If this is a frequently needed feature, we better make a `Collector`

to do the job. We'll need a `Stats`

class to hold `count, min, max`

, and factory methods to creat stats collector.

```
Stats<String> stats = stringStream.collect(Stats.collector())
fooStream.collect(Stats.collector(fooComparator))
```

(Maybe a better convenience method would be `Stats.collect(stream)`

)

I made an example `Stats`

class -

https://gist.github.com/zhong-j-yu/ac5028573c986f7820b25ea2e74ed672

```
public class Stats<T>
{
int count;
final Comparator<? super T> comparator;
T min;
T max;
public Stats(Comparator<? super T> comparator)
{
this.comparator = comparator;
}
public int count(){ return count; }
public T min(){ return min; }
public T max(){ return max; }
public void accept(T val)
{
if(count==0)
min = max = val;
else if(comparator.compare(val, min)<0)
min = val;
else if(comparator.compare(val, max)>0)
max = val;
count++;
}
public Stats<T> combine(Stats<T> that)
{
if(this.count==0) return that;
if(that.count==0) return this;
this.count += that.count;
if(comparator.compare(that.min, this.min)<0)
this.min = that.min;
if(comparator.compare(that.max, this.max)>0)
this.max = that.max;
return this;
}
public static <T> Collector<T, Stats<T>, Stats<T>> collector(Comparator<? super T> comparator)
{
return Collector.of(
()->new Stats<>(comparator),
Stats::accept,
Stats::combine,
Collector.Characteristics.UNORDERED, Collector.Characteristics.IDENTITY_FINISH
);
}
public static <T extends Comparable<? super T>> Collector<T, Stats<T>, Stats<T>> collector()
{
return collector(Comparator.naturalOrder());
}
}
```