A cleaner implementation of the backtracking solving the given problem (Refer Algorithm Design Manual: Same template used here).

```
#define V(x) vector<x >
typedef V(int) VI;
bool isSolutionReached(VI & input, VI & partial, int k,int data) {
if (k==data) return true;
return false;
}
void processSolution(VI & input,VI & partial, int k,int data) {
int sum=0,i=0;
for(i=0;i<=data;i++)
if(partial[i]!=0 ) {
sum+=i;
}
if(sum == k) {
for(i=0;i<=data;i++)
if(partial[i]!=0) cout <<i<<"\t";
cout <<"\n";
}
}
void constructNext(VI & input,VI & candidateVector,int k,int data) {
candidateVector.push_back(0);
candidateVector.push_back(1);
}
bool finished=false;
void backTrack(VI & inp, VI &partial, int k,int data ) {
VI candidateVector;
int i=0;
if( isSolutionReached(partial,inp,k,data)) {
processSolution(inp,partial,k,data);
}else {
k=k+1;
constructNext(inp,candidateVector,k,data);
for(i=0;i<candidateVector.size();i++) {
partial[k]=candidateVector[i];
backTrack(inp,partial,k,data);
}
}
}
int main() {
int n=5; //This is x+1
VI inp(5,0);
VI partial(5,0);
backTrack(inp,partial,0,n-1);
return 0;
}
```