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microcode.lisp
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;;;; microcode.lisp
(in-package :regmach4wasm)
(declaim (optimize (debug 3)))
;; -----------------------------------------------------------------------------
;; mcvm
(defstruct mcvm
(regfile (make-regfile))
(pc 0)
(memory (make-ram)))
(defun mcvm-reset (mcvm)
"reset the microcode vm"
(setf (mcvm-regfile mcvm) (make-regfile))
(setf (mcvm-pc mcvm) 0)
(setf (mcvm-memory mcvm) (make-ram))
mcvm)
(defun mcvm-fmt-ram (mcvm)
"return a formatted string representation of the microcode vm"
(ram-fmt (mcvm-memory mcvm)))
(defun mcvm-ram-size (mcvm)
"return the size of the vm ram measured in bytes"
(ram-size (mcvm-memory mcvm)))
(defun new-mcvm ()
"allocate and initialize a new microcode vm"
(mcvm-reset (make-mcvm)))
(defun mcvm-ram-set (mcvm addr byte)
"set one byte at a byte address in ram"
(check-type addr number)
(ram-set (mcvm-memory mcvm) addr byte))
(defun mcvm-ram-set-word! (mcvm word-addr word)
"set one word at a word address in ram"
(check-type word-addr number)
(check-type word number)
(assert (eq 0 (mod word-addr 4)))
(ram-set (mcvm-memory mcvm) (+ 0 word-addr) (logand word #x000000FF))
(ram-set (mcvm-memory mcvm) (+ 1 word-addr) (ash (logand word #x0000FF00) -8))
(ram-set (mcvm-memory mcvm) (+ 2 word-addr) (ash (logand word #x00FF0000) -16))
(ram-set (mcvm-memory mcvm) (+ 3 word-addr) (ash (logand word #xFF000000) -24))
mcvm)
(defun mcvm-ram-get-word (mcvm word-addr)
"set one word at a word address in ram"
(check-type word-addr number)
(assert (eq 0 (mod word-addr 4)))
(logior (ram-get (mcvm-memory mcvm) (+ 0 word-addr))
(ash (ram-get (mcvm-memory mcvm) (+ 1 word-addr)) 8)
(ash (ram-get (mcvm-memory mcvm) (+ 2 word-addr)) 16)
(ash (ram-get (mcvm-memory mcvm) (+ 3 word-addr)) 24)))
(defun mcvm-ram-get (mcvm addr)
"get one byte from memory"
(ram-get (mcvm-memory mcvm) addr))
(defun mcvm-load-list (mcvm byte-list)
"load a list of bytes into ram starting from address 0"
(ram-load-list (mcvm-memory mcvm) byte-list))
(defun mcvm-fetch-inst (vm)
"fetch a 32-bit word starting from PC"
(let ((pc (mcvm-pc vm)))
(list (mcvm-ram-get vm (+ pc 0))
(mcvm-ram-get vm (+ pc 1))
(mcvm-ram-get vm (+ pc 2))
(mcvm-ram-get vm (+ pc 3)))))
(defun mcvm-set-reg (mcvm reg val)
;; (check-type reg number)
(regfile-set-reg (mcvm-regfile mcvm) reg val))
(defun mcvm-get-reg (mcvm reg)
(if (= reg 31) 0
(let ((val (regfile-get-reg (mcvm-regfile mcvm) reg)))
;;(format t "mcvm-get-reg: ~a: ~a ~%" reg val)
val)))
;; -----------------------------------------------------------------------------
;; microcode language
;; this simple language doesn't have functions or recursion here is an
;; example of it executing within the context of the microcode
;; evaluator with an implicit instruction present.
;; (CMPLT RA RB RC)
;; '((set-pc (+ (get-pc) 4))
;; (if (< (reg ra) (reg rb))
;; (set-reg rc 1)
;; (set-reg rc 0)))
(defun eval-set-pc (vm env inst)
(setf (mcvm-pc vm)
(eval-mc vm env (eval-mc vm env (cadr inst)))))
;; -----------------------------------------------------------------------------
;; instructions
;;
;; all instruction documentation copied from 6.004 β documentation
;;
(defun eval-set-reg (vm env inst)
(let ((reg (cadr inst))
(val (caddr inst)))
(mcvm-set-reg vm reg (eval-mc vm env val))))
(defun eval-set-mem (vm env inst)
(let ((word-addr (eval-mc vm env (cadr inst)))
(val (caddr inst)))
(assert (eq 0 (mod word-addr 4)))
(mcvm-ram-set-word! vm word-addr (eval-mc vm env val))))
(defun eval-get-mem (vm env inst)
(let ((word-addr (eval-mc vm env (cadr inst))))
(assert (eq 0 (mod word-addr 4)))
(mcvm-ram-get-word vm word-addr)))
(defun instruction-arguments (inst) (cdr inst))
(defun eval-set-var (vm env expr)
(let ((name (cadr expr))
(val (caddr expr)))
(check-type name symbol)
;; need a symbol table
(env-put env name (eval-mc vm env val))))
(defun eval-op (vm env op inst)
(apply op (mapcar (lambda (expr) (eval-mc vm env expr))
(instruction-arguments inst))))
;; (defun register-p (reg)
;; (if (member reg int-registers) t nil)) ;; return bool
(defun eval-inc-pc (vm env)
(eval-mc vm env '(set-pc (+ pc 4))))
(defun eval-get-pc (vm) (mcvm-pc vm))
(defun eval-instruction (vm env expr) (break "this should not be called"))
'(defun eval-instruction (vm env expr)
;; expr is an instruction in this form (ADD r1 r2 r3)
;; grab the instruction opcode
(let* ((opcode (car expr))
;; lookup the instruction
(inst (instruction-lookup opcode))
(microcode (instruction-microcode inst))
(register-names (cdr (instruction-pattern inst)))
(values (cdr expr)))
;; check to see if the instruction is well formed.
(when (not (eq (length register-names) (length values)))
(error "instruction pattern mismatch, wrong numbers of instruction values"))
;; bind the instruction values to register names.
(mapcar (lambda (pair) (env-put env (car pair) (cadr pair)))
(zip register-names values))
;; run the microcode
(mapcar (lambda (stmt) (eval-mc vm env stmt))
(bind-vars env microcode))))
(defun eval-get-reg (vm expr)
(if (eq expr '(reg 31)) 0
(mcvm-get-reg vm (cadr expr))))
(defun eval-sign-extend (vm env expr)
(sign-extend-16 (eval-mc vm env (cadr expr))))
(defun eval-current-instruction (vm) (mcvm-pc vm))
(defun eval-if (vm env expr)
(let ((test (cadr expr))
(then (caddr expr))
(else (cadddr expr)))
(if (eval-mc vm env test)
(eval-mc vm env then)
(eval-mc vm env else))))
(defun eval-eq (vm env expr)
(eq (eval-mc vm env (cadr expr))
(eval-mc vm env (caddr expr))))
(defun eval-not (vm env expr)
(not (eval-mc vm env (cadr expr))))
(defun eval-mc (vm env expr)
(check-type env environment)
(check-type vm mcvm)
;; (format t "eval-mc: ~a ~%" expr)
(cond ((numberp expr) expr)
((listp expr) (case (car expr)
(break (break)) ;; how to add break to an interpreter.
(+ (eval-op vm env #'+ expr))
(- (eval-op vm env #'- expr))
(* (eval-op vm env #'* expr))
(/ (eval-op vm env #'/ expr))
(<= (eval-op vm env #'<= expr))
(< (eval-op vm env #'< expr))
(bitwise-or (eval-op vm env #'logior expr))
(bitwise-and (eval-op vm env #'logand expr))
(mod (eval-op vm env #'mod expr))
(inc-pc (eval-inc-pc vm env))
(set-pc (eval-set-pc vm env expr))
(set-var (eval-set-var vm env expr))
(set-reg (eval-set-reg vm env expr))
(set-mem (eval-set-mem vm env expr))
(mem (eval-get-mem vm env expr))
(not (eval-not vm env expr))
(reg (eval-get-reg vm expr))
(sign-extend (eval-sign-extend vm env expr))
(if (eval-if vm env expr))
(eq (eval-eq vm env expr))
(otherwise (error (format nil "unhandled case in eval-mc: ~a" expr)))))
((eq 'current-instruction expr) (eval-current-instruction vm))
((eq 'pc expr) (eval-get-pc vm))
((eq 'nop expr) 0) ;; is nil the right thing to return here?
((symbolp expr) (env-get env expr))
(t (error (format nil "unhandled case in eval-mc: ~a" expr)))))
(defun eval-mc-prog (vm prog)
(check-type vm mcvm)
(check-type prog list)
(let ((env (make-environment)))
(progn (mapcar (lambda (stmt) (eval-mc vm env stmt)) prog)
vm)))
;; -----------------------------------------------------------------------------
;; tests
;; test utility.
(defun eval-mc-prog-with (prog checker)
"prog is an mcvm program, checker is function that takes a vm"
(let ((vm (new-mcvm)))
(eval-mc-prog vm prog)
(apply checker (list vm))))
(eval-mc-prog-with
'((set-pc 42))
(lambda (vm) (expected 42 (mcvm-pc vm))))
(eval-mc-prog-with
'((inc-pc))
(lambda (vm) (expected 4 (mcvm-pc vm))))
(eval-mc-prog-with
'((set-reg 0 42))
(lambda (vm) (expected 42 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-mem 0 123)
(set-reg 0 (mem 0)))
(lambda (vm) (expected 123 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-mem 8 123)
(set-reg 0 (mem 8)))
(lambda (vm) (expected 123 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-var temp 42)
(set-reg 0 temp))
(lambda (vm) (expected 42 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((if (eq 0 0)
(set-reg 0 1)
(set-reg 0 0)))
(lambda (vm) (expected 1 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-var temp 42)
(if (eq temp 42)
(set-reg 0 1)
(set-reg 0 0)))
(lambda (vm) (expected 1 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-var temp 42)
(if (eq temp temp)
(set-reg 0 1)
(set-reg 0 0)))
(lambda (vm) (expected 1 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-var temp 41)
(if (eq temp 42)
(set-reg 0 1)
(set-reg 0 0)))
(lambda (vm) (expected 0 (mcvm-get-reg vm 0))))
(eval-mc-prog-with
'((set-var temp 41)
(if (eq temp 42)
(set-reg 4 123)
(set-reg 4 121)))
(lambda (vm) (expected 121 (mcvm-get-reg vm 4))))
(eval-mc-prog-with
'((set-reg 0 (sign-extend 65535)))
(lambda (vm) (expected -1 (mcvm-get-reg vm 0))))
(defun eval-with-expect-r0 (value program)
(eval-mc-prog-with program
(lambda (vm)
(expected value (mcvm-get-reg vm 0)))))
(eval-with-expect-r0 -1
'((set-reg 0 (sign-extend 65535))))
(eval-with-expect-r0 4
'((set-pc 4)
(set-reg 0 current-instruction)))