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algo-time-complexity-review.js
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algo-time-complexity-review.js
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/////////// Prompt 1 ///////////
/////////// time complexity:
function findMax(array){
var max = -Infinity;
for (var i = 0; i < array.length; i++){
if (array[i] > max){
max = array[i];
}
}
return max;
}
/////////// Prompt 2 ///////////
/////////// time complexity:
function contains(array, target){
return array.indexOf(target) > -1;
}
/////////// Prompt 3 ///////////
/////////// time complexity:
function partialContains(array, target, start){
return array.slice(start).indexOf(target) > -1;
}
/////////// Prompt 4 ///////////
/////////// time complexity:
function square(array){
for (var i = 0; i < 3; i++){
array[i] = array[i] * array[i];
}
return array;
}
/////////// Prompt 5 ///////////
/////////// time complexity:
function repeat(array){
var repeat = [];
for (var j = 0; j < 10; j++){
repeat[j] = [];
for (var i = 0; i < array.length; i++){
repeat[j].push(array[i]);
}
}
return repeat;
}
//what if we replace 10 with a parameter?
/////////// Prompt 6 ///////////
/////////// time complexity:
function gcf(num1, num2){
if (num1 > num2){ //this ensures num1 is the smaller number
var temp = num1;
num1 = num2;
num2 = temp;
}
for (var i = num1; i > 1; i--){
if (num1 % i === 0 && num2 % i === 0){
return i;
}
}
return 1;
}
/////////// Prompt 7 ///////////
/////////// time complexity:
function countChar(string){
var counts = {};
var currChar, currCharCount;
for (var i = 0; i < string.length; i++){
currChar = string[i];
currCharCount = 1;
for (var j = i+1; j < string.length; j++){
if (currChar === string[j]){
currCharCount++;
}
}
if (!counts.hasOwnProperty(currChar)){
counts[currChar] = currCharCount;
}
}
return counts;
}
/////////// Prompt 8 ///////////
/////////// time complexity:
var factorial = function(num){
if (num < 0){
return;
}
if (num === 0 || num === 1){
return 1;
} else {
return num * factorial(num-1);
}
}
/////////// Prompt 9 ///////////
/////////// time complexity:
function tournament(players){
var results;
if (players.length < 3){
return players[0];
} else {
results = hotPotato(players);
//assume hotPotato is a function where sets of
//three players are teleported simultaneously
//to a room with a potato. at the end of 5 minutes,
//the player in each room holding the potato is the winner
//and all winners get teleported to the results array
return tournament(results);
}
}
/////////// Prompt 10 ///////////
/////////// time complexity:
function allPasswords(allowedChars, maxLength){
var results = [];
function findPassword(currentAttempt){
if (currentAttempt.length > 0){
results.push(currentAttempt.join(""));
}
if (currentAttempt.length <= maxLength){
for (var i = 0; i < allowedChars.length; i++){
findPassword(currentAttempt.concat(allowedChars[i]));
}
}
}
findPassword([]);
return results;
}
/////////// Prompt 11 ///////////
/////////// time complexity:
function findColor(quadTree, coordinates){
//a quad tree is a tree where each node has 4 children
//or no children, usually used to divide a two-dimensional
//space into coordinates
//coordinates is an array [xpos, ypos]
if (!Array.isArray(quadTree.color)){
return quadTree.color;
} else {
var quadrant = findQuadrant(quadTree, coordinates);
if (quadrant === "NE") {
return findColor(quadTree.color[0], coordinates);
}
if (quadrant === "SE") {
return findColor(quadTree.color[1], coordinates);
}
if (quadrant === "SW") {
return findColor(quadTree.color[2], coordinates);
}
if (quadrant === "NW") {
return findColor(quadTree.color[3], coordinates);
}
}
function findQuadrant(quadTree, coordinates){
var y = (quadTree.coordinates.top + quadTree.coordinates.bottom)/2;
var x = (quadTree.coordinates.left + quadTree.coordinates.right)/2;
if (coordinates[0] > x){
if (coordinates[1] > y){
return "NE";
} else {
return "SE";
}
} else {
if (coordinates[1] > y){
return "NW";
} else {
return "SW";
}
}
}
}
/////////// Bonus! ///////////
/////////// time complexity:
//this will require some math to determine
function tournamentRedux(players){
var results;
if (players.length < 3){
return players[0];
} else {
for (i = 0; i < players.length; i = i + 3){
results.push(hotPotato([players[i], players[i+1], players[i+2]]));
//assume hotPotato is a function where
//the three players at a time must play hot potato for 5 minutes.
//the player in the room holding the potato is the winner
//and gets returned from the function
}
return tournament(results);
}
}