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expression-add-operators.cc
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expression-add-operators.cc
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// Expression Add Operators
/// like Earley parser, O(4^n) (string concatenation treated as O(1))
typedef long long ll;
class Solution {
string a;
int n, target;
vector<string> res;
void forward(int k, string s, ll add, ll mul, ll last) {
ll sum = add+mul*last;
if (k == n) {
if (sum == target)
res.push_back(s);
return;
}
int x = a[k]-'0';
if (last) // no leading zero
forward(k+1, s+a[k], add, mul, last*10+x);
forward(k+1, s+'*'+a[k], add, mul*last, x);
forward(k+1, s+'+'+a[k], sum, 1, x);
forward(k+1, s+'-'+a[k], sum, -1, x);
}
public:
vector<string> addOperators(string num, int target) {
a = num;
n = a.size();
if (n) {
this->target = target;
forward(1, string(1, a[0]), 0, 1, a[0]-'0');
}
return res;
}
};
/// accelerated by meet-in-the-middle, O(4^(n/2)*2^(n/2)) = O(2^(1.5n))
typedef long long ll;
class Solution {
string a;
int n, nn, target;
vector<multimap<ll, string>> e_plus, e_minus;
vector<string> res;
void backward(int k, string s, ll add, ll mul, ll last, ll ten) {
if (k < nn) return;
int x = a[k-1]-'0';
ll ten2 = 10*ten, sum = add+mul*last;
backward(k-1, string(1, a[k-1])+s, add, mul, last+ten2*x, ten2);
if (ten == 1 || last >= ten) { // `last` has no leading zero
backward(k-1, string(1, a[k-1])+'*'+s, add, mul*last, x, 1);
backward(k-1, string(1, a[k-1])+'+'+s, sum, 1, x, 1);
backward(k-1, string(1, a[k-1])+'-'+s, add-mul*last, 1, x, 1);
e_plus[k].insert(make_pair(sum, s));
e_minus[k].insert(make_pair(add-mul*last, s));
}
}
void forward(int k, string s, ll add, ll mul, ll last) {
ll sum = add+mul*last;
if (k == n) {
if (sum == target)
res.push_back(s);
return;
}
int x = a[k]-'0';
if (last) // no leading zero
forward(k+1, s+a[k], add, mul, last*10+x);
forward(k+1, s+'*'+a[k], add, mul*last, x);
if (k < nn) {
forward(k+1, s+'+'+a[k], sum, 1, x);
forward(k+1, s+'-'+a[k], sum, -1, x);
} else {
auto rg = e_plus[k].equal_range(target-sum);
for (auto it = rg.first; it != rg.second; ++it)
res.push_back(s+'+'+it->second);
rg = e_minus[k].equal_range(target-sum);
for (auto it = rg.first; it != rg.second; ++it)
res.push_back(s+'-'+it->second);
}
}
public:
vector<string> addOperators(string num, int target) {
a = num;
n = a.size();
if (n) {
nn = n/2; // 0 < nn < n
this->target = target;
e_plus.resize(n);
e_minus.resize(n);
backward(n-1, string(1, a[n-1]), 0, 1, a[n-1]-'0', 1);
forward(1, string(1, a[0]), 0, 1, a[0]-'0');
}
return res;
}
};