I need to do a program that decodes Transposition cipher. On start I have one word, which is in encrypted text. the length of the key is equal to the 1 length of the received word. key is random.
Examples:

input text:Uniz isvrh tiesiime ffrmfbi jz tpywjhpf gx ucs zgvey eoj e igpg himua xgxfx qbxo xgw b xihapbx vftx jt xik jpxq pl eo owpygfrit zvjgrhri input word: mark output:They could scarcely believe it possible at two yards and a half below water mark was a regular rent in the form of an isosceles triangle

input text:Qr oc cvtmxen ev Rga Asto vlg uwiuxksp acw cx kxu lgmilv input word:was output:On my arrival at New York the question was at its height

input text: Rt kolniz qufkbnx R gjvoczkm zqk kgobzkwin ul cnn suwyckx input word: effect output:In effect however I admitted the existence of the monster
For examples 1 and 2 the program compiles quite quickly, but for example 3 the program compiles for a very long time because i have too many for loops.
#include <stdio.h>
#include<string.h>
#include<stdlib.h>
#include<ctype.h>
int main()
{
unsigned int i = 0;
int key[10];
unsigned int k = 0;
int check;
unsigned int j, jj, jjj, jjjj, jjjjj, jjjjjj;
int n = 50;
char slowo[10];
char plain[500], cipher[500];
fflush(stdin);
printf("Enter text:");
fgets(plain, 500, stdin);
printf("Enter word:");
fgets(slowo, 500, stdin);
if (strlen(slowo) == 4)
{
for (j = n; j != 0; j)
{
key[0] = (j  25);
for (jj = n; jj != 0; jj)
{
key[1] = (jj  25);
for (i = 0; i<strlen(plain); i++)
{
if (isalpha(plain[i]))
{
if (islower(plain[i]))
{
check = plain[i];
if (islower(plain[i]) && check + key[k]>96 && check + key[k]<123)
{
cipher[i] = (plain[i] + key[k]  'a') % 26 + 'a';
}
else
{
check = 123 + (check  97 + key[k]);
cipher[i] = (check  'a') % 26 + 'a';
check = 0;
}
}
else
{
check = plain[i];
if (isupper(plain[i]) && check + key[k]>64 && check + key[k]<91)
{
cipher[i] = (plain[i] + key[k]  'A') % 26 + 'A';
}
else
{
check = 91 + (check  65 + key[k]);
cipher[i] = (check  'A') % 26 + 'A';
check = 0;
}
}
}
else
if (isspace(plain[i]))
{
k;
cipher[i] = plain[i];
}
k++;
if (k>strlen(slowo)  3)//ostatniznak + \0
k = 0;
}
for (i = 0; i<strlen(plain); i++)
{
if (isspace(cipher[i]) && cipher[i + 1] == slowo[0] && cipher[i + 2] == slowo[1] && cipher[i + 3] == slowo[2] && isspace(cipher[i + 4]))
{
cipher[strlen(plain)  1] = '\0';
printf("%s", cipher);
return 0;
}
}
}
}
}
if (strlen(slowo) == 5)
{
for (j = n; j != 0; j)
{
key[0] = (j  25);
for (jj = n; jj != 0; jj)
{
key[1] = (jj  25);
for (jjj = n; jjj != 0; jjj)
{
key[2] = (jjj  25);
for (i = 0; i<strlen(plain); i++)
{
if (isalpha(plain[i]))
{
if (islower(plain[i]))
{
check = plain[i];
if (islower(plain[i]) && check + key[k]>96 && check + key[k]<123)
{
cipher[i] = (plain[i] + key[k]  'a') % 26 + 'a';
}
else
{
check = 123 + (check  97 + key[k]);
cipher[i] = (check  'a') % 26 + 'a';
check = 0;
}
}
else
{
check = plain[i];
if (isupper(plain[i]) && check + key[k]>64 && check + key[k]<91)
{
cipher[i] = (plain[i] + key[k]  'A') % 26 + 'A';
}
else
{
check = 91 + (check  65 + key[k]);
cipher[i] = (check  'A') % 26 + 'A';
check = 0;
}
}
}
else
if (isspace(plain[i]))
{
k;
cipher[i] = plain[i];
}
k++;
if (k>strlen(slowo)  3)//ostatniznak + \0
k = 0;
}
for (i = 0; i<strlen(plain); i++)
{
if (isspace(cipher[i]) && cipher[i + 1] == slowo[0] && cipher[i + 2] == slowo[1] && cipher[i + 3] == slowo[2] && cipher[i + 4] == slowo[3] && isspace(cipher[i + 5]))
{
cipher[strlen(plain)  1] = '\0';
printf("%s", cipher);
return 0;
}
}
}
}
}
}
if (strlen(slowo) == 6)
{
for (j = n; j != 0; j)
{
key[0] = (j  25);
for (jj = n; jj != 0; jj)
{
key[1] = (jj  25);
for (jjj = n; jjj != 0; jjj)
{
key[2] = (jjj  25);
for (jjjj = n; jjjj != 0; jjjj)
{
key[3] = (jjjj  25);
for (i = 0; i<strlen(plain); i++)
{
if (isalpha(plain[i]))
{
if (islower(plain[i]))
{
check = plain[i];
if (islower(plain[i]) && check + key[k]>96 && check + key[k]<123)
{
cipher[i] = (plain[i] + key[k]  'a') % 26 + 'a';
}
else
{
check = 123 + (check  97 + key[k]);
cipher[i] = (check  'a') % 26 + 'a';
check = 0;
}
}
else
{
check = plain[i];
if (isupper(plain[i]) && check + key[k]>64 && check + key[k]<91)
{
cipher[i] = (plain[i] + key[k]  'A') % 26 + 'A';
}
else
{
check = 91 + (check  65 + key[k]);
cipher[i] = (check  'A') % 26 + 'A';
check = 0;
}
}
}
else
if (isspace(plain[i]))
{
k;
cipher[i] = plain[i];
}
k++;
if (k>strlen(slowo)  3)//ostatniznak + \0
k = 0;
}
for (i = 0; i<strlen(plain); i++)
{
if (isspace(cipher[i]) && cipher[i + 1] == slowo[0] && cipher[i + 2] == slowo[1] && cipher[i + 3] == slowo[2] && cipher[i + 4] == slowo[3] && cipher[i + 5] == slowo[4] && isspace(cipher[i + 6]))
{
cipher[strlen(plain)  1] = '\0';
printf("%s", cipher);
return 0;
}
}
}
}
}
}
}
if (strlen(slowo) == 7)
{
for (j = n; j != 0; j)
{
key[0] = (j  25);
for (jj = n; jj != 0; jj)
{
key[1] = (jj  25);
if (isspace(cipher[i]) && cipher[i + 1] == slowo[0] && cipher[i + 2] == slowo[1] && isspace(cipher[i + 7]))
{
jj;
}
for (jjj = n; jjj != 0; jjj)
{
key[2] = (jjj  25);
for (jjjj = n; jjjj != 0; jjjj)
{
key[3] = (jjjj  25);
for (jjjjj = n; jjjjj != 0; jjjjj)
{
key[4] = (jjjjj  25);
for (i = 0; i<strlen(plain); i++)
{
if (isalpha(plain[i]))
{
if (islower(plain[i]))
{
check = plain[i];
if (islower(plain[i]) && check + key[k]>96 && check + key[k]<123)
{
cipher[i] = (plain[i] + key[k]  'a') % 26 + 'a';
}
else
{
check = 123 + (check  97 + key[k]);
cipher[i] = (check  'a') % 26 + 'a';
check = 0;
}
}
else
{
check = plain[i];
if (isupper(plain[i]) && check + key[k]>64 && check + key[k]<91)
{
cipher[i] = (plain[i] + key[k]  'A') % 26 + 'A';
}
else
{
check = 91 + (check  65 + key[k]);
cipher[i] = (check  'A') % 26 + 'A';
check = 0;
}
}
}
else
if (isspace(plain[i]))
{
k;
cipher[i] = plain[i];
}
k++;
if (k>strlen(slowo)  3)//ostatniznak + \0
k = 0;
}
for (i = 0; i<strlen(plain); i++)
{
if (isspace(cipher[i]) && cipher[i + 1] == slowo[0] && cipher[i + 2] == slowo[1] && cipher[i + 3] == slowo[2] && cipher[i + 4] == slowo[3] && cipher[i + 5] == slowo[4] && cipher[i + 6] == slowo[5] && isspace(cipher[i + 7]))
{
cipher[strlen(plain)  1] = '\0';
printf("%s", cipher);
return 0;
}
}
}
}
}
}
}
}
if (strlen(slowo) == 8)
{
for (j = n; j != 0; j)
{
key[0] = (j  25);
for (jj = n; jj != 0; jj)
{
key[1] = (jj  25);
for (jjj = n; jjj != 0; jjj)
{
key[2] = (jjj  25);
for (jjjj = n; jjjj != 0; jjjj)
{
key[3] = (jjjj  25);
for (jjjjj = n; jjjjj != 0; jjjjj)
{
key[4] = (jjjjj  25);
for (jjjjjj = 0; jjjjjj != 0; jjjjjj)
{
key[5] = (jjjjjj  25);
for (i = 0; i<strlen(plain); i++)
{
if (isalpha(plain[i]))
{
if (islower(plain[i]))
{
check = plain[i];
if (islower(plain[i]) && check + key[k]>96 && check + key[k]<123)
{
cipher[i] = (plain[i] + key[k]  'a') % 26 + 'a';
}
else
{
check = 123 + (check  97 + key[k]);
cipher[i] = (check  'a') % 26 + 'a';
check = 0;
}
}
else
{
check = plain[i];
if (isupper(plain[i]) && check + key[k]>64 && check + key[k]<91)
{
cipher[i] = (plain[i] + key[k]  'A') % 26 + 'A';
}
else
{
check = 91 + (check  65 + key[k]);
cipher[i] = (check  'A') % 26 + 'A';
check = 0;
}
}
}
else
if (isspace(plain[i]))
{
k;
cipher[i] = plain[i];
}
k++;
if (k>strlen(slowo)  3)//ostatniznak + \0
k = 0;
}
for (i = 0; i<strlen(plain); i++)
{
if (isspace(cipher[i]) && cipher[i + 1] == slowo[0] && cipher[i + 2] == slowo[1] && cipher[i + 3] == slowo[2] && cipher[i + 4] == slowo[3] && cipher[i + 5] == slowo[4] && cipher[i + 6] == slowo[5] && cipher[i + 7] == slowo[6] && isspace(cipher[i + 7]))
{
cipher[strlen(plain)  1] = '\0';
printf("%s", cipher);
return 0;
}
}
}
}
}
}
}
}
}
else {
printf("Error");
return 1;
}
}
I would like to optimize the code to make it faster, but I have no idea.
j
,jj
,jjj
,jjjj
,jjjjj
,jjjjjj
are awful variable names.fflush(stdin)
has undefined behavior (fflush
is write operation,stdin
is an input stream).