can someone tell me What is the difference between intermediate and terminal operations for
Stream operations are combined into pipelines to process streams. All operations are either intermediate or terminal ..means?.
A Stream supports several operations and these operations are divided into
The distinction between this operations is that an intermediate operation is lazy while a terminal operation is not. When you invoke an intermediate operation on a stream, the operation is not executed immediately. It is executed only when a terminal operation is invoked on that stream. In a way, an intermediate operation is memorized and is recalled as soon as a terminal operation is invoked. You can chain multiple intermediate operations and none of them will do anything until you invoke a terminal operation. At that time, all of the intermediate operations that you invoked earlier will be invoked along with the terminal operation.
All intermediate operations return Stream (can be chained), while terminal operations don't. Intermediate Operations are:
filter(Predicate<T>) map(Function<T>) flatMap(Function<T>) sorted(Comparator<T>) peek(Consumer<T>) distinct() limit(long n) skip(long n)
Terminal operations produces a non-stream (cannot be chained) result such as primitive value, a collection or no value at all.
Terminal Operations are:
forEach forEachOrdered toArray reduce collect min max count anyMatch allMatch noneMatch findFirst findAny
Last 5 are short-circuiting terminal operations.
As per javadoc:
Note that all intermediate operations will NOT be executed without a terminal operation at the end. So the pattern will be:
stream() .intemediateOperation1() .intemediateOperation2() ... .intemediateOperationN() .terminalOperation();
You probably noticed that when you define a stream, the methods aren't just called one by one on the whole stream, but rather they do something on each element from the stream. To be able to run these streams in parallel, for every element, there is basically a whole pipeline.
In order to create multiple pipelines, Java 8+ uses the builder pattern. With every intermediate step you add a filter or converter to the stack. In order to tell Java to generate pipelines from that stack of filters, you use a terminating step. That last step combines all the different pipelines. Usually it just returns the values in a defined format, e.g. a list, but it can also run a function once for each element, or reduce the results to a boolean or a number.
To visualize let's take this code:
List<Integer> numbers = Arrays.asList(1, 2, 3, 4); int sum = numbers.stream() .filter(n -> n % 2 == 0) .map(n -> n * n) .reduce(0, Integer::sum);
map are intermediate operations,
reduce is terminal.
numbers.stream()), so we have: |1,2,3,4|
numbers.stream().filter(n -> n % 2 == 0)): |1,2,3,4| ----- |filter|
numbers.stream().filter(n -> n % 2 == 0).map(n -> n * n)): |1,2,3,4| ----- |filter| ----- |map|
reduce, which is terminal operation and the whole flow runs: |1,2,3,4| -> 4 3 2 1 -> |filter| -> 4 2 -> |map| -> 16 4 -> |reduce| -> 20
Notice that no data flows through the stream until the terminal operation is called.
Intermediate operations of Streams have particular characteristic common to all of them. Intermediate Operations are invoked on a Stream instance and after they finish their processing they give a Stream instance as output. Examples of commonly used intermediate operations include Stream.map(), Stream.filter(), Stream.limit() and so on.
One way to look at the Stream operations would be to think of a Stream as an assembly line. There are the the raw materials(elements of stream) coming out from the source at one end. As the product(semi-processed data elements) being made moves forward, each intermediate workstation (or intermediate operation) keeps doing stuff on the product and keeps shaping the final product.
At a high-level, the concept of an assembly line works well for assimilating the concept of stream operations. However, internally within Streams logic there is an important difference. Stream elements are not processed continuously as one would assume. On the contrary, actual processing doesn’t even start till a terminal operation(covered next) is invoked. Such a ‘lazy’ operation of Streams gives Java designers the ability to optimize and process Stream operation execution in a variety of ways.
Here is the list of all Stream intermediate operations:
filter() map() flatMap() distinct() sorted() peek() limit() skip()
Terminal operations are responsible for giving the ‘final’ output for a Stream in operation, and in the process they terminate a Stream. Terminal Operations thus do not return a Stream as their output. Apart from returning a Stream, terminal operations can return any value, or even no value(void) such as in the case of forEach() method used above. Common examples of terminal values are findAny(), allMatch(), forEach() etc.
Here is the list of all Stream terminal operations:
toArray() collect() count() reduce() forEach() forEachOrdered() min() max() anyMatch() allMatch() noneMatch() findAny() findFirst()