Consecutive primes with ascending or descending differences: Difference between revisions
Consecutive primes with ascending or descending differences (view source)
Revision as of 19:35, 20 November 2023
, 6 months agoAdded Easylang
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{{
;Task:
Line 7 ⟶ 6:
Do the same for sequences of primes where the differences are strictly descending.
<br><br>
In both cases, show the sequence for primes <big><</big> 1
<br><br>
If there are multiple sequences of the same length, only the first need be shown.
<br><br>
=={{header|11l}}==
{{trans|Python}}
<syntaxhighlight lang="11l">F primes_upto(limit)
V is_prime = [0B] * 2 [+] [1B] * (limit - 1)
L(n) 0 .< Int(limit ^ 0.5 + 1.5)
I is_prime[n]
L(i) (n * n .. limit).step(n)
is_prime[i] = 0B
R enumerate(is_prime).filter((i, prime) -> prime).map((i, prime) -> i)
V primelist = primes_upto(1'000'000)
V listlen = primelist.len
V pindex = 1
V old_diff = -1
V curr_list = [primelist[0]]
[Int] longest_list
L pindex < listlen
V diff = primelist[pindex] - primelist[pindex - 1]
I diff > old_diff
curr_list.append(primelist[pindex])
I curr_list.len > longest_list.len
longest_list = curr_list
E
curr_list = [primelist[pindex - 1], primelist[pindex]]
old_diff = diff
pindex++
print(longest_list)
pindex = 1
old_diff = -1
curr_list = [primelist[0]]
longest_list.drop()
L pindex < listlen
V diff = primelist[pindex] - primelist[pindex - 1]
I diff < old_diff
curr_list.append(primelist[pindex])
I curr_list.len > longest_list.len
longest_list = curr_list
E
curr_list = [primelist[pindex - 1], primelist[pindex]]
old_diff = diff
pindex++
print(longest_list)</syntaxhighlight>
{{out}}
<pre>
[128981, 128983, 128987, 128993, 129001, 129011, 129023, 129037]
[322171, 322193, 322213, 322229, 322237, 322243, 322247, 322249]
</pre>
=={{header|ALGOL 68}}==
<
# are strictly ascending/descending #
# reurns a list of primes up to n #
Line 33 ⟶ 93:
p[ 1 : p pos ]
END # prime list # ;
# shos the results of a search #
PROC show sequence = ( []INT primes, STRING seq name, INT seq start, seq length )VOID:
BEGIN
print( ( " The longest sequence of primes with "
, seq name
, " differences contains "
, whole( seq length, 0 )
, " primes"
, newline
, " First such sequence (differences in brackets):"
, newline
, " "
)
);
print( ( whole( primes[ seq start ], 0 ) ) );
FOR p FROM seq start + 1 TO seq start + ( seq length - 1 ) DO
print( ( " (", whole( ABS( primes[ p ] - primes[ p - 1 ] ), 0 ), ") ", whole( primes[ p ], 0 ) ) )
OD;
print( ( newline ) )
END # show seuence # ;
# find the longest sequence of primes where the successive differences are ascending/descending #
PROC find sequence = ( []INT primes, BOOL ascending, REF INT seq start, seq length )VOID:
BEGIN
seq start := seq length := 0;
INT start diff = IF ascending THEN 0 ELSE UPB primes + 1 FI;
FOR p FROM LWB primes TO UPB primes DO
INT prev diff := start diff;
INT length := 1;
FOR s FROM p + 1 TO UPB primes
WHILE INT diff = ABS ( primes[ s ] - primes[ s - 1 ] );
IF ascending THEN diff > prev diff ELSE diff < prev diff FI
DO
length +:= 1;
prev diff := diff
OD;
IF length > seq length THEN
# found a longer sequence #
seq length := length;
seq start := p
FI
OD
END # find sequence #;
INT max number = 1 000 000;
[]INT primes = prime list( max number );
Line 40 ⟶ 141:
INT desc length := 0;
INT desc start := 0;
find sequence( primes, TRUE, asc start, asc length );
find sequence( primes, FALSE,
# show the sequences #
print( ( "For primes up to ", whole( max number, 0 ), newline ) );
show sequence( primes, "ascending", asc start, asc length );
show sequence( primes, "descending", desc
END</syntaxhighlight>
{{out}}
<pre>
For primes up to 1000000
First such sequence (differences in brackets):
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
First such sequence (differences in brackets):
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
</pre>
=={{header|BASIC}}==
==={{header|FreeBASIC}}===
Use any of the primality testing code on this site as an include; I won't reproduce it here.
<syntaxhighlight lang="freebasic">#define UPPER 1000000
#include"isprime.bas"
dim as uinteger champ = 0, record = 0, streak, i, j, n
'first generate all the primes below UPPER
redim as uinteger prime(1 to 2)
prime(1) = 2 : prime(2) = 3
for i = 5 to UPPER step 2
if isprime(i) then
redim preserve prime(1 to ubound(prime) + 1)
prime(ubound(prime)) = i
end if
next i
n = ubound(prime)
'now look for the longest streak of ascending primes
for i = 2 to n-1
j = i + 1
streak = 1
while j<=n andalso prime(j)-prime(j-1) > prime(j-1)-prime(j-2)
streak += 1
j+=1
wend
if streak > record then
champ = i-1
record = streak
end if
next i
print "The longest sequence of ascending primes (with their difference from the last one) is:"
for i = champ+1 to champ+record
print prime(i-1);" (";prime(i)-prime(i-1);") ";
next i
print prime(i-1) : print
'now for the descending ones
record = 0 : champ = 0
for i = 2 to n-1
j = i + 1
streak = 1
while j<=n andalso prime(j)-prime(j-1) < prime(j-1)-prime(j-2) 'identical to above, but for the inequality sign
streak += 1
j+=1
wend
if streak > record then
champ = i-1
record = streak
end if
next i
print "The longest sequence of descending primes (with their difference from the last one) is:"
for i = champ+1 to champ+record
print prime(i-1);" (";prime(i)-prime(i-1);") ";
next i
print prime(i-1)</syntaxhighlight>
{{out}}
<pre>The longest sequence of ascending primes (with their difference from the last one) is:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
The longest sequence of descending primes (with their difference from the last one) is:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249</pre>
=={{header|C}}==
{{trans|Wren}}
More or less.
<syntaxhighlight lang="c">#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
bool *sieve(int limit) {
int i, p;
limit++;
// True denotes composite, false denotes prime.
bool *c = calloc(limit, sizeof(bool)); // all false by default
c[0] = true;
c[1] = true;
for (i = 4; i < limit; i += 2) c[i] = true;
p = 3; // Start from 3.
while (true) {
int p2 = p * p;
if (p2 >= limit) break;
for (i = p2; i < limit; i += 2 * p) c[i] = true;
while (true) {
p += 2;
if (!c[p]) break;
}
}
return c;
}
void longestSeq(int *primes, int pc, bool asc) {
int i, j, d, pd = 0, lls = 1, lcs = 1;
int longSeqs[25][10] = {{2}};
int lsl[25] = {1};
int currSeq[10] = {2};
const char *dir = asc ? "ascending" : "descending";
for (i = 1; i < pc; ++i) {
d = primes[i] - primes[i-1];
if ((asc && d <= pd) || (!asc && d >= pd)) {
if (lcs > lsl[0]) {
memcpy((void *)longSeqs[0], (void *)currSeq, lcs * sizeof(int));
lsl[0] = lcs;
lls = 1;
} else if (lcs == lsl[0]) {
memcpy((void *)longSeqs[lls], (void *)currSeq, lcs * sizeof(int));
lsl[lls++] = lcs;
}
currSeq[0] = primes[i-1];
currSeq[1] = primes[i];
lcs = 2;
} else {
currSeq[lcs++] = primes[i];
}
pd = d;
}
if (lcs > lsl[0]) {
memcpy((void *)longSeqs[0], (void *)currSeq, lcs * sizeof(int));
lsl[0] = lcs;
lls = 1;
} else if (lcs == lsl[0]) {
memcpy((void *)longSeqs[lls], (void *)currSeq, lcs * sizeof(int));
lsl[lls++] = lcs;
}
printf("Longest run(s) of primes with %s differences is %d:\n", dir, lsl[0]);
for (i = 0; i < lls; ++i) {
int *ls = longSeqs[i];
for (j = 0; j < lsl[i]-1; ++j) printf("%d (%d) ", ls[j], ls[j+1] - ls[j]);
printf("%d\n", ls[lsl[i]-1]);
}
printf("\n");
}
int main() {
const int limit = 999999;
int i, j, pc = 0;
bool *c = sieve(limit);
for (i = 0; i < limit; ++i) {
if (!c[i]) ++pc;
}
int *primes = (int *)malloc(pc * sizeof(int));
for (i = 0, j = 0; i < limit; ++i) {
if (!c[i]) primes[j++] = i;
}
free(c);
printf("For primes < 1 million:\n");
longestSeq(primes, pc, true);
longestSeq(primes, pc, false);
free(primes);
return 0;
}</syntaxhighlight>
{{out}}
<pre>
For primes < 1 million:
Longest run(s) of primes with ascending differences is 8:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
402581 (2) 402583 (4) 402587 (6) 402593 (8) 402601 (12) 402613 (18) 402631 (60) 402691
665111 (2) 665113 (4) 665117 (6) 665123 (8) 665131 (10) 665141 (12) 665153 (24) 665177
Longest run(s) of primes with descending differences is 8:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
752207 (44) 752251 (12) 752263 (10) 752273 (8) 752281 (6) 752287 (4) 752291 (2) 752293
</pre>
=={{header|C sharp|C#}}==
Extended the limit up to see what would happen.
<syntaxhighlight lang="csharp">using System.Linq;
using System.Collections.Generic;
using TG = System.Tuple<int, int>;
using static System.Console;
class Program
{
static void Main(string[] args)
{
const int mil = (int)1e6;
foreach (var amt in new int[] { 1, 2, 6, 12, 18 })
{
int lmt = mil * amt, lg = 0, ng, d, ld = 0;
var desc = new string[] { "A", "", "De" };
int[] mx = new int[] { 0, 0, 0 },
bi = new int[] { 0, 0, 0 },
c = new int[] { 2, 2, 2 };
WriteLine("For primes up to {0:n0}:", lmt);
var pr = PG.Primes(lmt).ToArray();
for (int i = 0; i < pr.Length; i++)
{
ng = pr[i].Item2; d = ng.CompareTo(lg) + 1;
if (ld == d)
c[2 - d]++;
else
{
if (c[d] > mx[d]) { mx[d] = c[d]; bi[d] = i - mx[d] - 1; }
c[d] = 2;
}
ld = d; lg = ng;
}
for (int r = 0; r <= 2; r += 2)
{
Write("{0}scending, found run of {1} consecutive primes:\n {2} ",
desc[r], mx[r] + 1, pr[bi[r]++].Item1);
foreach (var itm in pr.Skip(bi[r]).Take(mx[r]))
Write("({0}) {1} ", itm.Item2, itm.Item1); WriteLine(r == 0 ? "" : "\n");
}
}
}
}
class PG
{
public static IEnumerable<TG> Primes(int lim)
{
bool[] flags = new bool[lim + 1];
int j = 3, lj = 2;
for (int d = 8, sq = 9; sq <= lim; j += 2, sq += d += 8)
if (!flags[j])
{
yield return new TG(j, j - lj);
lj = j;
for (int k = sq, i = j << 1; k <= lim; k += i) flags[k] = true;
}
for (; j <= lim; j += 2)
if (!flags[j])
{
yield return new TG(j, j - lj);
lj = j;
}
}
}</syntaxhighlight>
{{out}}
<pre>For primes up to 1,000,000:
Ascending, found run of 8 consecutive primes:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
Descending, found run of 8 consecutive primes:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
For primes up to 2,000,000:
Ascending, found run of 9 consecutive primes:
1319407 (4) 1319411 (8) 1319419 (10) 1319429 (14) 1319443 (16) 1319459 (18) 1319477 (32) 1319509 (34) 1319543
Descending, found run of 8 consecutive primes:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
For primes up to 6,000,000:
Ascending, found run of 9 consecutive primes:
1319407 (4) 1319411 (8) 1319419 (10) 1319429 (14) 1319443 (16) 1319459 (18) 1319477 (32) 1319509 (34) 1319543
Descending, found run of 9 consecutive primes:
5051309 (32) 5051341 (28) 5051369 (14) 5051383 (10) 5051393 (8) 5051401 (6) 5051407 (4) 5051411 (2) 5051413
For primes up to 12,000,000:
Ascending, found run of 9 consecutive primes:
1319407 (4) 1319411 (8) 1319419 (10) 1319429 (14) 1319443 (16) 1319459 (18) 1319477 (32) 1319509 (34) 1319543
Descending, found run of 10 consecutive primes:
11938793 (60) 11938853 (38) 11938891 (28) 11938919 (14) 11938933 (10) 11938943 (8) 11938951 (6) 11938957 (4) 11938961 (2) 11938963
For primes up to 18,000,000:
Ascending, found run of 10 consecutive primes:
17797517 (2) 17797519 (4) 17797523 (8) 17797531 (10) 17797541 (12) 17797553 (20) 17797573 (28) 17797601 (42) 17797643 (50) 17797693
Descending, found run of 10 consecutive primes:
11938793 (60) 11938853 (38) 11938891 (28) 11938919 (14) 11938933 (10) 11938943 (8) 11938951 (6) 11938957 (4) 11938961 (2) 11938963</pre>
=={{header|C++}}==
{{libheader|Primesieve}}
<syntaxhighlight lang="cpp">#include <cstdint>
#include <iostream>
#include <vector>
#include <primesieve.hpp>
void print_diffs(const std::vector<uint64_t>& vec) {
for (size_t i = 0, n = vec.size(); i != n; ++i) {
if (i != 0)
std::cout << " (" << vec[i] - vec[i - 1] << ") ";
std::cout << vec[i];
}
std::cout << '\n';
}
int main() {
std::cout.imbue(std::locale(""));
std::vector<uint64_t> asc, desc;
std::vector<std::vector<uint64_t>> max_asc, max_desc;
size_t max_asc_len = 0, max_desc_len = 0;
uint64_t prime;
const uint64_t limit = 1000000;
for (primesieve::iterator pi; (prime = pi.next_prime()) < limit; ) {
size_t alen = asc.size();
if (alen > 1 && prime - asc[alen - 1] <= asc[alen - 1] - asc[alen - 2])
asc.erase(asc.begin(), asc.end() - 1);
asc.push_back(prime);
if (asc.size() >= max_asc_len) {
if (asc.size() > max_asc_len) {
max_asc_len = asc.size();
max_asc.clear();
}
max_asc.push_back(asc);
}
size_t dlen = desc.size();
if (dlen > 1 && prime - desc[dlen - 1] >= desc[dlen - 1] - desc[dlen - 2])
desc.erase(desc.begin(), desc.end() - 1);
desc.push_back(prime);
if (desc.size() >= max_desc_len) {
if (desc.size() > max_desc_len) {
max_desc_len = desc.size();
max_desc.clear();
}
max_desc.push_back(desc);
}
}
std::cout << "Longest run(s) of ascending prime gaps up to " << limit << ":\n";
for (const auto& v : max_asc)
print_diffs(v);
std::cout << "\nLongest run(s) of descending prime gaps up to " << limit << ":\n";
for (const auto& v : max_desc)
print_diffs(v);
return 0;
}</syntaxhighlight>
{{out}}
<pre>
Longest run(s) of ascending prime gaps up to 1,000,000:
128,981 (2) 128,983 (4) 128,987 (6) 128,993 (8) 129,001 (10) 129,011 (12) 129,023 (14) 129,037
402,581 (2) 402,583 (4) 402,587 (6) 402,593 (8) 402,601 (12) 402,613 (18) 402,631 (60) 402,691
665,111 (2) 665,113 (4) 665,117 (6) 665,123 (8) 665,131 (10) 665,141 (12) 665,153 (24) 665,177
Longest run(s) of descending prime gaps up to 1,000,000:
322,171 (22) 322,193 (20) 322,213 (16) 322,229 (8) 322,237 (6) 322,243 (4) 322,247 (2) 322,249
752,207 (44) 752,251 (12) 752,263 (10) 752,273 (8) 752,281 (6) 752,287 (4) 752,291 (2) 752,293
</pre>
This task uses [http://www.rosettacode.org/wiki/Extensible_prime_generator#The_functions Extensible Prime Generator (F#)]
=={{header|Delphi}}==
{{works with|Delphi|6.0}}
{{libheader|SysUtils,StdCtrls}}
The code makes heavy use of "Sieve" object developed for other Rosetta Code tasks. The Sieve object is described here: [[Extensible_prime_generator#Delphi]]
<syntaxhighlight lang="Delphi">
procedure LongestAscendDescend(Memo: TMemo);
{Find the longest Ascending and Descending sequences of primes}
var I: integer;
var Sieve: TPrimeSieve;
procedure FindLongestSequence(Ascend: boolean);
{Find the longest sequence - Ascend controls}
{ whether it ascending or descending}
var I,J,Count,BestCount,BestStart: integer;
var S: string;
function Compare(N1,N2: integer; Ascend: boolean): boolean;
{Compare for ascending or descending}
begin
if Ascend then Result:=N1>N2
else Result:=N1<N2;
end;
begin
BestStart:=0; BestCount:=0;
{Check all the primes in the sieve}
for I:=2 to High(Sieve.Primes)-1 do
begin
J:=I + 1;
Count:= 1;
{Count all the elements in the sequence}
while (j<=High(Sieve.Primes)) and
Compare(Sieve.Primes[J]-Sieve.Primes[J-1],Sieve.Primes[J-1]-Sieve.Primes[j-2],Ascend) do
begin
Inc(Count);
Inc(J);
end;
{Save the info if it is the best so far}
if Count > BestCount then
begin
BestStart:=I-1;
BestCount:= Count;
end;
end;
Memo.Lines.Add('Count = '+IntToStr(BestCount+1));
{Display the sequence}
S:='[';
for I:=BestStart to BestStart+BestCount do
begin
S:=S+IntToStr(Sieve.Primes[I]);
if I<(BestStart+BestCount) then S:=S+' ('+IntToStr(Sieve.Primes[I+1]-Sieve.Primes[I])+') ';
end;
S:=S+']';
Memo.Lines.Add(S);
end;
begin
Sieve:=TPrimeSieve.Create;
try
{Generate all primes below 1 million}
Sieve.Intialize(1000000);
Memo.Lines.Add('The longest sequence of ascending primes');
FindLongestSequence(True);
Memo.Lines.Add('The longest sequence of ascending primes');
FindLongestSequence(False);
finally Sieve.Free; end;
end;
</syntaxhighlight>
{{out}}
<pre>
The longest sequence of ascending primes
Count = 8
[128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037]
The longest sequence of ascending primes
Count = 8
[322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249]
Elapsed Time: 18.386 ms.
</pre>
=={{header|EasyLang}}==
<syntaxhighlight>
fastfunc nextprim num .
repeat
i = 2
while i <= sqrt num and num mod i <> 0
i += 1
.
until num mod i <> 0
num += 1
.
return num
.
proc getseq dir . maxprim maxcnt .
maxcnt = 0
pri = 2
repeat
prev = pri
pri = nextprim (pri + 1)
until pri > 1000000
d0 = d
d = (pri - prev) * dir
if d > d0
cnt += 1
else
if cnt > maxcnt
maxcnt = cnt
maxprim = prim0
.
prim0 = prev
cnt = 1
.
.
.
proc outseq pri max . .
write pri & " "
for i to max
pri = nextprim (pri + 1)
write pri & " "
.
print ""
.
getseq 1 pri max
outseq pri max
getseq -1 pri max
outseq pri max
</syntaxhighlight>
=={{header|F_Sharp|F#}}==
<syntaxhighlight lang="fsharp">
// Longest ascending and decending sequences of difference between consecutive primes: Nigel Galloway. April 5th., 2021
let fN g fW=primes32()|>Seq.takeWhile((>)g)|>Seq.pairwise|>Seq.fold(fun(n,i,g)el->let w=fW el in match w>n with true->(w,el::i,g) |_->(w,[el],if List.length i>List.length g then i else g))(0,[],[])
for i in [1;2;6;12;18;100] do let _,_,g=fN(i*1000000)(fun(n,g)->g-n) in printfn "Longest ascending upto %d000000->%d:" i (g.Length+1); g|>List.rev|>List.iter(fun(n,g)->printf "%d (%d) %d " n (g-n) g); printfn ""
let _,_,g=fN(i*1000000)(fun(n,g)->n-g) in printfn "Longest decending upto %d000000->%d:" i (g.Length+1); g|>List.rev|>List.iter(fun(n,g)->printf "%d (%d) %d " n (g-n) g); printfn ""
</syntaxhighlight>
{{out}}
<pre>
Longest ascending upto 1000000->8:
128981 (2) 128983 128983 (4) 128987 128987 (6) 128993 128993 (8) 129001 129001 (10) 129011 129011 (12) 129023 129023 (14) 129037
Longest decending upto 1000000->8:
322171 (22) 322193 322193 (20) 322213 322213 (16) 322229 322229 (8) 322237 322237 (6) 322243 322243 (4) 322247 322247 (2) 322249
Longest ascending upto 2000000->9:
1319407 (4) 1319411 1319411 (8) 1319419 1319419 (10) 1319429 1319429 (14) 1319443 1319443 (16) 1319459 1319459 (18) 1319477 1319477 (32) 1319509 1319509 (34) 1319543
Longest decending upto 2000000->8:
322171 (22) 322193 322193 (20) 322213 322213 (16) 322229 322229 (8) 322237 322237 (6) 322243 322243 (4) 322247 322247 (2) 322249
Longest ascending upto 6000000->9:
1319407 (4) 1319411 1319411 (8) 1319419 1319419 (10) 1319429 1319429 (14) 1319443 1319443 (16) 1319459 1319459 (18) 1319477 1319477 (32) 1319509 1319509 (34) 1319543
Longest decending upto 6000000->9:
5051309 (32) 5051341 5051341 (28) 5051369 5051369 (14) 5051383 5051383 (10) 5051393 5051393 (8) 5051401 5051401 (6) 5051407 5051407 (4) 5051411 5051411 (2) 5051413
Longest ascending upto 12000000->9:
1319407 (4) 1319411 1319411 (8) 1319419 1319419 (10) 1319429 1319429 (14) 1319443 1319443 (16) 1319459 1319459 (18) 1319477 1319477 (32) 1319509 1319509 (34) 1319543
Longest decending upto 12000000->10:
11938793 (60) 11938853 11938853 (38) 11938891 11938891 (28) 11938919 11938919 (14) 11938933 11938933 (10) 11938943 11938943 (8) 11938951 11938951 (6) 11938957 11938957 (4) 11938961 11938961 (2) 11938963
Longest ascending upto 18000000->10:
17797517 (2) 17797519 17797519 (4) 17797523 17797523 (8) 17797531 17797531 (10) 17797541 17797541 (12) 17797553 17797553 (20) 17797573 17797573 (28) 17797601 17797601 (42) 17797643 17797643 (50) 17797693
Longest decending upto 18000000->10:
11938793 (60) 11938853 11938853 (38) 11938891 11938891 (28) 11938919 11938919 (14) 11938933 11938933 (10) 11938943 11938943 (8) 11938951 11938951 (6) 11938957 11938957 (4) 11938961 11938961 (2) 11938963
Longest ascending upto 100000000->11:
94097537 (2) 94097539 94097539 (4) 94097543 94097543 (8) 94097551 94097551 (10) 94097561 94097561 (12) 94097573 94097573 (14) 94097587 94097587 (16) 94097603 94097603 (18) 94097621 94097621 (30) 94097651 94097651 (32) 94097683
Longest decending upto 100000000->10:
11938793 (60) 11938853 11938853 (38) 11938891 11938891 (28) 11938919 11938919 (14) 11938933 11938933 (10) 11938943 11938943 (8) 11938951 11938951 (6) 11938957 11938957 (4) 11938961 11938961 (2) 11938963
Real: 00:00:04.708
</pre>
=={{header|Factor}}==
{{works with|Factor|0.99 2021-02-05}}
<syntaxhighlight lang="factor">USING: arrays assocs formatting grouping io kernel literals math
math.primes math.statistics sequences sequences.extras
tools.memory.private ;
<< CONSTANT: limit 1,000,000 >>
CONSTANT: primes $[ limit primes-upto ]
: run ( n quot -- seq quot )
[ primes ] [ <clumps> ] [ ] tri*
'[ differences _ monotonic? ] ; inline
: max-run ( quot -- n )
1 swap '[ 1 + dup _ run find drop ] loop 1 - ; inline
: runs ( quot -- seq )
[ max-run ] keep run filter ; inline
: .run ( seq -- )
dup differences [ [ commas ] map ] bi@
[ "(" ")" surround ] map 2array round-robin " " join print ;
: .runs ( quot -- )
[ runs ] keep [ < ] = "rising" "falling" ? limit commas
"Largest run(s) of %s gaps between primes less than %s:\n"
printf [ .run ] each ; inline
[ < ] [ > ] [ .runs nl ] bi@</syntaxhighlight>
{{out}}
<pre>
Largest run(s) of rising gaps between primes less than 1,000,000:
128,981 (2) 128,983 (4) 128,987 (6) 128,993 (8) 129,001 (10) 129,011 (12) 129,023 (14) 129,037
402,581 (2) 402,583 (4) 402,587 (6) 402,593 (8) 402,601 (12) 402,613 (18) 402,631 (60) 402,691
665,111 (2) 665,113 (4) 665,117 (6) 665,123 (8) 665,131 (10) 665,141 (12) 665,153 (24) 665,177
Largest run(s) of falling gaps between primes less than 1,000,000:
322,171 (22) 322,193 (20) 322,213 (16) 322,229 (8) 322,237 (6) 322,243 (4) 322,247 (2) 322,249
752,207 (44) 752,251 (12) 752,263 (10) 752,273 (8) 752,281 (6) 752,287 (4) 752,291 (2) 752,293
</pre>
=={{header|Go}}==
{{trans|Wren}}
<syntaxhighlight lang="go">package main
import (
"fmt"
"rcu"
)
const LIMIT = 999999
var primes = rcu.Primes(LIMIT)
func longestSeq(dir string) {
pd := 0
longSeqs := [][]int{{2}}
currSeq := []int{2}
for i := 1; i < len(primes); i++ {
d := primes[i] - primes[i-1]
if (dir == "ascending" && d <= pd) || (dir == "descending" && d >= pd) {
if len(currSeq) > len(longSeqs[0]) {
longSeqs = [][]int{currSeq}
} else if len(currSeq) == len(longSeqs[0]) {
longSeqs = append(longSeqs, currSeq)
}
currSeq = []int{primes[i-1], primes[i]}
} else {
currSeq = append(currSeq, primes[i])
}
pd = d
}
if len(currSeq) > len(longSeqs[0]) {
longSeqs = [][]int{currSeq}
} else if len(currSeq) == len(longSeqs[0]) {
longSeqs = append(longSeqs, currSeq)
}
fmt.Println("Longest run(s) of primes with", dir, "differences is", len(longSeqs[0]), ":")
for _, ls := range longSeqs {
var diffs []int
for i := 1; i < len(ls); i++ {
diffs = append(diffs, ls[i]-ls[i-1])
}
for i := 0; i < len(ls)-1; i++ {
fmt.Print(ls[i], " (", diffs[i], ") ")
}
fmt.Println(ls[len(ls)-1])
}
fmt.Println()
}
func main() {
fmt.Println("For primes < 1 million:\n")
for _, dir := range []string{"ascending", "descending"} {
longestSeq(dir)
}
}</syntaxhighlight>
{{out}}
<pre>
For primes < 1 million:
Longest run(s) of primes with ascending differences is 8 :
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
402581 (2) 402583 (4) 402587 (6) 402593 (8) 402601 (12) 402613 (18) 402631 (60) 402691
665111 (2) 665113 (4) 665117 (6) 665123 (8) 665131 (10) 665141 (12) 665153 (24) 665177
Longest run(s) of primes with descending differences is 8 :
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
752207 (44) 752251 (12) 752263 (10) 752273 (8) 752281 (6) 752287 (4) 752291 (2) 752293
</pre>
=={{header|Haskell}}==
<syntaxhighlight lang="haskell">import Data.Numbers.Primes (primes)
-- generates consecutive subsequences defined by given equivalence relation
consecutives equiv = filter ((> 1) . length) . go []
where
go r [] = [r]
go [] (h : t) = go [h] t
go (y : ys) (h : t)
| y `equiv` h = go (h : y : ys) t
| otherwise = (y : ys) : go [h] t
-- finds maximal values in a list and returns the first one
maximumBy g (h : t) = foldr f h t
where
f r x = if g r < g x then x else r
-- the task implementation
task ord n = reverse $ p + s : p : (fst <$> rest)
where
(p, s) : rest =
maximumBy length $
consecutives (\(_, a) (_, b) -> a `ord` b) $
differences $
takeWhile (< n) primes
differences l = zip l $ zipWith (-) (tail l) l</syntaxhighlight>
<pre>λ> reverse <$> consecutives (<) [1,0,1,2,3,4,3,2,3,4,5,6,7,6,5,4,3,4,5]
[[0,1,2,3,4],[2,3,4,5,6,7],[3,4,5]]
λ> task (<) 1000000
[128981,128983,128987,128993,129001,129011,129023,129037]
λ> task (>) 1000000
[322171,322193,322213,322229,322237,322243,322247,322249]</pre>
=={{header|J}}==
<syntaxhighlight lang="j"> ;{.(\: #@>) tris <@~.@,;._1~ <:/ 2 -/\ |: tris=: 3 ]\ p: i. p:inv 1e6
128981 128983 128987 128993 129001 129011 129023 129037
;{.(\: #@>) tris <@~.@,;._1~ >:/ 2 -/\ |: tris=: 3 ]\ p: i. p:inv 1e6
322171 322193 322213 322229 322237 322243 322247 322249</syntaxhighlight>
=={{header|Java}}==
<syntaxhighlight lang="java">
import java.util.ArrayList;
import java.util.BitSet;
import java.util.List;
public final class ConsecutivePrimes {
public static void main(String[] aArgs) {
final int limit = 1_000_000;
List<Integer> primes = listPrimeNumbers(limit);
List<Integer> asc = new ArrayList<Integer>();
List<Integer> desc = new ArrayList<Integer>();
List<List<Integer>> maxAsc = new ArrayList<List<Integer>>();
List<List<Integer>> maxDesc = new ArrayList<List<Integer>>();
int maxAscSize = 0;
int maxDescSize = 0;
for ( int prime : primes ) {
final int ascSize = asc.size();
if ( ascSize > 1 && prime - asc.get(ascSize - 1) <= asc.get(ascSize - 1) - asc.get(ascSize - 2) ) {
asc = new ArrayList<Integer>(asc.subList(ascSize - 1, asc.size()));
}
asc.add(prime);
if ( asc.size() >= maxAscSize ) {
if ( asc.size() > maxAscSize ) {
maxAscSize = asc.size();
maxAsc.clear();
}
maxAsc.add( new ArrayList<Integer>(asc) );
}
final int descSize = desc.size();
if ( descSize > 1 && prime - desc.get(descSize - 1) >= desc.get(descSize - 1) - desc.get(descSize - 2) ) {
desc = new ArrayList<Integer>(desc.subList(descSize - 1, desc.size()));
}
desc.add(prime);
if ( desc.size() >= maxDescSize ) {
if ( desc.size() > maxDescSize ) {
maxDescSize = desc.size();
maxDesc.clear();
}
maxDesc.add( new ArrayList<Integer>(desc) );
}
}
System.out.println("Longest run(s) of ascending prime gaps up to " + limit + ":");
for ( List<Integer> list : maxAsc ) {
displayResult(list);
}
System.out.println();
System.out.println("Longest run(s) of descending prime gaps up to " + limit + ":");
for( List<Integer> list : maxDesc ) {
displayResult(list);
}
}
private static List<Integer> listPrimeNumbers(int aLimit) {
BitSet sieve = new BitSet(aLimit + 1);
sieve.set(2, aLimit + 1);
for ( int i = 2; i <= Math.sqrt(aLimit); i = sieve.nextSetBit(i + 1) ) {
for ( int j = i * i; j <= aLimit; j = j + i ) {
sieve.clear(j);
}
}
List<Integer> result = new ArrayList<Integer>(sieve.cardinality());
for ( int i = 2; i >= 0; i = sieve.nextSetBit(i + 1) ) {
result.add(i);
}
return result;
}
private static void displayResult(List<Integer> aList) {
for ( int i = 0; i < aList.size(); i++ ) {
if ( i > 0 ) {
System.out.print(" (" + ( aList.get(i) - aList.get(i - 1) ) + ") ");
}
System.out.print(aList.get(i));
}
System.out.println();
}
}
</syntaxhighlight>
{{ out }}
<pre>
Longest run(s) of ascending prime gaps up to 1000000:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
402581 (2) 402583 (4) 402587 (6) 402593 (8) 402601 (12) 402613 (18) 402631 (60) 402691
665111 (2) 665113 (4) 665117 (6) 665123 (8) 665131 (10) 665141 (12) 665153 (24) 665177
Longest run(s) of descending prime gaps up to 1000000:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
752207 (44) 752251 (12) 752263 (10) 752273 (8) 752281 (6) 752287 (4) 752291 (2) 752293
</pre>
=={{header|jq}}==
'''Adapted from [[#Wren|Wren]]'''
{{works with|jq}}
'''Works with gojq, the Go implementation of jq'''
This entry assumes the availability of `is_prime`, for which a suitable definition can be found at
[[Erd%C5%91s-primes#jq]].
'''Preliminaries'''
<syntaxhighlight lang="jq"># For streams of strings or of arrays or of numbers:
def add(s): reduce s as $x (null; .+$x);
# Primes less than . // infinite
def primes:
(. // infinite) as $n
| if $n < 3 then empty
else 2, (range(3; $n) | select(is_prime))
end;
</syntaxhighlight>
'''The Task'''
<syntaxhighlight lang="jq"># Input: null or limit+1
# Output: informative strings
def longestSequences:
[primes] as $primes
| def longestSeq(direction):
{ pd: 0,
longSeqs: [[2]],
currSeq: [2] }
| reduce range( 1; $primes|length) as $i (.;
($primes[$i] - $primes[$i-1]) as $d
| if (direction == "ascending" and $d <= .pd) or (direction == "descending" and $d >= .pd)
then if (.currSeq|length) > (.longSeqs[0]|length)
then .longSeqs = [.currSeq]
else if (.currSeq|length) == (.longSeqs[0]|length)
then .longSeqs += [.currSeq]
else .
end
end
| .currSeq = [$primes[$i-1], $primes[$i]]
else .currSeq += [$primes[$i]]
end
| .pd = $d
)
| if (.currSeq|length) > (.longSeqs[0]|length)
then .longSeqs = [.currSeq]
else if (.currSeq|length) == (.longSeqs[0]|length)
then .longSeqs = .longSeqs + [.currSeq]
else .
end
end
| "Longest run(s) of primes with \(direction) differences is \(.longSeqs[0]|length):",
(.longSeqs[] as $ls
| add( range(1; $ls|length) | [$ls[.] - $ls[.-1]]) as $diffs
| add( range(0; $ls|length-1) | "\($ls[.]) (\($diffs[.])) ") + "\($ls[-1])" );
longestSeq("ascending"), "", longestSeq("descending");
"For primes < 1 million:",
( 1E6 | longestSequences )</syntaxhighlight>
{{out}}
<pre>
For primes < 1 million:
Longest run(s) of primes with ascending differences is 8:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
402581 (2) 402583 (4) 402587 (6) 402593 (8) 402601 (12) 402613 (18) 402631 (60) 402691
665111 (2) 665113 (4) 665117 (6) 665123 (8) 665131 (10) 665141 (12) 665153 (24) 665177
Longest run(s) of primes with descending differences is 8:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
752207 (44) 752251 (12) 752263 (10) 752273 (8) 752281 (6) 752287 (4) 752291 (2) 752293
</pre>
=={{header|Julia}}==
<
function primediffseqs(maxnum = 1_000_000)
mprimes = primes(maxnum)
diffs = map(p -> mprimes[p[1] + 1] - p[2], enumerate(@view mprimes[begin:end-1]))
incstart, decstart, bestinclength, bestdeclength = 1, 1, 0, 0
for i in 1:length(diffs)-1
foundinc, founddec = false, false
for j in i+1:length(diffs)
if !foundinc && diffs[j] <= diffs[j - 1]
if (runlength = j - i) > bestinclength
bestinclength, incstart = runlength, i
end
foundinc = true
end
if !founddec && diffs[j] >= diffs[j - 1]
if (runlength = j - i) > bestdeclength
bestdeclength, decstart = runlength, i
end
founddec = true
Line 143 ⟶ 1,023:
end
end
println("Ascending: ", mprimes[incstart:incstart+bestinclength], " Diffs: ", diffs[incstart:incstart+bestinclength-1])
println("Descending: ", mprimes[decstart:decstart+bestdeclength], " Diffs: ", diffs[decstart:decstart+bestdeclength-1])
end
primediffseqs()
</
<pre>
Ascending: [128981, 128983, 128987, 128993, 129001, 129011, 129023, 129037] Diffs: [2, 4, 6, 8, 10, 12, 14]
Descending: [322171, 322193, 322213, 322229, 322237, 322243, 322247, 322249] Diffs: [22, 20, 16, 8, 6, 4, 2]
</pre>
=={{header|Lua}}==
This task uses <code>primegen</code> from: [[Extensible_prime_generator#Lua]]
<syntaxhighlight lang="lua">function findcps(primelist, fcmp)
local currlist = {primelist[1]}
local longlist, prevdiff = currlist, 0
for i = 2, #primelist do
local diff = primelist[i] - primelist[i-1]
if fcmp(diff, prevdiff) then
currlist[#currlist+1] = primelist[i]
if #currlist > #longlist then
longlist = currlist
end
else
currlist = {primelist[i-1], primelist[i]}
end
prevdiff = diff
end
return longlist
end
primegen:generate(nil, 1000000)
cplist = findcps(primegen.primelist, function(a,b) return a>b end)
print("ASC ("..#cplist.."): ["..table.concat(cplist, " ").."]")
cplist = findcps(primegen.primelist, function(a,b) return a<b end)
print("DESC ("..#cplist.."): ["..table.concat(cplist, " ").."]")</syntaxhighlight>
{{out}}
<pre>ASC (8): [128981 128983 128987 128993 129001 129011 129023 129037]
DESC (8): [322171 322193 322213 322229 322237 322243 322247 322249]</pre>
=={{header|Mathematica}}/{{header|Wolfram Language}}==
<syntaxhighlight lang="mathematica">prime = Prime[Range[PrimePi[10^6]]];
s = Split[Differences[prime], Less];
max = Max[Length /@ s];
diffs = Select[s, Length/*EqualTo[max]];
seqs = SequencePosition[Flatten[s], #, 1][[1]] & /@ diffs;
Take[prime, # + {0, 1}] & /@ seqs
s = Split[Differences[prime], Greater];
max = Max[Length /@ s];
diffs = Select[s, Length/*EqualTo[max]];
seqs = SequencePosition[Flatten[s], #, 1][[1]] & /@ diffs;
Take[prime, # + {0, 1}] & /@ seqs</syntaxhighlight>
{{out}}
<pre>128981 128983 128987 128993 129001 129011 129023 129037
402581 402583 402587 402593 402601 402613 402631 402691
665111 665113 665117 665123 665131 665141 665153 665177
322171 322193 322213 322229 322237 322243 322247 322249
752207 752251 752263 752273 752281 752287 752291 752293</pre>
=={{header|Nim}}==
<syntaxhighlight lang="nim">import math, strformat, sugar
const N = 1_000_000
####################################################################################################
# Erathostenes sieve.
var composite: array[2..N, bool] # Initialized to false i.e. prime.
for n in 2..int(sqrt(float(N))):
if not composite[n]:
for k in countup(n * n, N, n):
composite[k] = true
let primes = collect(newSeq):
for n in 2..N:
if not composite[n]: n
####################################################################################################
# Longest sequences.
type Order {.pure.} = enum Ascending, Descending
proc longestSeq(order: Order): seq[int] =
## Return the longest sequence for the given order.
let ascending = order == Ascending
var
currseq: seq[int]
prevPrime = 2
diff = if ascending: 0 else: N
for prime in primes:
let nextDiff = prime - prevPrime
if nextDiff != diff and nextDiff > diff == ascending:
currseq.add prime
else:
if currseq.len > result.len:
result = move(currseq)
currseq = @[prevPrime, prime]
diff = nextDiff
prevPrime = prime
if currseq.len > result.len:
result = move(currseq)
proc `$`(list: seq[int]): string =
## Return the representation of a list of primes with interleaved differences.
var prevPrime: int
for i, prime in list:
if i != 0: result.add &" ({prime - prevPrime}) "
result.addInt prime
prevPrime = prime
echo "For primes < 1000000.\n"
echo "First longest sequence of consecutive primes with ascending differences:"
echo longestSeq(Ascending)
echo()
echo "First longest sequence of consecutive primes with descending differences:"
echo longestSeq(Descending)</syntaxhighlight>
{{out}}
<pre>For primes < 1000000.
First longest sequence of consecutive primes with ascending differences:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
First longest sequence of consecutive primes with descending differences:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249</pre>
=={{header|Pari/GP}}==
Code is pretty reasonable, runs in ~70 ms at 1,000,000. Running under PARI (starting from gp2c translation) could take advantage of the diff structure of the prime table directly for small cases and avoid substantial overhead, gaining at least a factor of 2 in performance.
<syntaxhighlight lang="parigp">showPrecPrimes(p, n)=
{
my(v=vector(n));
v[n]=p;
forstep(i=n-1,1,-1,
v[i]=precprime(v[i+1]-1)
);
for(i=1,n, print1(v[i]" "));
}
list(lim)=
{
my(p=3,asc,dec,ar,dr,arAt=3,drAt=3,last=2);
forprime(q=5,lim,
my(g=q-p);
if(g<last,
asc=0;
if(desc++>dr,
dr=desc;
drAt=q
)
,g>last,
desc=0;
if(asc++>ar,
ar=asc;
arAt=q
)
,
asc=desc=0
);
p=q;
last=g
);
print("Descending differences:");
showPrecPrimes(drAt, dr+2);
print("\nAscending differences:");
showPrecPrimes(arAt, ar+2);
}
list(10^6)</syntaxhighlight>
{{out}}
<pre>Descending differences:
322171 322193 322213 322229 322237 322243 322247 322249
Ascending differences:
128981 128983 128987 128993 129001 129011 129023 129037</pre>
=={{header|Perl}}==
{{trans|Raku}}
{{libheader|ntheory}}
<syntaxhighlight lang="perl">use strict;
use warnings;
use feature 'say';
use ntheory 'primes';
use List::AllUtils <indexes max>;
my $limit = 1000000;
my @primes = @{primes( $limit )};
sub runs {
my($op) = @_;
my @diff = my $diff = my $run = 1;
push @diff, map {
my $next = $primes[$_] - $primes[$_ - 1];
if ($op eq '>') { if ($next > $diff) { ++$run } else { $run = 1 } }
else { if ($next < $diff) { ++$run } else { $run = 1 } }
$diff = $next;
$run
} 1 .. $#primes;
my @prime_run;
my $max = max @diff;
for my $r ( indexes { $_ == $max } @diff ) {
push @prime_run, join ' ', map { $primes[$r - $_] } reverse 0..$max
}
@prime_run
}
say "Longest run(s) of ascending prime gaps up to $limit:\n" . join "\n", runs('>');
say "\nLongest run(s) of descending prime gaps up to $limit:\n" . join "\n", runs('<');</syntaxhighlight>
{{out}}
<pre>Longest run(s) of ascending prime gaps up to 1000000:
128981 128983 128987 128993 129001 129011 129023 129037
402581 402583 402587 402593 402601 402613 402631 402691
665111 665113 665117 665123 665131 665141 665153 665177
Longest run(s) of descending prime gaps up to 1000000:
322171 322193 322213 322229 322237 322243 322247 322249
752207 752251 752263 752273 752281 752287 752291 752293</pre>
=={{header|Phix}}==
<!--<
<span style="color: #004080;">integer</span> <span style="color: #000000;">pn</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">1</span><span style="color: #0000FF;">,</span> <span style="color: #000080;font-style:italic;">-- prime numb</span>
<span style="color: #000000;">lp</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">2</span><span style="color: #0000FF;">,</span> <span style="color: #000080;font-style:italic;">-- last prime</span>
Line 182 ⟶ 1,274:
<span style="color: #0000FF;">{{</span><span style="color: #008000;">"ascending"</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"descending"</span><span style="color: #0000FF;">}[</span><span style="color: #000000;">run</span><span style="color: #0000FF;">],</span><span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">p</span><span style="color: #0000FF;">),</span><span style="color: #000000;">p</span><span style="color: #0000FF;">,</span><span style="color: #000000;">g</span><span style="color: #0000FF;">})</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span>
<!--</
{{out}}
<pre>
longest ascending run length 8: {128981,128983,128987,128993,129001,129011,129023,129037} gaps: {2,4,6,8,10,12,14}
longest descending run length 8: {322171,322193,322213,322229,322237,322243,322247,322249} gaps: {22,20,16,8,6,4,2}
</pre>
=={{header|Python}}==
<syntaxhighlight lang="python">
from sympy import sieve
primelist = list(sieve.primerange(2,1000000))
listlen = len(primelist)
# ascending
pindex = 1
old_diff = -1
curr_list=[primelist[0]]
longest_list=[]
while pindex < listlen:
diff = primelist[pindex] - primelist[pindex-1]
if diff > old_diff:
curr_list.append(primelist[pindex])
if len(curr_list) > len(longest_list):
longest_list = curr_list
else:
curr_list = [primelist[pindex-1],primelist[pindex]]
old_diff = diff
pindex += 1
print(longest_list)
# descending
pindex = 1
old_diff = -1
curr_list=[primelist[0]]
longest_list=[]
while pindex < listlen:
diff = primelist[pindex] - primelist[pindex-1]
if diff < old_diff:
curr_list.append(primelist[pindex])
if len(curr_list) > len(longest_list):
longest_list = curr_list
else:
curr_list = [primelist[pindex-1],primelist[pindex]]
old_diff = diff
pindex += 1
print(longest_list)
</syntaxhighlight>
{{out}}
<pre>
[128981, 128983, 128987, 128993, 129001, 129011, 129023, 129037]
[322171, 322193, 322213, 322229, 322237, 322243, 322247, 322249]
</pre>
=={{header|Raku}}==
<syntaxhighlight lang="raku"
use Lingua::EN::Numbers;
Line 222 ⟶ 1,373:
say "Longest run(s) of ascending prime gaps up to {comma $limit}:\n" ~ runs(&infix:«>»);
say "\nLongest run(s) of descending prime gaps up to {comma $limit}:\n" ~ runs(&infix:«<»);</
{{out}}
<pre>Longest run(s) of ascending prime gaps up to 1,000,000:
Line 232 ⟶ 1,383:
322,171 (22) 322,193 (20) 322,213 (16) 322,229 (8) 322,237 (6) 322,243 (4) 322,247 (2) 322,249
752,207 (44) 752,251 (12) 752,263 (10) 752,273 (8) 752,281 (6) 752,287 (4) 752,291 (2) 752,293</pre>
=={{header|REXX}}==
<syntaxhighlight lang="rexx">/*REXX program finds the longest sequence of consecutive primes where the differences */
/*──────────── between the primes are strictly ascending; also for strictly descending.*/
parse arg hi cols . /*obtain optional argument from the CL.*/
if hi=='' | hi=="," then hi= 1000000 /* " " " " " " */
if cols=='' | cols=="," then cols= 10 /* " " " " " " */
call genP /*build array of semaphores for primes.*/
w= 10 /*width of a number in any column. */
call fRun 1; call show 1 /*find runs with ascending prime diffs.*/
call fRun 0; call show 0 /* " " " descending " " */
exit 0 /*stick a fork in it, we're all done. */
/*──────────────────────────────────────────────────────────────────────────────────────*/
commas: parse arg ?; do jc=length(?)-3 to 1 by -3; ?=insert(',', ?, jc); end; return ?
/*──────────────────────────────────────────────────────────────────────────────────────*/
fRun: parse arg ?; mxrun=0; seq.= /*max run length; lists of prime runs.*/
/*search for consecutive primes < HI.*/
do j=2 for #-2; cp= @.j; jn= j+1 /*CP: current prime; JN: next j */
diff= @.jn - cp /*get difference between last 2 primes.*/
cnt= 1; run= /*initialize the CNT and RUN. */
do k= jn+1 to #-2; km= k-1 /*look for more primes in this run. */
if ? then if @.k-@.km<=diff then leave /*Diff. too small? Stop looking*/
else nop
else if @.k-@.km>=diff then leave /* " " large? " " */
run= run @.k; cnt= cnt+1 /*append a prime to the run; bump count*/
diff= @.k - @.km /*calculate difference for next prime. */
end /*k*/
if cnt<=mxrun then iterate /*This run too short? Then keep looking*/
mxrun= max(mxrun, cnt) /*define a new maximum run (seq) length*/
seq.mxrun= cp @.jn run /*full populate the sequence (RUN). */
end /*j*/; return
/*──────────────────────────────────────────────────────────────────────────────────────*/
genP: @.1=2; @.2=3; @.3=5; @.4=7; @.5=11; @.6=13; @.7=17; @.8=19 /*define low primes.*/
#=8; sq.#= @.# ** 2 /*number of primes so far; prime sqiare*/
/* [↓] generate more primes ≤ high.*/
do j=@.#+2 by 2 to hi; parse var j '' -1 _ /*find odd primes from here on.*/
if _==5 then iterate; if j// 3==0 then iterate /*J ÷ 5? J ÷ by 3? */
if j// 7==0 then iterate; if j//11==0 then iterate /*" " 7? " " " 11? */
if j//13==0 then iterate; if j//17==0 then iterate /*" " 13? " " " 17? */
do k=8 while sq.k<=j /* [↓] divide by the known odd primes.*/
if j // @.k == 0 then iterate j /*Is J ÷ X? Then not prime. ___ */
end /*k*/ /* [↑] only process numbers ≤ √ J */
#= #+1; @.#= j; sq.#= j*j /*bump # of Ps; assign next P; P square*/
end /*j*/; return
/*──────────────────────────────────────────────────────────────────────────────────────*/
show: parse arg ?; if ? then AorD= 'ascending' /*choose which literal for display.*/
else AorD= 'descending' /* " " " " " */
title= ' longest run of consecutive primes whose differences between primes are' ,
'strictly' AorD "and < " commas(hi)
say; say; say
if cols>0 then say ' index │'center(title, 1 + cols*(w+1) )
if cols>0 then say '───────┼'center("" , 1 + cols*(w+1), '─')
found= 0; idx= 1 /*initialize # of consecutive primes. */
$= /*a list of consecutive primes (so far)*/
do o=1 for words(seq.mxrun) /*show all consecutive primes in seq. */
c= commas( word(seq.mxrun, o) ) /*obtain the next prime in the sequence*/
found= found + 1 /*bump the number of consecutive primes*/
if cols<=0 then iterate /*build the list (to be shown later)? */
$= $ right(c, max(w, length(c) ) ) /*add a nice prime ──► list, allow big#*/
if found//cols\==0 then iterate /*have we populated a line of output? */
say center(idx, 7)'│' substr($, 2) /*display what we have so far (cols). */
idx= idx + cols; $= /*bump the index count for the output*/
end /*o*/
if $\=='' then say center(idx, 7)"│" substr($, 2) /*maybe show residual output*/
if cols>0 then say '───────┴'center("" , 1 + cols*(w+1), '─')
say; say commas(Cprimes) ' was the'title; return</syntaxhighlight>
{{out|output|text= when using the default inputs:}}
<pre>
index │ longest run of consecutive primes whose differences between primes are strictly ascending and < 1,000,000
───────┼───────────────────────────────────────────────────────────────────────────────────────────────────────────────
1 │ 128,981 128,983 128,987 128,993 129,001 129,011 129,023 129,037
───────┴───────────────────────────────────────────────────────────────────────────────────────────────────────────────
8 was the longest run of consecutive primes whose differences between primes are strictly ascending and < 1,000,000
index │ longest run of consecutive primes whose differences between primes are strictly descending and < 1,000,000
───────┼───────────────────────────────────────────────────────────────────────────────────────────────────────────────
1 │ 322,171 322,193 322,213 322,229 322,237 322,243 322,247 322,249
───────┴───────────────────────────────────────────────────────────────────────────────────────────────────────────────
8 was the longest run of consecutive primes whose differences between primes are strictly descending and < 1,000,000
</pre>
=={{header|Ruby}}==
<syntaxhighlight lang="ruby">require "prime"
limit = 1_000_000
puts "First found longest run of ascending prime gaps up to #{limit}:"
p Prime.each(limit).each_cons(2).chunk_while{|(i1,i2), (j1,j2)| j1-i1 < j2-i2 }.max_by(&:size).flatten.uniq
puts "\nFirst found longest run of descending prime gaps up to #{limit}:"
p Prime.each(limit).each_cons(2).chunk_while{|(i1,i2), (j1,j2)| j1-i1 > j2-i2 }.max_by(&:size).flatten.uniq</syntaxhighlight>
{{out}}
<pre>First found longest run of ascending prime gaps up to 1000000:
[128981, 128983, 128987, 128993, 129001, 129011, 129023, 129037]
First found longest run of descending prime gaps up to 1000000:
[322171, 322193, 322213, 322229, 322237, 322243, 322247, 322249]
</pre>
=={{header|Rust}}==
<syntaxhighlight lang="rust">// [dependencies]
// primal = "0.3"
fn print_diffs(vec: &[usize]) {
for i in 0..vec.len() {
if i > 0 {
print!(" ({}) ", vec[i] - vec[i - 1]);
}
print!("{}", vec[i]);
}
println!();
}
fn main() {
let limit = 1000000;
let mut asc = Vec::new();
let mut desc = Vec::new();
let mut max_asc = Vec::new();
let mut max_desc = Vec::new();
let mut max_asc_len = 0;
let mut max_desc_len = 0;
for p in primal::Sieve::new(limit)
.primes_from(2)
.take_while(|x| *x < limit)
{
let alen = asc.len();
if alen > 1 && p - asc[alen - 1] <= asc[alen - 1] - asc[alen - 2] {
asc = asc.split_off(alen - 1);
}
asc.push(p);
if asc.len() >= max_asc_len {
if asc.len() > max_asc_len {
max_asc_len = asc.len();
max_asc.clear();
}
max_asc.push(asc.clone());
}
let dlen = desc.len();
if dlen > 1 && p - desc[dlen - 1] >= desc[dlen - 1] - desc[dlen - 2] {
desc = desc.split_off(dlen - 1);
}
desc.push(p);
if desc.len() >= max_desc_len {
if desc.len() > max_desc_len {
max_desc_len = desc.len();
max_desc.clear();
}
max_desc.push(desc.clone());
}
}
println!("Longest run(s) of ascending prime gaps up to {}:", limit);
for v in max_asc {
print_diffs(&v);
}
println!("\nLongest run(s) of descending prime gaps up to {}:", limit);
for v in max_desc {
print_diffs(&v);
}
}</syntaxhighlight>
{{out}}
<pre>
Longest run(s) of ascending prime gaps up to 1000000:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
402581 (2) 402583 (4) 402587 (6) 402593 (8) 402601 (12) 402613 (18) 402631 (60) 402691
665111 (2) 665113 (4) 665117 (6) 665123 (8) 665131 (10) 665141 (12) 665153 (24) 665177
Longest run(s) of descending prime gaps up to 1000000:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
752207 (44) 752251 (12) 752263 (10) 752273 (8) 752281 (6) 752287 (4) 752291 (2) 752293
</pre>
=={{header|Sidef}}==
{{trans|Raku}}
<syntaxhighlight lang="ruby">func runs(f, arr) {
var run = 0
var diff = 0
var diffs = []
arr.each_cons(2, {|p1,p2|
var curr_diff = (p2 - p1)
f(curr_diff, diff) ? ++run : (run = 1)
diff = curr_diff
diffs << run
})
var max = diffs.max
var runs = []
diffs.indices_by { _ == max }.each {|i|
runs << arr.slice(i - max + 1, i + 1)
}
return runs
}
var limit = 1e6
var primes = limit.primes
say "Longest run(s) of ascending prime gaps up to #{limit.commify}:"
say runs({|a,b| a > b }, primes).join("\n")
say "\nLongest run(s) of descending prime gaps up to #{limit.commify}:"
say runs({|a,b| a < b }, primes).join("\n")</syntaxhighlight>
{{out}}
<pre>
Longest run(s) of ascending prime gaps up to 1,000,000:
[128981, 128983, 128987, 128993, 129001, 129011, 129023, 129037]
[402581, 402583, 402587, 402593, 402601, 402613, 402631, 402691]
[665111, 665113, 665117, 665123, 665131, 665141, 665153, 665177]
Longest run(s) of descending prime gaps up to 1,000,000:
[322171, 322193, 322213, 322229, 322237, 322243, 322247, 322249]
[752207, 752251, 752263, 752273, 752281, 752287, 752291, 752293]
</pre>
=={{header|Wren}}==
{{libheader|Wren-math}}
<syntaxhighlight lang="wren">import "./math" for Int
var LIMIT = 999999
var primes = Int.primeSieve(LIMIT)
var longestSeq = Fn.new { |dir|
var pd = 0
var longSeqs = [[2]]
var currSeq = [2]
for (i in 1...primes.count) {
var d = primes[i] - primes[i-1]
if ((dir == "ascending" && d <= pd) || (dir == "descending" && d >= pd)) {
if (currSeq.count > longSeqs[0].count) {
longSeqs = [currSeq]
} else if (currSeq.count == longSeqs[0].count) longSeqs.add(currSeq)
currSeq = [primes[i-1], primes[i]]
} else {
currSeq.add(primes[i])
}
pd = d
}
if (currSeq.count > longSeqs[0].count) {
longSeqs = [currSeq]
} else if (currSeq.count == longSeqs[0].count) longSeqs.add(currSeq)
System.print("Longest run(s) of primes with %(dir) differences is %(longSeqs[0].count):")
for (ls in longSeqs) {
var diffs = []
for (i in 1...ls.count) diffs.add(ls[i] - ls[i-1])
for (i in 0...ls.count-1) System.write("%(ls[i]) (%(diffs[i])) ")
System.print(ls[-1])
}
System.print()
}
System.print("For primes < 1 million:\n")
for (dir in ["ascending", "descending"]) longestSeq.call(dir)</syntaxhighlight>
{{out}}
<pre>
For primes < 1 million:
Longest run(s) of primes with ascending differences is 8:
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
402581 (2) 402583 (4) 402587 (6) 402593 (8) 402601 (12) 402613 (18) 402631 (60) 402691
665111 (2) 665113 (4) 665117 (6) 665123 (8) 665131 (10) 665141 (12) 665153 (24) 665177
Longest run(s) of primes with descending differences is 8:
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
752207 (44) 752251 (12) 752263 (10) 752273 (8) 752281 (6) 752287 (4) 752291 (2) 752293
</pre>
=={{header|XPL0}}==
<syntaxhighlight lang="xpl0">func IsPrime(N); \Return 'true' if N > 2 is a prime number
int N, I;
[if (N&1) = 0 \even number\ then return false;
for I:= 3 to sqrt(N) do
[if rem(N/I) = 0 then return false;
I:= I+1;
];
return true;
];
proc ShowSeq(Dir, Str); \Show longest sequence of distances between primes
int Dir, Str;
int Count, MaxCount, N, P, P0, D, D0, I, AP(1000), MaxAP(1000);
[Count:= 0; MaxCount:= 0;
P0:= 2; D0:= 0; \preceding prime and distance
AP(Count):= P0; Count:= Count+1;
for N:= 3 to 1_000_000-1 do
if IsPrime(N) then
[P:= N; \got a prime number
D:= P - P0; \distance from preceding prime
if D*Dir > D0*Dir then
[AP(Count):= P; Count:= Count+1;
if Count > MaxCount then \save best sequence
[MaxCount:= Count;
for I:= 0 to MaxCount-1 do
MaxAP(I):= AP(I);
];
]
else
[Count:= 0; \restart sequence
AP(Count):= P0; Count:= Count+1; \possible beginning
AP(Count):= P; Count:= Count+1;
];
P0:= P; D0:= D;
];
Text(0, "Longest sequence of "); Text(0, Str);
Text(0, " distances between primes: "); IntOut(0, MaxCount); CrLf(0);
for I:= 0 to MaxCount-2 do
[IntOut(0, MaxAP(I));
Text(0, " (");
IntOut(0, MaxAP(I+1) - MaxAP(I));
Text(0, ") ");
];
IntOut(0, MaxAP(I)); CrLf(0);
];
[ShowSeq(+1, "ascending"); \main
ShowSeq(-1, "descending");
]</syntaxhighlight>
{{out}}
<pre>
Longest sequence of ascending distances between primes: 8
128981 (2) 128983 (4) 128987 (6) 128993 (8) 129001 (10) 129011 (12) 129023 (14) 129037
Longest sequence of descending distances between primes: 8
322171 (22) 322193 (20) 322213 (16) 322229 (8) 322237 (6) 322243 (4) 322247 (2) 322249
</pre>
| |||