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diff.rkt
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;; ydiff - a language-aware tool for comparing programs
;; Copyright (C) 2011-2013 Yin Wang (yinwang0@gmail.com)
;; This program is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; This program is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with this program. If not, see <http://www.gnu.org/licenses/>.
#lang racket
(require "structs.rkt")
(require "utils.rkt")
(provide (all-defined-out))
;-------------------------------------------------------------
; parameters
;-------------------------------------------------------------
;; The minimum size of a node to be considered as moved. Shouldn't be
;; too small, otherwise small deleted names may appear in a very
;; distant place!
(define *move-size* 5)
;; Similar to *move-size*, but this number is used for internal moves inside a
;; named body (for example a function). This number can be smaller than
;; *move-size*, usually set to 2 for maxmum accuracy without much noise.
(define *inner-move-size* 2)
;; Only memoize the diff of nodes of size larger than this number.
;; This effectively reduces memory usage.
(define *memo-node-size* 2)
;; Are we in moving phase?
;; This is internal switch used by the diff algorithm.
;; Do not modify by handl.
(define *moving* #f)
;;------------------ frames utils --------------------
(define deframe
(lambda (node)
(match node
[(Node 'frame _ _ elts _ _)
(apply append (map deframe elts))]
[else (list node)])))
(define deframe-change
(lambda (change)
(cond
[(ins? change)
(apply append
(map ins (deframe (Change-new change))))]
[(del? change)
(apply append
(map del (deframe (Change-old change))))]
[else (list change)])))
(define extract-frame
(lambda (node1 node2 type)
(match node1
[(Node type1 start1 end1 elts1 size ctx)
(let ([frame-elts (filter (lambda (x)
(not (eq? x node2)))
elts1)])
(type (Node 'frame start1 start1 frame-elts (- size (node-size node2)) ctx)))]
[_ fatal 'extract-frame "I only accept Node"])))
;; (define n1 (Token "ok" 0 1))
;; (define n2 (Expr 'ok 0 2 (list n1 (Token "bar" 1 2))))
;; (map deframe-change (extract-frame n2 n1 ins))
;-------------------------------------------------------------
; diff proper
;-------------------------------------------------------------
; 2-D memoization table
(define make-table
(lambda (dim1 dim2)
(let ([vec (make-vector (add1 dim1))])
(let loop ([n 0])
(cond
[(= n (vector-length vec)) vec]
[else
(vector-set! vec n (make-vector (add1 dim2) #f))
(loop (add1 n))])))))
(define table-ref
(lambda (t x y)
(let ([row (vector-ref t x)])
(vector-ref row y))))
(define table-set!
(lambda (t x y v)
(let ([row (vector-ref t x)])
(vector-set! row y v))))
;---------------- string distance function -----------------
;; string distance is no longer used because string=? saffice to
;; compare strings in ASTs. Retain it here for possible later uses.
(define string-dist
(lambda (s1 s2)
(let* ([len1 (string-length s1)]
[len2 (string-length s2)]
[t (make-table len1 len2)]
[char-dist (dist1 t s1 0 s2 0)])
(cond
[(= 0 (+ len1 len2)) 0]
[else
(/ (* 2.0 char-dist) (+ len1 len2))]))))
(define dist1
(lambda (table s1 start1 s2 start2)
(define memo
(lambda (value)
(table-set! table start1 start2 value)
value))
(cond
[(table-ref table start1 start2)
=> (lambda (cached) cached)]
[(= start1 (string-length s1))
(memo (- (string-length s2) start2))]
[(= start2 (string-length s2))
(memo (- (string-length s1) start1))]
[else
(let* ([c1 (string-ref s1 start1)]
[c2 (string-ref s2 start2)]
[d0 (cond
[(char=? c1 c2) 0]
[(char=? (char-downcase c1)
(char-downcase c2)) 1]
[else 2])]
[d1 (+ d0 (dist1 table s1 (add1 start1) s2 (add1 start2)))]
[d2 (+ 1 (dist1 table s1 (add1 start1) s2 start2))]
[d3 (+ 1 (dist1 table s1 start1 s2 (add1 start2)))])
(memo (min d1 d2 d3)))])))
;--------------------- the primary diff function -------------------
;; global 2-D hash for storing known diffs
(define *diff-hash* (make-hasheq))
(define diff-node
(lambda (node1 node2)
(define memo
(lambda (v1 v2)
(and (> (node-size node1) *memo-node-size*)
(> (node-size node2) *memo-node-size*)
(hash-put! *diff-hash* node1 node2 (cons v1 v2)))
(values v1 v2)))
(define try-extract
(lambda (changes cost)
(cond
[(or (not *moving*)
(zero? cost))
(memo changes cost)]
[else
(letv ([(m c) (diff-extract node1 node2)])
(cond
[(not m)
(memo changes cost)]
[else
(memo m c)]))])))
(diff-progress 1) ;; progress bar
(cond
[(hash-get *diff-hash* node1 node2)
=> (lambda (cached)
(values (car cached) (cdr cached)))]
[(and (character? node1) (character? node2))
(diff-string (char->string (Node-elts node1))
(char->string (Node-elts node2))
node1 node2)]
[(and (str? node1) (str? node2))
(diff-string (Node-elts node1) (Node-elts node2) node1 node2)]
[(and (comment? node1) (comment? node2))
(diff-string (Node-elts node1) (Node-elts node2) node1 node2)]
[(and (token? node1) (token? node2))
(diff-string (Node-elts node1) (Node-elts node2) node1 node2)]
[(and (Node? node1) (Node? node2)
(eq? (get-type node1) (get-type node2)))
(letv ([(m c) (diff-list (Node-elts node1) (Node-elts node2))])
(try-extract m c))]
[(and (pair? node1) (not (pair? node2)))
(diff-list node1 (list node2))]
[(and (not (pair? node1)) (pair? node2))
(diff-list (list node1) node2)]
[(and (pair? node1) (pair? node2))
(diff-list node1 node2)]
[else
(letv ([(m c) (total node1 node2)])
(try-extract m c))])))
;; helper for nodes with string contents (Str, Comment, Token etc.)
(define diff-string
(lambda (string1 string2 node1 node2)
(cond
[(string=? string1 string2)
(values (mov node1 node2 0) 0)]
[else
(total node1 node2)])))
(define diff-list
(lambda (ls1 ls2)
(let ([ls1 (sort ls1 node-sort-fn)]
[ls2 (sort ls2 node-sort-fn)])
(diff-list1 (make-hasheq) ls1 ls2))))
(define diff-list1
(lambda (table ls1 ls2)
(define memo
(lambda (v1 v2)
(hash-put! table ls1 ls2 (cons v1 v2))
(values v1 v2)))
(define guess
(lambda (ls1 ls2)
(letv ([(m0 c0) (diff-node (car ls1) (car ls2))]
[(m1 c1) (diff-list1 table (cdr ls1) (cdr ls2))])
(cond
[(or (zero? c0)
(same-def? (car ls1) (car ls2)))
(memo (append m0 m1) (+ c0 c1))]
[else
(letv ([(m2 c2) (diff-list1 table (cdr ls1) ls2 )]
[(m3 c3) (diff-list1 table ls1 (cdr ls2))]
[cost2 (+ c2 (node-size (car ls1)))]
[cost3 (+ c3 (node-size (car ls2)))])
(cond
[(<= cost2 cost3)
(memo (append (del (car ls1)) m2) cost2)]
[else
(memo (append (ins (car ls2)) m3) cost3)]))]))))
(cond
[(hash-get table ls1 ls2)
=> (lambda (cached)
(values (car cached) (cdr cached)))]
[(and (null? ls1) (null? ls2))
(values '() 0)]
[(null? ls1)
(let ([changes (apply append (map ins ls2))])
(values changes (node-size ls2)))]
[(null? ls2)
(let ([changes (apply append (map del ls1))])
(values changes (node-size ls1)))]
[else
(guess ls1 ls2)])))
(define same-ctx?
(lambda (x y)
(and (Node? x)
(Node? y)
(Node-ctx x)
(Node-ctx y)
(>= (node-size x) *inner-move-size*)
(>= (node-size y) *inner-move-size*)
(eq? (Node-ctx x) (Node-ctx y)))))
;; structure extraction
(define diff-extract
(lambda (node1 node2)
(cond
[(and (Node? node1) (Node? node2)
(or (same-ctx? node1 node2)
(and (big-node? node1)
(big-node? node2))))
(cond
[(<= (node-size node1) (node-size node2))
(let loop ([elts2 (Node-elts node2)])
(cond
[(pair? elts2)
(letv ([(m0 c0) (diff-node node1 (car elts2))])
(cond
[(or (same-def? node1 (car elts2))
(and (zero? c0)
(or (big-node? node1)
(same-ctx? node1 (car elts2)))))
(let ([frame (extract-frame node2 (car elts2) ins)])
(values (append m0 frame) c0))]
[else
(loop (cdr elts2))]))]
[else
(values #f #f)]))]
[else
(let loop ([elts1 (Node-elts node1)])
(cond
[(pair? elts1)
(letv ([(m0 c0) (diff-node (car elts1) node2)])
(cond
[(or (same-def? (car elts1) node2)
(and (zero? c0)
(or (big-node? node2)
(same-ctx? (car elts1) node2))))
(let ([frame (extract-frame node1 (car elts1) del)])
(values (append m0 frame) c0))]
[else
(loop (cdr elts1))]))]
[else
(values #f #f)]))])]
[else (values #f #f)])))
;-------------------------------------------------------------
; finding moves
;-------------------------------------------------------------
(define big-node?
(lambda (node)
(>= (node-size node) *move-size*)))
(define big-change?
(lambda (c)
(cond
[(ins? c)
(big-node? (Change-new c))]
[(del? c)
(big-node? (Change-old c))]
[(mov? c)
(or (big-node? (Change-old c))
(big-node? (Change-new c)))])))
(define node-sort-fn
(lambda (x y)
(let ([name1 (get-name x)]
[name2 (get-name y)])
(cond
[(and name1 name2)
(string<? (symbol->string name1)
(symbol->string name2))]
[(and name1 (not name2)) #t]
[(and (not name1) name2) #f]
[else
(< (Node-start x) (Node-start y))]))))
;; iterate diff-list on the list of changes
(define find-moves
(lambda (changes)
(set! *moving* #t)
(set! *diff-hash* (make-hasheq))
(let loop ([workset changes]
[finished '()])
(diff-progress "|")
(letv ([dels (filter (predand del? big-change?) workset)]
[adds (filter (predand ins? big-change?) workset)]
[rest (set- workset (append dels adds))]
[ls1 (sort (map Change-old dels) node-sort-fn)]
[ls2 (sort (map Change-new adds) node-sort-fn)]
[(m c) (diff-list ls1 ls2)]
[new-moves (filter mov? m)])
(cond
[(null? new-moves)
(let ([all-changes (append workset finished)])
(apply append (map deframe-change all-changes)))]
[else
(let ([new-changes (filter (negate mov?) m)])
(loop new-changes
(append new-moves rest finished)))])))))
;; poor man's progress bar
(define diff-progress
(new-progress 10000))
(define cleanup
(lambda ()
(set! *diff-hash* #f)))
;; main diff function
;; returns all changes after diffing and moving
(define diff
(lambda (node1 node2)
(letv ([start (current-seconds)] ; start timer
[size1 (node-size node1)]
[size2 (node-size node2)])
(printf "[info] size of program 1: ~a~n" size1)
(printf "[info] size of program 2: ~a~n" size2)
(set-node-context node1 'top)
(set-node-context node2 'top)
(printf "[diffing]~n")
(letv ([(changes cost) (diff-node node1 node2)])
(diff-progress 'reset)
(printf "~n[moving]~n")
(letv ([changes (find-moves changes)]
[end (current-seconds)])
(printf "~n[finished] ~a seconds~n" (- end start))
(printf "~n[info] count: ~a~n" (diff-progress 'get))
(cleanup)
changes)))))