Difference between revisions of "Iced Cakes Pipeline"
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[[File:CakePipelineGIF.gif]] | [[File:CakePipelineGIF.gif]] | ||
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+ | The viz below is for the challenge assignment. | ||
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+ | [[File:TwoOvenPipelineGIF.gif]] | ||
==Correctness== | ==Correctness== |
Revision as of 17:04, 15 June 2018
Contents
Motivation
Pipelines can increase throughput when processing a stream of data. We will gain additional experience with Phasers by building a software pipeline.
Backgroud
Code To Use
Cakes
class Mixer
- mix(int cakeIndex)
class Baker
- bake(int cakeIndex, MixedIngredients mixedIngredients)
class Icer
- ice(int cakeIndex, BakedCake bakedCake)
Looping
Phasers
class Phaser (Guide to the Java Phaser)
- register
- arrive
- awaitAdvance use via PhaserUtils.awaitAdvanceForPhase(phaser, phase)
If you are on or past the phase you want to await, then calling phaser.awaitAdvance()
directly is fine. If you might be on a prior phase, then invoke PhaserUtils.awaitAdvanceForPhase(phaser, phase)
. If in doubt, invoking awaitAdvanceForPhase is safer.
public static int awaitAdvanceForPhase(Phaser phaser, int phase) { return awaitAdvanceForPhase(phaser, phase, () -> Thread.yield()); } public static int awaitAdvanceForPhase(Phaser phaser, int phase, Runnable runnable) { while (true) { int currentPhase = phaser.awaitAdvance(phase); if (currentPhase < 0 || currentPhase > phase) { return currentPhase; } else { if (runnable != null) { runnable.run(); } } } }
Questions To Ask Yourself
- What are my tasks?
- What work does each task need to do?
- What, if anything, does each task depend upon? That is: what does each task have to wait for before it may proceed?
Code To Implement
Required Code
class: | CakePipeline.java | |
methods: | mixBakeAndIceCakes | |
package: | pipeline.cake.studio | |
source folder: | student/src/main/java |
method: public static IcedCake[] mixBakeAndIceCakes(Mixer mixer, Baker baker, Icer icer, int cakeCount)
(parallel implementation required)
Design a simple pipeline using Phasers. In order to have a finished cake, you need to first mix the ingredients, then bake the cake, and finally ice it with frosting. Although you only have one tool for each step (one whisk, one oven, and one icing spatula), there's no problem with icing one cake while another is baking in the oven. That's where the parallelism comes in. Answering the above questions should give you all the information you need to set up this method. Remember that this needs to be able work for any number of cakes passed through!
Note that icer.ice() returns an object of IcedCake. Collect all the 'IcedCake's you make, and return them in an array.
Optional Challenge
class: | TwoOvenPipeline.java | |
methods: | mixBakeAndIceCakes | |
package: | pipeline.cake.challenge | |
source folder: | student/src/main/java |
method: public static IcedCake[] mixBakeAndIceCakes(Mixer mixer, Baker baker1, Baker baker2, Icer icer, int cakeCount)
(parallel implementation required)
Testing Your Solution
Visualization
class: | CakePipelineVizApp.java | VIZ |
package: | pipeline.cake.viz | |
source folder: | student/src//java |
The viz below is for the challenge assignment.
Correctness
class: | CakePipelineTestSuite.java | |
package: | pipeline.cake.studio | |
source folder: | testing/src/test/java |
When you are passing the tests and your visualization looks good, demo it to an instructor.