235 lines
10 KiB
Ruby
Executable File
235 lines
10 KiB
Ruby
Executable File
#!/usr/bin/ruby
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#####################################
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#
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# Marcin Woźniak
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# s434812
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#
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#####################################
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require 'openssl'
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require 'securerandom'
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require 'prime'
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require 'thread'
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def extended_euklides(a, b)
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return 1, 0 if b == 0
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q, r = a.divmod b
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s, t = extended_euklides(b, r)
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return t, s - q * t
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end
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# Zad. 1.1
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def random_gen_Zn(n,k)
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if 2**(k-1) < n && k > 0
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if k == 1
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min = 0
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max = 1
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else
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min = 2**(k-1)
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max = (2**k)-1
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end
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end
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while true do
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r = SecureRandom.random_number(min..max)
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if r < n
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break
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end
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end
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return r
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end
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# Zad. 1.2
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def reciprocal_Phi_p(n,p)
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u = extended_euklides(n,p)[0]
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v = extended_euklides(n,p)[1]
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if u * n % p == 1
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return u
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else
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return v
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end
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end
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# Zad. 1.3
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def betterExponentiation(x,k,n)
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if n == 0
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return false
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end
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b = k.to_s(2).reverse
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l = b.count "[0-1]"
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y = 1
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i = l - 1
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while i >= 0
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y = y**2 % n
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if b[i]=="1"
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y = y * x % n
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end
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i = i - 1
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end
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return y
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end
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# Zad. 1.4
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def remSqEuler(a,p)
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ans = betterExponentiation(a,(p-1)/2,p)
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if ans == 1 && Prime.prime?(p)
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return true
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else
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return false
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end
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end
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# Zad. 1.5
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def squareRootFp(p,b)
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if p % 4 == 3 && remSqEuler(p,b) == true
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a = betterExponentiation(b, (p+1)/4, p)
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return a
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end
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end
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# Zad. 1.6
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def primalityTest(n)
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if n == 1
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return false
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end
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if n == 2 || n == 3
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return true
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end
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counter = 10
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while (counter != 0) do
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b = SecureRandom.random_number(2..n-2) # Tez dziala n-1
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if betterExponentiation(b,n-1,n) != 1
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return false
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end
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counter = counter - 1
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end
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return true
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end
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def randomNumber(k)
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randomNumberArray=[]
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randomNumberArray << 1
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k= k - 1
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while (k !=0 ) do
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j = SecureRandom.random_number(2)
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randomNumberArray << j
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k = k - 1
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end
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return randomNumberArray.join.to_i(2)
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end
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def specyficPrimaryNumber
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while true do
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q = SecureRandom.random_number(2 ** 256)
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p = 2 * q + 1
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#t1 = Thread.new{primalityTest(q)}
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#t2 = Thread.new{primalityTest(p)}
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#if t1.join.value && t2.join.value
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if primalityTest(q) && primalityTest(p)
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return p,q
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end
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end
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end
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def generator(p,q)
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while true
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g = SecureRandom.random_number(2..p-2)
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if betterExponentiation(g,q,p) == 1
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next
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else
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return g
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end
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end
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end
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###################################################################################
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# Zadanie.1 Losowy element z zbioru Z_n
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#
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# Uzycie funkcji:
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# random_gen_Zn(n,k)
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#
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# Gdzie n - grupa mod
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# k - ilosc bitow
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#puts "Zadanie 1: " + random_gen_Zn(2817960879631397637428637785383222308241674912977296371078328827783823173932945686560271709717223685413005001487628305095704070793958971415087255523073935114518202433817141315589046697665767753020703330561718642810157214393228915238808369985314803605127547366769525321238034444131545038866079220135011303234308583293055538438855440051375449844277218217712896675378963068720345515473434111699867542985885331741594726201346190830240692715577811297545617592986841862266976883958728343753502720654957572591625318922387371348775299617016576604164586635463962864505536324347369114225605202600072081219902252264258236028218613372215876496394341867072862629022156295534655310094481486891656868251869749451857161662890356600101860594118885136794555465318782343870373413707643678756555809662335374658562880045543430140169913540153961566294704894163494226738977413711366121112146042996377423578488354012607979075727403258666348434920910981957617905109649522084109820427893425361930683246183514216962034556016051184044970184676662827978420213281480510069379347007543973139554178175690773315927469361215139519543395792659825942864347234234285907203635728345512501417615714291999748745375110198782386769755218587158953598215023147871490893052124457996091330393194346889440433647348345868290410045628941650640315817691074244257070087501412656465257388504574920756736653658826614297081956072241319983753399595743495837950519045870810249068878008938965513649172515852388457433200750100902751828486806189811961720524504976040165319005498382580099718522287255514024665802127411452771343820848551192190973237603226514162458911052832006635099614443220118029822801995173084006448848714642581145597450095993844936566471047767974285413266855493150984091512278787539020882065620089396507786047199321023827465489494495513119543424285384803025749486259267450477917340669954258887755716092814959537213397128776047910200001947756249766479670986137076981224642743069725401099384031028670810757683522821674118926373517718330706064178699035286815124318059529948663730575377063300582239742709428517028624628630255640464009691179606104444672232047869709734836046571505598681429286372976726889778746623725623485244272247797117303046464791441413956650048631706362550020890628552166104678993837549091779514727408814458173452235187339390489070470959043964826221641981413639067723526075949807992319555177364587831440901887979371647118775640122112691496917328672989185787786333743943571201682455849788768447941052589112093217146238196393058840427167875379895033862665036580869700901671149307822867600084775797450043528335040523181300939047560092173656437964805986878846909755616898664300908149121103065456346895895553346803762232995496756924185713587688989499627282573083392504068537865838813511676470822568313458216527495376958238195629276140142912559084213140117194512209752564237149304569698487234268004667685663277598956964116311211220970915272172182795014191615102024324085452311963348372375839824417067170842114940446271152850552864783993722225100122068507428533164772669151799555291529447719732682260868021763685052338407930046892500473287361324180925326385131283404240275852188687583358717018916949107259963059221294732376067807306008309012964676038322426438467806570485299377626514669181680963962016304313021681669696580753784295259640169007074506637844332833804045109981978476343942218065708022217566222881348496310403404164467438352649885637702780969376650799749541038736604262724814821757258372470336571211357167468680200965241152364670892328226187787108777323221988154289834826302745446444518424440700033948649807665278475079826664974213162552336459719975478725157313669922561440432360473265250572606571269284353534676478375363478936179040075297456773814344907213125333476476655366455733030460908712160208004620689954788191597043073132610377893018543064926955781952650214504633097216561549411315119718460509357878230720821699669794678584993658379092808863297233433557739623968183417003317301945898487820593437670555891465841469699644209269444311251317668652989906375182749637967733151694853436985266479700749763565024494627271013468757521359567838089899510388135209838269214753262972848939363295323913595985611694315406247934779335196977854974497594863447427077079600386381593134665326520126544264832044936966738225526176229232138173609626231926255343974851041449136902209592667970872917688005523210617825501923851244940494708102661449185546240415803793231334092660117374732910436571816210806786100000371385219128407888245069151381708001509375,15000).inspect
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###################################################################################
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# Zadanie.2 Odwrotnosc w grupie Phi(n)
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#
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# Uzycie funkcji:
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# reciprocal_Phi_p(n,p)
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#
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# Gdzie p - element w grupie phi
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# n - liczba nalezaca do N
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#puts "Zadanie 2: " + reciprocal_Phi_p(10,13).inspect
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#puts "Zadanie 2: " + reciprocal_Phi_p(76638723687263876287368268368726378623873687326872634868374687236487623874687648634863847623846834687643,100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000961 ).inspect
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###################################################################################
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# Zadanie.3 Efektywne potegowanie.
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#
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# Uzycie funkcji:
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# betterExponentiation(x,k,n)
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#
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# Gdzie obliczna jest wartosc x^k mod n
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#puts "Zadanie 3: " + betterExponentiation(8,2,30).inspect
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#puts "Zadanie 3: " + betterExponentiation(76638723687263876287368268368726378623873687326872634868374687236487623874687648634863847623846834687643, 76382637812836812638612836812638612376182263812623861283618723681263861238612386, 100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000961).inspect
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###################################################################################
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# Zadanie.4 Sprawdzenie czy element a jest reszta kwadratowa w Z_p
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#
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# Uzycie funkcji:
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# remSqEuler(a,p)
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#
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# Gdzie a - element
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# p - liczba pierwsza
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#puts "Zadanie 4: " + remSqEuler(4,15485863).inspect
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#puts "Zadanie 4: " + remSqEuler(3,13).inspect
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#puts "Zadanie 4: " + remSqEuler(5,13).inspect
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###################################################################################
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# Zadanie.5 Obliczanie pierwiastka kwadratowego w ciele F_p*.
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#
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# Uzycie funkcji
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# squareRootFp(p,b)
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#
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# Gdzie p - liczba pierwsza (modulo)
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# b - reszta kwadratowa
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#puts "Zadanie 5: " + squareRootFp(15485863,2).inspect
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###################################################################################
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# Zadanie 6. Test pierwszości.
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#
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# Uzycie funkcji:
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# primalityTest(n)
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#
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# Gdzie n - liczba wejsciowa
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#puts "Zadanie 6: " + primalityTest(13).inspect
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#puts "Zadanie 6: " + primalityTest(100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000961).inspect
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###################################################################################
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