Go Pipelines: Difference between revisions
Line 22: | Line 22: | ||
==Go Pipeline Stage== | ==Go Pipeline Stage== | ||
Each stage consists of an (externally) read-only channel | Each stage consists of an (externally) read-only output channel and an internal thread pump that invokes an element-processing function. The stream elements to be processed by the stage are read from a read-only input channel, which usually belongs to the preceding stage in the pipeline. Each element is processed by the element-processing function and the result is written on the stage's output channel. | ||
[[File:Go_Pipeline_Stage.png]] | |||
<syntaxhighlight lang='go'> | <syntaxhighlight lang='go'> |
Revision as of 00:31, 3 February 2024
Internal
Overview
A pipeline is a data processing pattern, aimed at processing streams of data. A pipeline consists of a series of stages. The output of a stage is connected to the input of the subsequent stage, unless they happen to be the first and last stage. The input of the first stage is the input of the pipeline. The output of the last stage is the output of the pipeline. The pipeline pattern is powerful because it offers separation of concerns: each stage can implement a different concern. Thus, stages can be modified independently of one another, the stages can be mixed and matched, arranged in fan-out and fan-out topologies, etc.
Stage
A stage has the following two properties:
- A stage consumes and returns the same type.
- A stage must be reified by the language so that it may be passed around.
Reification means that the language exposes a concept to the developers so they can work with it directly. Examples: functions, classes.
Stages can be combined at a higher level without modifying the stages themselves.
Stages are capable of processing elements concurrently.
Stream
A stream consists of elements, which are processed one at a time by stages.
Go Pipeline
Go Pipeline Stage
Each stage consists of an (externally) read-only output channel and an internal thread pump that invokes an element-processing function. The stream elements to be processed by the stage are read from a read-only input channel, which usually belongs to the preceding stage in the pipeline. Each element is processed by the element-processing function and the result is written on the stage's output channel.
// makeStage creates a "stage" - a read-only channel with a "thread pump" that pulls elements
// from the input stage, processes them and sends them on the channel. The stage is preemptable
// via the "done" channel.
func makeStage(done <-chan interface{}, inputStage <-chan <stage_type>, <some_other_stage_params>) <-chan <stage_type> {
// make the stage's channel - which *is* the stage
stage := make(chan <stage_type>)
// create and start the thread pump that writes elements on the channel
go func() {
// close the stage when it's done processing all elements
defer close(stage)
// iterate over the input elements
for e := range inputStage {
select {
case <-done:
return // the stage may be forcibly closed via the "done" channel
case stage <- func(e <stage_type>) <stage_type> {
// this is the function that processes each
// element and produces the stage's per-element
// result, possibly by using <some_other_stage_params>
...
return result
}(e):
}
}
}()
// return the stage
return stage
}