#lang typed/racket/base (require "assemble-helpers.rkt" "../compiler/il-structs.rkt" "../compiler/lexical-structs.rkt" "../compiler/kernel-primitives.rkt" "assemble-structs.rkt" racket/string racket/list typed/rackunit) (provide open-code-kernel-primitive-procedure) (: open-code-kernel-primitive-procedure (CallKernelPrimitiveProcedure Blockht -> String)) (define (open-code-kernel-primitive-procedure op blockht) (let*: ([operator : KernelPrimitiveName/Inline (CallKernelPrimitiveProcedure-operator op)] [operands : (Listof String) (map (lambda: ([op : OpArg]) (assemble-oparg op blockht)) (CallKernelPrimitiveProcedure-operands op))] [checked-operands : (Listof String) (map (lambda: ([dom : OperandDomain] [pos : Natural] [rand : String] [typecheck? : Boolean]) (maybe-typecheck-operand operator dom pos rand typecheck?)) (CallKernelPrimitiveProcedure-expected-operand-types op) (build-list (length operands) (lambda: ([i : Natural]) i)) operands (CallKernelPrimitiveProcedure-typechecks? op))]) (case operator [(+) (cond [(empty? checked-operands) (assemble-numeric-constant 0)] [else (assemble-binop-chain "plt.baselib.numbers.add" checked-operands)])] [(-) (cond [(empty? (rest checked-operands)) (assemble-binop-chain "plt.baselib.numbers.subtract" (cons "0" checked-operands))] [else (assemble-binop-chain "plt.baselib.numbers.subtract" checked-operands)])] [(*) (cond [(empty? checked-operands) (assemble-numeric-constant 1)] [else (assemble-binop-chain "plt.baselib.numbers.multiply" checked-operands)])] [(/) (assemble-binop-chain "plt.baselib.numbers.divide" checked-operands)] [(add1) (assemble-binop-chain "plt.baselib.numbers.add" (cons "1" checked-operands))] [(sub1) (assemble-binop-chain "plt.baselib.numbers.subtract" (append checked-operands (list "1")))] [(<) (assemble-boolean-chain "plt.baselib.numbers.lessThan" checked-operands)] [(<=) (assemble-boolean-chain "plt.baselib.numbers.lessThanOrEqual" checked-operands)] [(=) (assemble-boolean-chain "plt.baselib.numbers.equals" checked-operands)] [(>) (assemble-boolean-chain "plt.baselib.numbers.greaterThan" checked-operands)] [(>=) (assemble-boolean-chain "plt.baselib.numbers.greaterThanOrEqual" checked-operands)] [(cons) (format "RT.makePair(~a,~a)" (first checked-operands) (second checked-operands))] [(car) (format "(~a).first" (first checked-operands))] [(caar) (format "(~a).first.first" (first checked-operands))] [(cdr) (format "(~a).rest" (first checked-operands))] [(list) (let loop ([checked-operands checked-operands]) (assemble-listof-assembled-values checked-operands))] [(list?) (format "RT.isList(~a)" (first checked-operands))] [(pair?) (format "RT.isPair(~a)" (first checked-operands))] [(null?) (format "(~a===RT.NULL)" (first checked-operands))] [(not) (format "(~a===false)" (first checked-operands))] [(eq?) (format "(~a===~a)" (first checked-operands) (second checked-operands))]))) (: assemble-binop-chain (String (Listof String) -> String)) (define (assemble-binop-chain rator rands) (cond [(empty? rands) ""] [(empty? (rest rands)) (first rands)] [else (assemble-binop-chain rator (cons (string-append rator "(" (first rands) ", " (second rands) ")") (rest (rest rands))))])) (check-equal? (assemble-binop-chain "plt.baselib.numbers.add" '("3" "4" "5")) "plt.baselib.numbers.add(plt.baselib.numbers.add(3, 4), 5)") (check-equal? (assemble-binop-chain "plt.baselib.numbers.subtract" '("0" "42")) "plt.baselib.numbers.subtract(0, 42)") (: assemble-boolean-chain (String (Listof String) -> String)) (define (assemble-boolean-chain rator rands) (string-append "(" (string-join (let: loop : (Listof String) ([rands : (Listof String) rands]) (cond [(empty? rands) '()] [(empty? (rest rands)) '()] [else (cons (format "(~a(~a,~a))" rator (first rands) (second rands)) (loop (rest rands)))])) "&&") ")")) (: assemble-domain-check (Symbol OperandDomain String Natural -> String)) (define (assemble-domain-check caller domain operand-string pos) (cond [(eq? domain 'any) operand-string] [else (let: ([predicate : String (case domain [(number) (format "RT.isNumber")] [(string) (format "RT.isString")] [(list) (format "RT.isList")] [(pair) (format "RT.isPair")] [(caarpair) (format "RT.isCaarPair")] [(box) (format "RT.isBox")])]) (format "RT.testArgument(M,~s,~a,~a,~a,~s)" (symbol->string domain) predicate operand-string pos (symbol->string caller)))])) (: maybe-typecheck-operand (Symbol OperandDomain Natural String Boolean -> String)) ;; Adds typechecks if we can't prove that the operand is of the required type. (define (maybe-typecheck-operand caller domain-type position operand-string typecheck?) (cond [typecheck? (assemble-domain-check caller domain-type operand-string position)] [else operand-string]))