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Copy pathQ3_dequeue.cpp
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267 lines (262 loc) · 6.05 KB
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#include <iostream>
#include <cmath>
using namespace std;
#define dt double;
#define loop(s,n) for(long i=s;i<n;i++)
#define init_cap 512
template <class gt>
class mydeque {
private:
gt *dq = NULL;
gt *arr;
long ft = -1;
long bk = -1;
long sz = 0;
long capacity = 0;
public:
mydeque<gt>() {
grow(init_cap);
}
mydeque<gt>(long nwsz, gt x) {
resize(nwsz,x);
}
void push_back(gt x) {
if(full()) {
grow(capacity*2);
}
if(ft==-1) {
ft = 0;
bk = 0;
}
else
bk = (bk+1)%capacity;
dq[bk] = x;
sz++;
}
void pop_back() {
if(!empty()) {
if(ft==bk) {
ft = -1;
bk = -1;
}
else if(bk==0)
bk = capacity-1;
else
bk -= 1;
sz--;
}
}
void push_front(gt x) {
if(full()) {
grow(capacity*2);
}
if(ft==-1) {
ft = 0;
bk = capacity-1;
}
if(ft==0)
ft = capacity-1;
else
ft -= 1;
dq[ft] = x;
sz++;
}
void pop_front() {
if(!empty()) {
if(ft==bk) {
ft = -1;
bk = -1;
}
else
ft = (ft+1)%capacity;
sz--;
}
}
gt front() {
if(empty())
return 0;
return dq[ft];
}
gt back() {
if(empty())
return 0;
return dq[bk];
}
bool empty() {
if(ft==-1)
return true;
return false;
}
int full() {
if((bk+1)%capacity == ft)
return 1;
return 0;
}
long size() {
return sz;
}
void resize(long nwsz, gt x) { //only for user....... defalut value for queue contents
if(nwsz > capacity) {
arr = new gt[nwsz+init_cap];
if(!empty()) {
long k=0;
if(!empty()) {
long j = ft;
while(j!=bk) {
arr[k++] = dq[j];
j = (j+1)%capacity;
}
arr[k] = dq[bk];
}
loop(k+1,nwsz) {
arr[i] = x;
}
}
else {
loop(0,nwsz) {
arr[i] = x;
}
}
delete[] dq;
dq = arr;
sz = nwsz;
capacity = nwsz+init_cap;
ft = 0;
bk = nwsz-1;
}
else if(nwsz <= capacity) {
long s = sz;
if(nwsz > sz) {
loop(s,nwsz) {
push_back(x);
}
}
else if(nwsz < sz) {
loop(nwsz,s) {
pop_back();
}
}
}
}
void grow(long nwcap) {
arr = new gt[nwcap];
if(!empty()) {
long k=0;
long j = ft;
while(j!=bk) {
arr[k++] = dq[j];
j = (j+1)%capacity;
}
arr[k] = dq[bk];
ft = 0;
bk = sz-1;
}
capacity = nwcap;
delete[] dq;
dq = arr;
}
void clear() {
ft = -1;
bk = -1;
sz = 0;
delete[] dq;
dq = new gt[capacity];
}
long getCap() {
return capacity;
}
void info() {
cout << "ft" << ft << " bk" << bk << " sz" << sz << " cap" << capacity << endl;
// cout << "at-ft" << front() << " at-bk" << back() << endl;
}
void display() {
long st = ft;
while(st!=bk) {
cout << dq[st] << " ";
st = (st+1)%capacity;
}
cout << dq[bk] << endl;
}
gt operator[](long index) {
if (index >= capacity) {
cout << "Out of capacity!" << endl;
}
if(ft==-1) {
return gt();
}
return dq[(ft+index)%capacity];
}
};
int main() {
mydeque<string> *q;
long n, x;
int a;
string s;
cin >> n;
while(n--) {
cin >> a;
// cout << "(" << a << ") ";
switch(a) {
case 1: //push_front
cin >> s;
q->push_front(s);
q->display();
break;
case 2: //pop_front
q->pop_front();
q->display();
break;
case 3: //push_back
cin >> s;
q->push_back(s);
q->display();
break;
case 4: //pop_back
q->pop_back();
q->display();
break;
case 5: //deque()
q = new mydeque<string>();
break;
case 6: //deque(n,d)
cin >> x;
cin >> s;
q = new mydeque<string>(x,s);
q->display();
break;
case 7: //front
cout << q->front() << endl;
break;
case 8: //back
cout << q->back() << endl;
break;
case 9: //empty
// cout << q->empty() << endl;
cout << (q->empty()?"true":"false") << endl;
break;
case 10: //size
cout << q->size() << endl;
break;
case 11: //resize
cin >> x;
cin >> s;
q->resize(x,s);
q->display();
break;
case 12: //clear
q->clear();
q->display();
break;
case 13: //d[n]
cin >> x;
cout << (*q)[x] << endl;
break;
case 14: //display
q->display();
break;
}
// q->info();
}
delete q;
return 0;
}