sealed abstract class ExecutionModel extends Product with Serializable
Specification for run-loops, imposed by the Scheduler
.
When executing tasks, a run-loop can always execute tasks asynchronously (by forking logical threads), or it can always execute them synchronously (same thread and call-stack, by using an internal trampoline), or it can do a mixed mode that executes tasks in batches before forking.
The specification is considered a recommendation for how run loops should behave, but ultimately it's up to the client to choose the best execution model. This can be related to recursive loops or to events pushed into consumers.
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- ExecutionModel.scala
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abstract
val
batchedExecutionModulus: Int
Always equal to
recommendedBatchSize-1
.Always equal to
recommendedBatchSize-1
.Provided for convenience.
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abstract
def
canEqual(that: Any): Boolean
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abstract
def
nextFrameIndex(current: Int): Int
Returns the next frame index in the run-loop.
Returns the next frame index in the run-loop.
If the returned integer is zero, then the next cycle in the run-loop should execute asynchronously.
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abstract
def
productArity: Int
- Definition Classes
- Product
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abstract
def
productElement(n: Int): Any
- Definition Classes
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abstract
val
recommendedBatchSize: Int
Recommended batch size used for breaking synchronous loops in asynchronous batches.
Recommended batch size used for breaking synchronous loops in asynchronous batches. When streaming value from a producer to a synchronous consumer it's recommended to break the streaming in batches as to not hold the current thread or run-loop indefinitely.
This is rounded to the next power of 2, because then for applying the modulo operation we can just do:
val modulus = recommendedBatchSize - 1 // ... nr = (nr + 1) & modulus
For the JVM the default value can be adjusted with:
java -Dmonix.environment.batchSize=2048 \ ...
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productPrefix: String
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This is the API documentation for the Monix library.
Package Overview
monix.execution exposes lower level primitives for dealing with asynchronous execution:
Atomic
types, as alternative tojava.util.concurrent.atomic
monix.eval is for dealing with evaluation of results, thus exposing Task and Coeval.
monix.reactive exposes the
Observable
pattern:Observable
implementationsmonix.types implements type-class shims, to be translated to type-classes provided by libraries such as Cats or Scalaz.
monix.cats is the optional integration with the Cats library, providing translations for the types described in
monix.types
.monix.scalaz is the optional integration with the Scalaz library, providing translations for the types described in
monix.types
.