This documentation is for an unreleased version of Apache Flink. We recommend you use the latest stable version.
Concepts #
The Hands-on Training explains the basic concepts of stateful and timely stream processing that underlie Flink’s APIs, and provides examples of how these mechanisms are used in applications. Stateful stream processing is introduced in the context of Data Pipelines & ETL and is further developed in the section on Fault Tolerance. Timely stream processing is introduced in the section on Streaming Analytics.
This Concepts in Depth section provides a deeper understanding of how Flink’s architecture and runtime implement these concepts.
Flink’s APIs #
Flink offers different levels of abstraction for developing streaming/batch applications.
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The lowest level abstraction simply offers stateful and timely stream processing. It is embedded into the DataStream API via the Process Function. It allows users to freely process events from one or more streams, and provides consistent, fault tolerant state. In addition, users can register event time and processing time callbacks, allowing programs to realize sophisticated computations.
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In practice, many applications do not need the low-level abstractions described above, and can instead program against the Core APIs: the DataStream API (bounded/unbounded streams). These fluent APIs offer the common building blocks for data processing, like various forms of user-specified transformations, joins, aggregations, windows, state, etc. Data types processed in these APIs are represented as classes in the respective programming languages.
The low level Process Function integrates with the DataStream API, making it possible to use the lower-level abstraction on an as-needed basis.
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The Table API is a declarative DSL centered around tables, which may be dynamically changing tables (when representing streams). The Table API follows the (extended) relational model: Tables have a schema attached (similar to tables in relational databases) and the API offers comparable operations, such as select, project, join, group-by, aggregate, etc. Table API programs declaratively define what logical operation should be done rather than specifying exactly how the code for the operation looks. Though the Table API is extensible by various types of user-defined functions, it is less expressive than the Core APIs, and more concise to use (less code to write). In addition, Table API programs also go through an optimizer that applies optimization rules before execution.
One can seamlessly convert between tables and DataStream, allowing programs to mix the Table API with the DataStream API.
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The highest level abstraction offered by Flink is SQL. This abstraction is similar to the Table API both in semantics and expressiveness, but represents programs as SQL query expressions. The SQL abstraction closely interacts with the Table API, and SQL queries can be executed over tables defined in the Table API.