Chunks the enum by buffering elements for which fun returns the same value.

Elements are only emitted when fun returns a new value or the enum finishes.

Examples

iex> stream = Stream.chunk_by([1, 2, 2, 3, 4, 4, 6, 7, 7], &(rem(&1, 2) == 1))
iex> Enum.to_list(stream)
[[1], [2, 2], [3], [4, 4, 6], [7, 7]]

Shortcut to chunk_every(enum, count, count).

Streams the enumerable in chunks, containing count items each, where each new chunk starts step elements into the enumerable.

step is optional and, if not passed, defaults to count, i.e. chunks do not overlap.

If the last chunk does not have count elements to fill the chunk, elements are taken from leftover to fill in the chunk. If leftover does not have enough elements to fill the chunk, then a partial chunk is returned with less than count elements.

If :discard is given in leftover, the last chunk is discarded unless it has exactly count elements.

Examples

iex> Stream.chunk_every([1, 2, 3, 4, 5, 6], 2) |> Enum.to_list
[[1, 2], [3, 4], [5, 6]]

iex> Stream.chunk_every([1, 2, 3, 4, 5, 6], 3, 2, :discard) |> Enum.to_list
[[1, 2, 3], [3, 4, 5]]

iex> Stream.chunk_every([1, 2, 3, 4, 5, 6], 3, 2, [7]) |> Enum.to_list
[[1, 2, 3], [3, 4, 5], [5, 6, 7]]

iex> Stream.chunk_every([1, 2, 3, 4, 5, 6], 3, 3, []) |> Enum.to_list
[[1, 2, 3], [4, 5, 6]]

Chunks the enum with fine grained control when every chunk is emitted.

chunk_fun receives the current element and the accumulator and must return {:cont, element, acc} to emit the given chunk and continue with accumulator or {:cont, acc} to not emit any chunk and continue with the return accumulator.

after_fun is invoked when iteration is done and must also return {:cont, element, acc} or {:cont, acc}.

Examples

iex> chunk_fun = fn i, acc ->
...>   if rem(i, 2) == 0 do
...>     {:cont, Enum.reverse([i | acc]), []}
...>   else
...>     {:cont, [i | acc]}
...>   end
...> end
iex> after_fun = fn
...>   [] -> {:cont, []}
...>   acc -> {:cont, Enum.reverse(acc), []}
...> end
iex> stream = Stream.chunk_while(1..10, [], chunk_fun, after_fun)
iex> Enum.to_list(stream)
[[1, 2], [3, 4], [5, 6], [7, 8], [9, 10]]

Creates a stream that enumerates each enumerable in an enumerable.

Examples

iex> stream = Stream.concat([1..3, 4..6, 7..9])
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5, 6, 7, 8, 9]

Creates a stream that enumerates the first argument, followed by the second.

Examples

iex> stream = Stream.concat(1..3, 4..6)
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5, 6]

iex> stream1 = Stream.cycle([1, 2, 3])
iex> stream2 = Stream.cycle([4, 5, 6])
iex> stream = Stream.concat(stream1, stream2)
iex> Enum.take(stream, 6)
[1, 2, 3, 1, 2, 3]

Creates a stream that cycles through the given enumerable, infinitely.

Examples

iex> stream = Stream.cycle([1, 2, 3])
iex> Enum.take(stream, 5)
[1, 2, 3, 1, 2]

Creates a stream that only emits elements if they are different from the last emitted element.

This function only ever needs to store the last emitted element.

Elements are compared using ===.

Examples

iex> Stream.dedup([1, 2, 3, 3, 2, 1]) |> Enum.to_list
[1, 2, 3, 2, 1]

Creates a stream that only emits elements if the result of calling fun on the element is different from the (stored) result of calling fun on the last emitted element.

Examples

iex> Stream.dedup_by([{1, :x}, {2, :y}, {2, :z}, {1, :x}], fn {x, _} -> x end) |> Enum.to_list
[{1, :x}, {2, :y}, {1, :x}]

Lazily drops the next n items from the enumerable.

If a negative n is given, it will drop the last n items from the collection. Note that the mechanism by which this is implemented will delay the emission of any item until n additional items have been emitted by the enum.

Examples

iex> stream = Stream.drop(1..10, 5)
iex> Enum.to_list(stream)
[6, 7, 8, 9, 10]

iex> stream = Stream.drop(1..10, -5)
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5]

Creates a stream that drops every nth item from the enumerable.

The first item is always dropped, unless nth is 0.

nth must be a non-negative integer.

Examples

iex> stream = Stream.drop_every(1..10, 2)
iex> Enum.to_list(stream)
[2, 4, 6, 8, 10]

iex> stream = Stream.drop_every(1..1000, 1)
iex> Enum.to_list(stream)
[]

iex> stream = Stream.drop_every([1, 2, 3, 4, 5], 0)
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5]

Lazily drops elements of the enumerable while the given function returns a truthy value.

Examples

iex> stream = Stream.drop_while(1..10, &(&1 <= 5))
iex> Enum.to_list(stream)
[6, 7, 8, 9, 10]

Executes the given function for each item.

Useful for adding side effects (like printing) to a stream.

Examples

iex> stream = Stream.each([1, 2, 3], fn(x) -> send self(), x end)
iex> Enum.to_list(stream)
iex> receive do: (x when is_integer(x) -> x)
1
iex> receive do: (x when is_integer(x) -> x)
2
iex> receive do: (x when is_integer(x) -> x)
3

Creates a stream that filters elements according to the given function on enumeration.

Examples

iex> stream = Stream.filter([1, 2, 3], fn(x) -> rem(x, 2) == 0 end)
iex> Enum.to_list(stream)
[2]

Maps the given fun over enumerable and flattens the result.

This function returns a new stream built by appending the result of invoking fun on each element of enumerable together.

Examples

iex> stream = Stream.flat_map([1, 2, 3], fn(x) -> [x, x * 2] end)
iex> Enum.to_list(stream)
[1, 2, 2, 4, 3, 6]

iex> stream = Stream.flat_map([1, 2, 3], fn(x) -> [[x]] end)
iex> Enum.to_list(stream)
[[1], [2], [3]]

Lazily intersperses intersperse_element between each element of the enumeration.

Examples

iex> Stream.intersperse([1, 2, 3], 0) |> Enum.to_list
[1, 0, 2, 0, 3]

iex> Stream.intersperse([1], 0) |> Enum.to_list
[1]

iex> Stream.intersperse([], 0) |> Enum.to_list
[]

Creates a stream that emits a value after the given period n in milliseconds.

The values emitted are an increasing counter starting at 0. This operation will block the caller by the given interval every time a new item is streamed.

Do not use this function to generate a sequence of numbers. If blocking the caller process is not necessary, use Stream.iterate(0, & &1 + 1) instead.

Examples

iex> Stream.interval(10) |> Enum.take(10)
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

Injects the stream values into the given collectable as a side-effect.

This function is often used with run/1 since any evaluation is delayed until the stream is executed. See run/1 for an example.

Emits a sequence of values, starting with start_value. Successive values are generated by calling next_fun on the previous value.

Examples

iex> Stream.iterate(0, &(&1+1)) |> Enum.take(5)
[0, 1, 2, 3, 4]

Creates a stream that will apply the given function on enumeration.

Examples

iex> stream = Stream.map([1, 2, 3], fn(x) -> x * 2 end)
iex> Enum.to_list(stream)
[2, 4, 6]

Creates a stream that will apply the given function on every nth item from the enumerable.

The first item is always passed to the given function.

nth must be a non-negative integer.

Examples

iex> stream = Stream.map_every(1..10, 2, fn(x) -> x * 2 end)
iex> Enum.to_list(stream)
[2, 2, 6, 4, 10, 6, 14, 8, 18, 10]

iex> stream = Stream.map_every([1, 2, 3, 4, 5], 1, fn(x) -> x * 2 end)
iex> Enum.to_list(stream)
[2, 4, 6, 8, 10]

iex> stream = Stream.map_every(1..5, 0, fn(x) -> x * 2 end)
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5]

Creates a stream that will reject elements according to the given function on enumeration.

Examples

iex> stream = Stream.reject([1, 2, 3], fn(x) -> rem(x, 2) == 0 end)
iex> Enum.to_list(stream)
[1, 3]

Returns a stream generated by calling generator_fun repeatedly.

Examples

# Although not necessary, let's seed the random algorithm
iex> :rand.seed(:exsplus, {1, 2, 3})
iex> Stream.repeatedly(&:rand.uniform/0) |> Enum.take(3)
[0.40502929729990744, 0.45336720247823126, 0.04094511692041057]

Emits a sequence of values for the given resource.

Similar to transform/3 but the initial accumulated value is computed lazily via start_fun and executes an after_fun at the end of enumeration (both in cases of success and failure).

Successive values are generated by calling next_fun with the previous accumulator (the initial value being the result returned by start_fun) and it must return a tuple containing a list of items to be emitted and the next accumulator. The enumeration finishes if it returns {:halt, acc}.

As the name says, this function is useful to stream values from resources.

Examples

Stream.resource(fn -> File.open!("sample") end,
                fn file ->
                  case IO.read(file, :line) do
                    data when is_binary(data) -> {[data], file}
                    _ -> {:halt, file}
                  end
                end,
                fn file -> File.close(file) end)

Runs the given stream.

This is useful when a stream needs to be run, for side effects, and there is no interest in its return result.

Examples

Open up a file, replace all # by % and stream to another file without loading the whole file in memory:

stream = File.stream!("code")
|> Stream.map(&String.replace(&1, "#", "%"))
|> Stream.into(File.stream!("new"))
|> Stream.run

No computation will be done until we call one of the Enum functions or Stream.run/1.

Creates a stream that applies the given function to each element, emits the result and uses the same result as the accumulator for the next computation. Uses the first element in the enumerable as the starting value.

Examples

iex> stream = Stream.scan(1..5, &(&1 + &2))
iex> Enum.to_list(stream)
[1, 3, 6, 10, 15]

Creates a stream that applies the given function to each element, emits the result and uses the same result as the accumulator for the next computation. Uses the given acc as the starting value.

Examples

iex> stream = Stream.scan(1..5, 0, &(&1 + &2))
iex> Enum.to_list(stream)
[1, 3, 6, 10, 15]

Lazily takes the next count items from the enumerable and stops enumeration.

If a negative count is given, the last count values will be taken. For such, the collection is fully enumerated keeping up to 2 * count elements in memory. Once the end of the collection is reached, the last count elements will be executed. Therefore, using a negative count on an infinite collection will never return.

Examples

iex> stream = Stream.take(1..100, 5)
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5]

iex> stream = Stream.take(1..100, -5)
iex> Enum.to_list(stream)
[96, 97, 98, 99, 100]

iex> stream = Stream.cycle([1, 2, 3]) |> Stream.take(5)
iex> Enum.to_list(stream)
[1, 2, 3, 1, 2]

Creates a stream that takes every nth item from the enumerable.

The first item is always included, unless nth is 0.

nth must be a non-negative integer.

Examples

iex> stream = Stream.take_every(1..10, 2)
iex> Enum.to_list(stream)
[1, 3, 5, 7, 9]

iex> stream = Stream.take_every([1, 2, 3, 4, 5], 1)
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5]

iex> stream = Stream.take_every(1..1000, 0)
iex> Enum.to_list(stream)
[]

Lazily takes elements of the enumerable while the given function returns a truthy value.

Examples

iex> stream = Stream.take_while(1..100, &(&1 <= 5))
iex> Enum.to_list(stream)
[1, 2, 3, 4, 5]

Creates a stream that emits a single value after n milliseconds.

The value emitted is 0. This operation will block the caller by the given time until the item is streamed.

Examples

iex> Stream.timer(10) |> Enum.to_list
[0]

Transforms an existing stream.

It expects an accumulator and a function that receives each stream item and an accumulator, and must return a tuple containing a new stream (often a list) with the new accumulator or a tuple with :halt as first element and the accumulator as second.

Note: this function is similar to Enum.flat_map_reduce/3 except the latter returns both the flat list and accumulator, while this one returns only the stream.

Examples

Stream.transform/3 is useful as it can be used as the basis to implement many of the functions defined in this module. For example, we can implement Stream.take(enum, n) as follows:

iex> enum = 1..100
iex> n = 3
iex> stream = Stream.transform(enum, 0, fn i, acc ->
...>   if acc < n, do: {[i], acc + 1}, else: {:halt, acc}
...> end)
iex> Enum.to_list(stream)
[1, 2, 3]

Transforms an existing stream with function-based start and finish.

The accumulator is only calculated when transformation starts. It also allows an after function to be given which is invoked when the stream halts or completes.

This function can be seen as a combination of Stream.resource/3 with Stream.transform/3.

Emits a sequence of values for the given accumulator.

Successive values are generated by calling next_fun with the previous accumulator and it must return a tuple with the current value and next accumulator. The enumeration finishes if it returns nil.

Examples

iex> Stream.unfold(5, fn 0 -> nil; n -> {n, n-1} end) |> Enum.to_list()
[5, 4, 3, 2, 1]

Creates a stream that only emits elements if they are unique.

Keep in mind that, in order to know if an element is unique or not, this function needs to store all unique values emitted by the stream. Therefore, if the stream is infinite, the number of items stored will grow infinitely, never being garbage collected.

Examples

iex> Stream.uniq([1, 2, 3, 3, 2, 1]) |> Enum.to_list
[1, 2, 3]

Creates a stream that only emits elements if they are unique, by removing the elements for which function fun returned duplicate items.

The function fun maps every element to a term which is used to determine if two elements are duplicates.

Keep in mind that, in order to know if an element is unique or not, this function needs to store all unique values emitted by the stream. Therefore, if the stream is infinite, the number of items stored will grow infinitely, never being garbage collected.

Example

iex> Stream.uniq_by([{1, :x}, {2, :y}, {1, :z}], fn {x, _} -> x end) |> Enum.to_list
[{1, :x}, {2, :y}]

iex> Stream.uniq_by([a: {:tea, 2}, b: {:tea, 2}, c: {:coffee, 1}], fn {_, y} -> y end) |> Enum.to_list
[a: {:tea, 2}, c: {:coffee, 1}]

Creates a stream where each item in the enumerable will be wrapped in a tuple alongside its index.

If an offset is given, we will index from the given offset instead of from zero.

Examples

iex> stream = Stream.with_index([1, 2, 3])
iex> Enum.to_list(stream)
[{1, 0}, {2, 1}, {3, 2}]

iex> stream = Stream.with_index([1, 2, 3], 3)
iex> Enum.to_list(stream)
[{1, 3}, {2, 4}, {3, 5}]

Zips corresponding elements from a finite collection of enumerables into one stream of tuples.

The zipping finishes as soon as any enumerable in the given collection completes.

Examples

iex> concat = Stream.concat(1..3, 4..6)
iex> cycle = Stream.cycle(["foo", "bar", "baz"])
iex> Stream.zip([concat, [:a, :b, :c], cycle]) |> Enum.to_list
[{1, :a, "foo"}, {2, :b, "bar"}, {3, :c, "baz"}]

Zips two collections together, lazily.

The zipping finishes as soon as any enumerable completes.

Examples

iex> concat = Stream.concat(1..3, 4..6)
iex> cycle  = Stream.cycle([:a, :b, :c])
iex> Stream.zip(concat, cycle) |> Enum.to_list
[{1, :a}, {2, :b}, {3, :c}, {4, :a}, {5, :b}, {6, :c}]