rdtheory

0.0.5 • Public • Published

rdtheory -- various tools and algorithms from relational database theory

NPM

Installation

npm install rdtheory

Usage

Closure

You can use rdtheory to find the closure of a set of attributes under (with respect to) a set of functional dependencies:

var Ssn  = new rdtheory.Attribute("Ssn");
var Ename = new rdtheory.Attribute("Ename");
var Pnumber = new rdtheory.Attribute("Pnumber");
var Pname = new rdtheory.Attribute("Pname");
var Plocation = new rdtheory.Attribute("Plocation");
var Hours = new rdtheory.Attribute("Hours");

var a = new rdtheory.FD(Ssn, Ename);
var b = new rdtheory.FD(Pnumber, [Pname, Plocation]);
var c = new rdtheory.FD([Ssn, Pnumber], Hours);

var F = new rdtheory.FDSet([a, b, c]);
var closure =  new rdtheory.AttributeSet([Ssn]).closureUnder(F);
console.log(closure.toString()); // will continue "Ssn" and "Ename"

Coverage testing

You can use rdtheory to test if one set of functional dependencies covers another:

var A = new rdtheory.Attribute("A");
var C = new rdtheory.Attribute("C");
var D = new rdtheory.Attribute("D");
var E = new rdtheory.Attribute("E");
var H = new rdtheory.Attribute("H");

var f1 = new rdtheory.FD(A, C);
var f2 = new rdtheory.FD([A, C], D);
var f3 = new rdtheory.FD(E, [A, D]);
var f4 = new rdtheory.FD(E, H);

var g1 = new rdtheory.FD(A, [C, D]);
var g2 = new rdtheory.FD(E, [A, H]);

var F = new rdtheory.FDSet([f1, f2, f3, f4]);
var G = new rdtheory.FDSet([g1, g2]);

console.log(F.covers(G)) // true
console.log(G.covers(F)) // true

You can also use coverage tests to perform equivalence tests (F is equivelant to G if F covers G and G covers F):

console.log(F.equivalentTo(G)) // true

Minimal covers

You can use rdtheory to find a minimal cover of a set of functional dependencies:

var A = new rdtheory.Attribute("A");
var B = new rdtheory.Attribute("B");
var C = new rdtheory.Attribute("C");
var D = new rdtheory.Attribute("D");
var E = new rdtheory.Attribute("E");

var e1 = new rdtheory.FD(B, A);
var e2 = new rdtheory.FD(D, A);
var e3 = new rdtheory.FD([A, B], D);
E = new rdtheory.FDSet([e1, e2, e3]);

var minCover = E.minimalCover();
console.log(minCover.toString); // will contain B -> D and D -> A

Finding primiary keys

You can use rdtheory to find the primary keys of a relation:

var Name = new rdtheory.Attribute('Name');
var Address = new rdtheory.Attribute('Address');
var Phone = new rdtheory.Attribute('Phone');
var ZipCode = new rdtheory.Attribute('ZIP');

var f1 = new rdtheory.FD(Name, Address);
var f2 = new rdtheory.FD(Name, Phone);
var f3 = new rdtheory.FD(Address, ZipCode);

var attrs = new rdtheory.AttributeSet([Name, Address, Phone, ZipCode]);
var fds = new rdtheory.FDSet([f1, f2, f3]);

var R = new rdtheory.Relation(attrs, fds);
console.log(R.findPossibleKey().toString()); // will be Name

Loseless join and dependency preserving 3NF decomposition

You can use rdtheory to decompose a relation into 3NF:

var Name = new rdtheory.Attribute('Name'); // A
var Address = new rdtheory.Attribute('Address'); // B
var Phone = new rdtheory.Attribute('Phone'); // C
var ZipCode = new rdtheory.Attribute('ZIP'); // D
var Dept = new rdtheory.Attribute('Dept'); // E
var Manager = new rdtheory.Attribute('Manager'); // F
var YearsEmployed = new rdtheory.Attribute('Years'); // G
var Pay = new rdtheory.Attribute('Pay'); // H

var f1 = new rdtheory.FD(Name, [Address, Phone, Dept]);
var f2 = new rdtheory.FD(Dept, Manager);
var f3 = new rdtheory.FD(Address, ZipCode);
var f4 = new rdtheory.FD([Dept, YearsEmployed], Pay);


var attrs = new rdtheory.AttributeSet([Name, Address, Phone, ZipCode, Dept, Manager, YearsEmployed, Pay]);
var fds = new rdtheory.FDSet([f1, f2, f3, f4]);

var R = new rdtheory.Relation(attrs, fds);

var D = R.decomposeTo3NF();
console.log(D.toString()); // the decomposition

Obviously, this isn't very well documented (yet). Here's a demo you can play around with.

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npm i rdtheory

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  • ryanmarcus