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Author SHA1 Message Date
Tibor Bizjak 294d48872c Added solutions for N=60-80 2023-03-27 16:30:58 +02:00
Tibor Bizjak 31d10072bf Changed output formatting 2023-03-27 15:50:59 +02:00
13 changed files with 465 additions and 3 deletions

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@ -0,0 +1,53 @@
#!/usr/bin/env python3
from math import sqrt
def cynical():
#main
i=1+int((2+sqrt(4+12*1009))/6)
o=3*i**2-2*i
while o<10000:
base=(o-(o//100)*100)*100
if base>=1000:
a=curse(base,o//100,[])
if a!=False:
return a+[o]
i+=1
o=3*i**2-2*i
return False
def curse(base,last,sit):
#recursive
if len(sit)==4:
if fig(base+last)!=False and not(fig(base*100+last) in sit):
return [base+last]
else:
i=10
while i<100:
if fig(base+i)!=False and not(fig(base+i) in sit):
a=curse(i*100,last,sit+[fig(base+i)])
if a!=False:
return a+[base+i]
i+=1
return False
def fig(x):
#pocekira ce je x katera izmed figurative stevil
if int(sqrt(x))==sqrt(x):
return 2
k=(1+sqrt(1+24*x))/3
if int(k)==k:
return 3
k=sqrt(1+8*x)
if int(k)==k:
k=(1+sqrt(1+8*x))/4
if int(k)==k:
return 4
return 1
k=(3+sqrt(9+40*x))/5
if int(k)==k:
return 5
return False
if __name__ == '__main__':
print(sum(cynical()))

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#!/usr/bin/env python3
def cube(x):
i=3
lim=100
while True:
cubes=[]
while i**3<lim:
cubes.append(i**3)
i+=1
lim*=10
perm={}
ans=[]
ans_route={}
for j in cubes:
a="".join(sorted(str(j)))
try:
perm[a][0]+=1
if perm[a][0]==x:
ans.append(perm[a][1])
ans_route[perm[a][1]]=a
except:
perm[a]=[1,j]
if len(ans)>0:
for i in sorted(ans):
if perm[ans_route[i]][0]==x:
return i
if __name__ == '__main__':
print(cube(5))

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#include <stdio.h>
#include <math.h>
int sq_frac(int x);
int N = 10000;
int main(int argc, char *argv[])
{
int i, c;
c = 0;
for(i = 1; i <= N; ++i){
if(sq_frac(i) % 2 == 0){
++c;
}
}
printf("%d\n", c);
return 0;
}
int sq_frac(int x)
{
int m, n, d, a, c;
if((m = sqrt(x)) * m == x){
return 1;
}
d = c = 1;
n = m;
do{
d = (x - n * n) / d;
a = (n + m) / d;
n = a * d - n;
++c;
}while(d != 1);
return c;
}

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@ -0,0 +1,16 @@
#!/usr/bin/env python3
def nth_con(x):
# 212 114 116 118
if not x % 3:
n = 1
d = 0
else:
n = x % 3
d = 1
for m in range(2 * (x // 3), 2, -2):
n, d = 2*m*n + 2*d + n, m*n + n + d
return 8*n + 3*d, 2*n + d + n
if __name__ == '__main__':
print(sum(map(int, list(str(nth_con(100)[0])))))

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@ -0,0 +1,58 @@
#!/usr/bin/env python3
from math import sqrt
def main(d):
mx = 0
my = 0
md = 0
for cd in range(2, d + 1):
x, y = diop(cd)
#print("{} -> {}, {}".format(cd, x, y))
if x > mx:
mx = x
my = y
md = cd
return md, mx, my
def diop(d):
sol = []
a, f = sq_frac(d)
f.reverse()
if len(f) == 0:
return 0, 0
for i in f:
for j in range(len(sol)):
sol[j][0], sol[j][1] = sol[j][0] * i + sol[j][1], sol[j][0]
sol.append([i, 1])
r = fits(a, sol, d)
while r == 0:
for i in f:
for j in range(len(sol)):
sol[j][0], sol[j][1] = sol[j][0] * i + sol[j][1], sol[j][0]
r = fits(a, sol, d)
return r
def fits(a, pairs, d):
for x, y in pairs[::-1]:
x, y = a * x + y, x
if x**2 - d * y**2 == 1:
return x, y
return 0
def sq_frac(x):
f = []
m = int(sqrt(x))
if m**2 == x:
return m, f
d = x - m**2
f.append((2 * m) // d)
n = f[-1] * d - m
while d != 1:
d = (x - n**2) // d
f.append((n + m) // d)
n = f[-1] * d - n
return m, f
if __name__ == '__main__':
print(main(1000)[0])

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#!/usr/bin/env python3
def m5gon(x, i, mx):
r = []
m = [[] for _ in range(5)]
for a, b in enumerate(range(i-x-1, (i-x)//2, -1), 1):
if a > mx:
break
elif b > mx or a == x or b == x:
continue
m[0] = [x, a, b]
for ci, c in enumerate(range(i-b-1, 0, -1), 1):
if ci > mx:
break
elif c > mx or len(set([a, b, x, ci, c])) < 5:
continue
m[1] = [ci, b, c]
for di, d in enumerate(range(i-c-1, 0, -1), 1):
if di > mx:
break
elif d > mx or len(set([a, b, x, c, ci, d, di])) < 7:
continue
m[2] = [di, c, d]
for ei, e in enumerate(range(i-d-1, 0, -1), 1):
if ei > mx:
break
elif e > mx or len(set([a, b, x, c, ci, d, di, e, ei, i-e-a])) < 10 or i-e-a > mx:
continue
m[3] = [ei, d, e]
m[4] = [i-e-a, e, a]
st = m.index(sorted(m, key = lambda y: y[0])[0])
m = m[st:] + m[:st]
if m[0][1] < m[0][2]:
m = list(map(lambda y: (y[0], y[2], y[1]), [m[0]] + m[::-1][:-1]))
r.append(''.join([''.join(map(str, y)) for y in m]))
return r
if __name__ == '__main__':
print(max(m5gon(10, i, 10) for i in range(10, 25))[0])

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@ -0,0 +1,84 @@
#include <stdio.h>
#include <math.h>
#define LIM 3 * 1000000
#define MAX_CHAIN 100
void initf(int f[]);
void init_sieve(char s[], int len);
long next_term(long x, int f[]);
int main()
{
int x = pow(10, 6);
int y = 60;
int c, len, count;
long i, n;
long chain[MAX_CHAIN];
int f[10];
char sieve[LIM];
initf(f);
init_sieve(sieve, LIM);
count = 0;
for(i = 3; i < x; ++i){
c = len = 0;
n = i;
while(n >= LIM || !sieve[n]){
if(c < MAX_CHAIN){
chain[c] = n;
++len;
}
n = next_term(n, f);
++c;
}
c += sieve[n];
if(c == y){
++count;
}
for(n = 0; n < len; ++n){
if(chain[n] < LIM){
sieve[chain[n]] = c;
}
--c;
}
}
printf("%d\n", count);
return 0;
}
long next_term(long x, int f[])
{
long r;
int i, d;
r = 0;
for(i = pow(10, (int) log10(x)); i >= 1; i /= 10){
d = x / i;
r += f[d];
x -= d * i;
}
return r;
}
void initf(int f[])
{
int i;
f[0] = f[1] = 1;
for(i = 2; i < 10; ++i){
f[i] = i * f[i - 1];
}
}
void init_sieve(char s[], int len)
{
int i;
for(i = 0; i < len; ++i){
s[i] = 0;
}
s[1] = s[2] = s[145] = s[40585] = 1;
s[871] = s[45361] = s[872] = s[45362] = 2;
s[169] = s[363601] = s[1454] = 3;
}

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#include <stdio.h>
#include <math.h>
int gcd(int a, int b);
int main(int argc, char *argv[])
{
int lim = 1500000;
int i, n, m, p, c, odd;
char sieve[lim + 1];
for(i = 0; i <= lim; ++i){
sieve[i] = 0;
}
odd = c = 0;
for(n = 2; n <= (sqrt(2*lim + 1) - 1)/ 2; ++n){
for(m = odd + 1; m < n && m <= (lim / 2*n) - n; m += 2){
if(gcd(n, m) == 1){
p = 2*n * (n + m);
for(i = p; i <= lim; i += p){
sieve[i] += 1;
}
}
}
odd = !odd;
}
for(i = 0; i <= lim; i += 2){
if(sieve[i] == 1){
++c;
}
}
printf("%d\n", c);
}
int gcd(int a, int b)
{
int c;
while (a != 0){
c = a; a = b%a; b = c;
}
return b;
}

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@ -0,0 +1,28 @@
#include <stdio.h>
int sums(int x);
int main(int argc, char *argv[])
{
printf("%d\n", sums(100));
}
int sums(int x)
{
int i, n;
int s[x + 1][x];
for(n = 0; n <= x; ++n){
s[n][0] = 1;
for(i = 2; i < n; ++i){
s[n][i - 1] = s[n][i - 2];
if(n - i <= i){
s[n][i - 1] += s[n - i][n - i - 1];
}else{
s[n][i - 1] += s[n - i][i - 1];
}
}
s[n][i - 1] = s[n][i - 2] + 1;
}
return s[x][x - 1] - 1;
}

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@ -0,0 +1,30 @@
#!/usr/bin/env python3
from math import sqrt
def main(lim, x):
sieve = [False, True] * (lim//2 + 1)
primes = []
sub_lim = int(sqrt(lim) + 1)
count = [[1], [0], [1]]
even = False
for n in range(3, lim + 1):
if sieve[n]:
primes.append(n)
for j in range(n**2, lim + 1, 2*n):
sieve[j] = False
count.append([int(even)])
for i, p in enumerate(primes, 1):
if p > n - p:
count[n].append(count[n - p][-1] + count[n][-1])
else:
count[n].append(count[n - p][i] + count[n][-1])
if count[n][-1] - int(sieve[n]) > x:
return n, count[n][-1] - int(sieve[n])
even = not even
return False
if __name__ == '__main__':
lim = 10**6
x = 5000
print(main(lim, x)[0])

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#!/usr/bin/env python3
def main(d):
tbl = [1]
n = 1
while p(n, tbl) % d: n+=1
return n, p(n,tbl)
def p(n, tbl=[1]):
if n < 0:
return 0
if n >= len(tbl):
r = -sum((-1)**i *
(p(n-a, tbl) +
p(n-b, tbl))
for a,b,i in pentnum(n))
tbl.append(r)
return tbl[n]
def pentnum(bound):
n = 1
a,b = 1,2
while a <= bound:
yield a,b,n
a += 3*n + 1
b += 3*n + 2
n += 1
print(main(10**6)[0])

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@ -57,7 +57,7 @@ def main():
f = fs[x]
r = run(f)
fst_str = '{:03d} {}'.format(x, r)
fst_str = '{:>3d} {}'.format(x, r)
print(fst_str, end='')
line = ' ' * (bar_len - len(fst_str))
print(line)

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@ -1,6 +1,18 @@
all : 064 074 075 076 085
85 : 085_counting_rectangles.c
064 : 064_odd_period_square_roots.c
gcc 064_odd_period_square_roots.c -lm -o 064_odd_period_square_roots.exe
074 : 074_digit_factorial_chains.c
gcc 074_digit_factorial_chains.c -lm -o 074_digit_factorial_chains.exe
075 : 075_singular_integer_right_triangles.c
gcc 075_singular_integer_right_triangles.c -lm -o 075_singular_integer_right_triangles.exe
076 : 076_counting_summations.c
gcc 076_counting_summations.c -o 076_counting_summations.exe
085 : 085_counting_rectangles.c
gcc 085_counting_rectangles.c -lm -o 085_counting_rectangles.exe
clean :
rm -f *.exe *.out