prolog programming introduction to prolog
DESCRIPTION
Prolog programming Introduction to Prolog . CS 461. What is Prolog programming? . Prolog is a programming language for symbolic , non-numeric commutation. It solves problems that involve objects and relations between objects. . Defining relations by facts. - PowerPoint PPT PresentationTRANSCRIPT
Prolog programmingIntroduction to Prolog
CS 461
What is Prolog programming ?• Prolog is a programming language for
symbolic , non-numeric commutation.
•It solves problems that involve objects and relations between objects.
Defining relations by facts•The fact that Tom is a parent of Bob can
be written in prolog as:
Parent(tom, bob).
•tom and bob are objects,• Parent(tom, bob) is a relation between
these objects.
Defining relations by facts•The whole family tree can be described by
the following facts:Parent(pam,bob).Parent(tom,bob).Parent(tom,liz).Parent(bob,ann).Parent(bob,pat).Parent(pat,jim).
pam
tom
bob liz
ann pat
jim
Defining relations by facts•We can also add information about the sex of
the people by the following facts:
female(pam).male(tom).male(bob).female(liz).female(pat).female(ann).male(jim).
Defining relations by facts
•female(pam) is a Unary relation
•parent(bob,pat) is a Binary relation.
Think about this relation:Sex(pam, feminist).
Questions in prolog.
•Prolog can posed questions about any relation.
•So, we can ask a question about Parent relation,
•For example : Is bob a parent of Pat? ?- Parent(bob,pat).
The answer will be YES.
•Another question can be asked: Who is Liz’s parent?
?- Parent(X, liz).
The answer here will not be Yes/No, rather, prolog will find the value of X. So the answer is : tom
Questions in prolog.
pam
tom
bob liz
ann pat
jim
Class exercise(1)
•Who are bob’s children?•Who is parent of whom?
pam
tom
bob liz
ann pat
jim
Questions in prolog.•In prolog, we can ask more complicated
questions such as: Who is a grandparent of jim?
?- Parent(Y,jim) , Parent( X,Y).
The answer will be:X=bobY=pat
X
Y
jim
Parent
Parentgrandparent
Class exercise(2)•Who are Tom’s grandchildren?
Questions in prolog.•Do ann and pat have a common
parents?
?- Parent(X,ann) , Parent(X, pat).The answer will be : X = bob.
Some important points• A prolog program consists of clauses, each clause
ends with a full stop.
• The arguments of relation can be concrete objects, constant objects (such as bob and pat) or general object (such as X and Y).
• Questions in prolog consist of one or more goals.
parent(X,ann),parent(X,pat) means the conjunctions of the goals:X is parent of ann , andX is parent of Pat.
Defining relations by rules.• Consider the relation offspring: offspring(liz, tom)
• This relation can be defined by making use of the fact that : the parent is the inverse of offspring.
• The alternative way can be based of the following logical statements:
For all X and Y, Y is an offspring of X if X is a parent of Y.
Defining relations by rules.• In prolog we can define the offspring relation in the
following way:
Offspring(Y,X) :- Parent(X, Y)
• This clause is called a rule
• The differences between rule and fact:Fact: is a something that always, unconditionally true.Rule: specify things that are true if some condition is
satisfied.
Defining relations by rules.•Each rule has two parts:1. Condition. (The right hand side)2. Conclusion. (The left hand side)
•offspring(X,Y):-parent(Y,X).offspring(X,Y) -> is a conclusion part.parent(X,Y) -> is a condition part.
Defining relations by rules.•How rules are actually used by prolog
program?Consider the following question:
?- offspring(liz, tom)
There are no facts in the program about the offspring, therefore, the only way to find the answer is to apply the rule about offspring relation.
Defining relations by rules.• Now we want to apply this rule:Offspring(Y,X) :- Parent(X, Y)
to find the answer of this question: ?- offspring(liz, tom).
1. X= tom, Y= liz.2. The initial goal is: offspring(liz,tom).3. The condition part become: parent(tom,liz).4. The initial goal will be replaced with the subgoal parent(tom,liz).5. Program can find the answer of this subgoal by using the facts
about parent relation.6. After finding that the condition part is true, the conclusion part
will be also true.
Class exercise(2)•Write a rule to describe the
grandparent relation?
Home exercise(1)•Write a rule to describe the sister
relation?
Recursive rule•Let’s describe the predecessor relation ,
this relation will be defined in term of parent relation.
•For all X and Z X is a predecessor of Z if X is a parent of Z
predecessor(X,Z):- parent(X,Z).
Recursive rule• What about indirect predecessor?• The rule will be as the following:predecessor(X,Z):- parent(X,Y),parent(Y,Z) predecessor(X,Z):- parent(X,Y1),parent(Y1,Y2).parent(y2,Z).
…….…….
x
Y1
z
y2
Y3
Predecessor
parent
parent
parent
parent
Recursive ruleFor all X and Zthere is a Y such that (1)X is the parent of Y , and(2) Y is a predecessor of Z.
predecessor(X, Z) parent(X,Y),predecessor(Y,Z).
x
Y1
z
y2
Y3
Predecessor
parent
parent
parent
parent
Predecessor