# Finding Strings Neighbors By Up To 2 Differing Positions

Given a seed string, I want to find its neighbors with at most differ in 2 positions. All the digits involve in generating string are only four (i.e. 0,1,2,3). This is the example for what I mean:

``````# In this example, 'first' column
# are neighbors with only 1 position differ.
# The rest of the columns are 2 positions differ

Seed = 000
100 110 120 130 101 102 103
200 210 220 230 201 202 203
300 310 320 330 301 302 303
010 011 012  013
020 021 022  023
030 031 032  033
001
002
003

Seed = 001
101 111 121 131 100 102 103
201 211 221 231 200 202 203
301 311 321 331 300 302 303
011 010 012 013
021 020 022 023
031 030 032 033
000
003
002

Hence given a tag of length L
we will have 3*L + 9L(L-1)/2   neighbors
``````

But why this code of mine fails to generate it correctly? Especially when the seed string is other than "000".

Other approaches are also welcomed, escpecially with speed improvement. Since we will be processing millions of seed tags of length 34 to 36.

``````#include <iostream>
#include <vector>
#include <fstream>
#include <sstream>
using namespace std;

string ConvertInt2String(int IntVal) {
std::string S;
std::stringstream out;
out << IntVal;
S = out.str();

return S;
}

string Vec2Str (vector <int> NTg) {

string StTg = "";
for (unsigned i = 0; i < NTg.size(); i++) {
StTg += ConvertInt2String(NTg[i]);
}
return StTg;
}

template <typename T> void  prn_vec(const std::vector < T >&arg, string sep="")
{
for (unsigned n = 0; n < arg.size(); n++) {
cout << arg[n] << sep;
}
return;
}

vector <int> neighbors(vector<int>& arg, int posNo, int baseNo) {
// pass base position and return neighbors

vector <int> transfVec;
transfVec = arg;

//modified according to strager's first post
transfVec[posNo % arg.size()] = baseNo;

return transfVec;

}

int main () {

vector <int> numTag;
numTag.push_back(0);
numTag.push_back(0);
numTag.push_back(1); // If "000" this code works, but not 001 or others

// Note that in actual practice numTag can be greater than 3

int TagLen = static_cast<int>(numTag.size());

for ( int p=0; p< TagLen  ; p++ ) {

// First loop is to generate tags 1 position differ
for ( int b=1; b<=3 ; b++ ) {

int bval = b;
if (numTag[p] == b) {
bval = 0;
}

vector <int> nbnumTag = neighbors(numTag, p, bval);
string SnbnumTag = Vec2Str(nbnumTag);

cout << SnbnumTag;
cout << "\n";

// Second loop for tags in 2 position differ

for (int l=p+1; l < TagLen; l++) {

for (int  c=1; c<=3; c++) {

int cval = c;

if (nbnumTag[l] == c) {
cval = c;
}
vector <int> nbnumTag2 = neighbors(nbnumTag, l, cval);
string SnbnumTag2 = Vec2Str(nbnumTag2);

cout << "\t" << SnbnumTag2;
cout << "\n";

}
}

}
}

return 0;
}
``````
-
What errors are you getting (how does the code output differ from the expected)? –  lc. Mar 25 '09 at 2:32
@lc: I've updated the OP. –  neversaint Mar 25 '09 at 2:39
Can you please try and explain your algorithm? I'm not really sure how you're approaching this. –  strager Mar 25 '09 at 2:56
If you are planning on "processing millions of seed tags of length 34 to 36" you are clearly not going to generate all of neighbors for each seed. Wanna share more exact task? –  dragonfly Mar 28 '09 at 8:14
Any updates on this? I.e., have you seen anyone's updated answers? –  strager Mar 30 '09 at 10:09
show 1 more comment

Would this do it? It enumerates the tree of possible strings, pruning all with >2 differences from the original.

``````void walk(char* s, int i, int ndiff){
char c = s[i];
if (ndiff > 2) return;
if (c == '\0'){
if (ndiff > 0) print(s);
}
else {
s[i] = '0'; walk(s, i+1, (s[i]==c ? ndiff : ndiff+1);
s[i] = '1'; walk(s, i+1, (s[i]==c ? ndiff : ndiff+1);
s[i] = '2'; walk(s, i+1, (s[i]==c ? ndiff : ndiff+1);
s[i] = '3'; walk(s, i+1, (s[i]==c ? ndiff : ndiff+1);
s[i] = c;
}
}

char seed[] = "000";
main(){
walk(seed, 0, 0);
}
``````
-
The question: "But why this code of mine fails to generate it correctly? Especially when the seed string is other than "000"." This doesn't answer the 'why'. –  strager Mar 28 '09 at 2:23
Sorry. I guess I didn't analyze the code, because I thought I could see a simpler way to do it. The problem is similar to spelling-correction stuff I have worked on. –  Mike Dunlavey Mar 28 '09 at 18:07

Here's my ugly, hacky solution:

``````#include <iostream>
#include <vector>

using std::cout;
using std::endl;
using std::vector;

struct tri
{
tri(int a, int b, int c)
{
switch (a)
{
case 0:
m[0] = 0;
m[1] = b;
m[2] = c;
break;
case 1:
m[0] = b;
m[1] = 0;
m[2] = c;
break;
case 2:
m[0] = b;
m[1] = c;
m[2] = 0;
break;
}
}
int m[3];
};

int main()
{
vector<tri> v;
for (int i = 0; i < 3; i++)
for (int j = 0; j < 4; j++)
for (int k = 0; k < 4; k++)
{
v.push_back(tri(i,j,k));
}

vector<tri>::iterator it;
for (it = v.begin(); it != v.end(); ++it)
{
cout << (*it).m[0];
cout << (*it).m[1];
cout << (*it).m[2];
cout << endl;
}
}
``````
-
What happen when string is other than 000, or longer than 3 digits? –  neversaint Mar 25 '09 at 3:00
His question is "why isn't this working?" not "how do I do this?" –  strager Mar 25 '09 at 3:09
why be a gater and vote someone down? –  ojblass Mar 25 '09 at 4:20

This should be equivalent to generating all the strings within a hamming distance of 2, over a 4-symbol alphabet. I've seen algorithms for it, but I'm at a loss to find them right now. Perhaps this can serve as a pointer in the right direction.

-

Here's one way to do it that should work for any number of characters and length of string:

``````string base = "000";
char values[] = {'0', '1', '2', '3' };

for (int i = 0; i < base.length(); ++i)
{
for (int j = 0; j < countof(values); ++j)
{
if (base[i] != values[j])
{
string copy = base;
copy[i] = values[j];
cout << copy << endl;

for (int k = i+1; k < base.length(); ++k)
{
for (int l = 0; l < countof(values); ++l)
{
if (copy[k] != values[l])
{
string copy2 = copy;
copy[k] = values[l];
cout << copy2 << endl;
}
}
}
}
}
}
``````
-
His question is "why isn't this working?" not "how do I do this?" –  strager Mar 25 '09 at 3:09
Ah - I misread the question. Why is this not working is a much hard question to answer, but a much better question to ask. –  Eclipse Mar 25 '09 at 3:10
Sadly, we have to figure out what he's doing first, which is rather difficult (as I have a different way at approaching the problem). Alternate solutions aren't a bad thing, though. –  strager Mar 25 '09 at 3:12

Your problem [EDIT: the original one (see previous revisions of question)] is that in your inner loop, you're only assigning the 'next' element. A quick fix is to wrap the write in `neighbors`:

``````vector <int> neighbors(const vector<int>& arg, int posNo, int baseNo) {
// pass base position and return neighbors

vector <int> transfVec = arg

transfVec[posNo % arg.size()] = baseNo;

return transfVec;

}
``````

This fix only works when you have two or three items in your array. If you want more, you need to rewrite your algorithm as it doesn't handle cases where the length is greater than three at all. (It shouldn't need to, even. The algorithm you use is just too restrictive.)

-
@strager: thanks a lot. How should I modify the code so that it can handle > 3 length? –  neversaint Mar 25 '09 at 3:17
@foolishbrat, You probably need to rewrite your algorithm. Go with the pencil-and-paper method and solve your problem by hand, first. Record each step you perform. Then, code it. Make sure the algorithm works for different parameters like size. –  strager Mar 25 '09 at 3:26
@strager: I tried with 0000, it seems to work with this ouput: dpaste.com/18809/plain –  neversaint Mar 25 '09 at 3:28
@foolishbrat, 0101 is a combination not listed, for example. As I said, your pairs are adjacent. They shouldn't need to be. –  strager Mar 25 '09 at 3:33
+1 for answering the question, rather than recoding his example. –  razlebe Mar 28 '09 at 2:20

These two if's:

`````` if (numTag[p] == b) {
bval = 0;
}

if (nbnumTag[l] == c) {
cval = c;
}
``````

Should instead have bodies of `continue`.

These two loops should start at 0:

``````for ( int b=1; b<=3 ; b++ ) {
for (int  c=1; c<=3; c++) {

// i.e.

for ( int b=0; b<=3 ; b++ ) {
for (int  c=0; c<=3; c++) {
``````
-
@strager: what do you mean 'should instead have bodies of continue'? I tried this codepad.org/efWQ7EGU , thought I'm quite close but still not quite there. –  neversaint Mar 28 '09 at 2:34
@foolishbrat, Oops, my first comment about the for's was incorrect. Please revert the for back to its original, and it should work perfectly. –  strager Mar 28 '09 at 2:40

It looks like strager has identified the main problem: the loop conditions. Your alphabet is 0,1,2,3, so you should loop over that whole range. 0 is not a special case, as your code tries to treat it. The special case is to skip the iteration when the alphabet value equals the value in your key, which is what the continue suggested by strager accomplishes.

Below is my version of your algorithm. It has some alternative ideas for loop structures, and it avoids copying the key by modifying it in place. Note that you can also change the size of the alphabet by changing the `MIN_VALUE` and `MAX_VALUE` constants.

Here's the output for the "001" case:

``````101 111 121 131 102 103 100
201 211 221 231 202 203 200
301 311 321 331 302 303 300
011 012 013 010
021 022 023 020
031 032 033 030
002
003
000
``````

And here's the code:

``````#include <iostream>
#include <vector>
#include <string>
#include <sstream>

using namespace std;

const int MIN_VALUE = 0;
const int MAX_VALUE = 3;

int increment(int& ch)
{
if (ch == MAX_VALUE)
ch = MIN_VALUE;
else
++ch;
return ch;
}

string stringKey(const vector<int>& key)
{
ostringstream sout;
for (int i = 0; i < key.size(); ++i)
sout << key[i];
return sout.str();
}

int main()
{
vector<int> key;
key.push_back(0);
key.push_back(0);
key.push_back(1);

for (int outerKeyPos = 0;  outerKeyPos < key.size(); ++outerKeyPos)
{
int outerOriginal = key[outerKeyPos];
while (increment(key[outerKeyPos]) != outerOriginal)
{
cout << stringKey(key);
for (int innerKeyPos = outerKeyPos + 1; innerKeyPos < key.size(); ++innerKeyPos)
{
int innerOriginal = key[innerKeyPos];
while (increment(key[innerKeyPos]) != innerOriginal)
{
cout << " " << stringKey(key);
}
}
cout << endl;
}
}
}
``````
-

I've tried to correct your algorithm, staying as close as possible to the original one:

`````` int TagLen = static_cast<int>(numTag.size());

for ( int p=0; p< TagLen  ; p++ ) {
// First loop is to generate tags 1 position differ
for ( int b=0; b<=3 ; b++ ) { // Loop over all 4 elements

int bval = b;
if (numTag[p] == b) {
continue; // This is the seed vector, ignore it
}

vector <int> nbnumTag = neighbors(numTag, p, bval);
string SnbnumTag = Vec2Str(nbnumTag);

cout << SnbnumTag;
cout << "\n";

// Second loop for tags in 2 position differ
for (int l=p+1; l < TagLen; l++) {

for (int  c=0; c<=3; c++) {

int cval = c;

if (nbnumTag[l] == c) { // Loop over all 4 elements
continue; // This is nbnumTag, ignore it
}
vector <int> nbnumTag2 = neighbors(nbnumTag, l, cval);
string SnbnumTag2 = Vec2Str(nbnumTag2);

cout << "\t" << SnbnumTag2;
cout << "\n";
}
}
}
}
``````

The problem is that you don't iterate over all 4 possible values (0,1,2,3), but you skip 0 for some reason. The way I am doing it is to iterate over all of them and ignore (by using a continue) the vector that is the same with the seed or the 1-point different tag computed at phase 1.

Having said that, I believe that better algorithms than yours are proposed and it would be better to consider one of them.

-