#include <algorithm>
#include <cassert>
#include <iostream>
#include <utility>
#include <vector>
using namespace std;
#define REP(i,n) for(int _n=n, i=0;i<_n;++i)
#define FOR(i,a,b) for(int i=(a),_b=(b);i<=_b;++i)
#define FORD(i,a,b) for(int i=(a),_b=(b);i>=_b;--i)

typedef long long LL; typedef unsigned long long ULL;
const int INF = 1000000000; const LL INFLL = LL(INF) * LL(INF);
template<class T> inline int size(const T&c) { return c.size(); }

class Input {
 public:
  Input() { bufpos = bufend = buffer; eof = false; }
  bool Eof() { return eof; }
  char Peek() { if(bufpos == bufend) Grab(); return *bufpos; }
  unsigned char UPeek() { return static_cast<unsigned char>(Peek()); }
  void SkipWS();
  template<class T> T Get();
  void operator()() {}
  template<class Arg, class... Args> void operator()(Arg &arg, Args &... args) {
    arg = Get<Arg>();
    operator()(args...);
  }
 private:
  static const int BUFSIZE = 1<<16;
  char buffer[BUFSIZE];
  char *bufpos;
  char *bufend;
  bool eof;
  void Grab();
};

void Input::Grab() {
  if(eof) return;
  bufpos = buffer;
  bufend = buffer + read(0, buffer, BUFSIZE);
  if(bufend==bufpos) { eof=true; *bufpos=0; }
}

template<> inline char Input::Get<char>() {
  char res = Peek();
  ++bufpos;
  return res;
}

void Input::SkipWS() {
  while(isspace(UPeek())) Get<char>();
}

template<> unsigned Input::Get<unsigned>() {
  SkipWS();
  unsigned x = 0;
  while(isdigit(UPeek())) {
    x = 10u * x + (Get<char>()-'0');
  }
  return x;
}

template<> int Input::Get<int>() {
  SkipWS();
  bool neg = false;
  if(Peek()=='-') { neg=true; Get<char>(); }
  unsigned x = Get<unsigned>();
  if (neg) x = -x;
  return static_cast<int>(x);
}

class Output {
 public:
  void Flush();
  Output():bufpos(buffer),BUFLIMIT(buffer+BUFSIZE-100) {}
  ~Output() { Flush(); }
  void Put(char c);
  void Put(unsigned x);
  void Put(int x);
  void Put(const char*s);

  void operator()() {}
  template<class Arg, class... Args> void operator()(const Arg &arg, const Args &... args) {
    Put(arg);
    operator()(args...);
  }
 private:
  static const int BUFSIZE = 1<<16;
  char buffer[BUFSIZE];
  char *bufpos;
  char *BUFLIMIT;
};

void Output::Flush() {
  char *p = buffer;
  while(p < bufpos) {
    p += write(1, p, bufpos-p);
  }
  bufpos = buffer;
}

inline void Output::Put(char c) {
  *bufpos = c;
  ++bufpos;
  if(bufpos >= BUFLIMIT) Flush();
}

void Output::Put(unsigned x) {
  char *old = bufpos;
  do {
    *bufpos = char('0' + x % 10u);
    x /= 10u;
    ++bufpos;
  } while(x);
  reverse(old, bufpos);
  if(bufpos >= BUFLIMIT) Flush();
}

void Output::Put(int x) {
  if(x<0) {
    Put('-'); Put(-static_cast<unsigned>(x));
  } else {
    Put(static_cast<unsigned>(x));
  }
}

void Output::Put(const char*s) {
  while(*s) Put(*s++);
}

Input IN;
Output OUT;


struct Potwor {
  int nr;
  int minEnergy;
  int boost;
};

vector<Potwor> uphill, downhill;
LL startEnergy, endEnergy;

void ReadInput() {
  int n,z; IN(n,z);
  startEnergy = z;
  endEnergy = z;
  uphill.reserve(n);
  downhill.reserve(n);
  REP(i,n) {
    int d,a; IN(d,a);
    endEnergy += a-d;
    if(a>=d) {
      Potwor p; p.nr = i; p.minEnergy = d+1; p.boost = a-d;
      uphill.push_back(p);
    } else {
      Potwor p; p.nr = i; p.minEnergy = a+1; p.boost = d-a;
      downhill.push_back(p);
    }
  }
}

void CountSort(vector<Potwor> &potwory) {
  int m=0;
  for(const Potwor &p : potwory) m = max(m, p.minEnergy);
  vector<int> cnt(m+1, 0);
  for(const Potwor &p : potwory) ++cnt[p.minEnergy];
  FOR(i,1,m) cnt[i] += cnt[i-1];
  vector<Potwor> v2(size(potwory));
  for(const Potwor &p : potwory) v2[--cnt[p.minEnergy]] = p;
  potwory.swap(v2);
}

bool OK(vector<Potwor> &potwory, LL energyLL) {
  if(energyLL>=INF) return true;
  CountSort(potwory);
  int energy = static_cast<int>(energyLL);
  for(const Potwor &p : potwory) {
    if(energy < p.minEnergy) return false;
    energy += p.boost;
    if(energy>=INF) return true;
  }
  return true;
}

bool Solve() {
  return
    OK(uphill, startEnergy) &&
    OK(downhill, endEnergy);
}

void WriteSolution() {
  OUT("TAK\n");
  bool first=true;
  for(const Potwor &p : uphill) {
    if(!first) OUT(' ');
    first = false;
    OUT(p.nr+1);
  }
  for(auto it = downhill.rbegin(); it != downhill.rend(); ++it) {
    const Potwor &p = *it;
    if(!first) OUT(' ');
    first = false;
    OUT(p.nr+1);
  }
  OUT('\n');
}

int main() {
  ReadInput();
  if (Solve()) {
    WriteSolution();
  } else {
    OUT("NIE\n");
  }
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <utility>
#include <vector>
using namespace std;
#define REP(i,n) for(int _n=n, i=0;i<_n;++i)
#define FOR(i,a,b) for(int i=(a),_b=(b);i<=_b;++i)
#define FORD(i,a,b) for(int i=(a),_b=(b);i>=_b;--i)

typedef long long LL; typedef unsigned long long ULL;
const int INF = 1000000000; const LL INFLL = LL(INF) * LL(INF);
template<class T> inline int size(const T&c) { return c.size(); }

class Input {
 public:
  Input() { bufpos = bufend = buffer; eof = false; }
  bool Eof() { return eof; }
  char Peek() { if(bufpos == bufend) Grab(); return *bufpos; }
  unsigned char UPeek() { return static_cast<unsigned char>(Peek()); }
  void SkipWS();
  template<class T> T Get();
  void operator()() {}
  template<class Arg, class... Args> void operator()(Arg &arg, Args &... args) {
    arg = Get<Arg>();
    operator()(args...);
  }
 private:
  static const int BUFSIZE = 1<<16;
  char buffer[BUFSIZE];
  char *bufpos;
  char *bufend;
  bool eof;
  void Grab();
};

void Input::Grab() {
  if(eof) return;
  bufpos = buffer;
  bufend = buffer + read(0, buffer, BUFSIZE);
  if(bufend==bufpos) { eof=true; *bufpos=0; }
}

template<> inline char Input::Get<char>() {
  char res = Peek();
  ++bufpos;
  return res;
}

void Input::SkipWS() {
  while(isspace(UPeek())) Get<char>();
}

template<> unsigned Input::Get<unsigned>() {
  SkipWS();
  unsigned x = 0;
  while(isdigit(UPeek())) {
    x = 10u * x + (Get<char>()-'0');
  }
  return x;
}

template<> int Input::Get<int>() {
  SkipWS();
  bool neg = false;
  if(Peek()=='-') { neg=true; Get<char>(); }
  unsigned x = Get<unsigned>();
  if (neg) x = -x;
  return static_cast<int>(x);
}

class Output {
 public:
  void Flush();
  Output():bufpos(buffer),BUFLIMIT(buffer+BUFSIZE-100) {}
  ~Output() { Flush(); }
  void Put(char c);
  void Put(unsigned x);
  void Put(int x);
  void Put(const char*s);

  void operator()() {}
  template<class Arg, class... Args> void operator()(const Arg &arg, const Args &... args) {
    Put(arg);
    operator()(args...);
  }
 private:
  static const int BUFSIZE = 1<<16;
  char buffer[BUFSIZE];
  char *bufpos;
  char *BUFLIMIT;
};

void Output::Flush() {
  char *p = buffer;
  while(p < bufpos) {
    p += write(1, p, bufpos-p);
  }
  bufpos = buffer;
}

inline void Output::Put(char c) {
  *bufpos = c;
  ++bufpos;
  if(bufpos >= BUFLIMIT) Flush();
}

void Output::Put(unsigned x) {
  char *old = bufpos;
  do {
    *bufpos = char('0' + x % 10u);
    x /= 10u;
    ++bufpos;
  } while(x);
  reverse(old, bufpos);
  if(bufpos >= BUFLIMIT) Flush();
}

void Output::Put(int x) {
  if(x<0) {
    Put('-'); Put(-static_cast<unsigned>(x));
  } else {
    Put(static_cast<unsigned>(x));
  }
}

void Output::Put(const char*s) {
  while(*s) Put(*s++);
}

Input IN;
Output OUT;


struct Potwor {
  int nr;
  int minEnergy;
  int boost;
};

vector<Potwor> uphill, downhill;
LL startEnergy, endEnergy;

void ReadInput() {
  int n,z; IN(n,z);
  startEnergy = z;
  endEnergy = z;
  uphill.reserve(n);
  downhill.reserve(n);
  REP(i,n) {
    int d,a; IN(d,a);
    endEnergy += a-d;
    if(a>=d) {
      Potwor p; p.nr = i; p.minEnergy = d+1; p.boost = a-d;
      uphill.push_back(p);
    } else {
      Potwor p; p.nr = i; p.minEnergy = a+1; p.boost = d-a;
      downhill.push_back(p);
    }
  }
}

void CountSort(vector<Potwor> &potwory) {
  int m=0;
  for(const Potwor &p : potwory) m = max(m, p.minEnergy);
  vector<int> cnt(m+1, 0);
  for(const Potwor &p : potwory) ++cnt[p.minEnergy];
  FOR(i,1,m) cnt[i] += cnt[i-1];
  vector<Potwor> v2(size(potwory));
  for(const Potwor &p : potwory) v2[--cnt[p.minEnergy]] = p;
  potwory.swap(v2);
}

bool OK(vector<Potwor> &potwory, LL energyLL) {
  if(energyLL>=INF) return true;
  CountSort(potwory);
  int energy = static_cast<int>(energyLL);
  for(const Potwor &p : potwory) {
    if(energy < p.minEnergy) return false;
    energy += p.boost;
    if(energy>=INF) return true;
  }
  return true;
}

bool Solve() {
  return
    OK(uphill, startEnergy) &&
    OK(downhill, endEnergy);
}

void WriteSolution() {
  OUT("TAK\n");
  bool first=true;
  for(const Potwor &p : uphill) {
    if(!first) OUT(' ');
    first = false;
    OUT(p.nr+1);
  }
  for(auto it = downhill.rbegin(); it != downhill.rend(); ++it) {
    const Potwor &p = *it;
    if(!first) OUT(' ');
    first = false;
    OUT(p.nr+1);
  }
  OUT('\n');
}

int main() {
  ReadInput();
  if (Solve()) {
    WriteSolution();
  } else {
    OUT("NIE\n");
  }
}