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|
;; what happens when our virtual machine starts up
(= initialization-fns* (queue))
(def reset ()
(each f (as cons initialization-fns*)
(f)))
(mac on-init body
`(enq (fn () ,@body)
initialization-fns*))
(mac init-fn (name . body)
`(enq (fn () (= (function* ',name) (convert-braces ',body)))
initialization-fns*))
; things that a future assembler will need separate memory for:
; code; types; args channel
(def clear ()
(= types* (table))
(= memory* (table))
(= function* (table)))
(enq clear initialization-fns*)
(on-init
(= types* (obj
; Each type must be scalar or array, sum or product or primitive
type (obj size 1) ; implicitly scalar and primitive
type-address (obj size 1 address t elem 'type)
type-array (obj array t elem 'type)
type-array-address (obj size 1 address t elem 'type-array)
location (obj size 1 address t elem 'location) ; assume it points to an atom
integer (obj size 1)
boolean (obj size 1)
boolean-address (obj size 1 address t)
byte (obj size 1)
;? string (obj array t elem 'byte) ; inspired by Go
character (obj size 1) ; int32 like a Go rune
character-address (obj size 1 address t elem 'character)
string (obj size 1) ; temporary hack
; isolating function calls
scope (obj array t elem 'location) ; by convention index 0 points to outer scope
scope-address (obj size 1 address t elem 'scope)
; arrays consist of an integer length followed by the right number of elems
integer-array (obj array t elem 'integer)
integer-address (obj size 1 address t elem 'integer) ; pointer to int
; records consist of a series of elems, corresponding to a list of types
integer-boolean-pair (obj size 2 record t elems '(integer boolean))
integer-boolean-pair-address (obj size 1 address t elem 'integer-boolean-pair)
integer-boolean-pair-array (obj array t elem 'integer-boolean-pair)
integer-integer-pair (obj size 2 record t elems '(integer integer))
integer-point-pair (obj size 2 record t elems '(integer integer-integer-pair))
; tagged-values are the foundation of dynamic types
tagged-value (obj size 2 record t elems '(type location))
tagged-value-address (obj size 1 address t elem 'tagged-value)
; heterogeneous lists
list (obj size 2 record t elems '(tagged-value list-address))
list-address (obj size 1 address t elem 'list)
list-address-address (obj size 1 address t elem 'list-address)
; editor
line (obj array t elem 'character)
line-address (obj size 1 address t elem 'line)
line-address-address (obj size 1 address t elem 'line-address)
screen (obj array t elem 'line-address)
screen-address (obj size 1 address t elem 'screen)
)))
;; persisting and checking traces for each test
(= traces* (queue))
(= trace-dir* ".traces/")
(ensure-dir trace-dir*)
(= curr-trace-file* nil)
(on-init
(awhen curr-trace-file*
;? (prn "reset: " it)
(tofile (+ trace-dir* it)
(each (label trace) (as cons traces*)
(pr label ": " trace))))
(= curr-trace-file* nil)
(= traces* (queue)))
(def new-trace (filename)
;? (prn "new-trace " filename)
(= curr-trace-file* filename))
(= dump-trace* nil)
(def trace (label . args)
;? (prn "trace: " dump-trace*)
(if dump-trace* (apply prn label ": " args))
(enq (list label (apply tostring:prn args))
traces*))
(def check-trace-contents (msg expected-contents)
(unless (trace-contents-match expected-contents)
(prn "F - " msg)
(prn " trace contents")
(print-trace-contents-mismatch expected-contents)))
(def trace-contents-match (expected-contents)
(each (label msg) (as cons traces*)
(when (and expected-contents
(is label expected-contents.0.0)
(posmatch expected-contents.0.1 msg))
(pop expected-contents)))
(no expected-contents))
(def print-trace-contents-mismatch (expected-contents)
(each (label msg) (as cons traces*)
(whenlet (expected-label expected-msg) expected-contents.0
(if (and (is label expected-label)
(posmatch expected-msg msg))
(do (pr " * ")
(pop expected-contents))
(pr " "))
(pr label ": " msg)))
(prn " couldn't find")
(each (expected-label expected-msg) expected-contents
(prn " ! " expected-label ": " expected-msg)))
(def add-fns (fns)
(each (name . body) fns
(= function*.name (convert-braces body))))
;; running mu
(mac v (operand) ; for value
`(,operand 0))
(def metadata (operand)
cdr.operand)
(def ty (operand)
operand.1) ; assume type is always first bit of metadata, and it's always present
(def typeinfo (operand)
(types* ty.operand))
(def sz (operand)
(trace "sz" operand)
(if (is 'literal ty.operand)
'literal
(pos 'deref metadata.operand)
(do (assert typeinfo.operand!address)
(sz (list (m `(,(v operand) location))
typeinfo.operand!elem)))
(let-or it typeinfo.operand (err "no such type: @operand")
(if it!array
array-len.operand
it!size))))
(defextend sz (typename) (isa typename 'sym)
(or types*.typename!size
(err "type @typename doesn't have a size: " (tostring:pr types*.typename))))
(def addr (loc)
(ret result v.loc
(whenlet base rep.routine*!default-scope
(if (< result memory*.base)
(++ result base)
(die "addr: no room for var @result")))
(when (pos 'deref metadata.loc)
(zap memory* result))))
(def addrs (n sz)
(accum yield
(repeat sz
(yield n)
(++ n))))
(def m (loc) ; read memory, respecting metadata
(point return
(if (in ty.loc 'literal 'offset)
(return v.loc))
(assert (isa v.loc 'int))
(trace "m" loc " " sz.loc)
(if (is 1 sz.loc)
(memory* addr.loc)
:else
(annotate 'record
(map memory* (addrs addr.loc sz.loc))))))
(def setm (loc val) ; set memory, respecting metadata
(point return
(when (is v.loc 'default-scope)
(assert (is 1 sz.loc))
(= rep.routine*!default-scope val)
(return))
(assert (isa v.loc 'int))
(trace "setm" loc " <= " val)
(let n sz.loc
(trace "setm" "size of " loc " is " n)
(assert n)
(if (is 1 n)
(do (assert (~isa val 'record))
(= (memory* addr.loc) val))
(do (assert (isa val 'record))
(each (dest src) (zip (addrs addr.loc n)
(rep val))
(= (memory* dest) src)))))))
(def array-len (operand)
;? (prn operand)
;? (prn (memory* 1000))
(if typeinfo.operand!array
(m `(,v.operand integer))
(and typeinfo.operand!address (pos 'deref metadata.operand))
(array-len (m operand) typeinfo.operand!elem)
:else
(err "can't take len of non-array @operand")))
(def array-ref-addr (operand idx)
(assert typeinfo.operand!array)
(unless (< -1 idx (array-len operand))
(die "aref-addr: out of bounds index @idx for @operand of size @array-len.operand"))
(withs (elem typeinfo.operand!elem
offset (+ 1 (* idx sz.elem)))
(+ v.operand offset)))
(def array-ref (operand idx)
(assert typeinfo.operand!array)
(unless (< -1 idx (array-len operand))
(die "aref: out of bounds index @idx for @operand of size @array-len.operand"))
(withs (elem typeinfo.operand!elem
offset (+ 1 (* idx sz.elem)))
(m `(,(+ v.operand offset) ,elem))))
; data structure: routine
; runtime state for a serial thread of execution
(def make-routine (fn-name)
(annotate 'routine (obj call-stack (list
(obj fn-name fn-name pc 0 caller-arg-idx 0)))))
(defextend empty (x) (isa x 'routine)
(no rep.x!call-stack))
(def stack (routine)
((rep routine) 'call-stack))
(mac push-stack (routine op)
`(push (obj fn-name ,op pc 0 caller-arg-idx 0)
((rep ,routine) 'call-stack)))
(mac pop-stack (routine)
`(pop ((rep ,routine) 'call-stack)))
(def top (routine)
stack.routine.0)
(def body (routine (o idx 0))
(function* stack.routine.idx!fn-name))
(mac pc (routine (o idx 0)) ; assignable
`((((rep ,routine) 'call-stack) ,idx) 'pc))
(mac caller-arg-idx (routine (o idx 0)) ; assignable
`((((rep ,routine) 'call-stack) ,idx) 'caller-arg-idx))
(= scheduling-interval* 500)
(def parse-instr (instr)
(iflet delim (pos '<- instr)
(list (cut instr 0 delim) ; oargs
(instr (+ delim 1)) ; op
(cut instr (+ delim 2))) ; args
(list nil instr.0 cdr.instr)))
(def caller-args (routine) ; not assignable
(let (_ _ args) (parse-instr ((body routine 1) (pc routine 1)))
args))
(def caller-oargs (routine) ; not assignable
(let (oargs _ _) (parse-instr ((body routine 1) (pc routine 1)))
oargs))
(on-init
(= running-routines* (queue))
(= completed-routines* (queue))
(= routine* nil)
(= abort-routine* (parameter nil)))
; like arc's 'point' but you can also call ((abort-routine*)) in nested calls
(mac routine-mark body
(w/uniq (g p)
`(ccc (fn (,g)
(parameterize abort-routine* (fn ((o ,p)) (,g ,p))
,@body)))))
(def run fn-names
(ret result 0
(each it fn-names
(enq make-routine.it running-routines*))
; simple round-robin scheduler
(while (~empty running-routines*)
(= routine* deq.running-routines*)
(trace "schedule" top.routine*!fn-name)
(whenlet insts-run (routine-mark:run-for-time-slice scheduling-interval*)
(= result (+ result insts-run)))
(if (~empty routine*)
(enq routine* running-routines*)
(enq-limit routine* completed-routines*)))))
(def die (msg)
(= rep.routine*!error msg)
(= rep.routine*!stack-trace rep.routine*!call-stack)
(wipe rep.routine*!call-stack)
((abort-routine*)))
($:require "charterm/main.rkt")
(def run-for-time-slice (time-slice)
;? (prn "AAA")
(point return
;? (prn "BBB")
(for ninstrs 0 (< ninstrs time-slice) (++ ninstrs)
;? (prn "CCC " pc.routine* " " routine* " " (len body.routine*))
(if (empty body.routine*) (err "@stack.routine*.0!fn-name not defined"))
(while (>= pc.routine* (len body.routine*))
(pop-stack routine*)
(if empty.routine* (return ninstrs))
(++ pc.routine*))
(trace "run" "-- " (sort (compare < string:car) (as cons memory*)))
(trace "run" top.routine*!fn-name " " pc.routine* ": " (body.routine* pc.routine*))
;? (prn "--- " top.routine*!fn-name " " pc.routine* ": " (body.routine* pc.routine*))
(let (oarg op arg) (parse-instr (body.routine* pc.routine*))
;? (prn op " " arg " -> " oarg)
(let tmp
(case op
; arithmetic
add
(do (trace "add" (m arg.0) " " (m arg.1))
(+ (m arg.0) (m arg.1))
)
sub
(- (m arg.0) (m arg.1))
mul
(* (m arg.0) (m arg.1))
div
(/ (real (m arg.0)) (m arg.1))
idiv
(list (trunc:/ (m arg.0) (m arg.1))
(mod (m arg.0) (m arg.1)))
; boolean
and
(and (m arg.0) (m arg.1))
or
(or (m arg.0) (m arg.1))
not
(not (m arg.0))
; comparison
eq
(is (m arg.0) (m arg.1))
neq
(do (trace "neq" (m arg.0) " " (m arg.1))
(~is (m arg.0) (m arg.1))
)
lt
(< (m arg.0) (m arg.1))
gt
(> (m arg.0) (m arg.1))
le
(<= (m arg.0) (m arg.1))
ge
(>= (m arg.0) (m arg.1))
; control flow
jump
(do (= pc.routine* (+ 1 pc.routine* (v arg.0)))
;? (trace "jump" "jumping to " pc.routine*)
(continue))
jump-if
(when (is t (m arg.0))
(= pc.routine* (+ 1 pc.routine* (v arg.1)))
;? (trace "jump-if" "jumping to " pc.routine*)
(continue))
jump-unless ; convenient helper
(unless (is t (m arg.0))
(= pc.routine* (+ 1 pc.routine* (v arg.1)))
;? (trace "jump-unless" "jumping to " pc.routine*)
(continue))
; data management: scalars, arrays, records
copy
(m arg.0)
get
(with (base arg.0 ; integer (non-symbol) memory location including metadata
idx (v arg.1)) ; literal integer
;? (prn base ": " (memory* v.base))
(assert (in (ty arg.1) 'literal 'offset))
(when typeinfo.base!address
(assert (pos 'deref metadata.base))
(= base (list (memory* v.base) typeinfo.base!elem)))
;? (prn "after: " base)
(if typeinfo.base!record
(do (assert (< -1 idx (len typeinfo.base!elems)))
(m `(,(+ v.base
(apply + (map sz
(firstn idx typeinfo.base!elems))))
,typeinfo.base!elems.idx)))
(assert nil "get on invalid type @base")))
get-address
(with (base arg.0
idx (v arg.1))
(trace "get-address" base "." idx)
(when typeinfo.base!address
(assert (pos 'deref metadata.base))
(= base (list (memory* v.base) typeinfo.base!elem)))
(trace "get-address" "after: " base)
(if typeinfo.base!record
(do (assert (< -1 idx (len typeinfo.base!elems)))
(+ v.base
(apply + (map sz
(firstn idx typeinfo.base!elems)))))
(assert nil "get-address on invalid type @base")))
index
(with (base arg.0 ; integer (non-symbol) memory location including metadata
idx (m arg.1))
;? (prn "processing index: @base @idx")
(when typeinfo.base!address
(assert (pos 'deref metadata.base))
(= base (list (memory* v.base) typeinfo.base!elem)))
;? (prn "after maybe deref: @base @idx")
;? (prn Memory-in-use-until ": " memory*)
(if typeinfo.base!array
(array-ref base idx)
(assert nil "get on invalid type @arg.0 => @base")))
index-address
(with (base arg.0
idx (m arg.1))
(when typeinfo.base!address
(assert (pos 'deref metadata.base))
(= base (list (memory* v.base) typeinfo.base!elem)))
(if typeinfo.base!array
(array-ref-addr base idx)
(assert nil "get-address on invalid type @arg.0 => @base")))
new
(let type (v arg.0)
(if (no types*.type) (err "no such type @type"))
(if types*.type!array
(new-array type (m arg.1))
(new-scalar type)))
sizeof
(sizeof (m arg.0))
len
(let base arg.0
(if typeinfo.base!array
array-len.base
-1))
; tagged-values require one primitive
save-type
(annotate 'record `(,(ty arg.0) ,(m arg.0)))
; multiprocessing
run
(run (v arg.0))
fork
(enq (make-routine (v arg.0)) running-routines*)
; todo: errors should stall a process and let its parent
; inspect it
assert
(assert (m arg.0))
; text interaction
cls
(do1 nil ($.charterm-clear-screen))
cll
(do1 nil ($.charterm-clear-line))
cursor
(do1 nil ($.charterm-cursor (m arg.0) (m arg.1)))
print-primitive
(do1 nil ((if ($.current-charterm) $.charterm-display pr) (m arg.0)))
getc
(and ($.charterm-byte-ready?) ($.charterm-read-key))
bold-mode
(do1 nil ($.charterm-bold))
non-bold-mode
(do1 nil ($.charterm-normal))
console-on
(do1 nil (if (no ($.current-charterm)) ($.open-charterm)))
console-off
(do1 nil (if ($.current-charterm) ($.close-charterm)))
; user-defined functions
arg
(let idx (if arg
arg.0
(do1 caller-arg-idx.routine*
(++ caller-arg-idx.routine*)))
(trace "arg" arg " " idx " " caller-args.routine*)
(if (len> caller-args.routine* idx)
(list (m caller-args.routine*.idx) t)
(list nil nil)))
reply
(do (pop-stack routine*)
(if empty.routine* (return ninstrs))
(let (caller-oargs _ _) (parse-instr (body.routine* pc.routine*))
(trace "reply" arg " " caller-oargs)
(each (dest src) (zip caller-oargs arg)
(trace "reply" src " => " dest)
(setm dest (m src))))
(++ pc.routine*)
(while (>= pc.routine* (len body.routine*))
(pop-stack routine*)
(when empty.routine* (return ninstrs))
(++ pc.routine*))
(continue))
; else try to call as a user-defined function
(do (if function*.op
(push-stack routine* op)
(err "no such op @op"))
(continue))
)
; opcode generated some value, stored in 'tmp'
; copy to output args
;? (prn "store: " tmp " " oarg)
(if (acons tmp)
(for i 0 (< i (min len.tmp len.oarg)) ++.i
(setm oarg.i tmp.i))
(when oarg ; must be a list
(trace "run" "writing to oarg " tmp " => " oarg.0)
(setm oarg.0 tmp)))
)
(++ pc.routine*)))
(return time-slice)))
(enq (fn () (= Memory-in-use-until 1000))
initialization-fns*)
(def new-scalar (type)
(ret result Memory-in-use-until
(++ Memory-in-use-until sizeof.type)))
(def new-array (type size)
;? (prn "new array: @type @size")
(ret result Memory-in-use-until
(++ Memory-in-use-until (+ 1 (* (sizeof types*.type!elem) size)))
(= (memory* result) size)))
(def sizeof (type)
(trace "sizeof" type)
(if (~or types*.type!record types*.type!array)
types*.type!size
types*.type!record
(sum idfn
(accum yield
(each elem types*.type!elems
(yield sizeof.elem))))
:else
(err "no such type @type")))
;; desugar structured assembly based on blocks
(def convert-braces (instrs)
(let locs () ; list of information on each brace: (open/close pc)
(let pc 0
(loop (instrs instrs)
(each instr instrs
(if (~is 'begin instr.0)
(do
(trace "cvt0" pc " " instr " -- " locs)
(++ pc))
; hack: racket replaces curlies with parens, so we need the
; keyword begin to delimit blocks.
; ultimately there'll be no nesting and curlies will just be in a
; line by themselves.
(do
;? (prn `(open ,pc))
(push `(open ,pc) locs)
(recur cdr.instr)
;? (prn `(close ,pc))
(push `(close ,pc) locs))))))
(zap rev locs)
;? (prn locs)
(with (pc 0
stack ()) ; elems are pcs
(accum yield
(loop (instrs instrs)
(each instr instrs
(point continue
(let delim (or (pos '<- instr) -1)
(with (oarg (if (>= delim 0)
(cut instr 0 delim))
op (instr (+ delim 1))
arg (cut instr (+ delim 2)))
(trace "cvt1" pc " " op " " oarg)
(case op
begin
(do
(push pc stack)
(assert:is oarg nil)
(recur arg)
(pop stack)
(continue))
break
(do
(assert:is oarg nil)
(assert:is arg nil)
(yield `(jump (,(close-offset pc locs) offset))))
break-if
(do
;? (prn "break-if: " instr)
(assert:is oarg nil)
(yield `(jump-if ,arg.0 (,(close-offset pc locs) offset))))
break-unless
(do
;? (prn "break-if: " instr)
(assert:is oarg nil)
(yield `(jump-unless ,arg.0 (,(close-offset pc locs) offset))))
continue
(do
(assert:is oarg nil)
(assert:is arg nil)
(yield `(jump (,(- stack.0 1 pc) offset))))
continue-if
(do
(trace "cvt0" "continue-if: " instr " => " (- stack.0 1))
(assert:is oarg nil)
(yield `(jump-if ,arg.0 (,(- stack.0 1 pc) offset))))
continue-unless
(do
(trace "cvt0" "continue-if: " instr " => " (- stack.0 1))
(assert:is oarg nil)
(yield `(jump-unless ,arg.0 (,(- stack.0 1 pc) offset))))
;else
(yield instr))))
(++ pc))))))))
(def close-offset (pc locs)
(let close 0
(with (stacksize 0
done nil)
(each (state loc) locs
;? (prn " :" close " " state " - " loc)
(if (< loc pc)
nil ; do nothing
(no done)
(do
; first time
(when (and (is 0 stacksize) (~is loc pc))
(++ stacksize))
(if (is 'open state) (++ stacksize) (-- stacksize))
; last time
(when (is 0 stacksize)
(= close loc)
(set done))))))
(- close pc 1)))
;; convert symbolic names to integer offsets
(def convert-names (instrs)
(let offset (table)
(let idx 1
(each instr instrs
(let (oargs op args) (parse-instr instr)
(each arg args
(when (maybe-add arg offset idx)
(err "use before set: @arg")
(++ idx)))
(each arg oargs
(when (maybe-add arg offset idx)
(++ idx))))))
(each instr instrs
(let (oargs op args) (parse-instr instr)
(each arg args
(when (offset v.arg)
(zap offset v.arg)))
(each arg oargs
(when (offset v.arg)
(zap offset v.arg)))))
instrs))
(def maybe-add (arg offset idx)
(unless (or (in ty.arg 'literal 'offset)
(offset v.arg)
(~isa v.arg 'sym))
(= (offset v.arg) idx)))
;; literate tangling system for reordering code
(def convert-quotes (instrs)
(let deferred (queue)
(each instr instrs
(case instr.0
defer
(let (q qinstrs) instr.1
(assert (is 'make-br-fn q))
(each qinstr qinstrs
(enq qinstr deferred)))))
(accum yield
(each instr instrs
(unless (in instr.0 'defer) ; keep sync'd with case clauses above
(yield instr)))
(each instr (as cons deferred)
(yield instr)))))
;; system software
(init-fn maybe-coerce
((101 tagged-value-address) <- new (tagged-value type))
((101 tagged-value-address deref) <- arg)
((102 type) <- arg)
((103 type) <- get (101 tagged-value-address deref) (0 offset))
((104 boolean) <- eq (103 type) (102 type))
{ begin
(break-if (104 boolean))
(reply (0 literal) (nil literal))
}
((105 location) <- get (101 tagged-value-address deref) (1 offset))
(reply (105 location) (104 boolean)))
(init-fn new-tagged-value
((201 type) <- arg)
((202 integer) <- sizeof (201 type))
((203 boolean) <- eq (202 integer) (1 literal))
(assert (203 boolean))
; todo: check that arg 0 matches the type? or is that for the future typechecker?
((204 tagged-value-address) <- new (tagged-value type))
((205 location) <- get-address (204 tagged-value-address deref) (0 offset))
((205 location deref) <- copy (201 type))
((206 location) <- get-address (204 tagged-value-address deref) (1 offset))
((206 location deref) <- arg)
(reply (204 tagged-value-address)))
(init-fn list-next ; list-address -> list-address
((301 list-address) <- arg)
((302 list-address) <- get (301 list-address deref) (1 offset))
(reply (302 list-address)))
(init-fn list-value-address ; list-address -> tagged-value-address
((401 list-address) <- arg)
((402 tagged-value-address) <- get-address (401 list-address deref) (0 offset))
(reply (402 tagged-value-address)))
(init-fn new-list
((501 list-address) <- new (list type))
((502 list-address) <- copy (501 list-address))
{ begin
((503 integer) (504 boolean) <- arg)
(break-unless (504 boolean))
((505 list-address-address) <- get-address (502 list-address deref) (1 offset))
((505 list-address-address deref) <- new (list type))
((502 list-address) <- list-next (502 list-address))
((506 tagged-value-address) <- list-value-address (502 list-address))
((506 tagged-value-address deref) <- save-type (503 integer))
(continue)
}
((501 list-address) <- list-next (501 list-address)) ; memory leak
(reply (501 list-address)))
; drop all traces while processing above functions
(on-init
(= traces* (queue)))
(def prn2 (msg . args)
(pr msg)
(apply prn args))
;; after loading all files, start at 'main'
(reset)
(awhen cdr.argv
(map add-fns:readfile it)
(run 'main)
(if ($.current-charterm) ($.close-charterm))
(prn memory*))
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