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dijkstra.js
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var Dijkstra = function(start_point, end_point, r ){
//initialy infinit = 888
var PInfinit = 888;
//this function try to find out the number of nodes from directed graph
var nodes = (function( r ) {
var vec = [];
for(var i=0;i<r.length;i++) {
for(var j=0;j<2;j++)
vec.push( r[ i ][ j ] );
}
function max(a,b){
if(a>b) return a
else return b
}
function maxN( li, ls ) {
if(li == ls)
return vec[ li ]
else
m = parseInt((li+ls)/2)
return max(maxN(li,m), maxN(m+1,ls));
}
return maxN(0, vec.length - 1)
})( r )
var start = start_point,
end = end_point;
var output = [];
//declare a matrix with n rows and m columns
var createMatrix = function(rows, columns) {
var mat = new Array( rows );
for (var i = 0; i < rows; i++)
mat[i] = new Array( columns );
return mat;
};
//just declare and create an array and fill them with a for loop
var createArray = function( n ) {
var arr = new Array( n )
for(var i = 0; i< arr.length; i++)
arr[i] = 0;
return arr;
}
var matrix = r,
Road = createMatrix(nodes + 1, nodes + 1),
R = createArray( nodes + 1 ),
F = createArray( nodes + 1 ),
S = createArray( nodes + 1 ),
get = function( node ) {
if( F[ node ] ) get( F[ node ] )
output.push( node )
},
getCost = function() {
return ( R[ end ] )
},
getShortestPath = function() {
get( end );
return output;
},
read = (function() {
var n = r.length, x, y, cost;
for(var i = 1; i <= nodes; i++) {
for(var j = 1; j <= nodes; j++) {
if(i == j) Road[i][j] = 0;
else Road[i][j] = PInfinit;
}
}
for(var i = 0; i < n; i++) {
x = matrix[i][0];
y = matrix[i][1];
cost = matrix[i][2];
Road[x][y] = cost
}
})(),
solve = (function() {
var min, posMin;
S[start] = 1;
for(var i = 1; i <= nodes; i++) {
R[ i ] = Road[ start ][ i ];
if( start != i )
if( R[ i ] < PInfinit)
F[ i ] = start
}
//execute n-1 times
for(var i=1; i <= nodes-1;i++) {
min = PInfinit
for(var k = 1; k <= nodes; k++) {
if(S[ k ] == 0)
if(R[ k ] < min) {
min = R[ k ]
posMin = k
}
}
//marked the node as selected
S[ posMin ] = 1
for(var j = 1; j <= nodes; j++) {
if(S[j] == 0)
if(R[ j ] > R[ posMin ] + Road[ posMin ][ j ]) {
R[ j ] = R[ posMin ] + Road[ posMin ][ j ]
F[ j ] = posMin
}
}
}
})();
return {
getCost: getCost,
getShortestPath: getShortestPath
}
}