void main(){
  import std.stdio, std.string, std.conv, std.algorithm;

  int n; rd(n);
  int q; rd(q);
  long a=0, b=0;
  auto treeA=new SquareRootDecomposition(n),
       treeB=new SquareRootDecomposition(n);
  while(q--){
    int t, l, r; rd(t, l, r);
    if(t==0){
      auto cntA=treeA.sum(l, r+1), cntB=treeB.sum(l, r+1);
      if(cntA==cntB) continue;
      (cntA>cntB ? a : b)+=max(cntA, cntB);
    }else if(t==1){
      treeA.update(l, r+1, 1);
      treeB.update(l, r+1, 0);
    }else if(t==2){
      treeA.update(l, r+1, 0);
      treeB.update(l, r+1, 1);
    }
  }

  a+=treeA.sum(0, n);
  b+=treeB.sum(0, n);
  writeln(a, " ", b);
}

class SquareRootDecomposition{
  import std.algorithm;
  int D=1, nil=-1;
  int[] val, buc, laz;
  this(int n){
    while(D*D<n) D++;
    val.length=D*D;
    buc.length=laz.length=D;
    fill(laz, nil);
  }

  void push(int i){
    if(laz[i]==nil) return;
    val[(i*D)..((i+1)*D)]=laz[i];
    laz[i]=nil;
  }
  int sum(int l, int r){
    int bl=l/D, br=r/D, ret=0;
    if(br-bl<=1){
      ret=eachSum(l, r);
    }else{
      ret+=eachSum(l, (bl+1)*D);
      ret+=buc[(bl+1)..br].sum;
      ret+=eachSum(br*D, r);
    }
    return ret;
  }
  int eachSum(int l, int r){
    push(l/D); push(r/D);
    if(l>=r) return 0;
    return val[l..r].sum;
  }
  void update(int l, int r, int x){
    int bl=l/D, br=r/D;
    if(br-bl<=1){
      eachUpdate(l, r, x);
    }else{
      eachUpdate(l, (bl+1)*D, x);
      buc[(bl+1)..br]=x*D;
      laz[(bl+1)..br]=x;
      eachUpdate(br*D, r, x);
    }
  }
  void eachUpdate(int l, int r, int x){
    push(l/D); push(r/D);
    foreach(i; l..r){
      buc[i/D]-=val[i];
      val[i]=x;
      buc[i/D]+=val[i];
    }
  }

  void show(){
    import std.stdio;
    writeln(buc);
    writeln(laz);
    writeln(val);
  }
}

void rd(T...)(ref T x){
  import std.stdio, std.string, std.conv;
  auto l=readln.split;
  assert(l.length==x.length);
  foreach(i, ref e; x){
    e=l[i].to!(typeof(e));
  }
}