Please see this list of documention, especially the Clojure CheatSheet. You are looking for the function `split-with`

.

## Better answer

I think this version using a helper function to index into the array is simpler than my original answer that chops up the collection:

```
(ns tst.demo.core
(:use tupelo.core tupelo.test)
(:require
[schema.core :as s]
[tupelo.schema :as tsk]))
(s/defn streak-info :- [tsk/KeyMap]
[coll :- tsk/List]
(let [coll (vec coll)
N (count coll)
streak-start? (s/fn streak-start? :- s/Bool
[idx :- s/Num]
(assert (and (<= 0 idx) (< idx N)))
(if (zero? idx)
true
(not= (nth coll (dec idx)) (nth coll idx))))
result (reduce
(fn [accum idx]
(if-not (streak-start? idx)
accum
(let [coll-remaining (subvec coll idx)
streak-val (first coll-remaining)
streak-vals (take-while #(= streak-val %) coll-remaining)
streak-len (count streak-vals)
accum-next (append accum {:streak-idx idx
:streak-len streak-len
:streak-val streak-val})]
accum-next)))
[]
(range N))]
result))
```

A unit test shows `streak-info`

in action:

```
(dotest
(is= (streak-info [0 0 1 1 0 2 2 2 3])
[{:streak-idx 0, :streak-len 2, :streak-val 0}
{:streak-idx 2, :streak-len 2, :streak-val 1}
{:streak-idx 4, :streak-len 1, :streak-val 0}
{:streak-idx 5, :streak-len 3, :streak-val 2}
{:streak-idx 8, :streak-len 1, :streak-val 3}])
)
```

We then only have to discard all streaks that don't have the desired value `1`

, then find the longest via `max-key`

.

```
(s/defn longest-ones-streak :- tsk/KeyMap
[coll :- tsk/List]
(let [streak-info-all (streak-info coll)
streak-info-ones (filter #(= 1 (grab :streak-val %)) streak-info-all)]
(apply max-key :streak-len streak-info-ones)))
(dotest
(is= (longest-ones-streak [0 0 1 1 0 2 2 2 3]) {:streak-idx 2, :streak-len 2, :streak-val 1})
(is= (longest-ones-streak [0 0 1 1 0 1 1 1 3]) {:streak-idx 5, :streak-len 3, :streak-val 1})
(is= (longest-ones-streak [0 0 1 1 0 1 1 3 3]) {:streak-idx 5, :streak-len 2, :streak-val 1})
(is= (longest-ones-streak [0 0 1 1 1 0 1 1 3]) {:streak-idx 2, :streak-len 3, :streak-val 1}))
```

Note that in case of a tie, `max-key`

uses a "last one wins" technique.

## Original Answer

To start, drop any leading `0`

elements. Then, use `split-with`

to segment the sequence when you encounter the next `0`

. Count the `1`

elements found and save along with the index.

The above needs to be wrapped in a `loop/recur`

, `reduce`

, or similar.

How to keep track of the index, you say? The easiest way is to convert your sequence of values to a sequence of pairs (len-2 vectors), where the 1st item of each pair is the index. An easy way to do that is the `indexed`

function from the Tupelo library:

```
(defn indexed
"Given one or more collections, returns a sequence of indexed tuples from the collections:
(indexed xs ys zs) -> [ [0 x0 y0 z0]
[1 x1 y1 z1]
[2 x2 y2 z2]
... ]
"
[& colls]
(apply zip-lazy (range) colls))
```

which simplifies to

```
(defn indexed [vals]
(mapv vector (range) vals))
```

So, we have an example:

```
(indexed [0 0 1 1 0]) =>
[[0 0]
[1 0]
[2 1]
[3 1]
[4 0]]
```

## Sample solution with unit tests:

```
(ns tst.demo.core
(:use tupelo.core tupelo.test)
(:require
[schema.core :as s]
[tupelo.core :as t]
[tupelo.schema :as tsk]))
(s/defn zero-val?
[pair :- tsk/Pair]
(let [[idx val] pair] ; destructure the pair into its 2 components
(zero? val)))
(dotest
(let [pairs (indexed [0 0 1 1 0])]
(is= pairs
[[0 0]
[1 0]
[2 1]
[3 1]
[4 0]])
(is (zero-val? [5 0]))
(isnt (zero-val? [5 1]))))
```

The above shows testing for zeros via a helper function. Here is how we can find & analyze the first streak in the sequence of indexed pairs:

```
(defn count-streak
[pairs]
(let [v1 (drop-while zero-val? pairs)
[one-pairs remaining-pairs] (split-with #(not (zero-val? %)) v1)
ones-cnt (count one-pairs)
first-pair (first one-pairs)
idx-begin (first first-pair)]
; create a map like
; {:remaining-pairs remaining-pairs
; :ones-cnt ones-cnt
; :idx-begin idx-begin}
(t/vals->map remaining-pairs ones-cnt idx-begin)))
(dotest
(is= (count-streak (indexed [0 0 1 1 0]))
{:idx-begin 2
:ones-cnt 2
:remaining-pairs [[4 0]]}))
```

Then use `loop/recur`

to find the longest streak.

```
(defn max-streak
[vals]
(loop [idx-pairs (indexed vals)
best-streak {:best-len -1 :best-idx nil}]
(if (empty? idx-pairs)
(if (nil? (grab :best-idx best-streak))
(throw (ex-info "No streak of 1's found" (vals->map best-streak idx-pairs)))
best-streak)
(let [curr-streak (count-streak idx-pairs)]
(t/with-map-vals curr-streak [remaining-pairs ones-cnt idx-begin]
(t/with-map-vals best-streak [best-len best-idx]
(if (< best-len ones-cnt)
(recur remaining-pairs {:best-len ones-cnt :best-idx idx-begin})
(recur remaining-pairs best-streak))))))))
(dotest
(throws? (max-streak [0 0 0]) )
(is= (max-streak [0 0 1 1 0]) {:best-len 2, :best-idx 2})
(is= (max-streak [0 0 1 1 0 1 0]) {:best-len 2, :best-idx 2})
(is= (max-streak [0 1 0 1 1 0]) {:best-len 2, :best-idx 3})
(is= (max-streak [0 1 1 0 1 1 1 0]) {:best-len 3, :best-idx 4}))
```