src/compiler/1-parsing.lisp @ 221dc09d73f9
Split up main/test systems
author |
Steve Losh <steve@stevelosh.com> |
date |
Fri, 17 Feb 2017 13:31:15 +0000 |
parents |
fd638982ad83 |
children |
(none) |
(in-package :temperance)
;;;; .-,--.
;;;; '|__/ ,-. ,-. ,-. . ,-. ,-.
;;;; ,| ,-| | `-. | | | | |
;;;; `' `-^ ' `-' ' ' ' `-|
;;;; ,|
;;;; `'
; todo functor -> fname
(defstruct node)
(defstruct (top-level-node (:include node))
(functor nil :type symbol)
(arity 0 :type arity)
(arguments nil :type list))
(defstruct (vanilla-node (:include node)
(:conc-name node-))
;; The register allocated to store this node.
(register nil :type (or null register)))
(defstruct (structure-node (:include vanilla-node)
(:conc-name node-))
(functor nil :type symbol)
(arity 0 :type arity)
(arguments nil :type list))
(defstruct (variable-node (:include vanilla-node)
(:conc-name node-))
(variable nil :type symbol))
(defstruct (argument-variable-node (:include variable-node)
(:conc-name node-))
;; The register that actually holds the variable (NOT the argument register).
(secondary-register nil :type (or null register)))
(defstruct (list-node (:include vanilla-node)
(:conc-name node-))
(head (error "Head argument required") :type node)
(tail (error "Head argument required") :type node))
(defstruct (lisp-object-node (:include vanilla-node)
(:conc-name node-))
(object nil :type t))
(defgeneric node-children (node)
(:documentation
"Return the children of the given node.
Presumably these will need to be traversed when allocating registers."))
(defmethod node-children ((node vanilla-node))
(list))
(defmethod node-children ((node top-level-node))
(top-level-node-arguments node))
(defmethod node-children ((node structure-node))
(node-arguments node))
(defmethod node-children ((node list-node))
(list (node-head node) (node-tail node)))
(defun nil-node-p (node)
"Return whether the given node is the magic nil/0 constant."
(and (typep node 'structure-node)
(eql (node-functor node) nil)
(zerop (node-arity node))))
(defparameter *dump-node-indent* 0)
(defun print-node-register (node stream &optional space-before)
(when (slot-boundp node 'register)
(format stream (if space-before " ~A =" "~A = ") (node-register node))))
(defun print-node-secondary-register (node stream &optional space-before)
(when (slot-boundp node 'secondary-register)
(format stream
(if space-before " ~A =" "~A = ")
(node-secondary-register node))))
(defgeneric dump-node (node))
(defmethod dump-node ((node node))
(format t "~VAAN NODE" *dump-node-indent* ""))
(defmethod dump-node ((node variable-node))
(format t "~VA#<VAR" *dump-node-indent* "")
(print-node-register node t t)
(format t " ~S>" (node-variable node)))
(defmethod dump-node ((node argument-variable-node))
(format t "~VA#<VAR" *dump-node-indent* "")
(print-node-register node t t)
(print-node-secondary-register node t t)
(format t " ~S>" (node-variable node)))
(defmethod dump-node ((node structure-node))
(format t "~VA#<STRUCT " *dump-node-indent* "")
(print-node-register node t)
(format t "~A/~D" (node-functor node) (node-arity node))
(let ((*dump-node-indent* (+ *dump-node-indent* 4)))
(dolist (a (node-arguments node))
(terpri)
(dump-node a)))
(format t ">"))
(defmethod dump-node ((node list-node))
(format t "~VA#<LIST" *dump-node-indent* "")
(print-node-register node t t)
(let ((*dump-node-indent* (+ *dump-node-indent* 4)))
(loop :for element = node :then tail
:while (typep element 'list-node)
:for head = (node-head element)
:for tail = (node-tail element)
:do (progn (terpri) (dump-node head))
:finally (when (not (nil-node-p element))
(format t "~%~VA.~%" *dump-node-indent* "")
(dump-node element))))
(format t ">"))
(defmethod dump-node ((node lisp-object-node))
(format t "~VA#<LISP OBJECT " *dump-node-indent* "")
(print-node-register node t)
(format t "~A>" (lisp-object-to-string (node-object node))))
(defmethod dump-node ((node top-level-node))
(with-slots (functor arity arguments) node
(format t "#<~A/~D" functor arity)
(let ((*dump-node-indent* 4))
(dolist (n arguments)
(terpri)
(dump-node n)))
(format t ">")))
(defmethod print-object ((node node) stream)
(let ((*standard-output* stream))
(dump-node node)))
(defun parse-list (contents)
(if contents
(make-list-node :head (parse (car contents))
:tail (parse-list (cdr contents)))
(make-structure-node :functor nil
:arity 0
:arguments ())))
(defun parse-list* (contents)
(destructuring-bind (next . remaining) contents
(if (null remaining)
(parse next)
(make-list-node :head (parse next)
:tail (parse-list* remaining)))))
(defun parse (term &optional top-level-argument)
(cond
((variablep term)
(if top-level-argument
(make-argument-variable-node :variable term)
(make-variable-node :variable term)))
((symbolp term)
(parse (list term))) ; c/0 -> (c/0)
((consp term)
(destructuring-bind (functor . arguments) term
(when (not (symbolp functor))
(error
"Cannot parse term ~S because ~S is not a valid functor."
term functor))
(case functor
(list (parse-list arguments))
(list* (parse-list* arguments))
(t (make-structure-node :functor functor
:arity (length arguments)
:arguments (mapcar #'parse arguments))))))
((numberp term)
(make-lisp-object-node :object term))
(t (error "Cannot parse term ~S into a Prolog term." term))))
(defun parse-top-level (term)
(typecase term
(symbol (parse-top-level (list term))) ; c/0 -> (c/0)
(cons (destructuring-bind (functor . arguments) term
(when (not (symbolp functor))
(error
"Cannot parse top-level term ~S because ~S is not a valid functor."
term functor))
(make-top-level-node :functor functor
:arity (length arguments)
:arguments (mapcar (lambda (a) (parse a t))
arguments))))
(t (error "Cannot parse top-level term ~S into a Prolog term." term))))