Return the Closest Prime Number












19












$begingroup$


Challenge



This is a simple one: Given a positive integer up to 1,000,000, return the closest prime number.



If the number itself is prime, then you should return that number; if there are two primes of equal length away from the provided number, return the lower of the two.



Input is in the form of a single integer, and output should be in the form of an integer as well.



I don't care how you take in the input (function, STDIN, etc.) or display the output (function, STDOUT, etc.), as long as it works.



This is code golf, so standard rules apply—the program with the least bytes wins!



Test Cases



Input  =>  Output
------ -------
80 => 79
100 => 101
5 => 5
9 => 7
532 => 523
1 => 2









share|improve this question











$endgroup$








  • 3




    $begingroup$
    Hi and welcome to PPCG!. To avoid down voting due to lack of quality I suggest you to post it to the sandbox first and after a couple of days post it here
    $endgroup$
    – Luis felipe De jesus Munoz
    12 hours ago










  • $begingroup$
    This is one of the outputs requested in this challenge.
    $endgroup$
    – Arnauld
    12 hours ago










  • $begingroup$
    Very closely related but not quite identical.
    $endgroup$
    – Giuseppe
    12 hours ago










  • $begingroup$
    @Arnauld I saw that one, but I thought that they were different enough to warrant a new question.
    $endgroup$
    – Bobawob
    12 hours ago










  • $begingroup$
    @Giuseppe Yeah, I found out about that one after already posting...
    $endgroup$
    – Bobawob
    12 hours ago
















19












$begingroup$


Challenge



This is a simple one: Given a positive integer up to 1,000,000, return the closest prime number.



If the number itself is prime, then you should return that number; if there are two primes of equal length away from the provided number, return the lower of the two.



Input is in the form of a single integer, and output should be in the form of an integer as well.



I don't care how you take in the input (function, STDIN, etc.) or display the output (function, STDOUT, etc.), as long as it works.



This is code golf, so standard rules apply—the program with the least bytes wins!



Test Cases



Input  =>  Output
------ -------
80 => 79
100 => 101
5 => 5
9 => 7
532 => 523
1 => 2









share|improve this question











$endgroup$








  • 3




    $begingroup$
    Hi and welcome to PPCG!. To avoid down voting due to lack of quality I suggest you to post it to the sandbox first and after a couple of days post it here
    $endgroup$
    – Luis felipe De jesus Munoz
    12 hours ago










  • $begingroup$
    This is one of the outputs requested in this challenge.
    $endgroup$
    – Arnauld
    12 hours ago










  • $begingroup$
    Very closely related but not quite identical.
    $endgroup$
    – Giuseppe
    12 hours ago










  • $begingroup$
    @Arnauld I saw that one, but I thought that they were different enough to warrant a new question.
    $endgroup$
    – Bobawob
    12 hours ago










  • $begingroup$
    @Giuseppe Yeah, I found out about that one after already posting...
    $endgroup$
    – Bobawob
    12 hours ago














19












19








19


3



$begingroup$


Challenge



This is a simple one: Given a positive integer up to 1,000,000, return the closest prime number.



If the number itself is prime, then you should return that number; if there are two primes of equal length away from the provided number, return the lower of the two.



Input is in the form of a single integer, and output should be in the form of an integer as well.



I don't care how you take in the input (function, STDIN, etc.) or display the output (function, STDOUT, etc.), as long as it works.



This is code golf, so standard rules apply—the program with the least bytes wins!



Test Cases



Input  =>  Output
------ -------
80 => 79
100 => 101
5 => 5
9 => 7
532 => 523
1 => 2









share|improve this question











$endgroup$




Challenge



This is a simple one: Given a positive integer up to 1,000,000, return the closest prime number.



If the number itself is prime, then you should return that number; if there are two primes of equal length away from the provided number, return the lower of the two.



Input is in the form of a single integer, and output should be in the form of an integer as well.



I don't care how you take in the input (function, STDIN, etc.) or display the output (function, STDOUT, etc.), as long as it works.



This is code golf, so standard rules apply—the program with the least bytes wins!



Test Cases



Input  =>  Output
------ -------
80 => 79
100 => 101
5 => 5
9 => 7
532 => 523
1 => 2






code-golf primes






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited 50 mins ago









Cody Gray

2,029416




2,029416










asked 12 hours ago









BobawobBobawob

16611




16611








  • 3




    $begingroup$
    Hi and welcome to PPCG!. To avoid down voting due to lack of quality I suggest you to post it to the sandbox first and after a couple of days post it here
    $endgroup$
    – Luis felipe De jesus Munoz
    12 hours ago










  • $begingroup$
    This is one of the outputs requested in this challenge.
    $endgroup$
    – Arnauld
    12 hours ago










  • $begingroup$
    Very closely related but not quite identical.
    $endgroup$
    – Giuseppe
    12 hours ago










  • $begingroup$
    @Arnauld I saw that one, but I thought that they were different enough to warrant a new question.
    $endgroup$
    – Bobawob
    12 hours ago










  • $begingroup$
    @Giuseppe Yeah, I found out about that one after already posting...
    $endgroup$
    – Bobawob
    12 hours ago














  • 3




    $begingroup$
    Hi and welcome to PPCG!. To avoid down voting due to lack of quality I suggest you to post it to the sandbox first and after a couple of days post it here
    $endgroup$
    – Luis felipe De jesus Munoz
    12 hours ago










  • $begingroup$
    This is one of the outputs requested in this challenge.
    $endgroup$
    – Arnauld
    12 hours ago










  • $begingroup$
    Very closely related but not quite identical.
    $endgroup$
    – Giuseppe
    12 hours ago










  • $begingroup$
    @Arnauld I saw that one, but I thought that they were different enough to warrant a new question.
    $endgroup$
    – Bobawob
    12 hours ago










  • $begingroup$
    @Giuseppe Yeah, I found out about that one after already posting...
    $endgroup$
    – Bobawob
    12 hours ago








3




3




$begingroup$
Hi and welcome to PPCG!. To avoid down voting due to lack of quality I suggest you to post it to the sandbox first and after a couple of days post it here
$endgroup$
– Luis felipe De jesus Munoz
12 hours ago




$begingroup$
Hi and welcome to PPCG!. To avoid down voting due to lack of quality I suggest you to post it to the sandbox first and after a couple of days post it here
$endgroup$
– Luis felipe De jesus Munoz
12 hours ago












$begingroup$
This is one of the outputs requested in this challenge.
$endgroup$
– Arnauld
12 hours ago




$begingroup$
This is one of the outputs requested in this challenge.
$endgroup$
– Arnauld
12 hours ago












$begingroup$
Very closely related but not quite identical.
$endgroup$
– Giuseppe
12 hours ago




$begingroup$
Very closely related but not quite identical.
$endgroup$
– Giuseppe
12 hours ago












$begingroup$
@Arnauld I saw that one, but I thought that they were different enough to warrant a new question.
$endgroup$
– Bobawob
12 hours ago




$begingroup$
@Arnauld I saw that one, but I thought that they were different enough to warrant a new question.
$endgroup$
– Bobawob
12 hours ago












$begingroup$
@Giuseppe Yeah, I found out about that one after already posting...
$endgroup$
– Bobawob
12 hours ago




$begingroup$
@Giuseppe Yeah, I found out about that one after already posting...
$endgroup$
– Bobawob
12 hours ago










22 Answers
22






active

oldest

votes


















6












$begingroup$


05AB1E, 5 bytes



Åps.x


Try it online!
or as a Test Suite



Inefficient for big numbers






share|improve this answer









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    5












    $begingroup$

    JavaScript (ES6), 53 bytes





    n=>(g=(o,d=N=n+o)=>N%--d?g(o,d):d-1?g(o<0?-o:~o):N)``


    Try it online!



    Commented



    n => (            // n = input
    g = ( // g = recursive function taking:
    o, // o = offset
    d = // d = current divisor, initialized to N
    N = n + o // N = input + offset
    ) => //
    N % --d ? // decrement d; if d is not a divisor of N:
    g(o, d) // do recursive calls until it is
    : // else:
    d - 1 ? // if d is not equal to 1 (either N is composite or N = 1):
    g( // do a recursive call with the next offset:
    o < 0 ? // if o is negative:
    -o // make it positive (e.g. -1 -> +1)
    : // else:
    ~o // use -(o + 1) (e.g. +1 -> -2)
    ) // end of recursive call
    : // else (N is prime):
    N // stop recursion and return N
    )`` // initial call to g with o = [''] (zero-ish)





    share|improve this answer











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      5












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      Octave, 40 bytes





      @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))


      Try it online!



      This uses the fact that there is always a prime between n and 2*n (Bertrand–Chebyshev theorem).



      How it works



      @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))

      @(n) % Define anonymous function with input n
      p=primes(2*n) % Vector of primes up to 2*n. Assign to p
      abs(n-( )) % Absolute difference between n and each prime
      [~,k]=min( ) % Index of first minimum (assign to k; not used)
      p( ) % Apply that index to p





      share|improve this answer











      $endgroup$





















        3












        $begingroup$

        Pyth, 10 bytes



        haDQfP_TSy


        Try it online here, or verify all the test cases at once here.



        haDQfP_TSyQ   Implicit: Q=eval(input())
        Trailing Q inferred
        yQ 2 * Q
        S Range from 1 to the above
        f Filter keep the elements of the above, as T, where:
        P_T Is T prime?
        D Order the above by...
        a Q ... absolute difference between each element and Q
        This is a stable sort, so smaller primes will be sorted before larger ones if difference is the same
        h Take the first element of the above, implicit print





        share|improve this answer









        $endgroup$





















          3












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          Japt, 5 bytes



          _j}cU


          Try it or run all test cases



          _j}cU     :Implicit input of integer U
          _ :Function taking an integer as an argument
          j : Test if integer is prime
          } :End function
          cU :Return the first integer in [U,U-1,U+1,U-2,...] that returns true





          share|improve this answer











          $endgroup$





















            3












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            Gaia, 3 bytes



            ṅD⌡


            Try it online!



            Rather slow for large inputs, but works given enough memory/time.



            I'm not sure why D⌡ implicitly pushes z again, but it makes this a remarkably short answer!



            ṅ	| implicit input z: push first z prime numbers, call it P
            D⌡ | take the absolute difference between P and (implicit) z,
            | returning the smallest value in P with the minimum absolute difference





            share|improve this answer











            $endgroup$





















              2












              $begingroup$


              Wolfram Language (Mathematica), 53 bytes



              If[PrimeQ[s=#],s,#&@@Nearest[s~NextPrime~{-1, 1},s]]&


              Try it online!






              share|improve this answer









              $endgroup$





















                2












                $begingroup$


                Python 2, 96 bytes





                l=lambda p:min(filter(lambda p:all(p%n for n in range(2,p)),range(2,p*2)),key=lambda x:abs(x-p))


                Try it online!






                share|improve this answer









                $endgroup$









                • 2




                  $begingroup$
                  This seems to fail for $n=1$.
                  $endgroup$
                  – Arnauld
                  11 hours ago



















                2












                $begingroup$


                VDM-SL, 161 bytes





                f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                A full program to run might look like this - it's worth noting that the bounds of the set of primes used should probably be changed if you actually want to run this, since it will take a long time to run for 1 million:



                functions
                f:nat1+>nat1
                f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                Explanation:



                f(i)==                                        /* f is a function which takes a nat1 (natural number not including 0)*/
                (lambda p:set of nat1 /* define a lambda which takes a set of nat1*/
                &let z in set p be st /* which has an element z in the set such that */
                forall m in set p /* for every element in the set*/
                &abs(m-i) /* the difference between the element m and the input*/
                >=abs(z-i) /* is greater than or equal to the difference between the element z and the input */
                in z) /* and return z from the lambda */
                ( /* apply this lambda to... */
                { /* a set defined by comprehension as.. */
                x| /* all elements x such that.. */
                x in set{1,...,9**7} /* x is between 1 and 9^7 */
                &forall y in set{2,...,1003} /* and for all values between 2 and 1003*/
                &y<>x=>x mod y<>0 /* y is not x implies x is not divisible by y*/
                }
                )





                share|improve this answer









                $endgroup$





















                  2












                  $begingroup$

                  APL(NARS), 38 chars, 76 bytes



                  {⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}


                  0π is the test for prime, ¯1π the prev prime, 1π is the next prime; test:



                    f←{⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}
                  f¨80 100 5 9 532 1
                  79 101 5 7 523 2





                  share|improve this answer









                  $endgroup$





















                    2












                    $begingroup$


                    Jelly, 9 7 bytes



                    ḤÆRạÞµḢ


                    Try it online!



                    Slow for larger input, but works ok for the requested range. Thanks to @EriktheOutgolfer for saving 2 bytes!






                    share|improve this answer











                    $endgroup$













                    • $begingroup$
                      Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                      $endgroup$
                      – Erik the Outgolfer
                      8 hours ago












                    • $begingroup$
                      @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                      $endgroup$
                      – Nick Kennedy
                      5 hours ago










                    • $begingroup$
                      Hm, that's a concern.
                      $endgroup$
                      – Erik the Outgolfer
                      5 hours ago





















                    2












                    $begingroup$


                    Tidy, 43 bytes



                    {x:(prime↦splice(]x,-1,-∞],[x,∞]))@0}


                    Try it online!



                    Explanation



                    This is a lambda with parameter x. This works by creating the following sequence:



                    [x - 1, x, x - 2, x + 1, x - 3, x + 2, x - 4, x + 3, ...]


                    This is splicing together the two sequences ]x, -1, -∞] (left-closed, right-open) and [x, ∞] (both open).



                    For x = 80, this looks like:



                    [79, 80, 78, 81, 77, 82, 76, 83, 75, 84, 74, 85, ...]


                    Then, we use f↦s to select all elements from s satisfying f. In this case, we filter out all composite numbers, leaving only the prime ones. For the same x, this becomes:



                    [79, 83, 73, 71, 89, 67, 97, 61, 59, 101, 103, 53, ...]


                    Then, we use (...)@0 to select the first member of this sequence. Since the lower of the two needs to be selected, the sequence which starts with x - 1 is spliced in first.



                    Note: Only one of x and x - 1 can be prime, so it is okay that the spliced sequence starts with x - 1. Though the sequence could be open on both sides ([x,-1,-∞]), this would needlessly include x twice in the sequence. So, for sake of "efficiency", I chose the left-closed version (also because I like to show off Tidy).






                    share|improve this answer









                    $endgroup$





















                      2












                      $begingroup$


                      Python 2, 71 bytes





                      f=lambda n,k=1,p=1:k<n*3and min(k+n-p%k*2*n,f(n,k+1,p*k*k)-n,key=abs)+n


                      Try it online!



                      A recursive function that uses the Wilson's Theorem prime generator. The product p tracks $(k-1)!^2$, and p%k is 1 for primes and 0 for non-primes. To make it easy to compare abs(k-n) for different primes k, we store k-n and compare via abs, adding back n to get the result k.



                      The expression k+n-p%k*2*n is designed to give k-n on primes (where p%k=1), and otherwise a "bad" value of k+n that's always bigger in absolute value and so doesn't affect the minimum, so that non-primes are passed over.






                      share|improve this answer









                      $endgroup$





















                        1












                        $begingroup$


                        C# (Visual C# Interactive Compiler), 112 bytes





                        g=>Enumerable.Range(2,2<<20).Where(x=>Enumerable.Range(1,x).Count(y=>x%y<1)<3).OrderBy(x=>Math.Abs(x-g)).First()


                        Try it online!



                        Left shifts by 20 in submission but 10 in TIO so that TIO terminates for test cases.






                        share|improve this answer









                        $endgroup$





















                          1












                          $begingroup$


                          APL (Dyalog Extended), 20 bytesSBCS





                          ⊢(⊃>/⍤|⍤-⌽⊢)¯4 4⍭3⌈⊢


                          Try it online!



                           the argument



                          3⌈ max of 3 and that



                          ¯4 4⍭ the previous and next primes`



                          ⊢() apply the following infix tacit function to that, with the original argument as left argument:



                           the primes



                           … cyclically rotate them the following number of steps:



                            - the original argument minus the primes

                             then

                            | absolute value of that

                             then

                            >/ Boolean (0/1) whether the left is greater than the right (i.e. 1 if next is closer)



                           pick the first one (i.e. previous if previous is closer and next if next is closer)






                          share|improve this answer









                          $endgroup$





















                            1












                            $begingroup$

                            Swift, 186 bytes



                            func p(a:Int){let b=q(a:a,b:-1),c=q(a:a,b:1);print(a-b<=c-a ? b:c)}
                            func q(a:Int,b:Int)->Int{var k=max(a,2),c=2;while k>c && c != a/2{if k%c==0{k+=b;c=2}else{c=c==2 ? c+1:c+2}};return k}


                            Try it online!






                            share|improve this answer









                            $endgroup$





















                              1












                              $begingroup$


                              Jelly, 14 bytes



                              ÆpæRÆnạÞƲ2>?2Ḣ


                              Try it online!






                              share|improve this answer









                              $endgroup$





















                                1












                                $begingroup$


                                C# (Visual C# Interactive Compiler), 96 bytes





                                n=>{for(int i=0,j;;)if((j=n+i/2*(i++%2*2-1))>1&&Enumerable.Range(2,j-2).All(d=>j%d>0))return j;}


                                Try it online!






                                share|improve this answer









                                $endgroup$





















                                  1












                                  $begingroup$


                                  Zsh, 101 92 91 bytes



                                  -9 by collapsing the body into the head of p's loop, -1 from using i=j instead of i=$1 in main loop.





                                  p(){for ((n=2;n<$1&&$1%n++;)):
                                  (($1==n))&&<<<$1}
                                  j=$1
                                  for ((i=j;;++j&&--i))p $i||p $j&&exit


                                  Try it online!



                                  Try it online!



                                  57 48 bytes to the prime testing function, 43 42 bytes to the main loop (1 byte to the newline between them):



                                  p(){  # prime function: takes one input, outputs via return code
                                  for (( n = 2; n < $1 && $1 % n++; )) # divisibility check in loop header
                                  : # no-op loop body
                                  (( $1 == n )) && # if we looped up to $1:
                                  <<< $1 # echo out $1. Otherwise, this will return false
                                  }


                                  For the last condition, we can't use the shorter (($1-n))||, because we need to return false to the main loop if we didn't find a prime. We print in the function to avoid complexity in the main loop.



                                  j=$1                          # set i = j = $1. Doing one in and one out is smallest
                                  for (( i = j; ; ++j && --i )) # loop indefinitely, increment and decrement
                                  p $i || p $j && exit # if either $i or $j was a prime, exit


                                  Conditionals are left-associative, which we take advantage of here. We do test the starting number twice to make the decrement logic simpler.






                                  share|improve this answer










                                  New contributor




                                  GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                  Check out our Code of Conduct.






                                  $endgroup$





















                                    1












                                    $begingroup$

                                    C, 122 bytes



                                    #define r return
                                    p(a,i){if(a<2)r 0;i=1;while(++i<a)if(a%i<1)r 0;r 1;}c(a,b){b=a;while(1){if(p(b))r b;if(p(--a))r a;b++;}}


                                    Use it calling function c() and passing as argument the number, it should return the closest prime.






                                    share|improve this answer









                                    $endgroup$





















                                      1












                                      $begingroup$

                                      Python 2, 93 bytes





                                      lambda n:sorted(range(1,3*n),key=lambda x:abs(x-n)if all(x%k for k in range(2,x))else 2*n)[0]





                                      share|improve this answer











                                      $endgroup$









                                      • 1




                                        $begingroup$
                                        You don't need the f= in the start
                                        $endgroup$
                                        – Embodiment of Ignorance
                                        7 hours ago










                                      • $begingroup$
                                        @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                        $endgroup$
                                        – deustice
                                        7 hours ago






                                      • 1




                                        $begingroup$
                                        The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                        $endgroup$
                                        – xnor
                                        6 hours ago










                                      • $begingroup$
                                        @xnor Fixed, thanks
                                        $endgroup$
                                        – deustice
                                        5 hours ago



















                                      1












                                      $begingroup$


                                      J, 19 15 bytes



                                      (0{]/:|@-)p:@i.


                                      Try it online!






                                      share|improve this answer











                                      $endgroup$













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                                        22 Answers
                                        22






                                        active

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                                        22 Answers
                                        22






                                        active

                                        oldest

                                        votes









                                        active

                                        oldest

                                        votes






                                        active

                                        oldest

                                        votes









                                        6












                                        $begingroup$


                                        05AB1E, 5 bytes



                                        Åps.x


                                        Try it online!
                                        or as a Test Suite



                                        Inefficient for big numbers






                                        share|improve this answer









                                        $endgroup$


















                                          6












                                          $begingroup$


                                          05AB1E, 5 bytes



                                          Åps.x


                                          Try it online!
                                          or as a Test Suite



                                          Inefficient for big numbers






                                          share|improve this answer









                                          $endgroup$
















                                            6












                                            6








                                            6





                                            $begingroup$


                                            05AB1E, 5 bytes



                                            Åps.x


                                            Try it online!
                                            or as a Test Suite



                                            Inefficient for big numbers






                                            share|improve this answer









                                            $endgroup$




                                            05AB1E, 5 bytes



                                            Åps.x


                                            Try it online!
                                            or as a Test Suite



                                            Inefficient for big numbers







                                            share|improve this answer












                                            share|improve this answer



                                            share|improve this answer










                                            answered 12 hours ago









                                            EmignaEmigna

                                            47.2k433143




                                            47.2k433143























                                                5












                                                $begingroup$

                                                JavaScript (ES6), 53 bytes





                                                n=>(g=(o,d=N=n+o)=>N%--d?g(o,d):d-1?g(o<0?-o:~o):N)``


                                                Try it online!



                                                Commented



                                                n => (            // n = input
                                                g = ( // g = recursive function taking:
                                                o, // o = offset
                                                d = // d = current divisor, initialized to N
                                                N = n + o // N = input + offset
                                                ) => //
                                                N % --d ? // decrement d; if d is not a divisor of N:
                                                g(o, d) // do recursive calls until it is
                                                : // else:
                                                d - 1 ? // if d is not equal to 1 (either N is composite or N = 1):
                                                g( // do a recursive call with the next offset:
                                                o < 0 ? // if o is negative:
                                                -o // make it positive (e.g. -1 -> +1)
                                                : // else:
                                                ~o // use -(o + 1) (e.g. +1 -> -2)
                                                ) // end of recursive call
                                                : // else (N is prime):
                                                N // stop recursion and return N
                                                )`` // initial call to g with o = [''] (zero-ish)





                                                share|improve this answer











                                                $endgroup$


















                                                  5












                                                  $begingroup$

                                                  JavaScript (ES6), 53 bytes





                                                  n=>(g=(o,d=N=n+o)=>N%--d?g(o,d):d-1?g(o<0?-o:~o):N)``


                                                  Try it online!



                                                  Commented



                                                  n => (            // n = input
                                                  g = ( // g = recursive function taking:
                                                  o, // o = offset
                                                  d = // d = current divisor, initialized to N
                                                  N = n + o // N = input + offset
                                                  ) => //
                                                  N % --d ? // decrement d; if d is not a divisor of N:
                                                  g(o, d) // do recursive calls until it is
                                                  : // else:
                                                  d - 1 ? // if d is not equal to 1 (either N is composite or N = 1):
                                                  g( // do a recursive call with the next offset:
                                                  o < 0 ? // if o is negative:
                                                  -o // make it positive (e.g. -1 -> +1)
                                                  : // else:
                                                  ~o // use -(o + 1) (e.g. +1 -> -2)
                                                  ) // end of recursive call
                                                  : // else (N is prime):
                                                  N // stop recursion and return N
                                                  )`` // initial call to g with o = [''] (zero-ish)





                                                  share|improve this answer











                                                  $endgroup$
















                                                    5












                                                    5








                                                    5





                                                    $begingroup$

                                                    JavaScript (ES6), 53 bytes





                                                    n=>(g=(o,d=N=n+o)=>N%--d?g(o,d):d-1?g(o<0?-o:~o):N)``


                                                    Try it online!



                                                    Commented



                                                    n => (            // n = input
                                                    g = ( // g = recursive function taking:
                                                    o, // o = offset
                                                    d = // d = current divisor, initialized to N
                                                    N = n + o // N = input + offset
                                                    ) => //
                                                    N % --d ? // decrement d; if d is not a divisor of N:
                                                    g(o, d) // do recursive calls until it is
                                                    : // else:
                                                    d - 1 ? // if d is not equal to 1 (either N is composite or N = 1):
                                                    g( // do a recursive call with the next offset:
                                                    o < 0 ? // if o is negative:
                                                    -o // make it positive (e.g. -1 -> +1)
                                                    : // else:
                                                    ~o // use -(o + 1) (e.g. +1 -> -2)
                                                    ) // end of recursive call
                                                    : // else (N is prime):
                                                    N // stop recursion and return N
                                                    )`` // initial call to g with o = [''] (zero-ish)





                                                    share|improve this answer











                                                    $endgroup$



                                                    JavaScript (ES6), 53 bytes





                                                    n=>(g=(o,d=N=n+o)=>N%--d?g(o,d):d-1?g(o<0?-o:~o):N)``


                                                    Try it online!



                                                    Commented



                                                    n => (            // n = input
                                                    g = ( // g = recursive function taking:
                                                    o, // o = offset
                                                    d = // d = current divisor, initialized to N
                                                    N = n + o // N = input + offset
                                                    ) => //
                                                    N % --d ? // decrement d; if d is not a divisor of N:
                                                    g(o, d) // do recursive calls until it is
                                                    : // else:
                                                    d - 1 ? // if d is not equal to 1 (either N is composite or N = 1):
                                                    g( // do a recursive call with the next offset:
                                                    o < 0 ? // if o is negative:
                                                    -o // make it positive (e.g. -1 -> +1)
                                                    : // else:
                                                    ~o // use -(o + 1) (e.g. +1 -> -2)
                                                    ) // end of recursive call
                                                    : // else (N is prime):
                                                    N // stop recursion and return N
                                                    )`` // initial call to g with o = [''] (zero-ish)






                                                    share|improve this answer














                                                    share|improve this answer



                                                    share|improve this answer








                                                    edited 11 hours ago

























                                                    answered 12 hours ago









                                                    ArnauldArnauld

                                                    79.9k797330




                                                    79.9k797330























                                                        5












                                                        $begingroup$


                                                        Octave, 40 bytes





                                                        @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))


                                                        Try it online!



                                                        This uses the fact that there is always a prime between n and 2*n (Bertrand–Chebyshev theorem).



                                                        How it works



                                                        @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))

                                                        @(n) % Define anonymous function with input n
                                                        p=primes(2*n) % Vector of primes up to 2*n. Assign to p
                                                        abs(n-( )) % Absolute difference between n and each prime
                                                        [~,k]=min( ) % Index of first minimum (assign to k; not used)
                                                        p( ) % Apply that index to p





                                                        share|improve this answer











                                                        $endgroup$


















                                                          5












                                                          $begingroup$


                                                          Octave, 40 bytes





                                                          @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))


                                                          Try it online!



                                                          This uses the fact that there is always a prime between n and 2*n (Bertrand–Chebyshev theorem).



                                                          How it works



                                                          @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))

                                                          @(n) % Define anonymous function with input n
                                                          p=primes(2*n) % Vector of primes up to 2*n. Assign to p
                                                          abs(n-( )) % Absolute difference between n and each prime
                                                          [~,k]=min( ) % Index of first minimum (assign to k; not used)
                                                          p( ) % Apply that index to p





                                                          share|improve this answer











                                                          $endgroup$
















                                                            5












                                                            5








                                                            5





                                                            $begingroup$


                                                            Octave, 40 bytes





                                                            @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))


                                                            Try it online!



                                                            This uses the fact that there is always a prime between n and 2*n (Bertrand–Chebyshev theorem).



                                                            How it works



                                                            @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))

                                                            @(n) % Define anonymous function with input n
                                                            p=primes(2*n) % Vector of primes up to 2*n. Assign to p
                                                            abs(n-( )) % Absolute difference between n and each prime
                                                            [~,k]=min( ) % Index of first minimum (assign to k; not used)
                                                            p( ) % Apply that index to p





                                                            share|improve this answer











                                                            $endgroup$




                                                            Octave, 40 bytes





                                                            @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))


                                                            Try it online!



                                                            This uses the fact that there is always a prime between n and 2*n (Bertrand–Chebyshev theorem).



                                                            How it works



                                                            @(n)p([~,k]=min(abs(n-(p=primes(2*n)))))

                                                            @(n) % Define anonymous function with input n
                                                            p=primes(2*n) % Vector of primes up to 2*n. Assign to p
                                                            abs(n-( )) % Absolute difference between n and each prime
                                                            [~,k]=min( ) % Index of first minimum (assign to k; not used)
                                                            p( ) % Apply that index to p






                                                            share|improve this answer














                                                            share|improve this answer



                                                            share|improve this answer








                                                            edited 5 hours ago

























                                                            answered 9 hours ago









                                                            Luis MendoLuis Mendo

                                                            75.1k888291




                                                            75.1k888291























                                                                3












                                                                $begingroup$

                                                                Pyth, 10 bytes



                                                                haDQfP_TSy


                                                                Try it online here, or verify all the test cases at once here.



                                                                haDQfP_TSyQ   Implicit: Q=eval(input())
                                                                Trailing Q inferred
                                                                yQ 2 * Q
                                                                S Range from 1 to the above
                                                                f Filter keep the elements of the above, as T, where:
                                                                P_T Is T prime?
                                                                D Order the above by...
                                                                a Q ... absolute difference between each element and Q
                                                                This is a stable sort, so smaller primes will be sorted before larger ones if difference is the same
                                                                h Take the first element of the above, implicit print





                                                                share|improve this answer









                                                                $endgroup$


















                                                                  3












                                                                  $begingroup$

                                                                  Pyth, 10 bytes



                                                                  haDQfP_TSy


                                                                  Try it online here, or verify all the test cases at once here.



                                                                  haDQfP_TSyQ   Implicit: Q=eval(input())
                                                                  Trailing Q inferred
                                                                  yQ 2 * Q
                                                                  S Range from 1 to the above
                                                                  f Filter keep the elements of the above, as T, where:
                                                                  P_T Is T prime?
                                                                  D Order the above by...
                                                                  a Q ... absolute difference between each element and Q
                                                                  This is a stable sort, so smaller primes will be sorted before larger ones if difference is the same
                                                                  h Take the first element of the above, implicit print





                                                                  share|improve this answer









                                                                  $endgroup$
















                                                                    3












                                                                    3








                                                                    3





                                                                    $begingroup$

                                                                    Pyth, 10 bytes



                                                                    haDQfP_TSy


                                                                    Try it online here, or verify all the test cases at once here.



                                                                    haDQfP_TSyQ   Implicit: Q=eval(input())
                                                                    Trailing Q inferred
                                                                    yQ 2 * Q
                                                                    S Range from 1 to the above
                                                                    f Filter keep the elements of the above, as T, where:
                                                                    P_T Is T prime?
                                                                    D Order the above by...
                                                                    a Q ... absolute difference between each element and Q
                                                                    This is a stable sort, so smaller primes will be sorted before larger ones if difference is the same
                                                                    h Take the first element of the above, implicit print





                                                                    share|improve this answer









                                                                    $endgroup$



                                                                    Pyth, 10 bytes



                                                                    haDQfP_TSy


                                                                    Try it online here, or verify all the test cases at once here.



                                                                    haDQfP_TSyQ   Implicit: Q=eval(input())
                                                                    Trailing Q inferred
                                                                    yQ 2 * Q
                                                                    S Range from 1 to the above
                                                                    f Filter keep the elements of the above, as T, where:
                                                                    P_T Is T prime?
                                                                    D Order the above by...
                                                                    a Q ... absolute difference between each element and Q
                                                                    This is a stable sort, so smaller primes will be sorted before larger ones if difference is the same
                                                                    h Take the first element of the above, implicit print






                                                                    share|improve this answer












                                                                    share|improve this answer



                                                                    share|improve this answer










                                                                    answered 12 hours ago









                                                                    SokSok

                                                                    4,127925




                                                                    4,127925























                                                                        3












                                                                        $begingroup$


                                                                        Japt, 5 bytes



                                                                        _j}cU


                                                                        Try it or run all test cases



                                                                        _j}cU     :Implicit input of integer U
                                                                        _ :Function taking an integer as an argument
                                                                        j : Test if integer is prime
                                                                        } :End function
                                                                        cU :Return the first integer in [U,U-1,U+1,U-2,...] that returns true





                                                                        share|improve this answer











                                                                        $endgroup$


















                                                                          3












                                                                          $begingroup$


                                                                          Japt, 5 bytes



                                                                          _j}cU


                                                                          Try it or run all test cases



                                                                          _j}cU     :Implicit input of integer U
                                                                          _ :Function taking an integer as an argument
                                                                          j : Test if integer is prime
                                                                          } :End function
                                                                          cU :Return the first integer in [U,U-1,U+1,U-2,...] that returns true





                                                                          share|improve this answer











                                                                          $endgroup$
















                                                                            3












                                                                            3








                                                                            3





                                                                            $begingroup$


                                                                            Japt, 5 bytes



                                                                            _j}cU


                                                                            Try it or run all test cases



                                                                            _j}cU     :Implicit input of integer U
                                                                            _ :Function taking an integer as an argument
                                                                            j : Test if integer is prime
                                                                            } :End function
                                                                            cU :Return the first integer in [U,U-1,U+1,U-2,...] that returns true





                                                                            share|improve this answer











                                                                            $endgroup$




                                                                            Japt, 5 bytes



                                                                            _j}cU


                                                                            Try it or run all test cases



                                                                            _j}cU     :Implicit input of integer U
                                                                            _ :Function taking an integer as an argument
                                                                            j : Test if integer is prime
                                                                            } :End function
                                                                            cU :Return the first integer in [U,U-1,U+1,U-2,...] that returns true






                                                                            share|improve this answer














                                                                            share|improve this answer



                                                                            share|improve this answer








                                                                            edited 11 hours ago

























                                                                            answered 12 hours ago









                                                                            ShaggyShaggy

                                                                            19k21667




                                                                            19k21667























                                                                                3












                                                                                $begingroup$


                                                                                Gaia, 3 bytes



                                                                                ṅD⌡


                                                                                Try it online!



                                                                                Rather slow for large inputs, but works given enough memory/time.



                                                                                I'm not sure why D⌡ implicitly pushes z again, but it makes this a remarkably short answer!



                                                                                ṅ	| implicit input z: push first z prime numbers, call it P
                                                                                D⌡ | take the absolute difference between P and (implicit) z,
                                                                                | returning the smallest value in P with the minimum absolute difference





                                                                                share|improve this answer











                                                                                $endgroup$


















                                                                                  3












                                                                                  $begingroup$


                                                                                  Gaia, 3 bytes



                                                                                  ṅD⌡


                                                                                  Try it online!



                                                                                  Rather slow for large inputs, but works given enough memory/time.



                                                                                  I'm not sure why D⌡ implicitly pushes z again, but it makes this a remarkably short answer!



                                                                                  ṅ	| implicit input z: push first z prime numbers, call it P
                                                                                  D⌡ | take the absolute difference between P and (implicit) z,
                                                                                  | returning the smallest value in P with the minimum absolute difference





                                                                                  share|improve this answer











                                                                                  $endgroup$
















                                                                                    3












                                                                                    3








                                                                                    3





                                                                                    $begingroup$


                                                                                    Gaia, 3 bytes



                                                                                    ṅD⌡


                                                                                    Try it online!



                                                                                    Rather slow for large inputs, but works given enough memory/time.



                                                                                    I'm not sure why D⌡ implicitly pushes z again, but it makes this a remarkably short answer!



                                                                                    ṅ	| implicit input z: push first z prime numbers, call it P
                                                                                    D⌡ | take the absolute difference between P and (implicit) z,
                                                                                    | returning the smallest value in P with the minimum absolute difference





                                                                                    share|improve this answer











                                                                                    $endgroup$




                                                                                    Gaia, 3 bytes



                                                                                    ṅD⌡


                                                                                    Try it online!



                                                                                    Rather slow for large inputs, but works given enough memory/time.



                                                                                    I'm not sure why D⌡ implicitly pushes z again, but it makes this a remarkably short answer!



                                                                                    ṅ	| implicit input z: push first z prime numbers, call it P
                                                                                    D⌡ | take the absolute difference between P and (implicit) z,
                                                                                    | returning the smallest value in P with the minimum absolute difference






                                                                                    share|improve this answer














                                                                                    share|improve this answer



                                                                                    share|improve this answer








                                                                                    edited 7 hours ago

























                                                                                    answered 7 hours ago









                                                                                    GiuseppeGiuseppe

                                                                                    17.2k31152




                                                                                    17.2k31152























                                                                                        2












                                                                                        $begingroup$


                                                                                        Wolfram Language (Mathematica), 53 bytes



                                                                                        If[PrimeQ[s=#],s,#&@@Nearest[s~NextPrime~{-1, 1},s]]&


                                                                                        Try it online!






                                                                                        share|improve this answer









                                                                                        $endgroup$


















                                                                                          2












                                                                                          $begingroup$


                                                                                          Wolfram Language (Mathematica), 53 bytes



                                                                                          If[PrimeQ[s=#],s,#&@@Nearest[s~NextPrime~{-1, 1},s]]&


                                                                                          Try it online!






                                                                                          share|improve this answer









                                                                                          $endgroup$
















                                                                                            2












                                                                                            2








                                                                                            2





                                                                                            $begingroup$


                                                                                            Wolfram Language (Mathematica), 53 bytes



                                                                                            If[PrimeQ[s=#],s,#&@@Nearest[s~NextPrime~{-1, 1},s]]&


                                                                                            Try it online!






                                                                                            share|improve this answer









                                                                                            $endgroup$




                                                                                            Wolfram Language (Mathematica), 53 bytes



                                                                                            If[PrimeQ[s=#],s,#&@@Nearest[s~NextPrime~{-1, 1},s]]&


                                                                                            Try it online!







                                                                                            share|improve this answer












                                                                                            share|improve this answer



                                                                                            share|improve this answer










                                                                                            answered 12 hours ago









                                                                                            J42161217J42161217

                                                                                            13.6k21252




                                                                                            13.6k21252























                                                                                                2












                                                                                                $begingroup$


                                                                                                Python 2, 96 bytes





                                                                                                l=lambda p:min(filter(lambda p:all(p%n for n in range(2,p)),range(2,p*2)),key=lambda x:abs(x-p))


                                                                                                Try it online!






                                                                                                share|improve this answer









                                                                                                $endgroup$









                                                                                                • 2




                                                                                                  $begingroup$
                                                                                                  This seems to fail for $n=1$.
                                                                                                  $endgroup$
                                                                                                  – Arnauld
                                                                                                  11 hours ago
















                                                                                                2












                                                                                                $begingroup$


                                                                                                Python 2, 96 bytes





                                                                                                l=lambda p:min(filter(lambda p:all(p%n for n in range(2,p)),range(2,p*2)),key=lambda x:abs(x-p))


                                                                                                Try it online!






                                                                                                share|improve this answer









                                                                                                $endgroup$









                                                                                                • 2




                                                                                                  $begingroup$
                                                                                                  This seems to fail for $n=1$.
                                                                                                  $endgroup$
                                                                                                  – Arnauld
                                                                                                  11 hours ago














                                                                                                2












                                                                                                2








                                                                                                2





                                                                                                $begingroup$


                                                                                                Python 2, 96 bytes





                                                                                                l=lambda p:min(filter(lambda p:all(p%n for n in range(2,p)),range(2,p*2)),key=lambda x:abs(x-p))


                                                                                                Try it online!






                                                                                                share|improve this answer









                                                                                                $endgroup$




                                                                                                Python 2, 96 bytes





                                                                                                l=lambda p:min(filter(lambda p:all(p%n for n in range(2,p)),range(2,p*2)),key=lambda x:abs(x-p))


                                                                                                Try it online!







                                                                                                share|improve this answer












                                                                                                share|improve this answer



                                                                                                share|improve this answer










                                                                                                answered 11 hours ago









                                                                                                Snaddyvitch DispenserSnaddyvitch Dispenser

                                                                                                1015




                                                                                                1015








                                                                                                • 2




                                                                                                  $begingroup$
                                                                                                  This seems to fail for $n=1$.
                                                                                                  $endgroup$
                                                                                                  – Arnauld
                                                                                                  11 hours ago














                                                                                                • 2




                                                                                                  $begingroup$
                                                                                                  This seems to fail for $n=1$.
                                                                                                  $endgroup$
                                                                                                  – Arnauld
                                                                                                  11 hours ago








                                                                                                2




                                                                                                2




                                                                                                $begingroup$
                                                                                                This seems to fail for $n=1$.
                                                                                                $endgroup$
                                                                                                – Arnauld
                                                                                                11 hours ago




                                                                                                $begingroup$
                                                                                                This seems to fail for $n=1$.
                                                                                                $endgroup$
                                                                                                – Arnauld
                                                                                                11 hours ago











                                                                                                2












                                                                                                $begingroup$


                                                                                                VDM-SL, 161 bytes





                                                                                                f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                A full program to run might look like this - it's worth noting that the bounds of the set of primes used should probably be changed if you actually want to run this, since it will take a long time to run for 1 million:



                                                                                                functions
                                                                                                f:nat1+>nat1
                                                                                                f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                Explanation:



                                                                                                f(i)==                                        /* f is a function which takes a nat1 (natural number not including 0)*/
                                                                                                (lambda p:set of nat1 /* define a lambda which takes a set of nat1*/
                                                                                                &let z in set p be st /* which has an element z in the set such that */
                                                                                                forall m in set p /* for every element in the set*/
                                                                                                &abs(m-i) /* the difference between the element m and the input*/
                                                                                                >=abs(z-i) /* is greater than or equal to the difference between the element z and the input */
                                                                                                in z) /* and return z from the lambda */
                                                                                                ( /* apply this lambda to... */
                                                                                                { /* a set defined by comprehension as.. */
                                                                                                x| /* all elements x such that.. */
                                                                                                x in set{1,...,9**7} /* x is between 1 and 9^7 */
                                                                                                &forall y in set{2,...,1003} /* and for all values between 2 and 1003*/
                                                                                                &y<>x=>x mod y<>0 /* y is not x implies x is not divisible by y*/
                                                                                                }
                                                                                                )





                                                                                                share|improve this answer









                                                                                                $endgroup$


















                                                                                                  2












                                                                                                  $begingroup$


                                                                                                  VDM-SL, 161 bytes





                                                                                                  f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                  A full program to run might look like this - it's worth noting that the bounds of the set of primes used should probably be changed if you actually want to run this, since it will take a long time to run for 1 million:



                                                                                                  functions
                                                                                                  f:nat1+>nat1
                                                                                                  f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                  Explanation:



                                                                                                  f(i)==                                        /* f is a function which takes a nat1 (natural number not including 0)*/
                                                                                                  (lambda p:set of nat1 /* define a lambda which takes a set of nat1*/
                                                                                                  &let z in set p be st /* which has an element z in the set such that */
                                                                                                  forall m in set p /* for every element in the set*/
                                                                                                  &abs(m-i) /* the difference between the element m and the input*/
                                                                                                  >=abs(z-i) /* is greater than or equal to the difference between the element z and the input */
                                                                                                  in z) /* and return z from the lambda */
                                                                                                  ( /* apply this lambda to... */
                                                                                                  { /* a set defined by comprehension as.. */
                                                                                                  x| /* all elements x such that.. */
                                                                                                  x in set{1,...,9**7} /* x is between 1 and 9^7 */
                                                                                                  &forall y in set{2,...,1003} /* and for all values between 2 and 1003*/
                                                                                                  &y<>x=>x mod y<>0 /* y is not x implies x is not divisible by y*/
                                                                                                  }
                                                                                                  )





                                                                                                  share|improve this answer









                                                                                                  $endgroup$
















                                                                                                    2












                                                                                                    2








                                                                                                    2





                                                                                                    $begingroup$


                                                                                                    VDM-SL, 161 bytes





                                                                                                    f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                    A full program to run might look like this - it's worth noting that the bounds of the set of primes used should probably be changed if you actually want to run this, since it will take a long time to run for 1 million:



                                                                                                    functions
                                                                                                    f:nat1+>nat1
                                                                                                    f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                    Explanation:



                                                                                                    f(i)==                                        /* f is a function which takes a nat1 (natural number not including 0)*/
                                                                                                    (lambda p:set of nat1 /* define a lambda which takes a set of nat1*/
                                                                                                    &let z in set p be st /* which has an element z in the set such that */
                                                                                                    forall m in set p /* for every element in the set*/
                                                                                                    &abs(m-i) /* the difference between the element m and the input*/
                                                                                                    >=abs(z-i) /* is greater than or equal to the difference between the element z and the input */
                                                                                                    in z) /* and return z from the lambda */
                                                                                                    ( /* apply this lambda to... */
                                                                                                    { /* a set defined by comprehension as.. */
                                                                                                    x| /* all elements x such that.. */
                                                                                                    x in set{1,...,9**7} /* x is between 1 and 9^7 */
                                                                                                    &forall y in set{2,...,1003} /* and for all values between 2 and 1003*/
                                                                                                    &y<>x=>x mod y<>0 /* y is not x implies x is not divisible by y*/
                                                                                                    }
                                                                                                    )





                                                                                                    share|improve this answer









                                                                                                    $endgroup$




                                                                                                    VDM-SL, 161 bytes





                                                                                                    f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                    A full program to run might look like this - it's worth noting that the bounds of the set of primes used should probably be changed if you actually want to run this, since it will take a long time to run for 1 million:



                                                                                                    functions
                                                                                                    f:nat1+>nat1
                                                                                                    f(i)==(lambda p:set of nat1&let z in set p be st forall m in set p&abs(m-i)>=abs(z-i)in z)({x|x in set{1,...,9**7}&forall y in set{2,...,1003}&y<>x=>x mod y<>0})


                                                                                                    Explanation:



                                                                                                    f(i)==                                        /* f is a function which takes a nat1 (natural number not including 0)*/
                                                                                                    (lambda p:set of nat1 /* define a lambda which takes a set of nat1*/
                                                                                                    &let z in set p be st /* which has an element z in the set such that */
                                                                                                    forall m in set p /* for every element in the set*/
                                                                                                    &abs(m-i) /* the difference between the element m and the input*/
                                                                                                    >=abs(z-i) /* is greater than or equal to the difference between the element z and the input */
                                                                                                    in z) /* and return z from the lambda */
                                                                                                    ( /* apply this lambda to... */
                                                                                                    { /* a set defined by comprehension as.. */
                                                                                                    x| /* all elements x such that.. */
                                                                                                    x in set{1,...,9**7} /* x is between 1 and 9^7 */
                                                                                                    &forall y in set{2,...,1003} /* and for all values between 2 and 1003*/
                                                                                                    &y<>x=>x mod y<>0 /* y is not x implies x is not divisible by y*/
                                                                                                    }
                                                                                                    )






                                                                                                    share|improve this answer












                                                                                                    share|improve this answer



                                                                                                    share|improve this answer










                                                                                                    answered 11 hours ago









                                                                                                    Expired DataExpired Data

                                                                                                    3686




                                                                                                    3686























                                                                                                        2












                                                                                                        $begingroup$

                                                                                                        APL(NARS), 38 chars, 76 bytes



                                                                                                        {⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}


                                                                                                        0π is the test for prime, ¯1π the prev prime, 1π is the next prime; test:



                                                                                                          f←{⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}
                                                                                                        f¨80 100 5 9 532 1
                                                                                                        79 101 5 7 523 2





                                                                                                        share|improve this answer









                                                                                                        $endgroup$


















                                                                                                          2












                                                                                                          $begingroup$

                                                                                                          APL(NARS), 38 chars, 76 bytes



                                                                                                          {⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}


                                                                                                          0π is the test for prime, ¯1π the prev prime, 1π is the next prime; test:



                                                                                                            f←{⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}
                                                                                                          f¨80 100 5 9 532 1
                                                                                                          79 101 5 7 523 2





                                                                                                          share|improve this answer









                                                                                                          $endgroup$
















                                                                                                            2












                                                                                                            2








                                                                                                            2





                                                                                                            $begingroup$

                                                                                                            APL(NARS), 38 chars, 76 bytes



                                                                                                            {⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}


                                                                                                            0π is the test for prime, ¯1π the prev prime, 1π is the next prime; test:



                                                                                                              f←{⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}
                                                                                                            f¨80 100 5 9 532 1
                                                                                                            79 101 5 7 523 2





                                                                                                            share|improve this answer









                                                                                                            $endgroup$



                                                                                                            APL(NARS), 38 chars, 76 bytes



                                                                                                            {⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}


                                                                                                            0π is the test for prime, ¯1π the prev prime, 1π is the next prime; test:



                                                                                                              f←{⍵≤1:2⋄0π⍵:⍵⋄d←1π⍵⋄(d-⍵)≥⍵-s←¯1π⍵:s⋄d}
                                                                                                            f¨80 100 5 9 532 1
                                                                                                            79 101 5 7 523 2






                                                                                                            share|improve this answer












                                                                                                            share|improve this answer



                                                                                                            share|improve this answer










                                                                                                            answered 9 hours ago









                                                                                                            RosLuPRosLuP

                                                                                                            2,296514




                                                                                                            2,296514























                                                                                                                2












                                                                                                                $begingroup$


                                                                                                                Jelly, 9 7 bytes



                                                                                                                ḤÆRạÞµḢ


                                                                                                                Try it online!



                                                                                                                Slow for larger input, but works ok for the requested range. Thanks to @EriktheOutgolfer for saving 2 bytes!






                                                                                                                share|improve this answer











                                                                                                                $endgroup$













                                                                                                                • $begingroup$
                                                                                                                  Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  8 hours ago












                                                                                                                • $begingroup$
                                                                                                                  @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                                                                                                                  $endgroup$
                                                                                                                  – Nick Kennedy
                                                                                                                  5 hours ago










                                                                                                                • $begingroup$
                                                                                                                  Hm, that's a concern.
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  5 hours ago


















                                                                                                                2












                                                                                                                $begingroup$


                                                                                                                Jelly, 9 7 bytes



                                                                                                                ḤÆRạÞµḢ


                                                                                                                Try it online!



                                                                                                                Slow for larger input, but works ok for the requested range. Thanks to @EriktheOutgolfer for saving 2 bytes!






                                                                                                                share|improve this answer











                                                                                                                $endgroup$













                                                                                                                • $begingroup$
                                                                                                                  Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  8 hours ago












                                                                                                                • $begingroup$
                                                                                                                  @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                                                                                                                  $endgroup$
                                                                                                                  – Nick Kennedy
                                                                                                                  5 hours ago










                                                                                                                • $begingroup$
                                                                                                                  Hm, that's a concern.
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  5 hours ago
















                                                                                                                2












                                                                                                                2








                                                                                                                2





                                                                                                                $begingroup$


                                                                                                                Jelly, 9 7 bytes



                                                                                                                ḤÆRạÞµḢ


                                                                                                                Try it online!



                                                                                                                Slow for larger input, but works ok for the requested range. Thanks to @EriktheOutgolfer for saving 2 bytes!






                                                                                                                share|improve this answer











                                                                                                                $endgroup$




                                                                                                                Jelly, 9 7 bytes



                                                                                                                ḤÆRạÞµḢ


                                                                                                                Try it online!



                                                                                                                Slow for larger input, but works ok for the requested range. Thanks to @EriktheOutgolfer for saving 2 bytes!







                                                                                                                share|improve this answer














                                                                                                                share|improve this answer



                                                                                                                share|improve this answer








                                                                                                                edited 8 hours ago

























                                                                                                                answered 9 hours ago









                                                                                                                Nick KennedyNick Kennedy

                                                                                                                1,04648




                                                                                                                1,04648












                                                                                                                • $begingroup$
                                                                                                                  Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  8 hours ago












                                                                                                                • $begingroup$
                                                                                                                  @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                                                                                                                  $endgroup$
                                                                                                                  – Nick Kennedy
                                                                                                                  5 hours ago










                                                                                                                • $begingroup$
                                                                                                                  Hm, that's a concern.
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  5 hours ago




















                                                                                                                • $begingroup$
                                                                                                                  Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  8 hours ago












                                                                                                                • $begingroup$
                                                                                                                  @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                                                                                                                  $endgroup$
                                                                                                                  – Nick Kennedy
                                                                                                                  5 hours ago










                                                                                                                • $begingroup$
                                                                                                                  Hm, that's a concern.
                                                                                                                  $endgroup$
                                                                                                                  – Erik the Outgolfer
                                                                                                                  5 hours ago


















                                                                                                                $begingroup$
                                                                                                                Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                                                                                                                $endgroup$
                                                                                                                – Erik the Outgolfer
                                                                                                                8 hours ago






                                                                                                                $begingroup$
                                                                                                                Hey, that's clever! Save two by substituting _A¥ with (absolute difference). Oh, and can really be .
                                                                                                                $endgroup$
                                                                                                                – Erik the Outgolfer
                                                                                                                8 hours ago














                                                                                                                $begingroup$
                                                                                                                @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                                                                                                                $endgroup$
                                                                                                                – Nick Kennedy
                                                                                                                5 hours ago




                                                                                                                $begingroup$
                                                                                                                @EriktheOutgolfer thanks. Surely using won’t always work? It means that only primes up to n+1 will be found, while the closest might be n+2.
                                                                                                                $endgroup$
                                                                                                                – Nick Kennedy
                                                                                                                5 hours ago












                                                                                                                $begingroup$
                                                                                                                Hm, that's a concern.
                                                                                                                $endgroup$
                                                                                                                – Erik the Outgolfer
                                                                                                                5 hours ago






                                                                                                                $begingroup$
                                                                                                                Hm, that's a concern.
                                                                                                                $endgroup$
                                                                                                                – Erik the Outgolfer
                                                                                                                5 hours ago













                                                                                                                2












                                                                                                                $begingroup$


                                                                                                                Tidy, 43 bytes



                                                                                                                {x:(prime↦splice(]x,-1,-∞],[x,∞]))@0}


                                                                                                                Try it online!



                                                                                                                Explanation



                                                                                                                This is a lambda with parameter x. This works by creating the following sequence:



                                                                                                                [x - 1, x, x - 2, x + 1, x - 3, x + 2, x - 4, x + 3, ...]


                                                                                                                This is splicing together the two sequences ]x, -1, -∞] (left-closed, right-open) and [x, ∞] (both open).



                                                                                                                For x = 80, this looks like:



                                                                                                                [79, 80, 78, 81, 77, 82, 76, 83, 75, 84, 74, 85, ...]


                                                                                                                Then, we use f↦s to select all elements from s satisfying f. In this case, we filter out all composite numbers, leaving only the prime ones. For the same x, this becomes:



                                                                                                                [79, 83, 73, 71, 89, 67, 97, 61, 59, 101, 103, 53, ...]


                                                                                                                Then, we use (...)@0 to select the first member of this sequence. Since the lower of the two needs to be selected, the sequence which starts with x - 1 is spliced in first.



                                                                                                                Note: Only one of x and x - 1 can be prime, so it is okay that the spliced sequence starts with x - 1. Though the sequence could be open on both sides ([x,-1,-∞]), this would needlessly include x twice in the sequence. So, for sake of "efficiency", I chose the left-closed version (also because I like to show off Tidy).






                                                                                                                share|improve this answer









                                                                                                                $endgroup$


















                                                                                                                  2












                                                                                                                  $begingroup$


                                                                                                                  Tidy, 43 bytes



                                                                                                                  {x:(prime↦splice(]x,-1,-∞],[x,∞]))@0}


                                                                                                                  Try it online!



                                                                                                                  Explanation



                                                                                                                  This is a lambda with parameter x. This works by creating the following sequence:



                                                                                                                  [x - 1, x, x - 2, x + 1, x - 3, x + 2, x - 4, x + 3, ...]


                                                                                                                  This is splicing together the two sequences ]x, -1, -∞] (left-closed, right-open) and [x, ∞] (both open).



                                                                                                                  For x = 80, this looks like:



                                                                                                                  [79, 80, 78, 81, 77, 82, 76, 83, 75, 84, 74, 85, ...]


                                                                                                                  Then, we use f↦s to select all elements from s satisfying f. In this case, we filter out all composite numbers, leaving only the prime ones. For the same x, this becomes:



                                                                                                                  [79, 83, 73, 71, 89, 67, 97, 61, 59, 101, 103, 53, ...]


                                                                                                                  Then, we use (...)@0 to select the first member of this sequence. Since the lower of the two needs to be selected, the sequence which starts with x - 1 is spliced in first.



                                                                                                                  Note: Only one of x and x - 1 can be prime, so it is okay that the spliced sequence starts with x - 1. Though the sequence could be open on both sides ([x,-1,-∞]), this would needlessly include x twice in the sequence. So, for sake of "efficiency", I chose the left-closed version (also because I like to show off Tidy).






                                                                                                                  share|improve this answer









                                                                                                                  $endgroup$
















                                                                                                                    2












                                                                                                                    2








                                                                                                                    2





                                                                                                                    $begingroup$


                                                                                                                    Tidy, 43 bytes



                                                                                                                    {x:(prime↦splice(]x,-1,-∞],[x,∞]))@0}


                                                                                                                    Try it online!



                                                                                                                    Explanation



                                                                                                                    This is a lambda with parameter x. This works by creating the following sequence:



                                                                                                                    [x - 1, x, x - 2, x + 1, x - 3, x + 2, x - 4, x + 3, ...]


                                                                                                                    This is splicing together the two sequences ]x, -1, -∞] (left-closed, right-open) and [x, ∞] (both open).



                                                                                                                    For x = 80, this looks like:



                                                                                                                    [79, 80, 78, 81, 77, 82, 76, 83, 75, 84, 74, 85, ...]


                                                                                                                    Then, we use f↦s to select all elements from s satisfying f. In this case, we filter out all composite numbers, leaving only the prime ones. For the same x, this becomes:



                                                                                                                    [79, 83, 73, 71, 89, 67, 97, 61, 59, 101, 103, 53, ...]


                                                                                                                    Then, we use (...)@0 to select the first member of this sequence. Since the lower of the two needs to be selected, the sequence which starts with x - 1 is spliced in first.



                                                                                                                    Note: Only one of x and x - 1 can be prime, so it is okay that the spliced sequence starts with x - 1. Though the sequence could be open on both sides ([x,-1,-∞]), this would needlessly include x twice in the sequence. So, for sake of "efficiency", I chose the left-closed version (also because I like to show off Tidy).






                                                                                                                    share|improve this answer









                                                                                                                    $endgroup$




                                                                                                                    Tidy, 43 bytes



                                                                                                                    {x:(prime↦splice(]x,-1,-∞],[x,∞]))@0}


                                                                                                                    Try it online!



                                                                                                                    Explanation



                                                                                                                    This is a lambda with parameter x. This works by creating the following sequence:



                                                                                                                    [x - 1, x, x - 2, x + 1, x - 3, x + 2, x - 4, x + 3, ...]


                                                                                                                    This is splicing together the two sequences ]x, -1, -∞] (left-closed, right-open) and [x, ∞] (both open).



                                                                                                                    For x = 80, this looks like:



                                                                                                                    [79, 80, 78, 81, 77, 82, 76, 83, 75, 84, 74, 85, ...]


                                                                                                                    Then, we use f↦s to select all elements from s satisfying f. In this case, we filter out all composite numbers, leaving only the prime ones. For the same x, this becomes:



                                                                                                                    [79, 83, 73, 71, 89, 67, 97, 61, 59, 101, 103, 53, ...]


                                                                                                                    Then, we use (...)@0 to select the first member of this sequence. Since the lower of the two needs to be selected, the sequence which starts with x - 1 is spliced in first.



                                                                                                                    Note: Only one of x and x - 1 can be prime, so it is okay that the spliced sequence starts with x - 1. Though the sequence could be open on both sides ([x,-1,-∞]), this would needlessly include x twice in the sequence. So, for sake of "efficiency", I chose the left-closed version (also because I like to show off Tidy).







                                                                                                                    share|improve this answer












                                                                                                                    share|improve this answer



                                                                                                                    share|improve this answer










                                                                                                                    answered 6 hours ago









                                                                                                                    Conor O'BrienConor O'Brien

                                                                                                                    30.5k264162




                                                                                                                    30.5k264162























                                                                                                                        2












                                                                                                                        $begingroup$


                                                                                                                        Python 2, 71 bytes





                                                                                                                        f=lambda n,k=1,p=1:k<n*3and min(k+n-p%k*2*n,f(n,k+1,p*k*k)-n,key=abs)+n


                                                                                                                        Try it online!



                                                                                                                        A recursive function that uses the Wilson's Theorem prime generator. The product p tracks $(k-1)!^2$, and p%k is 1 for primes and 0 for non-primes. To make it easy to compare abs(k-n) for different primes k, we store k-n and compare via abs, adding back n to get the result k.



                                                                                                                        The expression k+n-p%k*2*n is designed to give k-n on primes (where p%k=1), and otherwise a "bad" value of k+n that's always bigger in absolute value and so doesn't affect the minimum, so that non-primes are passed over.






                                                                                                                        share|improve this answer









                                                                                                                        $endgroup$


















                                                                                                                          2












                                                                                                                          $begingroup$


                                                                                                                          Python 2, 71 bytes





                                                                                                                          f=lambda n,k=1,p=1:k<n*3and min(k+n-p%k*2*n,f(n,k+1,p*k*k)-n,key=abs)+n


                                                                                                                          Try it online!



                                                                                                                          A recursive function that uses the Wilson's Theorem prime generator. The product p tracks $(k-1)!^2$, and p%k is 1 for primes and 0 for non-primes. To make it easy to compare abs(k-n) for different primes k, we store k-n and compare via abs, adding back n to get the result k.



                                                                                                                          The expression k+n-p%k*2*n is designed to give k-n on primes (where p%k=1), and otherwise a "bad" value of k+n that's always bigger in absolute value and so doesn't affect the minimum, so that non-primes are passed over.






                                                                                                                          share|improve this answer









                                                                                                                          $endgroup$
















                                                                                                                            2












                                                                                                                            2








                                                                                                                            2





                                                                                                                            $begingroup$


                                                                                                                            Python 2, 71 bytes





                                                                                                                            f=lambda n,k=1,p=1:k<n*3and min(k+n-p%k*2*n,f(n,k+1,p*k*k)-n,key=abs)+n


                                                                                                                            Try it online!



                                                                                                                            A recursive function that uses the Wilson's Theorem prime generator. The product p tracks $(k-1)!^2$, and p%k is 1 for primes and 0 for non-primes. To make it easy to compare abs(k-n) for different primes k, we store k-n and compare via abs, adding back n to get the result k.



                                                                                                                            The expression k+n-p%k*2*n is designed to give k-n on primes (where p%k=1), and otherwise a "bad" value of k+n that's always bigger in absolute value and so doesn't affect the minimum, so that non-primes are passed over.






                                                                                                                            share|improve this answer









                                                                                                                            $endgroup$




                                                                                                                            Python 2, 71 bytes





                                                                                                                            f=lambda n,k=1,p=1:k<n*3and min(k+n-p%k*2*n,f(n,k+1,p*k*k)-n,key=abs)+n


                                                                                                                            Try it online!



                                                                                                                            A recursive function that uses the Wilson's Theorem prime generator. The product p tracks $(k-1)!^2$, and p%k is 1 for primes and 0 for non-primes. To make it easy to compare abs(k-n) for different primes k, we store k-n and compare via abs, adding back n to get the result k.



                                                                                                                            The expression k+n-p%k*2*n is designed to give k-n on primes (where p%k=1), and otherwise a "bad" value of k+n that's always bigger in absolute value and so doesn't affect the minimum, so that non-primes are passed over.







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                                                                                                                            share|improve this answer










                                                                                                                            answered 4 hours ago









                                                                                                                            xnorxnor

                                                                                                                            93.1k18190448




                                                                                                                            93.1k18190448























                                                                                                                                1












                                                                                                                                $begingroup$


                                                                                                                                C# (Visual C# Interactive Compiler), 112 bytes





                                                                                                                                g=>Enumerable.Range(2,2<<20).Where(x=>Enumerable.Range(1,x).Count(y=>x%y<1)<3).OrderBy(x=>Math.Abs(x-g)).First()


                                                                                                                                Try it online!



                                                                                                                                Left shifts by 20 in submission but 10 in TIO so that TIO terminates for test cases.






                                                                                                                                share|improve this answer









                                                                                                                                $endgroup$


















                                                                                                                                  1












                                                                                                                                  $begingroup$


                                                                                                                                  C# (Visual C# Interactive Compiler), 112 bytes





                                                                                                                                  g=>Enumerable.Range(2,2<<20).Where(x=>Enumerable.Range(1,x).Count(y=>x%y<1)<3).OrderBy(x=>Math.Abs(x-g)).First()


                                                                                                                                  Try it online!



                                                                                                                                  Left shifts by 20 in submission but 10 in TIO so that TIO terminates for test cases.






                                                                                                                                  share|improve this answer









                                                                                                                                  $endgroup$
















                                                                                                                                    1












                                                                                                                                    1








                                                                                                                                    1





                                                                                                                                    $begingroup$


                                                                                                                                    C# (Visual C# Interactive Compiler), 112 bytes





                                                                                                                                    g=>Enumerable.Range(2,2<<20).Where(x=>Enumerable.Range(1,x).Count(y=>x%y<1)<3).OrderBy(x=>Math.Abs(x-g)).First()


                                                                                                                                    Try it online!



                                                                                                                                    Left shifts by 20 in submission but 10 in TIO so that TIO terminates for test cases.






                                                                                                                                    share|improve this answer









                                                                                                                                    $endgroup$




                                                                                                                                    C# (Visual C# Interactive Compiler), 112 bytes





                                                                                                                                    g=>Enumerable.Range(2,2<<20).Where(x=>Enumerable.Range(1,x).Count(y=>x%y<1)<3).OrderBy(x=>Math.Abs(x-g)).First()


                                                                                                                                    Try it online!



                                                                                                                                    Left shifts by 20 in submission but 10 in TIO so that TIO terminates for test cases.







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                                                                                                                                    share|improve this answer



                                                                                                                                    share|improve this answer










                                                                                                                                    answered 11 hours ago









                                                                                                                                    Expired DataExpired Data

                                                                                                                                    3686




                                                                                                                                    3686























                                                                                                                                        1












                                                                                                                                        $begingroup$


                                                                                                                                        APL (Dyalog Extended), 20 bytesSBCS





                                                                                                                                        ⊢(⊃>/⍤|⍤-⌽⊢)¯4 4⍭3⌈⊢


                                                                                                                                        Try it online!



                                                                                                                                         the argument



                                                                                                                                        3⌈ max of 3 and that



                                                                                                                                        ¯4 4⍭ the previous and next primes`



                                                                                                                                        ⊢() apply the following infix tacit function to that, with the original argument as left argument:



                                                                                                                                         the primes



                                                                                                                                         … cyclically rotate them the following number of steps:



                                                                                                                                          - the original argument minus the primes

                                                                                                                                           then

                                                                                                                                          | absolute value of that

                                                                                                                                           then

                                                                                                                                          >/ Boolean (0/1) whether the left is greater than the right (i.e. 1 if next is closer)



                                                                                                                                         pick the first one (i.e. previous if previous is closer and next if next is closer)






                                                                                                                                        share|improve this answer









                                                                                                                                        $endgroup$


















                                                                                                                                          1












                                                                                                                                          $begingroup$


                                                                                                                                          APL (Dyalog Extended), 20 bytesSBCS





                                                                                                                                          ⊢(⊃>/⍤|⍤-⌽⊢)¯4 4⍭3⌈⊢


                                                                                                                                          Try it online!



                                                                                                                                           the argument



                                                                                                                                          3⌈ max of 3 and that



                                                                                                                                          ¯4 4⍭ the previous and next primes`



                                                                                                                                          ⊢() apply the following infix tacit function to that, with the original argument as left argument:



                                                                                                                                           the primes



                                                                                                                                           … cyclically rotate them the following number of steps:



                                                                                                                                            - the original argument minus the primes

                                                                                                                                             then

                                                                                                                                            | absolute value of that

                                                                                                                                             then

                                                                                                                                            >/ Boolean (0/1) whether the left is greater than the right (i.e. 1 if next is closer)



                                                                                                                                           pick the first one (i.e. previous if previous is closer and next if next is closer)






                                                                                                                                          share|improve this answer









                                                                                                                                          $endgroup$
















                                                                                                                                            1












                                                                                                                                            1








                                                                                                                                            1





                                                                                                                                            $begingroup$


                                                                                                                                            APL (Dyalog Extended), 20 bytesSBCS





                                                                                                                                            ⊢(⊃>/⍤|⍤-⌽⊢)¯4 4⍭3⌈⊢


                                                                                                                                            Try it online!



                                                                                                                                             the argument



                                                                                                                                            3⌈ max of 3 and that



                                                                                                                                            ¯4 4⍭ the previous and next primes`



                                                                                                                                            ⊢() apply the following infix tacit function to that, with the original argument as left argument:



                                                                                                                                             the primes



                                                                                                                                             … cyclically rotate them the following number of steps:



                                                                                                                                              - the original argument minus the primes

                                                                                                                                               then

                                                                                                                                              | absolute value of that

                                                                                                                                               then

                                                                                                                                              >/ Boolean (0/1) whether the left is greater than the right (i.e. 1 if next is closer)



                                                                                                                                             pick the first one (i.e. previous if previous is closer and next if next is closer)






                                                                                                                                            share|improve this answer









                                                                                                                                            $endgroup$




                                                                                                                                            APL (Dyalog Extended), 20 bytesSBCS





                                                                                                                                            ⊢(⊃>/⍤|⍤-⌽⊢)¯4 4⍭3⌈⊢


                                                                                                                                            Try it online!



                                                                                                                                             the argument



                                                                                                                                            3⌈ max of 3 and that



                                                                                                                                            ¯4 4⍭ the previous and next primes`



                                                                                                                                            ⊢() apply the following infix tacit function to that, with the original argument as left argument:



                                                                                                                                             the primes



                                                                                                                                             … cyclically rotate them the following number of steps:



                                                                                                                                              - the original argument minus the primes

                                                                                                                                               then

                                                                                                                                              | absolute value of that

                                                                                                                                               then

                                                                                                                                              >/ Boolean (0/1) whether the left is greater than the right (i.e. 1 if next is closer)



                                                                                                                                             pick the first one (i.e. previous if previous is closer and next if next is closer)







                                                                                                                                            share|improve this answer












                                                                                                                                            share|improve this answer



                                                                                                                                            share|improve this answer










                                                                                                                                            answered 10 hours ago









                                                                                                                                            AdámAdám

                                                                                                                                            28.6k276207




                                                                                                                                            28.6k276207























                                                                                                                                                1












                                                                                                                                                $begingroup$

                                                                                                                                                Swift, 186 bytes



                                                                                                                                                func p(a:Int){let b=q(a:a,b:-1),c=q(a:a,b:1);print(a-b<=c-a ? b:c)}
                                                                                                                                                func q(a:Int,b:Int)->Int{var k=max(a,2),c=2;while k>c && c != a/2{if k%c==0{k+=b;c=2}else{c=c==2 ? c+1:c+2}};return k}


                                                                                                                                                Try it online!






                                                                                                                                                share|improve this answer









                                                                                                                                                $endgroup$


















                                                                                                                                                  1












                                                                                                                                                  $begingroup$

                                                                                                                                                  Swift, 186 bytes



                                                                                                                                                  func p(a:Int){let b=q(a:a,b:-1),c=q(a:a,b:1);print(a-b<=c-a ? b:c)}
                                                                                                                                                  func q(a:Int,b:Int)->Int{var k=max(a,2),c=2;while k>c && c != a/2{if k%c==0{k+=b;c=2}else{c=c==2 ? c+1:c+2}};return k}


                                                                                                                                                  Try it online!






                                                                                                                                                  share|improve this answer









                                                                                                                                                  $endgroup$
















                                                                                                                                                    1












                                                                                                                                                    1








                                                                                                                                                    1





                                                                                                                                                    $begingroup$

                                                                                                                                                    Swift, 186 bytes



                                                                                                                                                    func p(a:Int){let b=q(a:a,b:-1),c=q(a:a,b:1);print(a-b<=c-a ? b:c)}
                                                                                                                                                    func q(a:Int,b:Int)->Int{var k=max(a,2),c=2;while k>c && c != a/2{if k%c==0{k+=b;c=2}else{c=c==2 ? c+1:c+2}};return k}


                                                                                                                                                    Try it online!






                                                                                                                                                    share|improve this answer









                                                                                                                                                    $endgroup$



                                                                                                                                                    Swift, 186 bytes



                                                                                                                                                    func p(a:Int){let b=q(a:a,b:-1),c=q(a:a,b:1);print(a-b<=c-a ? b:c)}
                                                                                                                                                    func q(a:Int,b:Int)->Int{var k=max(a,2),c=2;while k>c && c != a/2{if k%c==0{k+=b;c=2}else{c=c==2 ? c+1:c+2}};return k}


                                                                                                                                                    Try it online!







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                                                                                                                                                    share|improve this answer










                                                                                                                                                    answered 9 hours ago









                                                                                                                                                    onnowebonnoweb

                                                                                                                                                    1613




                                                                                                                                                    1613























                                                                                                                                                        1












                                                                                                                                                        $begingroup$


                                                                                                                                                        Jelly, 14 bytes



                                                                                                                                                        ÆpæRÆnạÞƲ2>?2Ḣ


                                                                                                                                                        Try it online!






                                                                                                                                                        share|improve this answer









                                                                                                                                                        $endgroup$


















                                                                                                                                                          1












                                                                                                                                                          $begingroup$


                                                                                                                                                          Jelly, 14 bytes



                                                                                                                                                          ÆpæRÆnạÞƲ2>?2Ḣ


                                                                                                                                                          Try it online!






                                                                                                                                                          share|improve this answer









                                                                                                                                                          $endgroup$
















                                                                                                                                                            1












                                                                                                                                                            1








                                                                                                                                                            1





                                                                                                                                                            $begingroup$


                                                                                                                                                            Jelly, 14 bytes



                                                                                                                                                            ÆpæRÆnạÞƲ2>?2Ḣ


                                                                                                                                                            Try it online!






                                                                                                                                                            share|improve this answer









                                                                                                                                                            $endgroup$




                                                                                                                                                            Jelly, 14 bytes



                                                                                                                                                            ÆpæRÆnạÞƲ2>?2Ḣ


                                                                                                                                                            Try it online!







                                                                                                                                                            share|improve this answer












                                                                                                                                                            share|improve this answer



                                                                                                                                                            share|improve this answer










                                                                                                                                                            answered 9 hours ago









                                                                                                                                                            Erik the OutgolferErik the Outgolfer

                                                                                                                                                            32.9k429106




                                                                                                                                                            32.9k429106























                                                                                                                                                                1












                                                                                                                                                                $begingroup$


                                                                                                                                                                C# (Visual C# Interactive Compiler), 96 bytes





                                                                                                                                                                n=>{for(int i=0,j;;)if((j=n+i/2*(i++%2*2-1))>1&&Enumerable.Range(2,j-2).All(d=>j%d>0))return j;}


                                                                                                                                                                Try it online!






                                                                                                                                                                share|improve this answer









                                                                                                                                                                $endgroup$


















                                                                                                                                                                  1












                                                                                                                                                                  $begingroup$


                                                                                                                                                                  C# (Visual C# Interactive Compiler), 96 bytes





                                                                                                                                                                  n=>{for(int i=0,j;;)if((j=n+i/2*(i++%2*2-1))>1&&Enumerable.Range(2,j-2).All(d=>j%d>0))return j;}


                                                                                                                                                                  Try it online!






                                                                                                                                                                  share|improve this answer









                                                                                                                                                                  $endgroup$
















                                                                                                                                                                    1












                                                                                                                                                                    1








                                                                                                                                                                    1





                                                                                                                                                                    $begingroup$


                                                                                                                                                                    C# (Visual C# Interactive Compiler), 96 bytes





                                                                                                                                                                    n=>{for(int i=0,j;;)if((j=n+i/2*(i++%2*2-1))>1&&Enumerable.Range(2,j-2).All(d=>j%d>0))return j;}


                                                                                                                                                                    Try it online!






                                                                                                                                                                    share|improve this answer









                                                                                                                                                                    $endgroup$




                                                                                                                                                                    C# (Visual C# Interactive Compiler), 96 bytes





                                                                                                                                                                    n=>{for(int i=0,j;;)if((j=n+i/2*(i++%2*2-1))>1&&Enumerable.Range(2,j-2).All(d=>j%d>0))return j;}


                                                                                                                                                                    Try it online!







                                                                                                                                                                    share|improve this answer












                                                                                                                                                                    share|improve this answer



                                                                                                                                                                    share|improve this answer










                                                                                                                                                                    answered 9 hours ago









                                                                                                                                                                    Embodiment of IgnoranceEmbodiment of Ignorance

                                                                                                                                                                    2,218126




                                                                                                                                                                    2,218126























                                                                                                                                                                        1












                                                                                                                                                                        $begingroup$


                                                                                                                                                                        Zsh, 101 92 91 bytes



                                                                                                                                                                        -9 by collapsing the body into the head of p's loop, -1 from using i=j instead of i=$1 in main loop.





                                                                                                                                                                        p(){for ((n=2;n<$1&&$1%n++;)):
                                                                                                                                                                        (($1==n))&&<<<$1}
                                                                                                                                                                        j=$1
                                                                                                                                                                        for ((i=j;;++j&&--i))p $i||p $j&&exit


                                                                                                                                                                        Try it online!



                                                                                                                                                                        Try it online!



                                                                                                                                                                        57 48 bytes to the prime testing function, 43 42 bytes to the main loop (1 byte to the newline between them):



                                                                                                                                                                        p(){  # prime function: takes one input, outputs via return code
                                                                                                                                                                        for (( n = 2; n < $1 && $1 % n++; )) # divisibility check in loop header
                                                                                                                                                                        : # no-op loop body
                                                                                                                                                                        (( $1 == n )) && # if we looped up to $1:
                                                                                                                                                                        <<< $1 # echo out $1. Otherwise, this will return false
                                                                                                                                                                        }


                                                                                                                                                                        For the last condition, we can't use the shorter (($1-n))||, because we need to return false to the main loop if we didn't find a prime. We print in the function to avoid complexity in the main loop.



                                                                                                                                                                        j=$1                          # set i = j = $1. Doing one in and one out is smallest
                                                                                                                                                                        for (( i = j; ; ++j && --i )) # loop indefinitely, increment and decrement
                                                                                                                                                                        p $i || p $j && exit # if either $i or $j was a prime, exit


                                                                                                                                                                        Conditionals are left-associative, which we take advantage of here. We do test the starting number twice to make the decrement logic simpler.






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                                                                                                                                                                        New contributor




                                                                                                                                                                        GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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                                                                                                                                                                        $endgroup$


















                                                                                                                                                                          1












                                                                                                                                                                          $begingroup$


                                                                                                                                                                          Zsh, 101 92 91 bytes



                                                                                                                                                                          -9 by collapsing the body into the head of p's loop, -1 from using i=j instead of i=$1 in main loop.





                                                                                                                                                                          p(){for ((n=2;n<$1&&$1%n++;)):
                                                                                                                                                                          (($1==n))&&<<<$1}
                                                                                                                                                                          j=$1
                                                                                                                                                                          for ((i=j;;++j&&--i))p $i||p $j&&exit


                                                                                                                                                                          Try it online!



                                                                                                                                                                          Try it online!



                                                                                                                                                                          57 48 bytes to the prime testing function, 43 42 bytes to the main loop (1 byte to the newline between them):



                                                                                                                                                                          p(){  # prime function: takes one input, outputs via return code
                                                                                                                                                                          for (( n = 2; n < $1 && $1 % n++; )) # divisibility check in loop header
                                                                                                                                                                          : # no-op loop body
                                                                                                                                                                          (( $1 == n )) && # if we looped up to $1:
                                                                                                                                                                          <<< $1 # echo out $1. Otherwise, this will return false
                                                                                                                                                                          }


                                                                                                                                                                          For the last condition, we can't use the shorter (($1-n))||, because we need to return false to the main loop if we didn't find a prime. We print in the function to avoid complexity in the main loop.



                                                                                                                                                                          j=$1                          # set i = j = $1. Doing one in and one out is smallest
                                                                                                                                                                          for (( i = j; ; ++j && --i )) # loop indefinitely, increment and decrement
                                                                                                                                                                          p $i || p $j && exit # if either $i or $j was a prime, exit


                                                                                                                                                                          Conditionals are left-associative, which we take advantage of here. We do test the starting number twice to make the decrement logic simpler.






                                                                                                                                                                          share|improve this answer










                                                                                                                                                                          New contributor




                                                                                                                                                                          GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                          Check out our Code of Conduct.






                                                                                                                                                                          $endgroup$
















                                                                                                                                                                            1












                                                                                                                                                                            1








                                                                                                                                                                            1





                                                                                                                                                                            $begingroup$


                                                                                                                                                                            Zsh, 101 92 91 bytes



                                                                                                                                                                            -9 by collapsing the body into the head of p's loop, -1 from using i=j instead of i=$1 in main loop.





                                                                                                                                                                            p(){for ((n=2;n<$1&&$1%n++;)):
                                                                                                                                                                            (($1==n))&&<<<$1}
                                                                                                                                                                            j=$1
                                                                                                                                                                            for ((i=j;;++j&&--i))p $i||p $j&&exit


                                                                                                                                                                            Try it online!



                                                                                                                                                                            Try it online!



                                                                                                                                                                            57 48 bytes to the prime testing function, 43 42 bytes to the main loop (1 byte to the newline between them):



                                                                                                                                                                            p(){  # prime function: takes one input, outputs via return code
                                                                                                                                                                            for (( n = 2; n < $1 && $1 % n++; )) # divisibility check in loop header
                                                                                                                                                                            : # no-op loop body
                                                                                                                                                                            (( $1 == n )) && # if we looped up to $1:
                                                                                                                                                                            <<< $1 # echo out $1. Otherwise, this will return false
                                                                                                                                                                            }


                                                                                                                                                                            For the last condition, we can't use the shorter (($1-n))||, because we need to return false to the main loop if we didn't find a prime. We print in the function to avoid complexity in the main loop.



                                                                                                                                                                            j=$1                          # set i = j = $1. Doing one in and one out is smallest
                                                                                                                                                                            for (( i = j; ; ++j && --i )) # loop indefinitely, increment and decrement
                                                                                                                                                                            p $i || p $j && exit # if either $i or $j was a prime, exit


                                                                                                                                                                            Conditionals are left-associative, which we take advantage of here. We do test the starting number twice to make the decrement logic simpler.






                                                                                                                                                                            share|improve this answer










                                                                                                                                                                            New contributor




                                                                                                                                                                            GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                            Check out our Code of Conduct.






                                                                                                                                                                            $endgroup$




                                                                                                                                                                            Zsh, 101 92 91 bytes



                                                                                                                                                                            -9 by collapsing the body into the head of p's loop, -1 from using i=j instead of i=$1 in main loop.





                                                                                                                                                                            p(){for ((n=2;n<$1&&$1%n++;)):
                                                                                                                                                                            (($1==n))&&<<<$1}
                                                                                                                                                                            j=$1
                                                                                                                                                                            for ((i=j;;++j&&--i))p $i||p $j&&exit


                                                                                                                                                                            Try it online!



                                                                                                                                                                            Try it online!



                                                                                                                                                                            57 48 bytes to the prime testing function, 43 42 bytes to the main loop (1 byte to the newline between them):



                                                                                                                                                                            p(){  # prime function: takes one input, outputs via return code
                                                                                                                                                                            for (( n = 2; n < $1 && $1 % n++; )) # divisibility check in loop header
                                                                                                                                                                            : # no-op loop body
                                                                                                                                                                            (( $1 == n )) && # if we looped up to $1:
                                                                                                                                                                            <<< $1 # echo out $1. Otherwise, this will return false
                                                                                                                                                                            }


                                                                                                                                                                            For the last condition, we can't use the shorter (($1-n))||, because we need to return false to the main loop if we didn't find a prime. We print in the function to avoid complexity in the main loop.



                                                                                                                                                                            j=$1                          # set i = j = $1. Doing one in and one out is smallest
                                                                                                                                                                            for (( i = j; ; ++j && --i )) # loop indefinitely, increment and decrement
                                                                                                                                                                            p $i || p $j && exit # if either $i or $j was a prime, exit


                                                                                                                                                                            Conditionals are left-associative, which we take advantage of here. We do test the starting number twice to make the decrement logic simpler.







                                                                                                                                                                            share|improve this answer










                                                                                                                                                                            New contributor




                                                                                                                                                                            GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                            Check out our Code of Conduct.









                                                                                                                                                                            share|improve this answer



                                                                                                                                                                            share|improve this answer








                                                                                                                                                                            edited 8 hours ago





















                                                                                                                                                                            New contributor




                                                                                                                                                                            GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                            Check out our Code of Conduct.









                                                                                                                                                                            answered 8 hours ago









                                                                                                                                                                            GammaFunctionGammaFunction

                                                                                                                                                                            1716




                                                                                                                                                                            1716




                                                                                                                                                                            New contributor




                                                                                                                                                                            GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                            Check out our Code of Conduct.





                                                                                                                                                                            New contributor





                                                                                                                                                                            GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                            Check out our Code of Conduct.






                                                                                                                                                                            GammaFunction is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                                                                                                                                                                            Check out our Code of Conduct.























                                                                                                                                                                                1












                                                                                                                                                                                $begingroup$

                                                                                                                                                                                C, 122 bytes



                                                                                                                                                                                #define r return
                                                                                                                                                                                p(a,i){if(a<2)r 0;i=1;while(++i<a)if(a%i<1)r 0;r 1;}c(a,b){b=a;while(1){if(p(b))r b;if(p(--a))r a;b++;}}


                                                                                                                                                                                Use it calling function c() and passing as argument the number, it should return the closest prime.






                                                                                                                                                                                share|improve this answer









                                                                                                                                                                                $endgroup$


















                                                                                                                                                                                  1












                                                                                                                                                                                  $begingroup$

                                                                                                                                                                                  C, 122 bytes



                                                                                                                                                                                  #define r return
                                                                                                                                                                                  p(a,i){if(a<2)r 0;i=1;while(++i<a)if(a%i<1)r 0;r 1;}c(a,b){b=a;while(1){if(p(b))r b;if(p(--a))r a;b++;}}


                                                                                                                                                                                  Use it calling function c() and passing as argument the number, it should return the closest prime.






                                                                                                                                                                                  share|improve this answer









                                                                                                                                                                                  $endgroup$
















                                                                                                                                                                                    1












                                                                                                                                                                                    1








                                                                                                                                                                                    1





                                                                                                                                                                                    $begingroup$

                                                                                                                                                                                    C, 122 bytes



                                                                                                                                                                                    #define r return
                                                                                                                                                                                    p(a,i){if(a<2)r 0;i=1;while(++i<a)if(a%i<1)r 0;r 1;}c(a,b){b=a;while(1){if(p(b))r b;if(p(--a))r a;b++;}}


                                                                                                                                                                                    Use it calling function c() and passing as argument the number, it should return the closest prime.






                                                                                                                                                                                    share|improve this answer









                                                                                                                                                                                    $endgroup$



                                                                                                                                                                                    C, 122 bytes



                                                                                                                                                                                    #define r return
                                                                                                                                                                                    p(a,i){if(a<2)r 0;i=1;while(++i<a)if(a%i<1)r 0;r 1;}c(a,b){b=a;while(1){if(p(b))r b;if(p(--a))r a;b++;}}


                                                                                                                                                                                    Use it calling function c() and passing as argument the number, it should return the closest prime.







                                                                                                                                                                                    share|improve this answer












                                                                                                                                                                                    share|improve this answer



                                                                                                                                                                                    share|improve this answer










                                                                                                                                                                                    answered 7 hours ago









                                                                                                                                                                                    Lince AssassinoLince Assassino

                                                                                                                                                                                    914




                                                                                                                                                                                    914























                                                                                                                                                                                        1












                                                                                                                                                                                        $begingroup$

                                                                                                                                                                                        Python 2, 93 bytes





                                                                                                                                                                                        lambda n:sorted(range(1,3*n),key=lambda x:abs(x-n)if all(x%k for k in range(2,x))else 2*n)[0]





                                                                                                                                                                                        share|improve this answer











                                                                                                                                                                                        $endgroup$









                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          You don't need the f= in the start
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – Embodiment of Ignorance
                                                                                                                                                                                          7 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          7 hours ago






                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – xnor
                                                                                                                                                                                          6 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @xnor Fixed, thanks
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          5 hours ago
















                                                                                                                                                                                        1












                                                                                                                                                                                        $begingroup$

                                                                                                                                                                                        Python 2, 93 bytes





                                                                                                                                                                                        lambda n:sorted(range(1,3*n),key=lambda x:abs(x-n)if all(x%k for k in range(2,x))else 2*n)[0]





                                                                                                                                                                                        share|improve this answer











                                                                                                                                                                                        $endgroup$









                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          You don't need the f= in the start
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – Embodiment of Ignorance
                                                                                                                                                                                          7 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          7 hours ago






                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – xnor
                                                                                                                                                                                          6 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @xnor Fixed, thanks
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          5 hours ago














                                                                                                                                                                                        1












                                                                                                                                                                                        1








                                                                                                                                                                                        1





                                                                                                                                                                                        $begingroup$

                                                                                                                                                                                        Python 2, 93 bytes





                                                                                                                                                                                        lambda n:sorted(range(1,3*n),key=lambda x:abs(x-n)if all(x%k for k in range(2,x))else 2*n)[0]





                                                                                                                                                                                        share|improve this answer











                                                                                                                                                                                        $endgroup$



                                                                                                                                                                                        Python 2, 93 bytes





                                                                                                                                                                                        lambda n:sorted(range(1,3*n),key=lambda x:abs(x-n)if all(x%k for k in range(2,x))else 2*n)[0]






                                                                                                                                                                                        share|improve this answer














                                                                                                                                                                                        share|improve this answer



                                                                                                                                                                                        share|improve this answer








                                                                                                                                                                                        edited 5 hours ago

























                                                                                                                                                                                        answered 8 hours ago









                                                                                                                                                                                        deusticedeustice

                                                                                                                                                                                        614




                                                                                                                                                                                        614








                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          You don't need the f= in the start
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – Embodiment of Ignorance
                                                                                                                                                                                          7 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          7 hours ago






                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – xnor
                                                                                                                                                                                          6 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @xnor Fixed, thanks
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          5 hours ago














                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          You don't need the f= in the start
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – Embodiment of Ignorance
                                                                                                                                                                                          7 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          7 hours ago






                                                                                                                                                                                        • 1




                                                                                                                                                                                          $begingroup$
                                                                                                                                                                                          The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – xnor
                                                                                                                                                                                          6 hours ago










                                                                                                                                                                                        • $begingroup$
                                                                                                                                                                                          @xnor Fixed, thanks
                                                                                                                                                                                          $endgroup$
                                                                                                                                                                                          – deustice
                                                                                                                                                                                          5 hours ago








                                                                                                                                                                                        1




                                                                                                                                                                                        1




                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        You don't need the f= in the start
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – Embodiment of Ignorance
                                                                                                                                                                                        7 hours ago




                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        You don't need the f= in the start
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – Embodiment of Ignorance
                                                                                                                                                                                        7 hours ago












                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – deustice
                                                                                                                                                                                        7 hours ago




                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        @EmbodimentofIgnorance Thanks, fixed that along with the range and non-prime penalty criteria that was causing n=1 to fail
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – deustice
                                                                                                                                                                                        7 hours ago




                                                                                                                                                                                        1




                                                                                                                                                                                        1




                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – xnor
                                                                                                                                                                                        6 hours ago




                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        The primality check doesn't work for Fermat pseudoprimes such as 341=31*11 which it calls prime.
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – xnor
                                                                                                                                                                                        6 hours ago












                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        @xnor Fixed, thanks
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – deustice
                                                                                                                                                                                        5 hours ago




                                                                                                                                                                                        $begingroup$
                                                                                                                                                                                        @xnor Fixed, thanks
                                                                                                                                                                                        $endgroup$
                                                                                                                                                                                        – deustice
                                                                                                                                                                                        5 hours ago











                                                                                                                                                                                        1












                                                                                                                                                                                        $begingroup$


                                                                                                                                                                                        J, 19 15 bytes



                                                                                                                                                                                        (0{]/:|@-)p:@i.


                                                                                                                                                                                        Try it online!






                                                                                                                                                                                        share|improve this answer











                                                                                                                                                                                        $endgroup$


















                                                                                                                                                                                          1












                                                                                                                                                                                          $begingroup$


                                                                                                                                                                                          J, 19 15 bytes



                                                                                                                                                                                          (0{]/:|@-)p:@i.


                                                                                                                                                                                          Try it online!






                                                                                                                                                                                          share|improve this answer











                                                                                                                                                                                          $endgroup$
















                                                                                                                                                                                            1












                                                                                                                                                                                            1








                                                                                                                                                                                            1





                                                                                                                                                                                            $begingroup$


                                                                                                                                                                                            J, 19 15 bytes



                                                                                                                                                                                            (0{]/:|@-)p:@i.


                                                                                                                                                                                            Try it online!






                                                                                                                                                                                            share|improve this answer











                                                                                                                                                                                            $endgroup$




                                                                                                                                                                                            J, 19 15 bytes



                                                                                                                                                                                            (0{]/:|@-)p:@i.


                                                                                                                                                                                            Try it online!







                                                                                                                                                                                            share|improve this answer














                                                                                                                                                                                            share|improve this answer



                                                                                                                                                                                            share|improve this answer








                                                                                                                                                                                            edited 5 hours ago

























                                                                                                                                                                                            answered 7 hours ago









                                                                                                                                                                                            Galen IvanovGalen Ivanov

                                                                                                                                                                                            7,30211034




                                                                                                                                                                                            7,30211034






























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                                                                                                                                                                                                Старые Смолеговицы Содержание История | География | Демография | Достопримечательности | Примечания | НавигацияHGЯOLHGЯOL41 206 832 01641 606 406 141Административно-территориальное деление Ленинградской области«Переписная оброчная книга Водской пятины 1500 года», С. 793«Карта Ингерманландии: Ивангорода, Яма, Копорья, Нотеборга», по материалам 1676 г.«Генеральная карта провинции Ингерманландии» Э. Белинга и А. Андерсина, 1704 г., составлена по материалам 1678 г.«Географический чертёж над Ижорскою землей со своими городами» Адриана Шонбека 1705 г.Новая и достоверная всей Ингерманландии ланткарта. Грав. А. Ростовцев. СПб., 1727 г.Топографическая карта Санкт-Петербургской губернии. 5-и верстка. Шуберт. 1834 г.Описание Санкт-Петербургской губернии по уездам и станамСпецкарта западной части России Ф. Ф. Шуберта. 1844 г.Алфавитный список селений по уездам и станам С.-Петербургской губернииСписки населённых мест Российской Империи, составленные и издаваемые центральным статистическим комитетом министерства внутренних дел. XXXVII. Санкт-Петербургская губерния. По состоянию на 1862 год. СПб. 1864. С. 203Материалы по статистике народного хозяйства в С.-Петербургской губернии. Вып. IX. Частновладельческое хозяйство в Ямбургском уезде. СПб, 1888, С. 146, С. 2, 7, 54Положение о гербе муниципального образования Курское сельское поселениеСправочник истории административно-территориального деления Ленинградской области.Топографическая карта Ленинградской области, квадрат О-35-23-В (Хотыницы), 1930 г.АрхивированоАдминистративно-территориальное деление Ленинградской области. — Л., 1933, С. 27, 198АрхивированоАдминистративно-экономический справочник по Ленинградской области. — Л., 1936, с. 219АрхивированоАдминистративно-территориальное деление Ленинградской области. — Л., 1966, с. 175АрхивированоАдминистративно-территориальное деление Ленинградской области. — Лениздат, 1973, С. 180АрхивированоАдминистративно-территориальное деление Ленинградской области. — Лениздат, 1990, ISBN 5-289-00612-5, С. 38АрхивированоАдминистративно-территориальное деление Ленинградской области. — СПб., 2007, с. 60АрхивированоКоряков Юрий База данных «Этно-языковой состав населённых пунктов России». Ленинградская область.Административно-территориальное деление Ленинградской области. — СПб, 1997, ISBN 5-86153-055-6, С. 41АрхивированоКультовый комплекс Старые Смолеговицы // Электронная энциклопедия ЭрмитажаПроблемы выявления, изучения и сохранения культовых комплексов с каменными крестами: по материалам работ 2016-2017 гг. в Ленинградской области