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/* | |
we create 2 separate arrays of letters and count | |
the number of characters resulting from the | |
original precedence array. | |
we look up the index of each letter from first letter | |
array and follow the index of the next letter. | |
*/ | |
function findWord(a){ | |
console.log(a); | |
let split = []; | |
let len = a.length; | |
let original = a; | |
let firstLetter = [], | |
secondLetter =[], | |
currentIndex = 0, | |
count = {}, | |
letter; | |
//count the number of repetitions for each letter | |
while(currentIndex<len){ | |
firstLetter.push(a[currentIndex].charAt(0)); | |
secondLetter.push(a[currentIndex].charAt(2)); | |
recordLetter(count, a[currentIndex].charAt(0), a[currentIndex].charAt(2)); | |
//console.log(count); | |
currentIndex++; | |
} | |
//console.log(firstLetter, secondLetter, count); | |
//The first letter should be in firstLetter array | |
//and has count of 1. | |
let first; | |
for(let c in count){ | |
if(count[c] === 1){ | |
if(firstLetter.indexOf(c) >= 0) first = c; | |
} | |
} | |
let result = first; | |
currentIndex = firstLetter.indexOf(first); | |
let times = 0; | |
while(times < len){ | |
result += secondLetter[currentIndex]; | |
currentIndex = firstLetter.indexOf(secondLetter[currentIndex]); | |
times++; | |
} | |
console.log(result); | |
return result; | |
} | |
function recordLetter(count, letter1, letter2){ | |
count[letter1] = count[letter1] ? count[letter1]+1 : 1; | |
count[letter2] = count[letter2] ? count[letter2]+1 : 1; | |
return count; | |
} | |
findWord(["P>E", "E>R","R>U"]) // PERU | |
findWord(["I>N", "A>I","P>A","S>P"]) // SPAIN | |
findWord(["U>N", "G>A", "R>Y", "H>U", "N>G", "A>R"]) // HUNGARY | |
findWord(["I>F", "W>I", "S>W", "F>T"]) // SWIFT | |
findWord(["R>T", "A>L", "P>O", "O>R", "G>A", "T>U", "U>G"]) // PORTUGAL | |
findWord(["U>N", "G>A", "R>Y", "H>U", "N>G", "A>R"]) // HUNGARY | |
findWord(["I>F", "W>I", "S>W", "F>T"]) // SWIFT | |
findWord(["R>T", "A>L", "P>O", "O>R", "G>A", "T>U", "U>G"]) // PORTUGAL | |
findWord(["W>I", "R>L", "T>Z", "Z>E", "S>W", "E>R", "L>A", "A>N", "N>D", "I>T"]) // SWITZERLAND |
Could you share the source of the problem. I want to find similar problems.
Yeah me too!
It was also asked by Toptal in their technical interview, to be solved in 15 minutes.
Javascript Readable Solution with explanation:
const findWord = (rulesArray) => {
// this problem is solved by building a precedence (rules) hash map of which letter points to which
// then we find first letter; a letter that does'nt appear as a second letter in any rule
// then we iterate through the rules and build the word by following hash map
// the algo for word looks like this first letter = key -> value -> key -> value
const hashMap = {};
rulesArray.forEach(([leftLetter, _, rightLetter]) => {
hashMap[leftLetter] = rightLetter
})
let startingLetter = Object.keys(hashMap).find(letter => !Object.values(hashMap).includes(letter));
let word = startingLetter;
rulesArray.forEach(_ => {
word += hashMap[startingLetter];
startingLetter = hashMap[startingLetter];
});
return word;
}
Array.prototype.insert = function ( index, item ) {
this.splice( index, 0, item );
};
const findWord = (arr) => {
let sol = []
for(let i=0;i<100;i++){
const element = arr[i]
if(!element){
break;
}
const splitArr = element.split('>')
if(sol.length <=0){
sol = [...splitArr]
}else{
const index = sol.indexOf(splitArr[0])
if(index >= 0){
sol.insert(index+1, splitArr[1])
}else{
const seconIndcex = sol.indexOf(splitArr[1])
if(seconIndcex >=0){
sol.insert(seconIndcex,splitArr[0])
}else{
arr.push(element)
}
}
}
}
return sol.join('')
}
A ruby version
def findWord(rules)
nodes = {}
end_letters = []
start_letters = []
rules.each do |rule|
first, second = rule.split(">")
start_letters << first
end_letters << second
nodes[first] = second
end
start_letter = start_letters.find{|ltr| !end_letters.include?(ltr) }
word = ""
current_letter = start_letter
loop do
break if current_letter.nil?
word += current_letter
current_letter = nodes[current_letter]
end
word
end
This is my answer is python. Not as smart as the solutions above, but thought i might share :)
def findChar(c, d):
for i in d:
if c in i:
return d.index(i)
return -1
findChar("U", [["W",'I'],['U']])
def findWord(rules):
d = []
count = 0
for r in rules:
ch = r.split(">")
a = ch[0]
b = ch[1]
print(a, b)
a_pos = findChar(a, d)
b_pos = findChar(b, d)
if a_pos == -1 and b_pos == -1:
d.append([a,b])
elif a_pos != -1 and b_pos == -1:
d[a_pos].append(b)
elif b_pos != -1 and a_pos == -1:
d[b_pos].insert(0, a)
elif a_pos > b_pos:
d[a_pos], d[b_pos] = d[b_pos], d[a_pos]
return "".join([x for i in d for x in i])
findWord(["W>I", "R>L", "T>Z", "Z>E", "S>W", "E>R", "L>A", "A>N", "N>D", "I>T"])
findWord(["A>B","C>D","A>C","D>B"])
The above solutions don't work for this edge case. Expected answer should be ACDB.
Still thinking of the final solution...
This is a Topological sorting
using Kahn's algorithm
def findWord(st):
left = [x[0] for x in st]
right = [y[-1] for y in st]
L = []
S = list(set(left) - set(right))
while len(S) > 0: #while S is not empty do
n = S.pop() #remove a node n from S
L.append(n) #add n to L
for i in range(len(left)): # for each node m with an edge e from n to m do
m = right[i]
if left[i] == n:
#remove edge e from the graph
left[i] = 0
right[i] = 0
if m not in right: #if m has no other incoming edges then
S.append(m) #insert m into S
if any(left): #if graph has edges then
return "graph has at least one cycle"
else:
return L #(a topologically sorted order)
findWord(["W>I", "R>L", "T>Z", "Z>E", "S>W", "E>R", "L>A", "A>N", "N>D", "I>T"])
findWord(["A>B","C>D","A>C","D>B"])
import collections
def find_word(array):
graph = collections.defaultdict(list)
for pair in array:
[prev, next] = pair.split(">")
graph[prev].append(next)
res = ""
visited = set()
def topo_dfs(node):
nonlocal res
if node in visited:
return
visited.add(node)
for nei in graph[node]:
if nei not in visited:
topo_dfs(nei)
res = node + res
for ch in list(graph.keys()):
if ch not in visited:
topo_dfs(ch)
return res
I've just found your repo in a Google search. I was trying to solve this one. Here is my answer in Ruby.
def find_word(arr)
# find initial string
last_letters = arr.map { |str| str[2] }
first_letters = arr.map { |str| str[0] }
initial = first_letters - last_letters
initial_str = arr.filter { |str| str.start_with?(*initial) }.first
# add first string to new_arr and delete it from the original arr
new_arr = []
new_arr.push(initial_str[0], initial_str[2])
arr.delete(initial_str)
# iterate, get next char and add to new_arr
while arr.length >= 1
arr.each do |str|
if str.start_with?(new_arr.last)
new_arr << str[2]
arr.delete(str)
end
end
end
return new_arr.join
end
I was asked to write a solution for this problem in just 25 minutes. But, I could not get selected by Toptal. It took me one day to solve the problem partially. I will post coding using java soon.
Could you share the source of the problem. I want to find similar problems.