src/compiler/3-flattening.lisp @ 1f0a36161f17

Implement the rest of the GDL benchmarking
author Steve Losh <steve@stevelosh.com>
date Wed, 24 Aug 2016 19:57:25 +0000
parents 6ed3375e2921
children fd638982ad83
(in-package #:temperance)

;;;; .-,--' .      .  .
;;;;  \|__  |  ,-. |- |- ,-. ,-. . ,-. ,-.
;;;;   |    |  ,-| |  |  |-' | | | | | | |
;;;;  `'    `' `-^ `' `' `-' ' ' ' ' ' `-|
;;;;                                    ,|
;;;;                                    `'

;;; "Flattening" is the process of turning a parse tree (with register
;;; assignments) into a flat list of nodes, which will then be turned into
;;; a series of instructions.
;;;
;;; The order of this list depends on whether we're compiling a query term or
;;; a program term.
;;;
;;; Turns:
;;;
;;;   X0 <- p(X1, X2)
;;;   X1 <- A
;;;   X2 <- q(X1, X3)
;;;   X3 <- B
;;;
;;; into something like:
;;;
;;;   X2 <- q(X1, X3)
;;;   X0 <- p(X1, X2)


(defstruct (register-assignment
             (:conc-name assignment-))
  (register (required) :type register))


(defstruct (structure-assignment (:include register-assignment)
                                 (:conc-name assignment-))
  (functor nil :type symbol)
  (arity 0 :type arity)
  (arguments () :type list))

(defstruct (argument-variable-assignment (:include register-assignment)
                                         (:conc-name assignment-))
  (target (required) :type register))

(defstruct (list-assignment (:include register-assignment)
                            (:conc-name assignment-))
  (head (required) :type register)
  (tail (required) :type register))

(defstruct (lisp-object-assignment (:include register-assignment)
                                   (:conc-name assignment-))
  (object nil :type t))


(defmethod print-object ((assignment structure-assignment) stream)
  (print-unreadable-object (assignment stream :type nil :identity nil)
    (format stream "~A = ~A/~D(~{~A~^, ~})"
            (register-to-string (assignment-register assignment))
            (assignment-functor assignment)
            (assignment-arity assignment)
            (mapcar #'register-to-string (assignment-arguments assignment)))))

(defmethod print-object ((assignment argument-variable-assignment) stream)
  (print-unreadable-object (assignment stream :type nil :identity nil)
    (format stream "~A = ~A"
            (register-to-string (assignment-register assignment))
            (register-to-string (assignment-target assignment)))))

(defmethod print-object ((assignment list-assignment) stream)
  (print-unreadable-object (assignment stream :type nil :identity nil)
    (format stream "~A = [~A | ~A]"
            (register-to-string (assignment-register assignment))
            (register-to-string (assignment-head assignment))
            (register-to-string (assignment-tail assignment)))))

(defmethod print-object ((assignment lisp-object-assignment) stream)
  (print-unreadable-object (assignment stream :type nil :identity nil)
    (format stream "~A = ~A"
            (register-to-string (assignment-register assignment))
            (lisp-object-to-string (assignment-object assignment)))))


(defgeneric node-flatten (node))

(defmethod node-flatten (node)
  nil)

(defmethod node-flatten ((node structure-node))
  (values (make-structure-assignment
            :register (node-register node)
            :functor (node-functor node)
            :arity (node-arity node)
            :arguments (mapcar #'node-register (node-arguments node)))))

(defmethod node-flatten ((node argument-variable-node))
  (values (make-argument-variable-assignment
            :register (node-register node)
            :target (node-secondary-register node))))

(defmethod node-flatten ((node list-node))
  (values (make-list-assignment
            :register (node-register node)
            :head (node-register (node-head node))
            :tail (node-register (node-tail node)))))

(defmethod node-flatten ((node lisp-object-node))
  (values (make-lisp-object-assignment
            :register (node-register node)
            :object (node-object node))))


(defun flatten-breadth-first (tree)
  (let ((results nil))
    (recursively ((node tree))
      (when-let (assignment (node-flatten node))
        (push assignment results))
      (mapc #'recur (node-children node)))
    (nreverse results)))

(defun flatten-depth-first-post-order (tree)
  (let ((results nil))
    (recursively ((node tree))
      (mapc #'recur (node-children node))
      (when-let (assignment (node-flatten node))
        (push assignment results)))
    (nreverse results)))


(defun flatten-query (tree)
  (flatten-depth-first-post-order tree))

(defun flatten-program (tree)
  (flatten-breadth-first tree))