Finding Isogram Word
$begingroup$
An isogram (also known as a "nonpattern word") is a word or phrase without a repeating letter, however spaces and hyphens are allowed to appear multiple times.
The IsIsogram()
method takes a string and returns boolean value.
- INPUT: anik OUTPUT: true
- INPUT: A nika OUTPUT: false
Approach 01: Using Dictionary<TKey, TValue>
static bool IsIsogram(string str)
{
//create a dictionary with 26 keys and assign false as default value
var storeOccurance = new Dictionary<int, bool>();
for (int i = 0; i <= 25; i++)
{
storeOccurance[i] = false;
}
str = Regex.Replace(str, "[ -]", ""); //ignore whitespace and dash
//iterate over each character of the string
foreach (var ch in str.ToLower())
{
//(ch - 'a') is used to calculate the key. Check if the character key has false as it's value,
//meaning they were never stored
if (!storeOccurance[ch - 'a'])
{
storeOccurance[ch - 'a'] = true; //assign true when they are stored in the dictionary
}
else //otherwise, if a character key has true as it's value then it means that it exists in the dictionary
{
return false; //return false and exits the iteration..Multiple occurance in dictionary
//means the string has repeating character so it's not Isogram
}
}
return true;
}
Approach 02: Using HashSet<T>
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if (!charHash.Add(ch) && char.IsLetter(ch))
return false;
}
return true; //otherwise return true
}
Approach 03: Using LINQ
static bool IsIsogram(string str)
{ //Suppose "anik a" is a given string
return str.Where(char.IsLetter) //filter only the letters ||here- only a, n, i, k, a will be taken
.GroupBy(char.ToLower) //create group by characters(and transform them to lowercase) || here, there will be a group for each character a, n, i, k
.All(g => g.Count() == 1); //for every group, count the number of it's element and check if it's 1
//|| here, 'a' group has 2 elements so it return false though other groups has only one element in their group
}
Given those above approaches:
- Which approach would you recommend regarding readability, clean code and performance?
- Is there any scope for improvement in the existing approaches?
c# algorithm programming-challenge linq dictionary
$endgroup$
add a comment |
$begingroup$
An isogram (also known as a "nonpattern word") is a word or phrase without a repeating letter, however spaces and hyphens are allowed to appear multiple times.
The IsIsogram()
method takes a string and returns boolean value.
- INPUT: anik OUTPUT: true
- INPUT: A nika OUTPUT: false
Approach 01: Using Dictionary<TKey, TValue>
static bool IsIsogram(string str)
{
//create a dictionary with 26 keys and assign false as default value
var storeOccurance = new Dictionary<int, bool>();
for (int i = 0; i <= 25; i++)
{
storeOccurance[i] = false;
}
str = Regex.Replace(str, "[ -]", ""); //ignore whitespace and dash
//iterate over each character of the string
foreach (var ch in str.ToLower())
{
//(ch - 'a') is used to calculate the key. Check if the character key has false as it's value,
//meaning they were never stored
if (!storeOccurance[ch - 'a'])
{
storeOccurance[ch - 'a'] = true; //assign true when they are stored in the dictionary
}
else //otherwise, if a character key has true as it's value then it means that it exists in the dictionary
{
return false; //return false and exits the iteration..Multiple occurance in dictionary
//means the string has repeating character so it's not Isogram
}
}
return true;
}
Approach 02: Using HashSet<T>
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if (!charHash.Add(ch) && char.IsLetter(ch))
return false;
}
return true; //otherwise return true
}
Approach 03: Using LINQ
static bool IsIsogram(string str)
{ //Suppose "anik a" is a given string
return str.Where(char.IsLetter) //filter only the letters ||here- only a, n, i, k, a will be taken
.GroupBy(char.ToLower) //create group by characters(and transform them to lowercase) || here, there will be a group for each character a, n, i, k
.All(g => g.Count() == 1); //for every group, count the number of it's element and check if it's 1
//|| here, 'a' group has 2 elements so it return false though other groups has only one element in their group
}
Given those above approaches:
- Which approach would you recommend regarding readability, clean code and performance?
- Is there any scope for improvement in the existing approaches?
c# algorithm programming-challenge linq dictionary
$endgroup$
add a comment |
$begingroup$
An isogram (also known as a "nonpattern word") is a word or phrase without a repeating letter, however spaces and hyphens are allowed to appear multiple times.
The IsIsogram()
method takes a string and returns boolean value.
- INPUT: anik OUTPUT: true
- INPUT: A nika OUTPUT: false
Approach 01: Using Dictionary<TKey, TValue>
static bool IsIsogram(string str)
{
//create a dictionary with 26 keys and assign false as default value
var storeOccurance = new Dictionary<int, bool>();
for (int i = 0; i <= 25; i++)
{
storeOccurance[i] = false;
}
str = Regex.Replace(str, "[ -]", ""); //ignore whitespace and dash
//iterate over each character of the string
foreach (var ch in str.ToLower())
{
//(ch - 'a') is used to calculate the key. Check if the character key has false as it's value,
//meaning they were never stored
if (!storeOccurance[ch - 'a'])
{
storeOccurance[ch - 'a'] = true; //assign true when they are stored in the dictionary
}
else //otherwise, if a character key has true as it's value then it means that it exists in the dictionary
{
return false; //return false and exits the iteration..Multiple occurance in dictionary
//means the string has repeating character so it's not Isogram
}
}
return true;
}
Approach 02: Using HashSet<T>
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if (!charHash.Add(ch) && char.IsLetter(ch))
return false;
}
return true; //otherwise return true
}
Approach 03: Using LINQ
static bool IsIsogram(string str)
{ //Suppose "anik a" is a given string
return str.Where(char.IsLetter) //filter only the letters ||here- only a, n, i, k, a will be taken
.GroupBy(char.ToLower) //create group by characters(and transform them to lowercase) || here, there will be a group for each character a, n, i, k
.All(g => g.Count() == 1); //for every group, count the number of it's element and check if it's 1
//|| here, 'a' group has 2 elements so it return false though other groups has only one element in their group
}
Given those above approaches:
- Which approach would you recommend regarding readability, clean code and performance?
- Is there any scope for improvement in the existing approaches?
c# algorithm programming-challenge linq dictionary
$endgroup$
An isogram (also known as a "nonpattern word") is a word or phrase without a repeating letter, however spaces and hyphens are allowed to appear multiple times.
The IsIsogram()
method takes a string and returns boolean value.
- INPUT: anik OUTPUT: true
- INPUT: A nika OUTPUT: false
Approach 01: Using Dictionary<TKey, TValue>
static bool IsIsogram(string str)
{
//create a dictionary with 26 keys and assign false as default value
var storeOccurance = new Dictionary<int, bool>();
for (int i = 0; i <= 25; i++)
{
storeOccurance[i] = false;
}
str = Regex.Replace(str, "[ -]", ""); //ignore whitespace and dash
//iterate over each character of the string
foreach (var ch in str.ToLower())
{
//(ch - 'a') is used to calculate the key. Check if the character key has false as it's value,
//meaning they were never stored
if (!storeOccurance[ch - 'a'])
{
storeOccurance[ch - 'a'] = true; //assign true when they are stored in the dictionary
}
else //otherwise, if a character key has true as it's value then it means that it exists in the dictionary
{
return false; //return false and exits the iteration..Multiple occurance in dictionary
//means the string has repeating character so it's not Isogram
}
}
return true;
}
Approach 02: Using HashSet<T>
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if (!charHash.Add(ch) && char.IsLetter(ch))
return false;
}
return true; //otherwise return true
}
Approach 03: Using LINQ
static bool IsIsogram(string str)
{ //Suppose "anik a" is a given string
return str.Where(char.IsLetter) //filter only the letters ||here- only a, n, i, k, a will be taken
.GroupBy(char.ToLower) //create group by characters(and transform them to lowercase) || here, there will be a group for each character a, n, i, k
.All(g => g.Count() == 1); //for every group, count the number of it's element and check if it's 1
//|| here, 'a' group has 2 elements so it return false though other groups has only one element in their group
}
Given those above approaches:
- Which approach would you recommend regarding readability, clean code and performance?
- Is there any scope for improvement in the existing approaches?
c# algorithm programming-challenge linq dictionary
c# algorithm programming-challenge linq dictionary
edited 15 mins ago
AKdeBerg
asked 10 hours ago
AKdeBergAKdeBerg
885
885
add a comment |
add a comment |
4 Answers
4
active
oldest
votes
$begingroup$
Choice of Map Key
Ultimately, as you are querying your map based upon the character, you should really make your key as the character. This makes your regular subtraction of 'a'
unnecessary.
var storeOccurance = new Dictionary<char, bool>();
for (char c = 'a'; c <= 'z'; c++)
{
storeOccurance[c] = false;
}
Inconsistent behaviour for non-letter characters
Given a string such as anik00
, the first approach will produce a false
response, as the duplicate 0s are detected like any other letter. The other two approaches will produce true
, as 0s are ignored.
Comments
I don't think these comments are necessary, as the code is clear enough on its own. If you feel the need to add comments to explain what something is doing, you should extract methods instead to make these intentions clear.
Which approach would I choose?
The litmus test is how easy it is to understand. I've not seen any serious LINQ for a number of years, and despite that I can understand your LINQ query without difficulty. If you can create understandable code in fewer lines, it's a good thing.
$endgroup$
add a comment |
$begingroup$
I like the second approach since it allows you to exit as soon as a false condition is reached and is simpler than the first. I would offer one minor optimization, keep the check for isletter separate and only check for duplicate if isletter is true:
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if(char.IsLetter(ch))
{
if (!charHash.Add(ch))
return false;
}
}
return true; //otherwise return true
}
$endgroup$
add a comment |
$begingroup$
I suggest using an array of boolean, so instead of
var storeOccurance = new Dictionary<int, bool>();
use simply
var storeOccurance = new bool[26];
Although if you want to allow a large character set instead of just a-z, say the whole of unicode, the HashSet approach may be appropriate, although in that case you would have to consider surrogates ( the situation where a character is represented by two chars ).
$endgroup$
add a comment |
$begingroup$
I think i would go for LINQ approach. For this simple operation, it is short and easy to understand. But just for fun i try different approach :
public static bool IsIsogram( string input){
if (string.IsNullOrEmpty(input))
{
throw new ArgumentNullException(nameof(input));
//or we can return true , no character, no repeated character :)
}
var preprocessedInput = Regex.Replace(input.ToLower(), "[ -]", "");
if (input.Length==1)
{
return true;
}
var firstHalf = preprocessedInput.Substring(0,preprocessedInput.Length/2);
var secondHalf = preprocessedInput.Remove(0,preprocessedInput.Length/2);
if (firstHalf.Intersect(secondHalf).Any())
{
return false;
return IsIsogram(firstHalf) && IsIsogram(secondHalf);
}
The input string is divided into two string and checked for any intersected characters. If there is not any intersected character then, each string divided and called the method recursively. As i mentioned, this was just for fun.
New contributor
$endgroup$
1
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
add a comment |
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4 Answers
4
active
oldest
votes
4 Answers
4
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
Choice of Map Key
Ultimately, as you are querying your map based upon the character, you should really make your key as the character. This makes your regular subtraction of 'a'
unnecessary.
var storeOccurance = new Dictionary<char, bool>();
for (char c = 'a'; c <= 'z'; c++)
{
storeOccurance[c] = false;
}
Inconsistent behaviour for non-letter characters
Given a string such as anik00
, the first approach will produce a false
response, as the duplicate 0s are detected like any other letter. The other two approaches will produce true
, as 0s are ignored.
Comments
I don't think these comments are necessary, as the code is clear enough on its own. If you feel the need to add comments to explain what something is doing, you should extract methods instead to make these intentions clear.
Which approach would I choose?
The litmus test is how easy it is to understand. I've not seen any serious LINQ for a number of years, and despite that I can understand your LINQ query without difficulty. If you can create understandable code in fewer lines, it's a good thing.
$endgroup$
add a comment |
$begingroup$
Choice of Map Key
Ultimately, as you are querying your map based upon the character, you should really make your key as the character. This makes your regular subtraction of 'a'
unnecessary.
var storeOccurance = new Dictionary<char, bool>();
for (char c = 'a'; c <= 'z'; c++)
{
storeOccurance[c] = false;
}
Inconsistent behaviour for non-letter characters
Given a string such as anik00
, the first approach will produce a false
response, as the duplicate 0s are detected like any other letter. The other two approaches will produce true
, as 0s are ignored.
Comments
I don't think these comments are necessary, as the code is clear enough on its own. If you feel the need to add comments to explain what something is doing, you should extract methods instead to make these intentions clear.
Which approach would I choose?
The litmus test is how easy it is to understand. I've not seen any serious LINQ for a number of years, and despite that I can understand your LINQ query without difficulty. If you can create understandable code in fewer lines, it's a good thing.
$endgroup$
add a comment |
$begingroup$
Choice of Map Key
Ultimately, as you are querying your map based upon the character, you should really make your key as the character. This makes your regular subtraction of 'a'
unnecessary.
var storeOccurance = new Dictionary<char, bool>();
for (char c = 'a'; c <= 'z'; c++)
{
storeOccurance[c] = false;
}
Inconsistent behaviour for non-letter characters
Given a string such as anik00
, the first approach will produce a false
response, as the duplicate 0s are detected like any other letter. The other two approaches will produce true
, as 0s are ignored.
Comments
I don't think these comments are necessary, as the code is clear enough on its own. If you feel the need to add comments to explain what something is doing, you should extract methods instead to make these intentions clear.
Which approach would I choose?
The litmus test is how easy it is to understand. I've not seen any serious LINQ for a number of years, and despite that I can understand your LINQ query without difficulty. If you can create understandable code in fewer lines, it's a good thing.
$endgroup$
Choice of Map Key
Ultimately, as you are querying your map based upon the character, you should really make your key as the character. This makes your regular subtraction of 'a'
unnecessary.
var storeOccurance = new Dictionary<char, bool>();
for (char c = 'a'; c <= 'z'; c++)
{
storeOccurance[c] = false;
}
Inconsistent behaviour for non-letter characters
Given a string such as anik00
, the first approach will produce a false
response, as the duplicate 0s are detected like any other letter. The other two approaches will produce true
, as 0s are ignored.
Comments
I don't think these comments are necessary, as the code is clear enough on its own. If you feel the need to add comments to explain what something is doing, you should extract methods instead to make these intentions clear.
Which approach would I choose?
The litmus test is how easy it is to understand. I've not seen any serious LINQ for a number of years, and despite that I can understand your LINQ query without difficulty. If you can create understandable code in fewer lines, it's a good thing.
answered 9 hours ago
Joe CJoe C
795211
795211
add a comment |
add a comment |
$begingroup$
I like the second approach since it allows you to exit as soon as a false condition is reached and is simpler than the first. I would offer one minor optimization, keep the check for isletter separate and only check for duplicate if isletter is true:
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if(char.IsLetter(ch))
{
if (!charHash.Add(ch))
return false;
}
}
return true; //otherwise return true
}
$endgroup$
add a comment |
$begingroup$
I like the second approach since it allows you to exit as soon as a false condition is reached and is simpler than the first. I would offer one minor optimization, keep the check for isletter separate and only check for duplicate if isletter is true:
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if(char.IsLetter(ch))
{
if (!charHash.Add(ch))
return false;
}
}
return true; //otherwise return true
}
$endgroup$
add a comment |
$begingroup$
I like the second approach since it allows you to exit as soon as a false condition is reached and is simpler than the first. I would offer one minor optimization, keep the check for isletter separate and only check for duplicate if isletter is true:
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if(char.IsLetter(ch))
{
if (!charHash.Add(ch))
return false;
}
}
return true; //otherwise return true
}
$endgroup$
I like the second approach since it allows you to exit as soon as a false condition is reached and is simpler than the first. I would offer one minor optimization, keep the check for isletter separate and only check for duplicate if isletter is true:
static bool IsIsogram(string str)
{
//TRICK: HashSet<T>.Add(T) returns false if an item already exists in HashSet<T>,
//otherwise returns true and add the character to the datastructure
var charHash = new HashSet<char>();
foreach (var ch in str.ToLower())
{
//check if the charHash.Add() returns false, if it does then terminate
//as it means the character already exists
if(char.IsLetter(ch))
{
if (!charHash.Add(ch))
return false;
}
}
return true; //otherwise return true
}
answered 9 hours ago
tinstaafltinstaafl
6,6411827
6,6411827
add a comment |
add a comment |
$begingroup$
I suggest using an array of boolean, so instead of
var storeOccurance = new Dictionary<int, bool>();
use simply
var storeOccurance = new bool[26];
Although if you want to allow a large character set instead of just a-z, say the whole of unicode, the HashSet approach may be appropriate, although in that case you would have to consider surrogates ( the situation where a character is represented by two chars ).
$endgroup$
add a comment |
$begingroup$
I suggest using an array of boolean, so instead of
var storeOccurance = new Dictionary<int, bool>();
use simply
var storeOccurance = new bool[26];
Although if you want to allow a large character set instead of just a-z, say the whole of unicode, the HashSet approach may be appropriate, although in that case you would have to consider surrogates ( the situation where a character is represented by two chars ).
$endgroup$
add a comment |
$begingroup$
I suggest using an array of boolean, so instead of
var storeOccurance = new Dictionary<int, bool>();
use simply
var storeOccurance = new bool[26];
Although if you want to allow a large character set instead of just a-z, say the whole of unicode, the HashSet approach may be appropriate, although in that case you would have to consider surrogates ( the situation where a character is represented by two chars ).
$endgroup$
I suggest using an array of boolean, so instead of
var storeOccurance = new Dictionary<int, bool>();
use simply
var storeOccurance = new bool[26];
Although if you want to allow a large character set instead of just a-z, say the whole of unicode, the HashSet approach may be appropriate, although in that case you would have to consider surrogates ( the situation where a character is represented by two chars ).
answered 7 hours ago
George BarwoodGeorge Barwood
1127
1127
add a comment |
add a comment |
$begingroup$
I think i would go for LINQ approach. For this simple operation, it is short and easy to understand. But just for fun i try different approach :
public static bool IsIsogram( string input){
if (string.IsNullOrEmpty(input))
{
throw new ArgumentNullException(nameof(input));
//or we can return true , no character, no repeated character :)
}
var preprocessedInput = Regex.Replace(input.ToLower(), "[ -]", "");
if (input.Length==1)
{
return true;
}
var firstHalf = preprocessedInput.Substring(0,preprocessedInput.Length/2);
var secondHalf = preprocessedInput.Remove(0,preprocessedInput.Length/2);
if (firstHalf.Intersect(secondHalf).Any())
{
return false;
return IsIsogram(firstHalf) && IsIsogram(secondHalf);
}
The input string is divided into two string and checked for any intersected characters. If there is not any intersected character then, each string divided and called the method recursively. As i mentioned, this was just for fun.
New contributor
$endgroup$
1
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
add a comment |
$begingroup$
I think i would go for LINQ approach. For this simple operation, it is short and easy to understand. But just for fun i try different approach :
public static bool IsIsogram( string input){
if (string.IsNullOrEmpty(input))
{
throw new ArgumentNullException(nameof(input));
//or we can return true , no character, no repeated character :)
}
var preprocessedInput = Regex.Replace(input.ToLower(), "[ -]", "");
if (input.Length==1)
{
return true;
}
var firstHalf = preprocessedInput.Substring(0,preprocessedInput.Length/2);
var secondHalf = preprocessedInput.Remove(0,preprocessedInput.Length/2);
if (firstHalf.Intersect(secondHalf).Any())
{
return false;
return IsIsogram(firstHalf) && IsIsogram(secondHalf);
}
The input string is divided into two string and checked for any intersected characters. If there is not any intersected character then, each string divided and called the method recursively. As i mentioned, this was just for fun.
New contributor
$endgroup$
1
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
add a comment |
$begingroup$
I think i would go for LINQ approach. For this simple operation, it is short and easy to understand. But just for fun i try different approach :
public static bool IsIsogram( string input){
if (string.IsNullOrEmpty(input))
{
throw new ArgumentNullException(nameof(input));
//or we can return true , no character, no repeated character :)
}
var preprocessedInput = Regex.Replace(input.ToLower(), "[ -]", "");
if (input.Length==1)
{
return true;
}
var firstHalf = preprocessedInput.Substring(0,preprocessedInput.Length/2);
var secondHalf = preprocessedInput.Remove(0,preprocessedInput.Length/2);
if (firstHalf.Intersect(secondHalf).Any())
{
return false;
return IsIsogram(firstHalf) && IsIsogram(secondHalf);
}
The input string is divided into two string and checked for any intersected characters. If there is not any intersected character then, each string divided and called the method recursively. As i mentioned, this was just for fun.
New contributor
$endgroup$
I think i would go for LINQ approach. For this simple operation, it is short and easy to understand. But just for fun i try different approach :
public static bool IsIsogram( string input){
if (string.IsNullOrEmpty(input))
{
throw new ArgumentNullException(nameof(input));
//or we can return true , no character, no repeated character :)
}
var preprocessedInput = Regex.Replace(input.ToLower(), "[ -]", "");
if (input.Length==1)
{
return true;
}
var firstHalf = preprocessedInput.Substring(0,preprocessedInput.Length/2);
var secondHalf = preprocessedInput.Remove(0,preprocessedInput.Length/2);
if (firstHalf.Intersect(secondHalf).Any())
{
return false;
return IsIsogram(firstHalf) && IsIsogram(secondHalf);
}
The input string is divided into two string and checked for any intersected characters. If there is not any intersected character then, each string divided and called the method recursively. As i mentioned, this was just for fun.
New contributor
New contributor
answered 7 hours ago
RenasRenas
132
132
New contributor
New contributor
1
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
add a comment |
1
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
1
1
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
$begingroup$
You have presented an alternative solution but don't explain why it is better. Can you edit your answer to add that please?
$endgroup$
– bruglesco
5 hours ago
add a comment |
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