#lang scheme/base (require "pattern.ss" (for-template scheme/base) (for-syntax scheme/base "../tools.ss")) (provide patterns-class meta-pattern) ;; META PATTERNS ;; To create classes of pattern transformers. The code ;; ;; (meta-pattern unary (word opcode) ;; (([movf f 0 0] word) ([opcode f 0 0])) ;; ((word) ([opcode 'WREG 0 0]))) ;; ;; (unary (macro) ;; (1+ infc)) ;; (1- decf)) ;; ;; expands to: ;; ;; (begin ;; (patterns (macro) ;; (((movf f 0 0) 1-) ((decf f 0 0))) ;; ((1-) ((decf 'WREG 0 0)))) ;; (patterns (macro) ;; (((movf f 0 0) 1+) ((incf f 0 0))) ;; ((1+) ((incf 'WREG 0 0))))) ;; ;; For macros with more than one level of quoting I avoid ellipsis and ;; quasisyntax/unsyntax, and use explicit list ops and nested syntax + ;; syntax-case to bind generated code to pattern variables. (define-syntax (meta-pattern stx) (syntax-case stx () ((_ par-pattern formals . body) #'(define-syntax (par-pattern stx) ;; Expands to body specializer. (define (gen-body args) (syntax-case args () (formals #'body))) ;; Apply generated specializer params. (syntax-case stx () ((_ ns . arg-lists) (syntax-case (for/list ((a (syntax->list #'arg-lists))) (syntax-case (gen-body a) () (pb #'(patterns ns . pb)))) () (pats #'(begin . pats))))))))) ;; In most cases meta patterns don't need to be named. (define-syntax-rule (patterns-class ns formals specs . body) (begin (meta-pattern P formals . body) (P ns . specs)))