[scheme.git] / codegen.scm

(load "typecheck.scm")
(load "ast.scm")

(define (emit . s)
  (begin
    (apply printf s)
    (display "\n")))

(define (codegen-add xs si env)
  (define (go ys)
    (if (null? ys)
      (emit "movq ~a(%rbp), %rax" si)
      (begin
        (let ((y (car ys)))
             (if (integer? y)
                 (emit "addq $~a, ~a(%rbp)" y si)
                 (begin
                   (codegen-expr y (- si wordsize) env)
                   (emit "addq %rax, ~a(%rbp)" si))))
        (go (cdr ys)))))
  (begin
                                        ; use si(%rbp) as the accumulator
    (emit "movq $0, ~a(%rbp)" si)
    (go xs)))

(define (codegen-binop opcode)
  (lambda (a b si env)
    (codegen-expr b si env)
    (emit "movq %rax, ~a(%rbp)" si)
    (codegen-expr a (- si wordsize) env)
    (emit "~a ~a(%rbp), %rax" opcode si)))

(define codegen-sub (codegen-binop "sub"))

(define codegen-mul (codegen-binop "imul"))

(define (codegen-not x si env)
  (codegen-expr x si env)
  (emit "notq %rax")
  (emit "andq $1, %rax"))

(define (codegen-eq a b si env)
  (codegen-expr a si env)
  (emit "movq %rax, ~a(%rbp)" si)
  (codegen-expr b (- si wordsize) env)
  (emit "subq ~a(%rbp), %rax" si)
  (emit "not %rax")
  (emit "andq $1, %rax"))

(define (codegen-print x si env)
  (codegen-expr x si env) ; x should be a static-string, producing a label

                      ; make a copy of string address since %rax and %rdi are clobbered
  (emit "mov %rax, %rbx")
  
                      ; get the length of the null terminated string
  (emit "mov %rax, %rdi")
  (emit "xor %al, %al")   ; set %al to 0
  (emit "mov $-1, %rcx") ; max search length = max int = -1
  (emit "cld")           ; clear direction flag, search up in memory
  (emit "repne scasb")   ; scan string, %rcx = -strlen - 1 - 1
  
  (emit "not %rcx")      ; -%rcx = strlen + 1
  (emit "dec %rcx")
  
  (emit "mov %rcx, %rdx") ; number of bytes
  (emit "mov %rbx, %rsi") ; addr of string
  (emit "mov $1, %rax") ; file handle 1 (stdout)
  (emit "mov $1, %rdi") ; syscall 1 (write)
  (emit "syscall"))

(define (range s n)
  (if (= 0 n) '()
      (append (range s (- n 1))
              (list (+ s (- n 1))))))

(define wordsize 8)

(define (codegen-let bindings body si env)
  (let* ((stack-offsets (map (lambda (x) (- si (* x wordsize)))
                             (range 0 (length bindings))))
         (inner-si (- si (* (length bindings) wordsize)))
         (names (map car bindings))
         (exprs (map cadr bindings))

         ; recursive let bindings: build environment as we go
         (inner-env (fold-left
                     (lambda (env name expr offset)
                       (codegen-expr expr inner-si env)
                       (emit "movq %rax, ~a(%rbp)" offset)
                       (cons (cons name offset) env))
                     env names exprs stack-offsets)))
    (for-each (lambda (form)
                (codegen-expr form inner-si inner-env))
              body)))

(define (codegen-var name si env)
  (when (not (assoc name env))
    (error #f (format "Variable ~a is not bound" name)))
  (let ((offset (cdr (assoc name env))))
    (emit "movq ~a(%rbp), %rax" offset)))

(define cur-lambda 0)
(define (fresh-lambda)
  (set! cur-lambda (+ 1 cur-lambda))
  (format "_lambda~a" (- cur-lambda 1)))

                                        ; for now we can only call closures
(define (codegen-call closure args si env)
  (when (not (eq? (ast-type closure) 'closure))
    (error #f (format "~a is not a closure" closure)))
  (let* ((captured (caddr closure))
         (label (cadr closure))
         (argument-start (length captured)))

                                        ; first move the captured variables into param registers
    (for-each
     (lambda (e i)
       (emit "movq ~a(%rbp), ~a"
             (cdr (assoc e env)) ; offset of the var
             (param-register i)))
     captured (range 0 (length captured)))

                                        ; then codegen the arguments and move them into the next param registers
    (for-each
     (lambda (e i)
       (begin
         (codegen-expr e si env)
                                        ; move result to correct param register
         (emit "movq %rax, ~a" (param-register i))))
     args (range argument-start (length args)))

    (emit "addq $~a, %rsp" si) ; adjust the stack pointer to account all the stuff we put in the env
    (emit "callq ~a" label)
    (emit "subq $~a, %rsp" si)))

(define (codegen-lambda l)
  (let* ((label (car l))
         (args (cadr l))
         (captured (caddr l))
         (body (cadddr l))
; params = what actually gets passed
         (params (append captured args))

         (param-registers (map param-register
                               (range 0 (length params))))
         (stack-offsets (map (lambda (i)
                               (* (- wordsize) i))
                             (range 1 (length params))))

         (copy-insts (map (lambda (r o)
                            (format "movq ~a, ~a(%rbp)" r o))
                          param-registers stack-offsets))

         (env (map cons params stack-offsets)))
    (emit "~a:" label)
    (display "## lambda body: ")
    (display body)
    (newline)
    (display "## environment: ")
    (display env)
    (newline)

    (emit "push %rbp") ; preserve caller's base pointer
    (emit "movq %rsp, %rbp") ; set up our own base pointer
    
    (for-each emit copy-insts)
    (codegen-expr body (* (- wordsize) (+ 1 (length params))) env)

    (emit "pop %rbp") ; restore caller's base pointer
    (emit "ret")))

(define cur-label 0)
(define (fresh-label)
  (set! cur-label (+ 1 cur-label))
  (format "label~a" (- cur-label 1)))

(define (codegen-if cond then else si env)
  (codegen-expr cond si env)
  (emit "cmpq $0, %rax")
  (let ((exit-label (fresh-label))
        (else-label (fresh-label)))
    (emit "je ~a" else-label)
    (codegen-expr then si env)
    (emit "jmp ~a" exit-label)
    (emit "~a:" else-label)
    (codegen-expr else si env)
    (emit "~a:" exit-label)))

(define (codegen-expr e si env)
  (case (ast-type e)
    ('builtin e)
    ('closure e)
    ('app
     (let ((callee (codegen-expr (car e) si env)))
       (case callee
         ('+ (codegen-add (cdr e) si env))
         ('- (codegen-sub (cadr e) (caddr e) si env))
         ('* (codegen-mul (cadr e) (caddr e) si env))
         ('! (codegen-not (cadr e) si env))
         ('= (codegen-eq  (cadr e) (caddr e) si env))
         ('bool->int (codegen-expr (cadr e) si env))
         ('print (codegen-print (cadr e) si env))
         (else (codegen-call callee (cdr e) si env)))))

    ('let (codegen-let (let-bindings e)
                       (let-body e)
                       si
                       env))

    ('var (codegen-var e si env))

    ('if (codegen-if (cadr e) (caddr e) (cadddr e) si env))
    
    ('bool-literal (emit "movq $~a, %rax" (if e 1 0)))
    ('int-literal (emit "movq $~a, %rax" e))
    
    ('static-string (emit "lea ~a, %rax" (cadr e))) ; move label

    (else (error #f "don't know how to codegen this"))))


(define (fold-map f x) (fold-left append '() (map f x)))

(define (free-vars prog)
  (define bound '())
  (define (collect e)
    (case (ast-type e)
      ('builtin '()) ; do nothing
      ('var (if (memq e bound) '() (list e)))
      ('lambda
          (set! bound (append (lambda-args e) bound))
        (collect (lambda-body e)))

      ('app (fold-map collect e))
      ('let
          (let ((bind-fvs (fold-map (lambda (a)
                                      ((set! bound (cons (car a) bound))
                                       (collect (cdr a))))
                                    (let-bindings cadr)))
                (body-fvs (fold-map collect (let-body e))))
            (append bind-fvs body-fvs)))
      (else '())))
  (collect prog))

                                        ; ((lambda (x) (+ x 1)) 42) => {lambda0: (x) (+ x 1)}, (@lambda0 42)
(define (extract-lambdas program)
  (define lambdas '())
  (define (add-lambda e)
    (let* ((label (fresh-lambda))
           (args (lambda-args e))
           (captured (free-vars e))
           (body (extract (lambda-body e)))
           (new-lambda (list label args captured body)))
      (set! lambdas (cons new-lambda lambdas))
      `(closure ,label ,captured))) ; todo: should we string->symbol?
  (define (extract e)
    (case (ast-type e)
      ('lambda (add-lambda e))
      ('let `(let ,(map extract (let-bindings e))
               ,@(map extract (let-body e))))
      ('app (append (list (extract (car e)))
                    (map extract (cdr e))))
      (else (ast-traverse extract e))))
  (let ((transformed (extract program)))
    (cons lambdas transformed)))

(define (extract-strings program)
  (let ((cur-string 0)
        (strings '())) ; assoc list of labels -> string
    (define (fresh-string)
      (set! cur-string (+ cur-string 1))
      (format "string~a" (- cur-string 1)))
    (define (extract e)
      (case (ast-type e)
        ('string-literal
         (let ((label (fresh-string)))
           (set! strings (cons (cons label e) strings))
           `(static-string ,label)))
        (else (ast-traverse extract e))))
    (let ((transformed (extract program)))
      (cons strings transformed))))

(define (emit-string-data s)
  (emit "~a:" (car s))
  (emit "\t.string \"~a\"" (cdr s)))

;; (define (amd64-abi f)
;;                                      ; preserve registers
;;   (emit "push %rbp")
;;   ;; (emit "push %rbx")
;;   ;; (for-each (lambda (i)
;;   ;;               (emit (string-append
;;   ;;                      "push %r"
;;   ;;                      (number->string i))))
;;   ;;             '(12 13 14 15))

;;   (emit "movq %rsp, %rbp")              ; set up the base pointer

;;   (f) ; call stuff
;;                                      ; restore preserved registers
;;   ;; (for-each (lambda (i)
;;   ;;               (emit (string-append
;;   ;;                      "pop %r"
;;   ;;                      (number->string i))))
;;   ;;             '(15 14 13 12))
;;   ;; (emit "pop %rbx")
;;   (emit "pop %rbp")
;;   (emit "ret"))

                                        ; 24(%rbp) mem arg 1
                                        ; 16(%rbp) mem arg 0          prev frame
                                        ; -----------------------
                                        ;  8(%rbp) return address     cur frame
                                        ;  0(%rbp) prev %rbp
                                        ; -8(%rbp) do what you want
                                        ;  ...     do what you want
                                        ;  0(%rsp) do what you want

(define (param-register n)
  (case n
    (0 "%rdi")
    (1 "%rsi")
    (2 "%rdx")
    (3 "%rcx")
    (4 "%r8")
    (5 "%r9")
    (else (error #f "need to test out the below"))
    (else (format "~a(%rsp)" (- n 6)))))

(define (codegen program)
  (let* ((extract-res-0 (extract-strings program))
         (strings (car extract-res-0))
         (extract-res-1 (extract-lambdas (cdr extract-res-0)))
         (lambdas (car extract-res-1))
         (xform-prog (cdr extract-res-1)))

    (emit "\t.global _start")
    (emit "\t.text")
;    (emit ".p2align 4,,15") is this needed?

    (for-each codegen-lambda lambdas)

    (emit "_start:")

    ; allocate some heap memory
    (emit "mov $9, %rax") ; mmap
    (emit "xor %rdi, %rdi")  ; addr = null
    (emit "movq $1024, %rsi")   ; length = 1kb
    (emit "movq $0x3, %rdx") ; prot = read | write = 0x2 | 0x1
    (emit "movq $0x22, %r10") ; flags = anonymous | private = 0x20 | 0x02
    (emit "movq $-1, %r8") ; fd = -1
    (emit "xor %r9, %r9") ; offset = 0
    (emit "syscall")

    ; %rax now contains pointer to the start of the heap
    ; keep track of it
    (emit "movq %rax, (heap_start)")
    
    (emit "movq %rsp, %rbp")            ; set up the base pointer
    (codegen-expr xform-prog 0 '())

                                        ; exit syscall
    (emit "mov %rax, %rdi")
    (emit "mov $60, %rax")
    (emit "syscall")

    (emit ".data")

    (emit "heap_start:")
    (emit "\t.quad 0")

    (for-each emit-string-data strings)))

(define (compile-to-binary program output)
  (when (not (eq? (typecheck program) 'int)) (error #f "not an int"))
  (let ([tmp-path "/tmp/a.s"])
    (when (file-exists? tmp-path) (delete-file tmp-path))
    (with-output-to-file tmp-path
      (lambda () (codegen program)))
    (system (format "clang -nostdlib /tmp/a.s -o ~a" output))))

; NOTES
; syscalls in linux use the following arguments for syscall instruction:
; %rax = syscall #
; %rdi = 1st arg
; %rsi = 2nd arg
; %rdx = 3rd arg
; %r10 = 4th arg
; %r8  = 5th arg
; %r9  = 6th arg