計算機プログラムの構造と解釈[第2版]
(翔泳社)
ハロルド エイブルソン (著)ジュリー サスマン (著)
ジェラルド・ジェイ サスマン (著)
Harold Abelson (原著)Julie Sussman (原著)
Gerald Jay Sussman (原著)和田 英一 (翻訳)
開発環境
- OS X Yosemite - Apple (OS)
- Emacs (CUI)、BBEdit - Bare Bones Software, Inc. (GUI) (Text Editor)
- Scheme (プログラミング言語)
- Gauche (処理系)
計算機プログラムの構造と解釈[第2版](ハロルド エイブルソン (著)、ジュリー サスマン (著)、ジェラルド・ジェイ サスマン (著)、Harold Abelson (原著)、Julie Sussman (原著)、Gerald Jay Sussman (原著)、和田 英一 (翻訳)、翔泳社、原書: Structure and Interpretation of Computer Programs (MIT Electrical Engineering and Computer Science)(SICP))の5(レジスタ計算機での計算)、5.5(翻訳系)、5.5.5(翻訳したコードの例)、問題 5.37.を解いてみる。
その他参考書籍
- Instructor's Manual to Accompany Structure & Interpretation of Computer Programs
- プログラミングGauche (Kahuaプロジェクト (著), 川合 史朗 (監修), オライリージャパン)
- Scheme手習い
問題 5.37.
コード(BBEdit, Emacs)
compiler37.scm
;; -*- coding;: utf-8 -*-
(load "./operations.scm")
(define (compile exp target linkage)
(cond ((self-evaluating? exp)
(compile-self-evaluating exp target linkage))
((quoted? exp) (compile-quoted exp target linkage))
((variable? exp)
(compile-variable exp target linkage))
((assignment? exp)
(compile-assignment exp target linkage))
((definition? exp)
(compile-definition exp target linkage))
((if? exp) (compile-if exp target linkage))
((lambda? exp) (compile-lambda exp target linkage))
((begin? exp)
(compile-sequence (begin-actions exp)
target
linkage))
((cond? exp) (compile (cond->if exp) target linkage))
((application? exp)
(compile-application exp target linkage))
(else
(error "Unknown expression type -- COMPILE" exp))))
(define (make-instruction-sequence needs modifies statements)
(list needs modifies statements))
(define (empty-instruction-sequence)
(make-instruction-sequence '() '() '()))
(define (compile-linkage linkage)
(cond ((eq? linkage 'return)
(make-instruction-sequence '(continue) '()
'((goto (reg continue)))))
((eq? linkage 'next)
(empty-instruction-sequence))
(else
(make-instruction-sequence '() '()
`((goto (label ,linkage)))))))
(define (end-with-linkage linkage instruction-sequence)
(preserving '(continue)
instruction-sequence
(compile-linkage linkage)))
(define (compile-self-evaluating exp target linkage)
(end-with-linkage linkage
(make-instruction-sequence
'()
(list target)
`((assign ,target (const ,exp))))))
(define (compile-quoted exp target linkage)
(end-with-linkage linkage
(make-instruction-sequence
'()
(list target)
`((assign ,target (const ,(text-of-quotation exp)))))))
(define (compile-variable exp target linkage)
(end-with-linkage linkage
(make-instruction-sequence
'(env)
(list target)
`((assign ,target
(op lookup-variable-value)
(const ,exp)
(reg env))))))
(define (compile-assignment exp target list)
(let ((var (assignment-variable exp))
(get-value-code
(compile (assignment-value exp) 'val 'next)))
(end-with-linkage
linkage
(preserving '(env)
get-value-code
(make-instruction-sequence
'(env val)
(list target)
`((perform (op set-variable-value!)
(const ,var)
(reg val)
(reg env))
(assign ,target (const ok))))))))
(define (compile-definition exp target linkage)
(let ((var (definition-variable exp))
(get-value-code
(compile (definition-value exp) 'val 'next)))
(end-with-linkage
linkage
(preserving '(env)
get-value-code
(make-instruction-sequence
'(env val)
(list target)
`((perform (op define-variable!)
(const ,var)
(reg val)
(reg env))
(assign ,target (const ok))))))))
(define (compile-if exp target linkage)
(let ((t-branch (make-label 'true-branch))
(f-branch (make-label 'false-branch))
(after-if (make-label 'after-if)))
(let ((consequent-linkage
(if (eq? linkage 'next) after-if linkage)))
(let ((p-code (compile (if-predicate exp) 'val 'next))
(c-code
(compile
(if-consequent exp) target consequent-linkage))
(a-code
(compile (if-alternative exp) target linkage)))
(preserving
'(env continue)
p-code
(append-instruction-sequences
(make-instruction-sequence
'(val)
'()
`((test (op false?) (reg val))
(branch (label ,f-branch))))
(parallel-instruction-sequences
(append-instruction-sequences t-branch c-code)
(append-instruction-sequences f-branch a-code))
after-if))))))
(define (compile-sequence seq target linkage)
(if (last-exp? seq)
(compile (first-exp seq) target linkage)
(preserving '(env continue)
(compile (first-exp seq) target 'next)
(compile-sequence (rest-exps seq) target linkage))))
(define (compile-lambda exp target linkage)
(let ((proc-entry (make-label 'entry))
(after-lambda (make-label 'after-lambda)))
(let ((lambda-linkage
(if (eq? linkage 'next) after-lambda linkage)))
(append-instruction-sequences
(tack-on-instruction-sequence
(end-with-linkage
lambda-linkage
(make-instruction-sequence
'(env)
(list target)
`((assign ,target
(op make-compiled-procedure)
(label ,proc-entry)
(reg env)))))
(compile-lambda-body exp proc-entry))
after-lambda))))
(define (compile-lambda-body exp proc-entry)
(let ((formals (lambda-parameters exp)))
(append-instruction-sequences
(make-instruction-sequence
'(env proc argl)
'(env)
`(,proc-entry
(assign env (op compiled-procedure-env) (reg proc))
(assign env
(op extend-environment)
(const ,formals)
(reg argl)
(reg env))))
(compile-sequence (lambda-body exp) 'val 'return))))
(define (compile-application exp target linkage)
(let ((proc-code (compile (operator exp) 'proc 'next))
(operand-codes
(map (lambda (operand) (compile operand 'val 'next))
(operands exp))))
(preserving '(env continue)
proc-code
(preserving '(proc continue)
(construct-arglist operand-codes)
(compile-procedure-call target linkage)))))
(define (construct-arglist operand-codes)
(let ((operand-codes (reverse operand-codes)))
(if (null? operand-codes)
(make-instruction-sequence
'()
'(argl)
'((assign argl (const ()))))
(let ((code-to-get-last-arg
(append-instruction-sequences
(car operand-codes)
(make-instruction-sequence
'(val)
'(argl)
'((assign argl (op list) (reg val)))))))
(if (null? (cdr operand-codes))
code-to-get-last-arg
(preserving '(env)
code-to-get-last-arg
(code-to-get-rest-args
(cdr operand-codes))))))))
(define (code-to-get-rest-args operand-codes)
(let ((code-for-next-arg
(preserving '(argl)
(car operand-codes)
(make-instruction-sequence
'(val argl)
'(argl)
'((assign argl (op cons) (reg val) (reg argl)))))))
(if (null? (cdr operand-codes))
code-for-next-arg
(preserving '(env)
code-for-next-arg
(code-to-get-rest-args (cdr operand-codes))))))
(define (compile-procedure-call target linkage)
(let ((primitive-branch (make-label 'primitive-branch))
(compiled-branch (make-label 'compiled-branch))
(after-call (make-label 'after-call)))
(let ((compiled-linkage
(if (eq? linkage 'next) after-call linkage)))
(append-instruction-sequences
(make-instruction-sequence
'(proc)
'()
`((test (op primitive-procedure?) (reg proc))
(branch (label ,primitive-branch))))
(parallel-instruction-sequences
(append-instruction-sequences
compiled-branch
(compile-proc-appl target compiled-linkage))
(append-instruction-sequences
primitive-branch
(end-with-linkage linkage
(make-instruction-sequence
'(proc argl)
(list target)
`((assign ,target
(op apply-primitive-procedure)
(reg proc)
(reg argl)))))))
after-call))))
(define (compile-proc-appl target linkage)
(cond ((and (eq? target 'val) (not (eq? linkage 'return)))
(make-instruction-sequence
'(proc)
all-regs
`((assign continue (label ,linkage))
(assign val
(op compiled-procedure-entry)
(reg proc))
(goto (reg val)))))
((and (not (eq? target 'val))
(not (eq? linkage 'return)))
(let ((proc-return (make-label 'proc-return)))
(make-instruction-sequence
'(proc)
all-regs
`((assign continue (label ,proc-return))
(assign val
(op compiled-procedure-entry)
(reg proc))
(goto (reg val))
,proc-return
(assign ,target (reg val))
(goto (label ,linkage))))))
((and (eq? target 'val) (eq? linkage 'return))
(make-instruction-sequence
'(proc continue)
all-regs
'((assign val
(op compiled-procedure-entry)
(reg proc))
(goto (reg val)))))
((and (not (eq? target 'val)) (eq? linkage 'return))
(error "return linkage, target not val -- COMPILE" target))))
(define (registers-needed s)
(if (symbol? s) '() (car s)))
(define (registers-modified s)
(if (symbol? s) '() (cadr s)))
(define (statements s)
(if (symbol? s) (list s) (caddr s)))
(define (needs-register? seq reg)
(memq reg (registers-needed seq)))
(define (modifies-register? seq reg)
(memq reg (registers-modified seq)))
(define (append-instruction-sequences . seqs)
(define (append-2-sequences seq1 seq2)
(make-instruction-sequence
(list-union (registers-needed seq1)
(list-difference (registers-needed seq2)
(registers-needed seq1)))
(list-union (registers-modified seq1)
(registers-modified seq2))
(append (statements seq1) (statements seq2))))
(define (append-seq-list seqs)
(if (null? seqs)
(empty-instruction-sequence)
(append-2-sequences (car seqs)
(append-seq-list (cdr seqs)))))
(append-seq-list seqs))
(define (list-union s1 s2)
(cond ((null? s1) s2)
((memq (car s1) s2) (list-union (cdr s1) s2))
(else (cons (car s1) (list-union (cdr s1) s2)))))
(define (list-difference s1 s2)
(cond ((null? s1) '())
((memq (car s1) s2) (list-difference (cdr s1) s2))
(else (cons (car s1)
(list-difference (cdr s1) s2)))))
(define (preserving regs seq1 seq2)
(if (null? regs)
(append-instruction-sequences seq1 seq2)
(let ((first-reg (car regs)))
(preserving (cdr regs)
(make-instruction-sequence
(list-union (list first-reg)
(registers-needed seq1))
(list-difference (registers-modified seq1)
(list first-reg))
(append `((save ,first-reg))
(statements seq1)
`((restore ,first-reg))))
seq2))))
(define (tack-on-instruction-sequence seq body-seq)
(make-instruction-sequence
(registers-needed seq)
(registers-modified seq)
(append (statements seq) (statements body-seq))))
(define (parallel-instruction-sequences seq1 seq2)
(make-instruction-sequence
(list-union (registers-needed seq1)
(registers-needed seq2))
(list-union (registers-modified seq1)
(registers-modified seq2))
(append (statements seq1) (statements seq2))))
sample37_1.scm
#!/usr/bin/env gosh
;; -*- coding: utf-8 -*-
(load "./compiler.scm")
(print (compile
'(+ 1 2)
'val
'next))
sample37_2.scm
#!/usr/bin/env gosh
;; -*- coding: utf-8 -*-
(load "./compiler37.scm")
(print (compile
'(+ 1 2)
'val
'next))
入出力結果(Terminal(gosh), REPL(Read, Eval, Print, Loop))
$ ./sample37_1.scm ((env val argl proc) (env proc argl continue val) ((assign proc (op lookup-variable-value) (const +) (reg env)) (assign val (const 2)) (assign argl (op list) (reg val)) (assign val (const 1)) (assign argl (op cons) (reg val) (reg argl)) (test (op primitive-procedure?) (reg proc)) (branch (label primitive-branch1)) compiled-branch2 (assign continue (label after-call3)) (assign val (op compiled-procedure-entry) (reg proc)) (goto (reg val)) primitive-branch1 (assign val (op apply-primitive-procedure) (reg proc) (reg argl)) after-call3)) $ ./sample37_2.scm ((continue env proc val argl) (env proc argl continue val) ((save continue) (save env) (save continue) (assign proc (op lookup-variable-value) (const +) (reg env)) (restore continue) (restore env) (restore continue) (save continue) (save proc) (save env) (save continue) (assign val (const 2)) (restore continue) (assign argl (op list) (reg val)) (restore env) (save argl) (save continue) (assign val (const 1)) (restore continue) (restore argl) (assign argl (op cons) (reg val) (reg argl)) (restore proc) (restore continue) (test (op primitive-procedure?) (reg proc)) (branch (label primitive-branch1)) compiled-branch2 (assign continue (label after-call3)) (assign val (op compiled-procedure-entry) (reg proc)) (goto (reg val)) primitive-branch1 (save continue) (assign val (op apply-primitive-procedure) (reg proc) (reg argl)) (restore continue) after-call3)) $
見やすくするため、改行を挿入して修正。
レジスタ計算機。(元のコンパイラ)
(assign proc (op lookup-variable-value) (const +) (reg env)) (assign val (const 2)) (assign argl (op list) (reg val)) (assign val (const 1)) (assign argl (op cons) (reg val) (reg argl)) (test (op primitive-procedure?) (reg proc)) (branch (label primitive-branch1)) compiled-branch2 (assign continue (label after-call3)) (assign val (op compiled-procedure-entry) (reg proc)) (goto (reg val)) primitive-branch1 (assign val (op apply-primitive-procedure) (reg proc) (reg argl)) after-call3))
レジスタ計算機。(修正したコンパイラ)
(save continue) (save env) (save continue) (assign proc (op lookup-variable-value) (const +) (reg env)) (restore continue) (restore env) (restore continue) (save continue) (save proc) (save env) (save continue) (assign val (const 2)) (restore continue) (assign argl (op list) (reg val)) (restore env) (save argl) (save continue) (assign val (const 1)) (restore continue) (restore argl) (assign argl (op cons) (reg val) (reg argl)) (restore proc) (restore continue) (test (op primitive-procedure?) (reg proc)) (branch (label primitive-branch1)) compiled-branch2 (assign continue (label after-call3)) (assign val (op compiled-procedure-entry) (reg proc)) (goto (reg val)) primitive-branch1 (save continue) (assign val (op apply-primitive-procedure) (reg proc) (reg argl)) (restore continue) after-call3
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