Symbol a) and a sequence of symbols, binds ;;; these symbols to the values they are associated to in the hash ;;; table, then puts the body in the context of these bindings. ;;; ;;; > (let ([ht #hash((a . 1) (b . 2))]) ;;; (auto-hash-ref/explicit (ht a b) (+ a (* 2 b)))) ;;; 5 ;;; ;;; Note that only one expression can be supplied in the body. (define-syntax (auto-hash-ref/explicit stx) (syntax-parse stx [(_ (ht:id xs:id ...) body:expr) #`(let #,(for/list ([x (syntax->list #'(xs ...))]) #`[#,x (hash-ref ht '#,x)]) body)])) ;;; Given an expression and a (HashTable Symbol a), looks up the ;;; symbols with a leading semicolon and binds them to the value they ;;; are associated to in the hash table. ;;; ;;; > (let ([ht #hash((a . 1) (b . 2))]) ;;; (auto-hash-ref/: ht (+ :a (* 2 :b)))) ;;; 5 ;;; ;;; Note that the symbol :a is matched to the key 'a in the hash ;;; table. ;;; ;;; Note that only one expression can be supplied in the body. (define-syntax (auto-hash-ref/: stx) (syntax-parse stx [(_ ht:id body) (let* ([names/: (collect-colons (syntax->datum #'body))]) #`(let #,(for/list ([x names/:]) ;; put x in the same context as body #`[#,(datum->syntax #'body x) (hash-ref ht '#,(strip-colon x))]) body))])) ;;; The helper functions for auto-hash-ref/:. (begin-for-syntax ;; Collect all the symbols starting with a colon in datum. (define (collect-colons datum) (remove-duplicates (flatten (for/list ([token datum]) (cond [(symbol? token) (let ([name (symbol->string token)]) (if (eq? #\: (string-ref name 0)) token '()))] [(list? token) (collect-colons token)] [else '()]))))) ;; Strip the leading colon off x. (define (strip-colon x) (let ([x-str (symbol->string x)]) (if (eq? #\: (string-ref x-str 0)) (string->symbol (substring x-str 1)) x))))