ikarus/src/racompiler.ss

847 lines
28 KiB
Scheme
Executable File

#!/usr/bin/env ikarus --script
(import scheme)
(define (racompile x)
;;;
(define-syntax record-case
(lambda (x)
(define (enumerate fld* i)
(syntax-case fld* ()
[() #'()]
[(x . x*)
(with-syntax ([i i] [i* (enumerate #'x* (fx+ i 1))])
#'(i . i*))]))
(define (generate-body ctxt cls*)
(syntax-case cls* (else)
[() (with-syntax ([x x]) #'(error #f "unmatched ~s in ~s" v 'x))]
[([else b b* ...]) #'(begin b b* ...)]
[([(rec-name rec-field* ...) b b* ...] . rest) (identifier? #'rec-name)
(with-syntax ([altern (generate-body ctxt #'rest)]
[(id* ...) (enumerate #'(rec-field* ...) 0)]
[rtd #'(type-descriptor rec-name)])
#'(if (#%$record/rtd? v rtd)
(let ([rec-field* (#%$record-ref v id*)] ...)
b b* ...)
altern))]))
(syntax-case x ()
[(_ expr cls* ...)
(with-syntax ([body (generate-body #'_ #'(cls* ...))])
#'(let ([v expr]) body))])))
;;;
(define-record constant (val))
(define (mkconst v) (make-constant v))
(define-record int (val))
(define (mkint v) (make-int v))
(define-record set (lhs rhs))
(define (mkset x v) (make-set x v))
(define-record reg (name))
(define (mkreg x) (make-reg x))
(define-record primcall (op rand*))
(define (mkprm op . rand*) (make-primcall op rand*))
(define-record seq (e0 e1))
(define (mkseq e0 e1) (make-seq e0 e1))
(define-record conditional (e0 e1 e2))
(define (mkif e0 e1 e2) (make-conditional e0 e1 e2))
(define-record app (rator rand*))
(define (mkapp rator . rands) (make-app rator rands))
(define-record clambda (free cases))
(define-record clambda-case (fml* proper body))
(define-record var (name index))
(define-record bind (lhs* rhs* body))
(define (mkbind lhs* rhs* body)
(if (null? lhs*)
body
(make-bind lhs* rhs* body)))
;;;
(define (unparse x)
(define (flat x ac)
(record-case x
[(seq e0 e1)
(flat e0 (flat e1 ac))]
[else
(cons (E x) ac)]))
(define (E x)
(record-case x
[(constant c) `(const ,c)]
[(int i) `(int ,i)]
[(var name) `(var ,name)]
[(set lhs rhs) `(set ,(E lhs) ,(E rhs))]
[(reg r) `(reg ,r)]
[(primcall op rands) `(,op . ,(map E rands))]
[(seq e0 e1)
`(seq . ,(flat e0 (flat e1 '())))]
[(conditional e0 e1 e2)
`(if ,(E e0) ,(E e1) ,(E e2))]
[else (error 'unparse "invalid ~s" x)]))
(E x))
;;;
(define (pretty-code x)
(parameterize ([print-gensym 'pretty])
(pretty-print (unparse x))))
;;;
(module (primitive? arg-count-ok? primitive-context)
(define primitives
'([$fxadd1 1 v]
[$fxsub1 1 v]
[$fxlognot 1 v]
[$fixnum->char 1 v]
[$char->fixnum 1 v]
[fixnum? 1 p]
[null? 1 p]
[$fxzero? 1 p]
[boolean? 1 p]
[char? 1 p]
[not 1 not]
[$fx+ 2 v]
[$fx- 2 v]
[$fx* 2 v]
[$fxlogor 2 v]
[$fxlogand 2 v]
[$fx= 2 p]
[$fx< 2 p]
[$fx<= 2 p]
[$fx> 2 p]
[$fx>= 2 p]
))
;;;
(define (primitive? x)
(and (assq x primitives) #t))
;;;
(define (arg-count-ok? prim n)
(cond
[(assq prim primitives) =>
(lambda (p)
(let ([m (cadr p)])
(cond
[(= n m) #t]
[else #f])))]
[else (error 'arg-count-ok? "~s is not a primitive" prim)]))
;;;
(define (primitive-context prim)
(cond
[(assq prim primitives) => caddr]
[else (error 'arg-count-ok? "~s is not a primitive" prim)]))
#|module|#)
;;;
(define (recordize x)
(define who 'recordize)
;;;
(define (E* x* r)
(map (lambda (x) (E x r)) x*))
;;;
(define (list->seq ls)
(let f ([a (car ls)] [ls (cdr ls)])
(cond
[(null? ls) a]
[else
(f (make-seq a (car ls)) (cdr ls))])))
;;;
(define (lookup x r)
(cond
[(null? r) #f]
[(assq x (car r)) => cdr]
[else (lookup x (cdr r))]))
;;;
(define (E x r)
(cond
[(symbol? x)
(or (lookup x r)
(error who "unbound variable ~s" x))]
[(and (pair? x) (symbol? (car x)))
(case (car x)
[(quote) (mkconst (cadr x))]
[(if)
(mkif (E (cadr x) r)
(E (caddr x) r)
(E (cadddr x) r))]
[(case-lambda)
(make-clambda #f
(map (lambda (x)
(define (parse-fml* fml*)
(cond
[(null? fml*)
(values '() '() #t)]
[(symbol? fml*)
(let ([f (make-var fml* #f)])
(values (list f)
(list (cons fml* f))
#f))]
[else
(let-values ([(f* r p)
(parse-fml* (cdr fml*))])
(let ([f (make-var (car fml*) #f)])
(values (cons f f*)
(cons (cons (car fml*) f) r)
p)))]))
(let ([fml* (car x)]
[body* (cdr x)])
(let-values ([(fml* nr proper)
(parse-fml* fml*)])
(make-clambda-case fml* proper
(list->seq (E* body* (cons nr r)))))))
(cdr x)))]
[else (make-app (E (car x) r) (E* (cdr x) r))])]
[(pair? x)
(let ([a (car x)])
(cond
[(and (pair? a) (eq? (car a) '|#primitive|))
(let ([op (cadr a)])
(cond
[(not (primitive? op))
(error who "invalid primitive ~s" op)]
[(not (arg-count-ok? op (length (cdr x))))
(error who "incorrect args in ~s" x)]
[else
(make-primcall op (E* (cdr x) r))]))]
[else
(make-app (E a r) (E* (cdr x) r))]))]
[else (error who "invalid expression ~s" x)]))
;;;
(E x '()))
;;;
(define (optimize-direct-calls x)
(define who 'optimize-direct-call)
(define (optimize rator rands)
(define (args-match fml* proper rands)
(if proper
(= (length fml*) (length rands))
(error who "unhandled improper list")))
(define (bindem fml* proper rands body)
(if proper
(mkbind fml* rands body)
(error who "unhandled improper list")))
(record-case rator
[(clambda free cases)
(let f ([ls cases])
(cond
[(null? ls) (make-app rator rands)]
[(record-case (car ls)
[(clambda-case fml* proper body)
(if (args-match fml* proper rands)
(bindem fml* proper rands body)
#f)])]
[else (f (cdr ls))]))]
[else (make-app rator rands)]))
(define (E x)
(record-case x
[(constant) x]
[(var) x]
[(conditional e0 e1 e2)
(mkif (E e0) (E e1) (E e2))]
[(clambda free cases)
(make-clambda free
(map (lambda (c)
(record-case c
[(clambda-case fml* proper body)
(make-clambda-case fml* proper (E body))]))
cases))]
[(primcall op rands)
(make-primcall op (map E rands))]
[(app rator rands)
(optimize (E rator) (map E rands))]
[else (error who "invalid expression ~s" x)]))
(E x))
;;;
(define (normalize-context x)
(define who 'normalize-context)
;;;
(define (P x)
(define (predicafy x)
(mkif (mkprm 'eq? x (make-constant #f))
(make-constant #f)
(make-constant #t)))
(record-case x
[(constant c) (make-constant (if c #t #f))]
[(var x) (predicafy x)]
[(conditional e0 e1 e2)
(mkif (P e0) (P e1) (P e2))]
[(bind lhs* rhs* body)
(make-bind lhs* (map V rhs*) (P body))]
[(primcall op rands)
(case (primitive-context op)
[(v) (predicafy (V x))]
[(p) (make-primcall op (map V rands))]
[(not) (mkif (P (car rands)) (mkconst #f) (mkconst #t))]
[else (error who "unhandled pred context")])]
[else (error who "invalid expression ~s" x)]))
;;;
(define (V x)
(record-case x
[(constant) x]
[(var) x]
[(conditional e0 e1 e2)
(mkif (P e0) (V e1) (V e2))]
[(bind lhs* rhs* body)
(make-bind lhs* (map V rhs*) (V body))]
[(primcall op rands)
(case (primitive-context op)
[(v) (make-primcall op (map V rands))]
[(p) (mkif (P x) (mkconst #t) (mkconst #f))]
[(not) (mkif (P (car rands)) (mkconst #f) (mkconst #t))]
[else (error who "unhandled value context")])]
[else (error who "invalid expression ~s" x)]))
;;;
(V x))
;;;
(define (specify-representation x)
(define who 'specify-representation)
;;;
(define fixnum-scale 4)
(define fixnum-shift 2)
(define fixnum-mask 3)
(define fixnum-tag 0)
(define boolean-mask #xEF)
(define boolean-tag #x2F)
(define true-object #x3F)
(define false-object #x2F)
(define void-object #x7F)
(define bwp-object #x8F)
(define eof-object #x5F)
(define null-object #x4F)
(define char-shift 8)
(define char-tag #x0F)
(define char-mask #xFF)
;;;
(define (immediate? c)
(or (fixnum? c)
(boolean? c)
(char? c)
(null? c)
(eq? c (void))
(eof-object? c)
(bwp-object? c)))
;;;
(define (immediate-rep c)
(cond
[(fixnum? c) (mkint (* c fixnum-scale))]
[(boolean? c) (mkint (if c true-object false-object))]
[(char? c)
(mkint (fxlogor char-tag (fxsll (char->integer c) char-shift)))]
[(null? c) (mkint null-object)]
[(eof-object? c) (mkint eof-object)]
[(eq? c (void)) (mkint void-object)]
[(bwp-object? c) (mkint bwp-object)]
[else (error 'immediate-rep "invalid ~s" c)]))
;;;
(define (P x)
(define (tagcmp rands mask tag)
(mkprm 'int=
(mkprm 'intand (V (car rands)) (mkint mask))
(mkint tag)))
(record-case x
[(constant) x]
[(conditional e0 e1 e2)
(mkif (P e0) (P e1) (P e2))]
[(bind lhs* rhs* body)
(make-bind lhs* (map V rhs*) (P body))]
[(primcall op rands)
(case op
[(fixnum?) (tagcmp rands fixnum-mask fixnum-tag)]
[(boolean?) (tagcmp rands boolean-mask boolean-tag)]
[(char?) (tagcmp rands char-mask char-tag)]
[($fxzero?)
(mkprm 'int= (V (car rands)) (immediate-rep 0))]
[(null?)
(mkprm 'int= (V (car rands)) (immediate-rep '()))]
[(eq? $fx=)
(mkprm 'int= (V (car rands)) (V (cadr rands)))]
[(eq? $fx<)
(mkprm 'int< (V (car rands)) (V (cadr rands)))]
[(eq? $fx<=)
(mkprm 'int<= (V (car rands)) (V (cadr rands)))]
[(eq? $fx>)
(mkprm 'int> (V (car rands)) (V (cadr rands)))]
[(eq? $fx>=)
(mkprm 'int>= (V (car rands)) (V (cadr rands)))]
[else (error who "invalid value prim ~s" op)])]
[else (error who "invalid value ~s" x)]))
(define (V x)
(record-case x
[(constant c)
(if (immediate? c)
(immediate-rep c)
x)]
[(conditional e0 e1 e2)
(mkif (P e0) (V e1) (V e2))]
[(var) x]
[(bind lhs* rhs* body)
(make-bind lhs* (map V rhs*) (V body))]
[(primcall op rands)
(case op
[($fxadd1)
(mkprm 'int+ (V (car rands)) (immediate-rep 1))]
[($fxsub1)
(mkprm 'int+ (V (car rands)) (immediate-rep -1))]
[($fx+)
(mkprm 'int+ (V (car rands)) (V (cadr rands)))]
[($fxlogor)
(mkprm 'intor (V (car rands)) (V (cadr rands)))]
[($fxlogand)
(mkprm 'intand (V (car rands)) (V (cadr rands)))]
[($fx-)
(mkprm 'int- (V (car rands)) (V (cadr rands)))]
[($fx*)
(let ([a (car rands)] [b (cadr rands)])
(let ([ai (record-case a
[(constant i)
(if (fixnum? i) i #f)]
[else #f])]
[bi (record-case b
[(constant i)
(if (fixnum? i) i #f)]
[else #f])])
(cond
[ai
(mkprm 'int* (V b) (mkint ai))]
[bi
(mkprm 'int* (V a) (mkint bi))]
[else
(mkprm 'int* ;;; FIXME GC problem
(mkprm 'intsra (V a) (mkint fixnum-shift))
(V b))])))]
[($fxlognot)
(mkprm 'intxor (V (car rands)) (immediate-rep -1))]
[($char->fixnum)
(mkprm 'intsra (V (car rands))
(mkint (- char-shift fixnum-shift)))]
[($fixnum->char)
(mkprm 'intor
(mkprm 'intsll (V (car rands))
(mkint (- char-shift fixnum-shift)))
(mkint char-tag))]
[else (error who "invalid value prim ~s" op)])]
[else (error who "invalid value ~s" x)]))
;;;
(V x))
;;;
(define (impose-calling-convention x)
(define who 'impose-calling-convention)
;;;
(define rv-register (mkreg '%eax))
;;;
(define (simple? x)
(record-case x
[(constant) #t]
[(int) #t]
[else #f]))
;;;
(define (do-bind lhs* rhs* body)
(cond
[(null? lhs*) body]
[else
(mkseq (D (car lhs*) (car rhs*))
(do-bind (cdr lhs*) (cdr rhs*) body))]))
;;;
(define (D d x)
(define (assoc op a b)
(cond
[(simple? a)
(let ([t (new-uvar)])
(mkseq (D t b)
(mkseq (mkset t (mkprm op t a))
(mkset d t))))]
[(simple? b)
(let ([t (new-uvar)])
(mkseq (D t a)
(mkseq (mkset t (mkprm op t b))
(mkset d t))))]
[else (error who "two complex operands ~s ~s" a b)]))
(record-case x
[(constant) (mkset d x)]
[(int) (mkset d x)]
[(var) (mkset d x)]
[(conditional e0 e1 e2)
(mkif (P e0) (D d e1) (D d e2))]
[(primcall op rands)
(case op
[(int+)
(assoc 'int+ (car rands) (cadr rands))]
[(int*)
(assoc 'int* (car rands) (cadr rands))]
[(intxor)
(assoc 'intxor (car rands) (cadr rands))]
[(intor)
(assoc 'intor (car rands) (cadr rands))]
[(intand)
(assoc 'intand (car rands) (cadr rands))]
[(int-)
(let ([a (car rands)] [b (cadr rands)])
(cond
[(simple? b)
(let ([t (new-uvar)])
(mkseq (D t a)
(mkseq (mkset t (mkprm 'int- t b))
(mkset d t))))]
[(simple? a)
(let ([t (new-uvar)])
(mkseq (D t b)
(mkseq (D d a)
(mkset d (mkprm 'int- d t)))))]
[else (error who "two complex operands ~s ~s" a b)]))]
[(intsll intsra)
(let ([a (car rands)] [b (cadr rands)])
(record-case b
[(int)
(let ([t (new-uvar)])
(mkseq (D t a)
(mkseq (mkset t (mkprm op t b))
(mkset d t))))]
[else
(error who "unhandled intsll ~s" b)]))]
[else (error who "invalid value prim ~s" op)])]
[else (error who "invalid value value ~s" x)]))
;;;
(define (P x)
(define (prim op op^ a b)
(cond
[(simple? a)
(mkseq (V b) (mkprm op^ rv-register a))]
[(simple? b)
(mkseq (V a) (mkprm op rv-register b))]
[else (error who "two complex operands ~s ~s" a b)]))
(record-case x
[(constant) x]
[(conditional e0 e1 e2)
(mkif (P e0) (P e1) (P e2))]
[(primcall op rands)
(case op
[(int=)
(prim 'int= 'int= (car rands) (cadr rands))]
[(int<)
(prim 'int< 'int> (car rands) (cadr rands))]
[(int<=)
(prim 'int<= 'int>= (car rands) (cadr rands))]
[(int>)
(prim 'int> 'int< (car rands) (cadr rands))]
[(int>=)
(prim 'int>= 'int<= (car rands) (cadr rands))]
[else (error who "invalid pred prim ~s" op)])]
[else (error who "invalid pred value ~s" x)]))
(define (V x)
(define (assoc op a b)
(cond
[(simple? a)
(mkseq (V b)
(mkset rv-register (mkprm op rv-register a)))]
[(simple? b)
(mkseq (V a)
(mkset rv-register (mkprm op rv-register b)))]
[else (error who "two complex operands ~s ~s" a b)]))
(record-case x
[(constant) (mkset rv-register x)]
[(int) (mkset rv-register x)]
[(var) (mkset rv-register x)]
[(conditional e0 e1 e2)
(mkif (P e0) (V e1) (V e2))]
[(primcall op rands)
(case op
[(int+)
(assoc 'int+ (car rands) (cadr rands))]
[(int*)
(assoc 'int* (car rands) (cadr rands))]
[(intxor)
(assoc 'intxor (car rands) (cadr rands))]
[(intor)
(assoc 'intor (car rands) (cadr rands))]
[(intand)
(assoc 'intand (car rands) (cadr rands))]
[(int-)
(let ([a (car rands)] [b (cadr rands)])
(cond
[(simple? b)
(mkseq (V a)
(mkset rv-register (mkprm 'int- rv-register b)))]
[(simple? a)
(mkseq (mkseq (V b)
(mkset rv-register (mkprm 'intneg rv-register)))
(mkset rv-register (mkprm 'int+ rv-register a)))]
[else (error who "two complex operands ~s ~s" a b)]))]
[(intsll intsra)
(let ([a (car rands)] [b (cadr rands)])
(record-case b
[(int)
(mkseq (V a)
(mkset rv-register (mkprm op rv-register b)))]
[else
(error who "unhandled intsll ~s" b)]))]
[else (error who "invalid value prim ~s" op)])]
[else (error who "invalid value value ~s" x)]))
;;;
(define (Tail x)
(define (return x)
(mkseq x (mkprm 'return rv-register)))
(record-case x
[(constant) (return (V x))]
[(int) (return (V x))]
[(var) (return (V x))]
[(primcall) (return (V x))]
[(bind lhs* rhs* body)
(do-bind lhs* rhs* (Tail body))]
[(conditional e0 e1 e2)
(mkif (P e0) (Tail e1) (Tail e2))]
[else (error who "invalid tail ~s" x)]))
;;;
(Tail x))
;;;
(define (linearize x)
(define who 'linearize)
;;;
(define (op x)
(record-case x
[(reg r) r]
[(constant c) `(obj ,c)]
[(int i) i]
[else (error who "invalid op ~s" x)]))
;;;
(define (same? x y)
(record-case x
[(reg rx)
(record-case y
[(reg ry) (eq? rx ry)]
[else #f])]
[else (error 'same? "invalid arg ~s" x)]))
;;;
(define (indep? x y)
(record-case x
[(reg rx)
(let f ([y y])
(record-case y
[(int) #t]
[(constant) #t]
[(reg ry) (not (eq? rx ry))]
[(primcall op rands)
(andmap f rands)]
[else (error 'indep? "unhandled ~s" y)]))]
[else (error 'indep? "invalid arg ~s" x)]))
;;;
(define (Pred x lt lf ac)
(define (revcmp x)
(case x
[(int=) 'int=]
[(int<) 'int>]
[(int<=) 'int>=]
[(int>) 'int<]
[(int>=) 'int<=]
[else (errot 'revcmp "invalid cmp ~s" x)]))
(define (CJump cnd lt lf ac)
(define (cjumpop x)
(case x
[(int=) 'je]
[(int<) 'jl]
[(int<=) 'jle]
[(int>) 'jg]
[(int>=) 'jge]))
(define (cjumpop^ x)
(case x
[(int=) 'jne]
[(int<) 'jnl]
[(int<=) 'jnle]
[(int>) 'jng]
[(int>=) 'jnge]))
(cond
[(and lt lf)
(list* `(,(cjumpop cnd) (label ,lt))
`(jmp (label ,lf))
ac)]
[lt
(list* `(,(cjumpop cnd) (label ,lt))
ac)]
[lf
(list* `(,(cjumpop^ cnd) (label ,lf))
ac)]
[else ac]))
(record-case x
[(constant c)
(if c
(if lt (cons `(jmp (label ,lt)) ac) ac)
(if lf (cons `(jmp (label ,lf)) ac) ac))]
[(seq e0 e1)
(Effect e0 (Pred e1 lt lf ac))]
[(conditional e0 e1 e2)
(cond
[(and lt lf)
(let ([g (gensym)])
(Pred e0 #f g
(Pred e1 lt lf
(cons `(label ,g)
(Pred e2 lt lf ac)))))]
[lt
(let ([g (gensym)] [lf (gensym)])
(Pred e0 #f g
(Pred e1 lt lf
(cons `(label ,g)
(Pred e2 lt #f
(cons `(label ,lf) ac))))))]
[lf
(let ([g (gensym)] [lt (gensym)])
(Pred e0 #f g
(Pred e1 lt lf
(cons `(label ,g)
(Pred e2 #f lf
(cons `(label ,lt) ac))))))]
[else
(let ([g (gensym)] [lt (gensym)])
(Pred e0 #f g
(Pred e1 lt lt
(cons `(label ,g)
(Pred e2 #f #f
(cons `(label ,lt) ac))))))])]
[(primcall prim rands)
(let ([a (car rands)] [b (cadr rands)])
(record-case a
[(reg ra)
(cons `(cmpl ,(op b) ,(op a))
(CJump prim lt lf ac))]
[(reg rb)
(cons `(cmpl ,(op a) ,(op b))
(CJump (revcmp prim) lt lf ac))]
[else (error who "invalid operands in pred ~s ~s" a b)]))]
[else (error who "invalid pred ~s" x)]))
;;;
(define (Effect x ac)
(define (primname x)
(case x
[(int+) 'addl]
[(int*) 'imull]
[(intor) 'orl]
[(intxor) 'xorl]
[(intand) 'andl]
[(intsll) 'sall]
[(intsra) 'sarl]
[else (error who "invalid primname ~s" x)]))
(record-case x
[(seq e0 e1)
(Effect e0 (Effect e1 ac))]
[(conditional e0 e1 e2)
(let ([g (gensym)] [elabel (gensym)])
(Pred e0 #f g
(Effect e1
(list* `(jmp (label ,elabel))
`(label ,g)
(Effect e2
(cons `(label ,elabel) ac))))))]
[(set targ v)
(record-case v
[(int i) (cons `(movl ,i ,(op targ)) ac)]
[(constant c) (cons `(movl (obj ,c) ,(op targ)) ac)]
[(primcall prim rands)
(case prim
[(int+ intor intxor intand int*)
(let ([asmprm (primname prim)])
(let ([a (car rands)] [b (cadr rands)])
(cond
[(and (same? targ a) (indep? targ b))
(cons `(,asmprm ,(op b) ,(op a)) ac)]
[(and (same? targ b) (indep? targ b))
(cons `(,asmprm ,(op a) ,(op b)) ac)]
[(indep? targ b)
(list* `(movl ,(op a) ,(op targ))
`(,asmprm ,(op b) ,(op targ))
ac)]
[(indep? targ a)
(list* `(movl ,(op b) ,(op targ))
`(,asmprm ,(op a) ,(op targ))
ac)]
[else (error who "invalid ops")])))]
[(int-)
(let ([a (car rands)] [b (cadr rands)])
(cond
[(and (same? targ a) (indep? targ b))
(cons `(subl ,(op b) ,(op a)) ac)]
[else (error who "invalid ops int-")]))]
[(intneg)
(let ([a (car rands)])
(cond
[(same? targ a)
(cons `(negl ,(op a)) ac)]
[else (error who "invalid ops intneg")]))]
[(intsll intsra)
(let ([asmprm (primname prim)])
(let ([a (car rands)] [b (cadr rands)])
(cond
[(and (same? targ a) (indep? targ b))
(cons `(,asmprm ,(op b) ,(op a)) ac)]
[(indep? targ b)
(list* `(movl ,(op a) ,(op targ))
`(,asmprm ,(op b) ,(op targ))
ac)]
[else (error who "invalid ops")])))]
[else (error who "invalid op ~s" prim)])]
[else (error who "invalid rhs ~s" v)])]
[else (error who "invalid effect ~s" x)]))
;;;
(define (Tail x ac)
(record-case x
[(seq e0 e1)
(Effect e0 (Tail e1 ac))]
[(conditional e0 e1 e2)
(let ([g (gensym)])
(Pred e0 #f g
(Tail e1
(cons `(label ,g)
(Tail e2 ac)))))]
[(primcall op rands)
(case op
[(return)
(cons '(ret) ac)]
[else (error who "invalid tail prim ~s" op)])]
[else (error who "invalid tail ~s" x)]))
;;;
(printf "linearing:\n")
(pretty-code x)
(list (list* 0
(Tail x '()))))
;;;
(define (compile x)
(let* ([x (parameterize ([expand-mode 'bootstrap]
[interaction-environment
($make-environment '|#system| #t)])
(expand x))]
[x (recordize x)]
[x (optimize-direct-calls x)]
[x (normalize-context x)]
[x (specify-representation x)]
[x (impose-calling-convention x)]
[x* (linearize x)]
[foo (parameterize ([print-gensym 'pretty])
(for-each
(lambda (ls)
(for-each (lambda (x)
(printf " ~s\n" x))
ls))
x*))]
[code (car (#%list*->code*
(lambda (x) #f)
x*))])
((#%$code->closure code))))
(compile x))
(define-syntax add-tests-with-string-output
(syntax-rules (=>)
[(_ name [expr* => str*] ...)
(begin
(printf "SECTION ~a ...\n" 'name)
(let ([str str*]
[expr 'expr*])
(fprintf (console-output-port) "testing ~s\n" expr)
(let ([r (let ([v (racompile expr)])
(fprintf (console-output-port) ".")
(with-output-to-string
(lambda ()
(write v)
(newline))))])
(fprintf (console-output-port) ".")
(unless (string=? r str)
(error #f "expected ~s, got ~s\n" str r))))
...)]))
(load "tests/tests-1.1-req.scm")
(load "tests/tests-1.2-req.scm")
(load "tests/tests-1.3-req.scm")
(load "tests/tests-1.4-req.scm")
(load "tests/tests-1.5-req.scm")
(load "tests/tests-1.6-req.scm")
(printf "ALL IS GOOD :-)\n")