implementing prolog with coroutines

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Implementing Prolog with Coroutines

Ras Bodik, Thibaud Hottelier, James IdeUC Berkeley

CS164: Introduction to Programming Languages and Compilers Fall 2010

HW3 post mortem

Q2 Part 2: “What do coroutines buy us?”

Problem: Implement function concat2 that concatenates its arguments but avoids creating an explicit list.

Example use:for i in concat2(range(3,100000), lst) {     print i    if (i>5) { null }}

concat2 with closure-based iterators

def concatBasedOnIterators(l1,l2) { # if the argument is a list, get its iterator if (type(l1) == "obj") { l1 = _getIterator_(l1) } if (type(l2) == "obj") { l2 = _getIterator_(l2) } def e1 = l1() lambda() { if (e1 != null) { def old_e1 = e1 e1 = l1(); old_e1 } else { l2()} } }

concat2 with coroutine iterators

def concatCoroutines(l1,l2) { wrap(lambda(_) { for e in l1 { yield(e) } for e in l2 { yield(e) } null })}

Prolog Basics

Program:eat(thibaud, vegetables).eat(thibaud, fruits).eat(lion, thibaud).

Queries:eat(thibaud, lion)?eat(thibaud, X)?

Structure of Programs

works(ras). Fact (Axiom)works(thibaud) :- works(ras). Ruleworks(X)? Query

In a rule:a(X, Y) :- b(X,Z), c(Z,Y)

VariableConstant

Head Body

Free Variable

Clause

Execution

Function process: Goal -> Solution

Initial goal: works(X)1. works(X) | works(ras) compatible? X=ras

2. works(X) | works(thibaud) compatible? X=thibaud creates subgoal: works(ras)

2.1 works(ras) | works(ras) compatible? {}

works(ras).works(thibaud) :- works(ras).

works(X)? <-- query: our goal

Solutions

Function process: Goal -> Solution

Operations:unify: Are two terms compatible? If yes, give a unifier a(X, Y) | a(1, 2) --> {X -> 1, Y -> 2}

subst: Apply Substitution on clausessubst[a(X, Y), {X -> ras, Y -> Z}] --> a(ras, Z)

ClauseEx: eat(X, thibaud) List of substitutions

Ex: {X -> ras, Y -> Z}

Unification

What does it means to be compatible?

a(1,Y) | a(X,2)a(X) | b(X)a(1,Y) | a(2,X)a(1, Y) | a(1, X)

The result of unify(term1, term2) is Most General Unifier (mgu)

More on Unification

Got it? What about these two…

a(X,Y) | a(b(Y),c(Z))

a([1|X]) | a(X)

Robinson 1965

Interpreter Structure (1)

process(goal) {for rule in program {

mgu = unify(rule.head, goal) if (mgu) { if (rule has no body) print mgu else process(body) }

}}

works(ras).works(thibaud) :- works(ras).works(X)?

this interpreter works for rules

with one clause in their bodies

Note that we are not handling unification and substitution yet.

We’ll this at the very end. For now, let’s focus on control transfer.

So far we are handling disjunction

head(A,B) :- ….

head(X,Y) :- a(X), b(X,Z), c(Y, Z, D)

head(X,Y) :- ….

for rule in alternative rules

Conjunctions

Goal: gp(W, ed)gp(W, ed) | gp(X, Y) {Y = ed, X = W}gp(W, ed) :- parent(W, Z), parent(Z, ed).subgoal 1: parent(W, Z)

parent(W, Z) | parent(john, ed) {W = john, Z=ed}gp(john, ed) :- parent(john, ed), parent(ed, ed).subgoal 2: parent(ed, ed)

Fail! No Unifier

parent(john, ed).parent(bob, john).gp(X,Y) :- parent(X,Z), parent(Z, Y).gp(W, ed)?

Attempt at interpreter with conjunction

process(goal) { for (rule in program) { mgu = unify(rule.head, goal) if (mgu) { if (rule has no body) return mgu else conjunction(rule.body, 0)} } }conjunction(clauses, depth) { goal = clauses[depth] mgu = process(body) if (mgu) {

if (depth reached the last clause) return mgu else return conjunction(clauses, depth+1)

} else { no solution! must backtrack to previous clause and ask for its next solution (how?)} }

Recursion in conjunction() needs to backtrack and try alternative goals for each clause

head(A,B)….

head(X,Y) :- a(X), b(X,Z), c(Y, Z, D)

head(X,Y)….

for rule in alternative rulesRecursive function conjunction()

Give each clause in a conjunction a coroutine to enumerate its solutions

process(goal) { for (rule in program) { mgu = unify(rule.head, goal) if (mgu) { if (rule has no body) yield(mgu) else conjunction(rule.body, 0)} } }

conjunction(clauses, mgus, depth) { goal = clauses[depth] solutions = coroutine.wrap(process, body) for (mgu in solutions) {

if (depth reached the last clause) yield(mgu) else conjunction(clauses, depth+1)

} }

The complete view of control transfer

head(A,B)….

head(X,Y) :- a(X), b(X,Z), c(Y, Z, D)

head(X,Y)….

for rule in alternative rulesrecursive function concjunction()

coroutine process()coroutine process()

coroutine process()

Finally, we add substitution of variables in subgoals and merging of unifiers from subgoals into the final solutionprocess(goal) { for (rule in program) { mgu = unify(rule.head, goal) if (mgu) { if (rule has no body) yield(mgu) else conjunction(subst(rule.body,mgu), {}, 0)} } }

conjunction(clauses, mgus, depth) { goal = clauses[depth] solutions = coroutine.wrap(process, body) for (mgu in solutions) {

if (depth reached the last clause) yield(merge(mgu,mgus)) else conjunction(subst(clauses, mgu), merge(mgu,mgus), depth+1)

} }