How to count in linear time worst-case? Announcing the arrival of Valued Associate #679: Cesar Manara Unicorn Meta Zoo #1: Why another podcast?Sorting a set of $n$ elements containing only $log n$ unique elementsIs there a sorting algorithm of order $n + k logk$?Priority queue with unique elements and sublinear time merge?Average Case runtime for random choice searchCan element uniqueness be solved in deterministic linear time?Building static hash table with particular collisionsDoes my simple, static hash table have O(1) worst case lookup?Sorting a set of $n$ elements containing only $log n$ unique elementsCan the HTML5 parsing algorithm be implemented in linear time?Optimal data structure for sorted listDetermine the worst-case complexity that allow you to conclude that a given array with n elements is not sortedFind four sets where each element from those four appears in at least two of those four sets

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How to count in linear time worst-case?



Announcing the arrival of Valued Associate #679: Cesar Manara
Unicorn Meta Zoo #1: Why another podcast?Sorting a set of $n$ elements containing only $log n$ unique elementsIs there a sorting algorithm of order $n + k logk$?Priority queue with unique elements and sublinear time merge?Average Case runtime for random choice searchCan element uniqueness be solved in deterministic linear time?Building static hash table with particular collisionsDoes my simple, static hash table have O(1) worst case lookup?Sorting a set of $n$ elements containing only $log n$ unique elementsCan the HTML5 parsing algorithm be implemented in linear time?Optimal data structure for sorted listDetermine the worst-case complexity that allow you to conclude that a given array with n elements is not sortedFind four sets where each element from those four appears in at least two of those four sets










7












$begingroup$


This question and this question got me thinking a little bit. For sorting an array of length $n$ with $k$ unique elements in $O(n + k log k)$, we need to be able to store counts of values in the array. There are some suggestions, but I'm looking for a way to do this in worst case linear time. More specifically:




Given a list $A$ of $n$ elements with $k$ elements distinct, determine a list of tuples $U = (x_i, c_i)^k$ of all unique elements $x_i in A$ such that $c_i$ is the count of element $x_i$ in $A$.




Here are some (failed) ideas I've had and have been suggested:




  1. Balanced Binary Search Tree - With this it will take $O(log k)$ to insert into the tree and increase values. After inserts we could do a tree traversal in $O(k)$. Thus, total time comes out to $O(n log k)$ which is too slow.


  2. Hash Map - With this we can get $O(1)$ expected inserts and thus $O(n)$ expected time. However, this is still not $O(n)$ worst case.


  3. Empty Space Mapping - Find the minimum and maximum element in $A$. Allocate (but do not initialize) enough memory to cover this range. Use this memory basically as a hash map and include a random hash so that we don't try to access corrupted memory. This strategy presents issues. (1) It's probabilistic with very very very low probability of failing, but still not guaranteed. Using memory like this limits us to floating-point or integer constraints.


  4. Associative Arrays - There are many other associative arrays that can be used, similar to hash maps and BSTs, but I am not finding any that match these constraints.

Maybe there is some obvious method I am missing, but I also think it could be potentially not be possible. What are your thoughts?










share|cite|improve this question









$endgroup$







  • 2




    $begingroup$
    It cannot be done in comparison model since the problem of element distinctness has a lower bound of $Omega(nlog n)$ decision-tree complexity.
    $endgroup$
    – Apass.Jack
    7 hours ago











  • $begingroup$
    @Apass.Jack, oh right that's correct. A trivial reduction I did not consider. If you write it up as a quick blurb answer, I'll accept.
    $endgroup$
    – ryan
    6 hours ago










  • $begingroup$
    Why is the HashMap not assured amortized O(n) ?
    $endgroup$
    – javadba
    2 hours ago






  • 1




    $begingroup$
    @javadba For example, suppose all elements are hashed to the same value.
    $endgroup$
    – Apass.Jack
    2 hours ago










  • $begingroup$
    Ah ok so if it's an imperfect hashing.
    $endgroup$
    – javadba
    1 hour ago
















7












$begingroup$


This question and this question got me thinking a little bit. For sorting an array of length $n$ with $k$ unique elements in $O(n + k log k)$, we need to be able to store counts of values in the array. There are some suggestions, but I'm looking for a way to do this in worst case linear time. More specifically:




Given a list $A$ of $n$ elements with $k$ elements distinct, determine a list of tuples $U = (x_i, c_i)^k$ of all unique elements $x_i in A$ such that $c_i$ is the count of element $x_i$ in $A$.




Here are some (failed) ideas I've had and have been suggested:




  1. Balanced Binary Search Tree - With this it will take $O(log k)$ to insert into the tree and increase values. After inserts we could do a tree traversal in $O(k)$. Thus, total time comes out to $O(n log k)$ which is too slow.


  2. Hash Map - With this we can get $O(1)$ expected inserts and thus $O(n)$ expected time. However, this is still not $O(n)$ worst case.


  3. Empty Space Mapping - Find the minimum and maximum element in $A$. Allocate (but do not initialize) enough memory to cover this range. Use this memory basically as a hash map and include a random hash so that we don't try to access corrupted memory. This strategy presents issues. (1) It's probabilistic with very very very low probability of failing, but still not guaranteed. Using memory like this limits us to floating-point or integer constraints.


  4. Associative Arrays - There are many other associative arrays that can be used, similar to hash maps and BSTs, but I am not finding any that match these constraints.

Maybe there is some obvious method I am missing, but I also think it could be potentially not be possible. What are your thoughts?










share|cite|improve this question









$endgroup$







  • 2




    $begingroup$
    It cannot be done in comparison model since the problem of element distinctness has a lower bound of $Omega(nlog n)$ decision-tree complexity.
    $endgroup$
    – Apass.Jack
    7 hours ago











  • $begingroup$
    @Apass.Jack, oh right that's correct. A trivial reduction I did not consider. If you write it up as a quick blurb answer, I'll accept.
    $endgroup$
    – ryan
    6 hours ago










  • $begingroup$
    Why is the HashMap not assured amortized O(n) ?
    $endgroup$
    – javadba
    2 hours ago






  • 1




    $begingroup$
    @javadba For example, suppose all elements are hashed to the same value.
    $endgroup$
    – Apass.Jack
    2 hours ago










  • $begingroup$
    Ah ok so if it's an imperfect hashing.
    $endgroup$
    – javadba
    1 hour ago














7












7








7





$begingroup$


This question and this question got me thinking a little bit. For sorting an array of length $n$ with $k$ unique elements in $O(n + k log k)$, we need to be able to store counts of values in the array. There are some suggestions, but I'm looking for a way to do this in worst case linear time. More specifically:




Given a list $A$ of $n$ elements with $k$ elements distinct, determine a list of tuples $U = (x_i, c_i)^k$ of all unique elements $x_i in A$ such that $c_i$ is the count of element $x_i$ in $A$.




Here are some (failed) ideas I've had and have been suggested:




  1. Balanced Binary Search Tree - With this it will take $O(log k)$ to insert into the tree and increase values. After inserts we could do a tree traversal in $O(k)$. Thus, total time comes out to $O(n log k)$ which is too slow.


  2. Hash Map - With this we can get $O(1)$ expected inserts and thus $O(n)$ expected time. However, this is still not $O(n)$ worst case.


  3. Empty Space Mapping - Find the minimum and maximum element in $A$. Allocate (but do not initialize) enough memory to cover this range. Use this memory basically as a hash map and include a random hash so that we don't try to access corrupted memory. This strategy presents issues. (1) It's probabilistic with very very very low probability of failing, but still not guaranteed. Using memory like this limits us to floating-point or integer constraints.


  4. Associative Arrays - There are many other associative arrays that can be used, similar to hash maps and BSTs, but I am not finding any that match these constraints.

Maybe there is some obvious method I am missing, but I also think it could be potentially not be possible. What are your thoughts?










share|cite|improve this question









$endgroup$




This question and this question got me thinking a little bit. For sorting an array of length $n$ with $k$ unique elements in $O(n + k log k)$, we need to be able to store counts of values in the array. There are some suggestions, but I'm looking for a way to do this in worst case linear time. More specifically:




Given a list $A$ of $n$ elements with $k$ elements distinct, determine a list of tuples $U = (x_i, c_i)^k$ of all unique elements $x_i in A$ such that $c_i$ is the count of element $x_i$ in $A$.




Here are some (failed) ideas I've had and have been suggested:




  1. Balanced Binary Search Tree - With this it will take $O(log k)$ to insert into the tree and increase values. After inserts we could do a tree traversal in $O(k)$. Thus, total time comes out to $O(n log k)$ which is too slow.


  2. Hash Map - With this we can get $O(1)$ expected inserts and thus $O(n)$ expected time. However, this is still not $O(n)$ worst case.


  3. Empty Space Mapping - Find the minimum and maximum element in $A$. Allocate (but do not initialize) enough memory to cover this range. Use this memory basically as a hash map and include a random hash so that we don't try to access corrupted memory. This strategy presents issues. (1) It's probabilistic with very very very low probability of failing, but still not guaranteed. Using memory like this limits us to floating-point or integer constraints.


  4. Associative Arrays - There are many other associative arrays that can be used, similar to hash maps and BSTs, but I am not finding any that match these constraints.

Maybe there is some obvious method I am missing, but I also think it could be potentially not be possible. What are your thoughts?







algorithms search-trees hash-tables






share|cite|improve this question













share|cite|improve this question











share|cite|improve this question




share|cite|improve this question










asked 7 hours ago









ryanryan

3,2291927




3,2291927







  • 2




    $begingroup$
    It cannot be done in comparison model since the problem of element distinctness has a lower bound of $Omega(nlog n)$ decision-tree complexity.
    $endgroup$
    – Apass.Jack
    7 hours ago











  • $begingroup$
    @Apass.Jack, oh right that's correct. A trivial reduction I did not consider. If you write it up as a quick blurb answer, I'll accept.
    $endgroup$
    – ryan
    6 hours ago










  • $begingroup$
    Why is the HashMap not assured amortized O(n) ?
    $endgroup$
    – javadba
    2 hours ago






  • 1




    $begingroup$
    @javadba For example, suppose all elements are hashed to the same value.
    $endgroup$
    – Apass.Jack
    2 hours ago










  • $begingroup$
    Ah ok so if it's an imperfect hashing.
    $endgroup$
    – javadba
    1 hour ago













  • 2




    $begingroup$
    It cannot be done in comparison model since the problem of element distinctness has a lower bound of $Omega(nlog n)$ decision-tree complexity.
    $endgroup$
    – Apass.Jack
    7 hours ago











  • $begingroup$
    @Apass.Jack, oh right that's correct. A trivial reduction I did not consider. If you write it up as a quick blurb answer, I'll accept.
    $endgroup$
    – ryan
    6 hours ago










  • $begingroup$
    Why is the HashMap not assured amortized O(n) ?
    $endgroup$
    – javadba
    2 hours ago






  • 1




    $begingroup$
    @javadba For example, suppose all elements are hashed to the same value.
    $endgroup$
    – Apass.Jack
    2 hours ago










  • $begingroup$
    Ah ok so if it's an imperfect hashing.
    $endgroup$
    – javadba
    1 hour ago








2




2




$begingroup$
It cannot be done in comparison model since the problem of element distinctness has a lower bound of $Omega(nlog n)$ decision-tree complexity.
$endgroup$
– Apass.Jack
7 hours ago





$begingroup$
It cannot be done in comparison model since the problem of element distinctness has a lower bound of $Omega(nlog n)$ decision-tree complexity.
$endgroup$
– Apass.Jack
7 hours ago













$begingroup$
@Apass.Jack, oh right that's correct. A trivial reduction I did not consider. If you write it up as a quick blurb answer, I'll accept.
$endgroup$
– ryan
6 hours ago




$begingroup$
@Apass.Jack, oh right that's correct. A trivial reduction I did not consider. If you write it up as a quick blurb answer, I'll accept.
$endgroup$
– ryan
6 hours ago












$begingroup$
Why is the HashMap not assured amortized O(n) ?
$endgroup$
– javadba
2 hours ago




$begingroup$
Why is the HashMap not assured amortized O(n) ?
$endgroup$
– javadba
2 hours ago




1




1




$begingroup$
@javadba For example, suppose all elements are hashed to the same value.
$endgroup$
– Apass.Jack
2 hours ago




$begingroup$
@javadba For example, suppose all elements are hashed to the same value.
$endgroup$
– Apass.Jack
2 hours ago












$begingroup$
Ah ok so if it's an imperfect hashing.
$endgroup$
– javadba
1 hour ago





$begingroup$
Ah ok so if it's an imperfect hashing.
$endgroup$
– javadba
1 hour ago











2 Answers
2






active

oldest

votes


















5












$begingroup$

This is a nice question.



In the comparison model or, what is more general, the algebraic decision-tree model, the problem of element distinctness has a lower bound of $Theta(nlog n)$ time-complexity in the worst case as said in this Wikipedia article. So there is no algorithm to count distinct elements in linear time in the worst case, even without counting the duplicities.



However, it is not clear whether it can be done in another computational model. It seems unlikely in any reasonable deterministic computational model.






share|cite|improve this answer









$endgroup$












  • $begingroup$
    Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
    $endgroup$
    – mascoj
    2 hours ago







  • 1




    $begingroup$
    What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
    $endgroup$
    – Apass.Jack
    2 hours ago










  • $begingroup$
    Good call. Thanks
    $endgroup$
    – mascoj
    2 hours ago


















1












$begingroup$

There exist randomized algorithms whose expected running time is $O(n)$; or where the probability that the running time takes longer than $cn$ is exponentially small in $c$.



In particular, randomly choose a 2-universal hash function, then use it to hash all of the elements of the array. This achieves the stated running times, if you choose the length of the output of the 2-universal hash appropriately.



As another example, you can build a randomized algorithm whose worst-case running time is $O(n)$ (it always runs in linear time, no matter what) and has a probability of error of at most $1/2^100$. (How? Run the above algorithm, and terminate it if it runs longer than $cn$ steps for some appropriately chosen $c$.) In practice, that's good enough, as the probability that your computer outputs the wrong answer due to a cosmic ray is already much higher than $1/2^100$.






share|cite|improve this answer









$endgroup$













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    2 Answers
    2






    active

    oldest

    votes








    2 Answers
    2






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes









    5












    $begingroup$

    This is a nice question.



    In the comparison model or, what is more general, the algebraic decision-tree model, the problem of element distinctness has a lower bound of $Theta(nlog n)$ time-complexity in the worst case as said in this Wikipedia article. So there is no algorithm to count distinct elements in linear time in the worst case, even without counting the duplicities.



    However, it is not clear whether it can be done in another computational model. It seems unlikely in any reasonable deterministic computational model.






    share|cite|improve this answer









    $endgroup$












    • $begingroup$
      Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
      $endgroup$
      – mascoj
      2 hours ago







    • 1




      $begingroup$
      What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
      $endgroup$
      – Apass.Jack
      2 hours ago










    • $begingroup$
      Good call. Thanks
      $endgroup$
      – mascoj
      2 hours ago















    5












    $begingroup$

    This is a nice question.



    In the comparison model or, what is more general, the algebraic decision-tree model, the problem of element distinctness has a lower bound of $Theta(nlog n)$ time-complexity in the worst case as said in this Wikipedia article. So there is no algorithm to count distinct elements in linear time in the worst case, even without counting the duplicities.



    However, it is not clear whether it can be done in another computational model. It seems unlikely in any reasonable deterministic computational model.






    share|cite|improve this answer









    $endgroup$












    • $begingroup$
      Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
      $endgroup$
      – mascoj
      2 hours ago







    • 1




      $begingroup$
      What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
      $endgroup$
      – Apass.Jack
      2 hours ago










    • $begingroup$
      Good call. Thanks
      $endgroup$
      – mascoj
      2 hours ago













    5












    5








    5





    $begingroup$

    This is a nice question.



    In the comparison model or, what is more general, the algebraic decision-tree model, the problem of element distinctness has a lower bound of $Theta(nlog n)$ time-complexity in the worst case as said in this Wikipedia article. So there is no algorithm to count distinct elements in linear time in the worst case, even without counting the duplicities.



    However, it is not clear whether it can be done in another computational model. It seems unlikely in any reasonable deterministic computational model.






    share|cite|improve this answer









    $endgroup$



    This is a nice question.



    In the comparison model or, what is more general, the algebraic decision-tree model, the problem of element distinctness has a lower bound of $Theta(nlog n)$ time-complexity in the worst case as said in this Wikipedia article. So there is no algorithm to count distinct elements in linear time in the worst case, even without counting the duplicities.



    However, it is not clear whether it can be done in another computational model. It seems unlikely in any reasonable deterministic computational model.







    share|cite|improve this answer












    share|cite|improve this answer



    share|cite|improve this answer










    answered 6 hours ago









    Apass.JackApass.Jack

    14.5k1940




    14.5k1940











    • $begingroup$
      Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
      $endgroup$
      – mascoj
      2 hours ago







    • 1




      $begingroup$
      What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
      $endgroup$
      – Apass.Jack
      2 hours ago










    • $begingroup$
      Good call. Thanks
      $endgroup$
      – mascoj
      2 hours ago
















    • $begingroup$
      Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
      $endgroup$
      – mascoj
      2 hours ago







    • 1




      $begingroup$
      What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
      $endgroup$
      – Apass.Jack
      2 hours ago










    • $begingroup$
      Good call. Thanks
      $endgroup$
      – mascoj
      2 hours ago















    $begingroup$
    Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
    $endgroup$
    – mascoj
    2 hours ago





    $begingroup$
    Is this really an instance of the element distinctness problem? Just generating the tuples doesn't require the check for distinctness. Not disagreeing, just curious.
    $endgroup$
    – mascoj
    2 hours ago





    1




    1




    $begingroup$
    What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
    $endgroup$
    – Apass.Jack
    2 hours ago




    $begingroup$
    What I am saying is, if you can produce that tuple of distinct elements, then you can also solve the problem of element distinctness by checking if the size of the tuple is $n$.
    $endgroup$
    – Apass.Jack
    2 hours ago












    $begingroup$
    Good call. Thanks
    $endgroup$
    – mascoj
    2 hours ago




    $begingroup$
    Good call. Thanks
    $endgroup$
    – mascoj
    2 hours ago











    1












    $begingroup$

    There exist randomized algorithms whose expected running time is $O(n)$; or where the probability that the running time takes longer than $cn$ is exponentially small in $c$.



    In particular, randomly choose a 2-universal hash function, then use it to hash all of the elements of the array. This achieves the stated running times, if you choose the length of the output of the 2-universal hash appropriately.



    As another example, you can build a randomized algorithm whose worst-case running time is $O(n)$ (it always runs in linear time, no matter what) and has a probability of error of at most $1/2^100$. (How? Run the above algorithm, and terminate it if it runs longer than $cn$ steps for some appropriately chosen $c$.) In practice, that's good enough, as the probability that your computer outputs the wrong answer due to a cosmic ray is already much higher than $1/2^100$.






    share|cite|improve this answer









    $endgroup$

















      1












      $begingroup$

      There exist randomized algorithms whose expected running time is $O(n)$; or where the probability that the running time takes longer than $cn$ is exponentially small in $c$.



      In particular, randomly choose a 2-universal hash function, then use it to hash all of the elements of the array. This achieves the stated running times, if you choose the length of the output of the 2-universal hash appropriately.



      As another example, you can build a randomized algorithm whose worst-case running time is $O(n)$ (it always runs in linear time, no matter what) and has a probability of error of at most $1/2^100$. (How? Run the above algorithm, and terminate it if it runs longer than $cn$ steps for some appropriately chosen $c$.) In practice, that's good enough, as the probability that your computer outputs the wrong answer due to a cosmic ray is already much higher than $1/2^100$.






      share|cite|improve this answer









      $endgroup$















        1












        1








        1





        $begingroup$

        There exist randomized algorithms whose expected running time is $O(n)$; or where the probability that the running time takes longer than $cn$ is exponentially small in $c$.



        In particular, randomly choose a 2-universal hash function, then use it to hash all of the elements of the array. This achieves the stated running times, if you choose the length of the output of the 2-universal hash appropriately.



        As another example, you can build a randomized algorithm whose worst-case running time is $O(n)$ (it always runs in linear time, no matter what) and has a probability of error of at most $1/2^100$. (How? Run the above algorithm, and terminate it if it runs longer than $cn$ steps for some appropriately chosen $c$.) In practice, that's good enough, as the probability that your computer outputs the wrong answer due to a cosmic ray is already much higher than $1/2^100$.






        share|cite|improve this answer









        $endgroup$



        There exist randomized algorithms whose expected running time is $O(n)$; or where the probability that the running time takes longer than $cn$ is exponentially small in $c$.



        In particular, randomly choose a 2-universal hash function, then use it to hash all of the elements of the array. This achieves the stated running times, if you choose the length of the output of the 2-universal hash appropriately.



        As another example, you can build a randomized algorithm whose worst-case running time is $O(n)$ (it always runs in linear time, no matter what) and has a probability of error of at most $1/2^100$. (How? Run the above algorithm, and terminate it if it runs longer than $cn$ steps for some appropriately chosen $c$.) In practice, that's good enough, as the probability that your computer outputs the wrong answer due to a cosmic ray is already much higher than $1/2^100$.







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        answered 5 hours ago









        D.W.D.W.

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