Rewrite registers to be addresses, not cells
Also add initial (incomplete) implementations of the unification instructions.
| author |
Steve Losh <steve@stevelosh.com> |
| date |
Sun, 27 Mar 2016 18:32:37 +0000 |
| parents |
fcec9e0c9c67 |
| children |
0432f016c912 |
(in-package #:bones.wam)
;;;; WAM
(defparameter *wam-heap-size* 32)
(defclass wam ()
((heap
:initform (make-array *wam-heap-size*
:initial-element (make-cell-null)
:element-type 'heap-cell)
:reader wam-heap
:documentation "The actual heap (stack).")
(heap-pointer
:initform 0
:accessor wam-heap-pointer
:documentation "The index of the first free cell on the heap (stack).")
(functors
:initform (make-array 16
:fill-pointer 0
:adjustable t
:element-type 'symbol)
:accessor wam-functors
:documentation "The array of functor symbols in this WAM.")
(registers
:reader wam-registers
:initform (make-array +register-count+
;; Point at the last heap index by default, just to
;; make it easier to read debug output.
:initial-element (1- *wam-heap-size*)
:element-type 'heap-index)
:documentation "An array of the X_i registers.")
(fail
:accessor wam-fail
:initform nil
:type boolean
:documentation "The failure register.")
(s
:accessor wam-s
:initform nil
:type (or null heap-index)
:documentation "The S register (address of next subterm to match).")
(mode
:accessor wam-mode
:initform nil
:type (or null (member :read :write))
:documentation "Current unification mode (:READ or :WRITE (or NIL)).")))
(defun make-wam ()
(make-instance 'wam))
;;;; Heap
;;; The WAM heap is a fixed-length array of cells and a heap pointer.
;;;
;;; TODO: Consider using an adjustable array. There must still be a max size
;;; because you can only index so many addresses with N bits.
(defun* wam-heap-push! ((wam wam) (cell heap-cell))
(:returns (values heap-cell heap-index))
"Push the cell onto the WAM heap and increment the heap pointer.
Returns the cell and the address it was pushed to.
"
(with-slots (heap heap-pointer) wam
(setf (aref heap heap-pointer) cell)
(incf heap-pointer)
(values cell (1- heap-pointer))))
(defun* wam-heap-cell ((wam wam) (address heap-index))
(:returns heap-cell)
"Return the heap cell at the given address."
(aref (wam-heap wam) address))
(defun (setf wam-heap-cell) (new-value wam address)
(setf (aref (wam-heap wam) address) new-value))
;;;; Registers
;;; WAM registers are implemented as an array of a fixed number of registers.
;;; A register contains the address of a cell in the heap.
(defun* wam-register ((wam wam) (register register-index))
(:returns heap-cell)
"Return the WAM register with the given index."
(aref (wam-registers wam) register))
(defun (setf wam-register) (new-value wam register)
(setf (aref (wam-registers wam) register) new-value))
(defun* wam-register-cell ((wam wam) (register register-index))
(:returns heap-cell)
"Return the heap cell `register` is pointing at."
(->> register
(wam-register wam)
(wam-heap-cell wam)))
(defun* wam-s-cell ((wam wam))
"Retrieve the cell the S register is pointing at.
If S is unbound, throws an error.
"
(let ((s (wam-s wam)))
(if (null s)
(error "Cannot dereference unbound S register.")
(wam-heap-cell wam s))))
;;;; Functors
;;; Functors are symbols stored in an adjustable array. Cells refer to
;;; a functor using the functor's address in this array.
;;;
;;; TODO: Limit the number of functors based on the number of addressable
;;; functors in the functor cell index bits.
(defun* wam-ensure-functor-index ((wam wam) (functor symbol))
(:returns functor-index)
"Return the index of the functor in the WAM's functor table.
If the functor is not already in the table it will be added.
"
(with-slots (functors) wam
(or (position functor functors)
(vector-push-extend functor functors))))
(defun* wam-functor-lookup ((wam wam) (functor-index functor-index))
(:returns symbol)
"Return the symbol for the functor with the given index in the WAM."
(aref (wam-functors wam) functor-index))