# Efficient Scala Implementation of Substitutions Merge

Assume we have two substitutions, each of which is a list of pairs, how can we merge them efficiently? The pair size in one list is usually large (most are about 100, some are 5000 or larger). More formal definition:

• Substitution ::= List[Pair[Term]]
• Term ::= Variable | Constant
• Variable ::= Int of format :0xXXXXXXXXXXXX11 // for example: v1=7, v2=11, v3=15, ....
• Constant ::= Int of format :0xXXXXXXXXXXXX10 // for example: c1=6, c2=10, c3=14, ....

Condition: One pair only maps a variable to a constant, or a variable to another variable. It can't map a constant to another constant or a variable.

Note:

1. It is possible that two substitutions can't merge: for example. merge List( (7, 6), (11, 10) and List(7, 11) /* {v1->c1, v2->c2} and {v1->v2} */
2. Input substitutions are always valid, meaning condition holds at the beginning. There is no identicial pair.
3. For simplicity, variables appear in the left part of any pair cannot be appeared in the right part of any pair. For any two pairs, the left parts are always different.

Question:

1. What is an efficient encoding for a term.
2. What is an efficient encoding for a substitution.
3. What is the best way to merge two substitution.

Thank you!

UPDATED Algorithm Description(merge one new pair p=(s, t) into a list (L) )

1. If in the new pair p, s is a constant and t is a variable, then change to (v, c);
2. If the new pair is identical s=t, then remove and DONE;
3. If the new pair is mapping a constant to another constant(c1<>c2), then fail and DONE;
4. If t exists in the left part of one pair in the substitution L, replace it by the right part of that pair;
5. If s exists in the left part of one pair, save the right part of the pair as t2 and goto 7; if no such pair, goto 6; 6 If the right part of a pair in the substitution is equal to s, then replace it by t; Adds (s, t) to the list L; and DONE;
6. If (s, t) is already in list L, return L and DONE;
7. If t and t2 are constants, then fail and DONE;
8. If t is a constant goto 10 else goto 11;
9. If the right part of a pair in the substitution is equal to t2, then replace it by t; Adds (t2, t) to the list L; and DONE;
10. If the right part of a pair in the substitution is equal to t, then replace it by t2; Adds (t, t2) to the list L; and DONE;

Basic Term Definition: Term may use some other data structure.

``````object Terms {
type Term = Int
@inline final def isV( t : Term ) = ((t & 3) == 0x3)
@inline final def isC(t : Term) = ((t & 3) == 0x2)
}
object MERGEException extends Exception
``````

Main Scala Code:

``````final case class Subst( _data : List[ Tuple2[Int, Int] ] ) {
type Term = Int
type PairType = Tuple2[Term, Term]
type ListType = List[PairType]

// Find a pair in the list, which the first element matches the query t
// Returns the second element if found; t if no match
private final def find(t : Term, list : ListType) : Term =
list match {
case List() => t
case h :: list2 =>
val cmp = h._1 - t
if(cmp < 0) find(t, list2)
else if(cmp == 0) h._2
else t
}
// Replace s for t in the substitution (right part)
private final def replace_helper(s : Term, t : Term, list : ListType) : ListType =
list.map( h => if(h._2 equals s) (h._1, t) else h).distinct
// Assume: s in not in the list
private final def add(s : Term, t : Term, list : ListType) : ListType = {
var wlist = list
var rlist : ListType = List.empty
while(wlist != List.empty) {
if(h._1 < s) {
rlist = rlist ::: List(h)
wlist = wlist.tail
} else
return rlist ::: ( (s, t) :: wlist )
}
return rlist ::: List( (s, t) )
}
private final def merge_helper(e : PairType, list : ListType) : ListType = {
// Orient the pair of SubTerms
def orient(s : Term, t : Term) : PairType =
if( Terms.isC(s) && !Terms.isC(t) ) (t, s)
else (s, t)

// Orientation
var (s, t) = orient(e._1, e._2)
// Remove identical pair
if(s equals t) return list
// Constant
if(Terms.isC(s) && Terms.isC(t)) throw MERGEException

if(list == List.empty) return List((s, t))

// If t exists in the left part of one pair, replace it by the right part of the pair
t = find(t, list)
if(s equals t) list
// now t is not in the left part of any pair

val t2 = find(s, list)
if(t2 equals s) {
// s doesn't appear in the left part of existed elements
add( s, t, replace_helper(s, t, list) )
} else {
// s appears in the left part of existed elements
if( t2 equals t ) list
else {
// s appear in the left part of existed elements
// then s doesn't appear in the right part of existed elements
// and isDirected = false
//merge_helper( (t, t2), list, isDirected )
if(Terms.isC(t) && Terms.isC(t2)) throw MERGEException
else if(Terms.isC(t)) {
add( t2, t, replace_helper(t2, t, list) )
}
else add( t, t2, replace_helper(t, t2, list) )
}
}
}
// Merge a pair into the substitution
final def merge( e : PairType ) : Option[Subst] = {
try {
val ret = merge_helper(e, _data)
return Some( Subst(ret) )
} catch {
case MERGEException => return None
}
}
// Union a new substitution together
final def union(s : Subst) : Option[Subst] = {
try {
if(_data.isEmpty) return Some(s)
else if(s.isEmpty) return Some(this)
else {
var ret = _data
var Subst(slist) = s
slist.foreach( e =>
ret = merge_helper(e, ret) )
return Some( Subst(ret) )
}
} catch {
case e => return None
}
}
final def isEmpty = _data.isEmpty
}
``````

Testing Code:

``````// Test case 1
val s1 = Subst( List( (7, 6), (11, 10) ) )  // {v1->c1, v2->c2}
val s2 = Subst( List( (7, 11) ) )  // {v1->v2}
val s3 = s1.union(s2)  // none
// Test case 2
val s12 = Subst( List( (7, 6), (11, 6), (23, 19), (27, 15), (31, 35) ) ) // {v1->c1, v2->c1, v5->v4, v6->v3, v7->v8}
val s22 = Subst( List( (11, 7), (15, 7), (19, 10) ) ) // {v2->v1, v3->v1, v4->c2}
val s32 = s12.union(s22)  // Some( Subst( List( (7, 6), (11, 6), (15, 6), (19, 10), (23, 10), (27, 6), (31, 35) ) ) )
``````
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@RexKerr can you give me some suggestions? Thank you :) –  Tianyi Liang Nov 17 '11 at 20:20
The condition given seems to restrict you to having either (V, C) or (V1, V2) and note 3 seems to restrict V2 from being used in a left position. Perhaps you could take a step back and check those assumptions. When you are sure about definitions, try replacing the if and else code with pattern matching which should make things clearer too. –  Don Mackenzie Nov 17 '11 at 22:10
It is true that if (V1, V2) prevent V2 to be the left part of any pair. For any valid substitution, to satisfy this property is trivial. For example, if we have (V1, V2) and (V2, V3); we can always change to (V1, V3) and (V2, V3). The reason to do so is to normalize the substitution. @DonMackenzie –  Tianyi Liang Nov 17 '11 at 22:19
`BitSet` seems fairly efficient to me. What do you have against it? –  Daniel C. Sobral Nov 17 '11 at 23:02
Also, `IntMap` is quite efficient. What's the problem with that? –  Daniel C. Sobral Nov 17 '11 at 23:04