compiler/bootstrapped-primitives.rkt
#lang typed/racket/base
(require "arity-structs.rkt"
         "expression-structs.rkt"
         "lexical-structs.rkt"
         "il-structs.rkt"
         (except-in "compiler.rkt" compile)
         "compiler-structs.rkt")

(require (rename-in "compiler.rkt"
                     [compile whalesong-compile]))



(require/typed "../parameters.rkt"
               (current-defined-name (Parameterof (U Symbol LamPositionalName))))
(require/typed "../parser/parse-bytecode.rkt"
               (parse-bytecode (Any -> Expression)))



(provide get-bootstrapping-code)







;; The primitive code necessary to do call/cc

(: call/cc-label Symbol)
(define call/cc-label 'callCCEntry)
(define call/cc-closure-entry 'callCCClosureEntry)


;; (call/cc f)
;; Tail-calls f, providing it a special object that knows how to do the low-level
;; manipulation of the environment and control stack.
(define (make-call/cc-code)
  (statements
   (append-instruction-sequences
    call/cc-label
    ;; Precondition: the environment holds the f function that we want to jump into.
    
    ;; First, move f to the proc register
    (make-AssignImmediate 'proc (make-EnvLexicalReference 0 #f))
    
    ;; Next, capture the envrionment and the current continuation closure,.
    (make-PushEnvironment 2 #f)
    (make-AssignPrimOp (make-EnvLexicalReference 0 #f) 
                                (make-CaptureControl 0 default-continuation-prompt-tag))
    (make-AssignPrimOp (make-EnvLexicalReference 1 #f)
                                ;; When capturing, skip over f and the two slots we just added.
                                (make-CaptureEnvironment 3 default-continuation-prompt-tag))
    (make-AssignPrimOp (make-EnvLexicalReference 2 #f)
                                 (make-MakeCompiledProcedure call/cc-closure-entry
                                                             1 ;; the continuation consumes a single value
                                                             (list 0 1)
                                                             'call/cc))
    (make-PopEnvironment (make-Const 2) 
                          (make-Const 0))
       
    ;; Finally, do a tail call into f.
    (make-AssignImmediate 'argcount (make-Const 1))
    (compile-general-procedure-call '()
                                    (make-Const 1) ;; the stack at this point holds a single argument
                                    'val
                                    return-linkage)
    
    ;; The code for the continuation code follows.  It's supposed to
    ;; abandon the current continuation, initialize the control and environment, and then jump.
    call/cc-closure-entry
    (make-AssignImmediate 'val (make-EnvLexicalReference 0 #f))
    (make-Perform (make-InstallClosureValues! 2))
    (make-Perform (make-RestoreControl! default-continuation-prompt-tag))
    (make-Perform (make-RestoreEnvironment!))
    (make-AssignImmediate 'proc (make-ControlStackLabel))
    (make-PopControlFrame)
    (make-Goto (make-Reg 'proc)))))



(: make-bootstrapped-primitive-code (Symbol Any -> (Listof Statement)))
;; Generates the bootstrapped code for some of the primitives.  Note: the source must compile
;; under #%kernel, or else!
(define make-bootstrapped-primitive-code
  (let ([ns (make-base-empty-namespace)])
    (parameterize ([current-namespace ns]) (namespace-require ''#%kernel))
    (lambda (name src)
      (parameterize ([current-defined-name name])
        (append
         (whalesong-compile (parameterize ([current-namespace ns])
                              (parse-bytecode (compile src)))
                            (make-PrimitivesReference name) next-linkage/drop-multiple))))))




(: make-map-src (Symbol Symbol -> Any))
;; Generates the code for map.
(define (make-map-src name combiner)
  `(letrec-values ([(first-tuple) (lambda (lists)
                                   (if (null? lists)
                                       '()
                                       (cons (car (car lists))
                                             (first-tuple (cdr lists)))))]
                  [(rest-lists) (lambda (lists)
                                  (if (null? lists)
                                      '()
                                      (cons (cdr (car lists))
                                            (rest-lists (cdr lists)))))]
                  [(all-empty?) (lambda (lists)
                                  (if (null? lists)
                                      #t
                                      (if (null? (car lists))
                                          (all-empty? (cdr lists))
                                          #f)))]
                  [(some-empty?) (lambda (lists)
                                   (if (null? lists)
                                       #f
                                       (if (null? (car lists))
                                           #t
                                           
                                           (some-empty? (cdr lists)))))]
                  [(do-it) (lambda (f lists)
                             (letrec-values ([(loop) (lambda (lists)
                                                       (if (all-empty? lists)
                                                           null
                                                           (if (some-empty? lists)
                                                               (error 
                                                                ',name 
                                                                "all lists must have the same size")
                                                               (,combiner (apply f (first-tuple lists))
                                                                          (loop (rest-lists lists))))))])
                                            (loop lists)))])
                 (lambda (f . args)
                   (do-it f args))))






(: get-bootstrapping-code (-> (Listof Statement)))
(define (get-bootstrapping-code)
  
  (append

   
   ;; Other primitives
   (make-bootstrapped-primitive-code 
    'map 
    (make-map-src 'map 'cons))

   (make-bootstrapped-primitive-code
    'for-each
    (make-map-src 'for-each 'begin))

   (make-bootstrapped-primitive-code
    'andmap
    (make-map-src 'andmap 'and))

   (make-bootstrapped-primitive-code
    'ormap
    (make-map-src 'ormap 'or))

   
   
   (make-bootstrapped-primitive-code
    'caar
    '(lambda (x)
       (car (car x))))


   (make-bootstrapped-primitive-code
    'memq
    '(letrec-values ([(memq) (lambda (x l)
                               (if (null? l)
                                   #f
                                   (if (eq? x (car l))
                                       l
                                       (memq x (cdr l)))))])
                    memq))
   (make-bootstrapped-primitive-code
    'memv
    '(letrec-values ([(memv) (lambda (x l)
                               (if (null? l)
                                   #f
                                   (if (eqv? x (car l))
                                       l
                                       (memv x (cdr l)))))])
                    memv))
   
   (make-bootstrapped-primitive-code
    'memf
    '(letrec-values ([(memf) (lambda (x f l)
                               (if (null? l)
                                   #f
                                   (if (f x)
                                       l
                                       (memf x f (cdr l)))))])
                    memf))
   
   (make-bootstrapped-primitive-code
    'assq
    '(letrec-values ([(assq) (lambda (x l)
                               (if (null? l)
                                   #f
                                   (if (eq? x (caar l))
                                       (car l)
                                       (assq x (cdr l)))))])
                    assq))
   (make-bootstrapped-primitive-code
    'assv
    '(letrec-values ([(assv) (lambda (x l)
                               (if (null? l)
                                   #f
                                   (if (eqv? x (caar l))
                                       (car l)
                                       (assv x (cdr l)))))])
                    assv))
   (make-bootstrapped-primitive-code
    'assoc
    '(letrec-values ([(assoc) (lambda (x l)
                               (if (null? l)
                                   #f
                                   (if (equal? x (caar l))
                                       (car l)
                                       (assoc x (cdr l)))))])
                    assoc))   
   (make-bootstrapped-primitive-code
    'length
    '(letrec-values ([(length-iter) (lambda (l i)
                                      (if (null? l)
                                          i
                                          (length-iter (cdr l) (add1 i))))])
                    (lambda (l) (length-iter l 0))))
   

   (make-bootstrapped-primitive-code
    'append
    '(letrec-values ([(append-many) (lambda (lsts)
                                      (if (null? lsts)
                                          null
                                          (if (null? (cdr lsts))
                                              (car lsts)
                                              (append-2 (car lsts)
                                                        (append-many (cdr lsts))))))]
                     [(append-2) (lambda (l1 l2)
                                   (if (null? l1) 
                                       l2
                                       (cons (car l1) (append-2 (cdr l1) l2))))])
                    (lambda args (append-many args))))


   (make-bootstrapped-primitive-code
    'call-with-values
    '(lambda (producer consumer)
       (call-with-values (lambda () (producer)) consumer)))
      
   
   
   ;; The call/cc code is special:
   (let ([after-call/cc-code (make-label 'afterCallCCImplementation)])
     (append 

      `(,(make-AssignPrimOp (make-PrimitivesReference 'call/cc) 
                                     (make-MakeCompiledProcedure call/cc-label 1 '() 'call/cc))
        ,(make-AssignPrimOp (make-PrimitivesReference 'call-with-current-continuation) 
                                     (make-MakeCompiledProcedure call/cc-label 1 '() 'call/cc))
        ,(make-Goto (make-Label after-call/cc-code)))
      (make-call/cc-code)
      `(,after-call/cc-code)))
   
  
   
   ;; values
   ;; values simply keeps all (but the first) value on the stack, preserves the argcount, and does a return
   ;; to the multiple-value-return address.
   (let ([after-values-body-defn (make-label 'afterValues)]
         [values-entry (make-label 'valuesEntry)]
         [on-zero-values (make-label 'onZeroValues)]
         [on-single-value (make-label 'onSingleValue)])
     `(,(make-Goto (make-Label after-values-body-defn))
       ,values-entry
       ,(make-TestAndJump (make-TestOne (make-Reg 'argcount)) on-single-value)
       ,(make-TestAndJump (make-TestZero (make-Reg 'argcount)) on-zero-values)

       ;; Common case: we're running multiple values.  Put the first in the val register
       ;; and go to the multiple value return.
       ,(make-AssignImmediate 'val (make-EnvLexicalReference 0 #f))
       ,(make-PopEnvironment (make-Const 1) (make-Const 0))
       ,(make-AssignImmediate 'proc (make-ControlStackLabel/MultipleValueReturn))
       ,(make-PopControlFrame)
       ,(make-Goto (make-Reg 'proc))

       ;; Special case: on a single value, just use the regular return address
       ,on-single-value
       ,(make-AssignImmediate 'val (make-EnvLexicalReference 0 #f))
       ,(make-PopEnvironment (make-Const 1) (make-Const 0))
       ,(make-AssignImmediate 'proc (make-ControlStackLabel))
       ,(make-PopControlFrame)
       ,(make-Goto (make-Reg 'proc))

       ;; On zero values, leave things be and just return.
       ,on-zero-values
       ,(make-AssignImmediate 'proc (make-ControlStackLabel/MultipleValueReturn))
       ,(make-PopControlFrame)
       ,(make-Goto (make-Reg 'proc))
       
       ,after-values-body-defn
       ,(make-AssignPrimOp (make-PrimitivesReference 'values)
                                    (make-MakeCompiledProcedure values-entry
                                                                (make-ArityAtLeast 0) 
                                                                '() 
                                                                'values))))
   
   
   
   
   ;; As is apply:
   (let ([after-apply-code (make-label 'afterApplyCode)]
         [apply-entry (make-label 'applyEntry)])
     `(,(make-Goto (make-Label after-apply-code))
       ,apply-entry
       
       ;; Push the procedure into proc.
       ,(make-AssignImmediate 'proc (make-EnvLexicalReference 0 #f))
       ,(make-PopEnvironment (make-Const 1) (make-Const 0))
       ;; Correct the number of arguments to be passed.
       ,(make-AssignImmediate 'argcount (make-SubtractArg (make-Reg 'argcount)
                                                                   (make-Const 1)))
       ;; Splice in the list argument.
       ,(make-Perform (make-SpliceListIntoStack! (make-SubtractArg (make-Reg 'argcount)
                                                                            (make-Const 1))))
       
       ;; Finally, jump into the procedure body
       ,@(statements (compile-general-procedure-call '()
                                                     (make-Reg 'argcount) ;; the stack contains only the argcount elements.
                                                     'val
                                                     return-linkage))
       
       
       ,after-apply-code
       ,(make-AssignPrimOp (make-PrimitivesReference 'apply)
                                    (make-MakeCompiledProcedure apply-entry (make-ArityAtLeast 2) '() 'apply))))))