Composite numbers k with no single digit factors whose factors are all substrings of k: Difference between revisions
Content added Content deleted
(→{{header|Wren}}: Added libheaders and some tweaks.) |
(→{{header|Perl}}: prepend pascal version reused http://rosettacode.org/wiki/Factors_of_an_integer#using_Prime_decomposition) |
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</pre> |
</pre> |
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=={{header|Pascal}}== |
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==={{header|Free Pascal}}=== |
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modified [[Factors_of_an_integer#using_Prime_decomposition]] |
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<lang pascal>program FacOfInt; |
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// gets factors of consecutive integers fast |
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// limited to 1.2e11 |
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{$IFDEF FPC} |
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{$MODE DELPHI} {$OPTIMIZATION ON,ALL} {$COPERATORS ON} |
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{$ELSE} |
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{$APPTYPE CONSOLE} |
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{$ENDIF} |
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uses |
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sysutils |
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{$IFDEF WINDOWS},Windows{$ENDIF} |
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; |
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//###################################################################### |
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//prime decomposition |
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const |
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//HCN(86) > 1.2E11 = 128,501,493,120 count of divs = 4096 7 3 1 1 1 1 1 1 1 |
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HCN_DivCnt = 4096; |
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type |
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tItem = Uint64; |
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tDivisors = array [0..HCN_DivCnt] of tItem; |
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tpDivisor = pUint64; |
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const |
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//used odd size for test only |
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SizePrDeFe = 32768;//*72 <= 64kb level I or 2 Mb ~ level 2 cache |
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type |
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tdigits = array [0..31] of Uint32; |
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//the first number with 11 different prime factors = |
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//2*3*5*7*11*13*17*19*23*29*31 = 2E11 |
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//56 byte |
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tprimeFac = packed record |
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pfSumOfDivs, |
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pfRemain : Uint64; |
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pfDivCnt : Uint32; |
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pfMaxIdx : Uint32; |
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pfpotPrimIdx : array[0..9] of word; |
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pfpotMax : array[0..11] of byte; |
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end; |
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tpPrimeFac = ^tprimeFac; |
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tPrimeDecompField = array[0..SizePrDeFe-1] of tprimeFac; |
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tPrimes = array[0..65535] of Uint32; |
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var |
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{$ALIGN 8} |
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SmallPrimes: tPrimes; |
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{$ALIGN 32} |
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PrimeDecompField :tPrimeDecompField; |
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pdfIDX,pdfOfs: NativeInt; |
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procedure InitSmallPrimes; |
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//get primes. #0..65535.Sieving only odd numbers |
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const |
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MAXLIMIT = (821641-1) shr 1; |
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var |
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pr : array[0..MAXLIMIT] of byte; |
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p,j,d,flipflop :NativeUInt; |
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Begin |
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SmallPrimes[0] := 2; |
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fillchar(pr[0],SizeOf(pr),#0); |
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p := 0; |
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repeat |
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repeat |
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p +=1 |
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until pr[p]= 0; |
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j := (p+1)*p*2; |
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if j>MAXLIMIT then |
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BREAK; |
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d := 2*p+1; |
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repeat |
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pr[j] := 1; |
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j += d; |
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until j>MAXLIMIT; |
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until false; |
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SmallPrimes[1] := 3; |
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SmallPrimes[2] := 5; |
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j := 3; |
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d := 7; |
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flipflop := (2+1)-1;//7+2*2,11+2*1,13,17,19,23 |
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p := 3; |
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repeat |
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if pr[p] = 0 then |
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begin |
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SmallPrimes[j] := d; |
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inc(j); |
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end; |
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d += 2*flipflop; |
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p+=flipflop; |
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flipflop := 3-flipflop; |
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until (p > MAXLIMIT) OR (j>High(SmallPrimes)); |
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end; |
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function OutPots(pD:tpPrimeFac;n:NativeInt):Ansistring; |
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var |
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s: String[31]; |
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chk,p,i: NativeInt; |
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Begin |
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str(n,s); |
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result := s+': '; |
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with pd^ do |
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begin |
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chk := 1; |
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For n := 0 to pfMaxIdx-1 do |
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Begin |
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if n>0 then |
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result += '*'; |
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p := SmallPrimes[pfpotPrimIdx[n]]; |
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chk *= p; |
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str(p,s); |
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result += s; |
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i := pfpotMax[n]; |
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if i >1 then |
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Begin |
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str(pfpotMax[n],s); |
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result += '^'+s; |
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repeat |
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chk *= p; |
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dec(i); |
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until i <= 1; |
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end; |
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end; |
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p := pfRemain; |
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If p >1 then |
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Begin |
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str(p,s); |
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chk *= p; |
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result += '*'+s; |
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end; |
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end; |
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end; |
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function CnvtoBASE(var dgt:tDigits;n:Uint64;base:NativeUint):NativeInt; |
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//n must be multiple of base aka n mod base must be 0 |
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var |
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q,r: Uint64; |
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i : NativeInt; |
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Begin |
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fillchar(dgt,SizeOf(dgt),#0); |
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i := 0; |
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n := n div base; |
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result := 0; |
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repeat |
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r := n; |
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q := n div base; |
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r -= q*base; |
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n := q; |
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dgt[i] := r; |
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inc(i); |
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until (q = 0); |
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//searching lowest pot in base |
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result := 0; |
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while (result<i) AND (dgt[result] = 0) do |
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inc(result); |
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inc(result); |
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end; |
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function IncByBaseInBase(var dgt:tDigits;base:NativeInt):NativeInt; |
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var |
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q :NativeInt; |
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Begin |
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result := 0; |
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q := dgt[result]+1; |
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if q = base then |
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repeat |
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dgt[result] := 0; |
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inc(result); |
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q := dgt[result]+1; |
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until q <> base; |
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dgt[result] := q; |
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result +=1; |
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end; |
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function SieveOneSieve(var pdf:tPrimeDecompField):boolean; |
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var |
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dgt:tDigits; |
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i,j,k,pr,fac,n,MaxP : Uint64; |
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begin |
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n := pdfOfs; |
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if n+SizePrDeFe >= sqr(SmallPrimes[High(SmallPrimes)]) then |
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EXIT(FALSE); |
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//init |
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for i := 0 to SizePrDeFe-1 do |
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begin |
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with pdf[i] do |
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Begin |
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pfDivCnt := 1; |
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pfSumOfDivs := 1; |
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pfRemain := n+i; |
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pfMaxIdx := 0; |
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pfpotPrimIdx[0] := 0; |
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pfpotMax[0] := 0; |
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end; |
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end; |
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//first factor 2. Make n+i even |
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i := (pdfIdx+n) AND 1; |
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IF (n = 0) AND (pdfIdx<2) then |
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i := 2; |
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repeat |
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with pdf[i] do |
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begin |
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j := BsfQWord(n+i); |
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pfMaxIdx := 1; |
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pfpotPrimIdx[0] := 0; |
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pfpotMax[0] := j; |
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pfRemain := (n+i) shr j; |
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pfSumOfDivs := (Uint64(1) shl (j+1))-1; |
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pfDivCnt := j+1; |
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end; |
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i += 2; |
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until i >=SizePrDeFe; |
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//i now index in SmallPrimes |
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i := 0; |
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maxP := trunc(sqrt(n+SizePrDeFe))+1; |
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repeat |
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//search next prime that is in bounds of sieve |
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if n = 0 then |
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begin |
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repeat |
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inc(i); |
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pr := SmallPrimes[i]; |
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k := pr-n MOD pr; |
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if k < SizePrDeFe then |
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break; |
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until pr > MaxP; |
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end |
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else |
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begin |
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repeat |
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inc(i); |
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pr := SmallPrimes[i]; |
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k := pr-n MOD pr; |
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if (k = pr) AND (n>0) then |
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k:= 0; |
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if k < SizePrDeFe then |
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break; |
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until pr > MaxP; |
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end; |
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//no need to use higher primes |
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if pr*pr > n+SizePrDeFe then |
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BREAK; |
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//j is power of prime |
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j := CnvtoBASE(dgt,n+k,pr); |
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repeat |
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with pdf[k] do |
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Begin |
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pfpotPrimIdx[pfMaxIdx] := i; |
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pfpotMax[pfMaxIdx] := j; |
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pfDivCnt *= j+1; |
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fac := pr; |
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repeat |
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pfRemain := pfRemain DIV pr; |
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dec(j); |
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fac *= pr; |
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until j<= 0; |
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pfSumOfDivs *= (fac-1)DIV(pr-1); |
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inc(pfMaxIdx); |
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k += pr; |
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j := IncByBaseInBase(dgt,pr); |
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end; |
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until k >= SizePrDeFe; |
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until false; |
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//correct sum of & count of divisors |
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for i := 0 to High(pdf) do |
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Begin |
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with pdf[i] do |
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begin |
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j := pfRemain; |
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if j <> 1 then |
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begin |
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pfSumOFDivs *= (j+1); |
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pfDivCnt *=2; |
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end; |
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end; |
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end; |
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result := true; |
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end; |
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function NextSieve:boolean; |
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begin |
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dec(pdfIDX,SizePrDeFe); |
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inc(pdfOfs,SizePrDeFe); |
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result := SieveOneSieve(PrimeDecompField); |
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end; |
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function GetNextPrimeDecomp:tpPrimeFac; |
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begin |
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if pdfIDX >= SizePrDeFe then |
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if Not(NextSieve) then |
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EXIT(NIL); |
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result := @PrimeDecompField[pdfIDX]; |
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inc(pdfIDX); |
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end; |
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function Init_Sieve(n:NativeUint):boolean; |
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//Init Sieve pdfIdx,pdfOfs are Global |
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begin |
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pdfIdx := n MOD SizePrDeFe; |
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pdfOfs := n-pdfIdx; |
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result := SieveOneSieve(PrimeDecompField); |
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end; |
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var |
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s,pr : string[31]; |
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pPrimeDecomp :tpPrimeFac; |
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T0:Int64; |
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n,i : NativeUInt; |
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checked : boolean; |
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Begin |
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InitSmallPrimes; |
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T0 := GetTickCount64; |
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n := 0; |
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Init_Sieve(0); |
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repeat |
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pPrimeDecomp:= GetNextPrimeDecomp; |
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with pPrimeDecomp^ do |
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begin |
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//composite with smallest factor 11 |
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if (pfDivCnt>2) AND (pfpotPrimIdx[0]>3) then |
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begin |
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str(n,s); |
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for i := 0 to pfMaxIdx-1 do |
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begin |
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str(smallprimes[pfpotPrimIdx[i]],pr); |
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checked := (pos(pr,s)>0); |
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if Not(checked) then |
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Break; |
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end; |
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if checked then |
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begin |
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if pfRemain >1 then |
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begin |
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str(pfRemain,pr); |
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checked := (pos(pr,s)>0); |
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end; |
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if checked then |
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writeln(OutPots(pPrimeDecomp,n)); |
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end; |
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end; |
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end; |
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inc(n); |
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until n > 28118827;//1000*1000*1000+1;// |
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T0 := GetTickCount64-T0; |
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writeln('runtime ',T0/1000:0:3,' s'); |
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end. |
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</lang> |
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{{out|@TIO.RUN}} |
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<pre> |
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Real time: 2.166 s CPU share: 99.20 %//500*1000*1000 Real time: 38.895 s CPU share: 99.28 % |
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15317 : 6 : 17^2*53 |
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59177 : 6 : 17*59^2 |
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83731 : 8 : 31*37*73 |
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119911 : 6 : 11^2*991 |
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183347 : 6 : 47^2*83 |
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192413 : 12 : 13*19^2*41 |
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1819231 : 12 : 19*23^2*181 |
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2111317 : 12 : 13^3*31^2 |
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2237411 : 12 : 11^3*41^2 |
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3129361 : 9 : 29^2*61^2 |
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5526173 : 12 : 17*61*73^2 |
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11610313 : 20 : 11^4*13*61 |
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13436683 : 12 : 13^2*43^3 |
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13731373 : 8 : 73*137*1373 |
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13737841 : 12 : 13^5*37 |
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13831103 : 12 : 11*13*311^2 |
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15813251 : 4 : 251^3 |
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17692313 : 4 : 23*769231 |
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19173071 : 12 : 19^2*173*307 |
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28118827 : 12 : 11^2*281*827 |
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runtime 2.011 s |
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..@home limit 1E9 53^2*89xprime appears often |
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847253389 847253389 : 12 : 53^2*89*3389 |
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889253557 889253557 : 12 : 53^2*89*3557 |
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889753559 889753559 : 12 : 53^2*89*3559 |
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892753571 892753571 : 12 : 53^2*89*3571 |
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892961737 892961737 : 24 : 17^2*37^3*61 |
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895253581 895253581 : 12 : 53^2*89*3581 |
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895753583 895753583 : 12 : 53^2*89*3583 |
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898253593 898253593 : 12 : 53^2*89*3593 |
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972253889 972253889 : 12 : 53^2*89*3889 |
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997253989 997253989 : 12 : 53^2*89*3989 |
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runtime 45.922 s |
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</pre> |
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=={{header|Perl}}== |
=={{header|Perl}}== |
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{{trans|Raku}} |
{{trans|Raku}} |