aivika-1.2: A multi-paradigm simulation library

CopyrightCopyright (c) 2009-2013, David Sorokin <david.sorokin@gmail.com>
LicenseBSD3
MaintainerDavid Sorokin <david.sorokin@gmail.com>
Stabilityexperimental
Safe HaskellSafe-Inferred
LanguageHaskell98

Simulation.Aivika.Server

Contents

Description

Tested with: GHC 7.6.3

It models the server that prodives a service.

Synopsis

Server

data Server s a b Source

It models a server that takes a and provides b having state s.

newServer Source

Arguments

:: (a -> Process b)

provide an output by the specified input

-> Simulation (Server () a b) 

Create a new server that can provide output b by input a. Also it returns the corresponded processor that being applied updates the server state.

newStateServer Source

Arguments

:: (s -> a -> Process (s, b))

provide a new state and output by the specified old state and input

-> s

the initial state

-> Simulation (Server s a b) 

Create a new server that can provide output b by input a starting from state s. Also it returns the corresponded processor that being applied updates the server state.

newServerWithState Source

Arguments

:: s

the initial state

-> ((s, a) -> Process (s, b))

provide an output by the specified input and update the state

-> Simulation (Server s a b) 

Deprecated: Use newStateServer instead

Create a new server that can provide output b by input a starting from state s. Also it returns the corresponded processor that being applied updates the server state.

Processing

serverProcessor :: Server s a b -> Processor a b Source

Return a processor for the specified server.

The processor updates the internal state of the server. The usual case is when the processor is applied only once in a chain of data processing. Otherwise; every time the processor is used, the state of the server changes. Sometimes it can be indeed useful if you want to aggregate the statistics for different servers simultaneously, but it would be more preferable to avoid this.

If you connect different server processors returned by this function in a chain with help of >>> or other category combinator then this chain will act as one whole, where the first server will take a new task only after the last server finishes its current task and requests for the next one from the previous processor in the chain. This is not always that thing you might need.

To model a sequence of the server processors working independently, you should separate them with help of the prefetchProcessor that plays a role of a small one-place buffer in that case.

The queue processors usually have the prefetching capabilities per se, where the items are already stored in the queue. Therefore, the server processor should not be prefetched if it is connected directly with the queue processor.

Server Properties and Activities

serverInitState :: Server s a b -> s Source

The initial state of the server.

serverState :: Server s a b -> Event s Source

Return the current state of the server.

See also serverStateChanged and serverStateChanged_.

serverTotalInputWaitTime :: Server s a b -> Event Double Source

Return the counted total time when the server was locked while awaiting the input.

The value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverTotalInputWaitTimeChanged and serverTotalInputWaitTimeChanged_.

serverTotalProcessingTime :: Server s a b -> Event Double Source

Return the counted total time spent by the server while processing the tasks.

The value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverTotalProcessingTimeChanged and serverTotalProcessingTimeChanged_.

serverTotalOutputWaitTime :: Server s a b -> Event Double Source

Return the counted total time when the server was locked while trying to deliver the output.

The value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverTotalOutputWaitTimeChanged and serverTotalOutputWaitTimeChanged_.

serverInputWaitTime :: Server s a b -> Event (SamplingStats Double) Source

Return the statistics of the time when the server was locked while awaiting the input.

The value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverInputWaitTimeChanged and serverInputWaitTimeChanged_.

serverProcessingTime :: Server s a b -> Event (SamplingStats Double) Source

Return the statistics of the time spent by the server while processing the tasks.

The value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverProcessingTimeChanged and serverProcessingTimeChanged_.

serverOutputWaitTime :: Server s a b -> Event (SamplingStats Double) Source

Return the statistics of the time when the server was locked while trying to deliver the output.

The value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverOutputWaitTimeChanged and serverOutputWaitTimeChanged_.

serverInputWaitFactor :: Server s a b -> Event Double Source

It returns the factor changing from 0 to 1, which estimates how often the server was awaiting for the next input task.

This factor is calculated as

  totalInputWaitTime / (totalInputWaitTime + totalProcessingTime + totalOutputWaitTime)

As before in this module, the value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverInputWaitFactorChanged and serverInputWaitFactorChanged_.

serverProcessingFactor :: Server s a b -> Event Double Source

It returns the factor changing from 0 to 1, which estimates how often the server was busy with direct processing its tasks.

This factor is calculated as

  totalProcessingTime / (totalInputWaitTime + totalProcessingTime + totalOutputWaitTime)

As before in this module, the value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverProcessingFactorChanged and serverProcessingFactorChanged_.

serverOutputWaitFactor :: Server s a b -> Event Double Source

It returns the factor changing from 0 to 1, which estimates how often the server was locked trying to deliver the output after the task is finished.

This factor is calculated as

  totalOutputWaitTime / (totalInputWaitTime + totalProcessingTime + totalOutputWaitTime)

As before in this module, the value returned changes discretely and it is usually delayed relative to the current simulation time.

See also serverOutputWaitFactorChanged and serverOutputWaitFactorChanged_.

Summary

serverSummary :: Server s a b -> Int -> Event ShowS Source

Return the summary for the server with desciption of its properties and activities using the specified indent.

Derived Signals for Properties

serverStateChanged :: Server s a b -> Signal s Source

Signal when the serverState property value has changed.

serverStateChanged_ :: Server s a b -> Signal () Source

Signal when the serverState property value has changed.

serverTotalInputWaitTimeChanged :: Server s a b -> Signal Double Source

Signal when the serverTotalInputWaitTime property value has changed.

serverTotalInputWaitTimeChanged_ :: Server s a b -> Signal () Source

Signal when the serverTotalInputWaitTime property value has changed.

serverTotalProcessingTimeChanged :: Server s a b -> Signal Double Source

Signal when the serverTotalProcessingTime property value has changed.

serverTotalProcessingTimeChanged_ :: Server s a b -> Signal () Source

Signal when the serverTotalProcessingTime property value has changed.

serverTotalOutputWaitTimeChanged :: Server s a b -> Signal Double Source

Signal when the serverTotalOutputWaitTime property value has changed.

serverTotalOutputWaitTimeChanged_ :: Server s a b -> Signal () Source

Signal when the serverTotalOutputWaitTime property value has changed.

serverInputWaitTimeChanged :: Server s a b -> Signal (SamplingStats Double) Source

Signal when the serverInputWaitTime property value has changed.

serverInputWaitTimeChanged_ :: Server s a b -> Signal () Source

Signal when the serverInputWaitTime property value has changed.

serverProcessingTimeChanged :: Server s a b -> Signal (SamplingStats Double) Source

Signal when the serverProcessingTime property value has changed.

serverProcessingTimeChanged_ :: Server s a b -> Signal () Source

Signal when the serverProcessingTime property value has changed.

serverOutputWaitTimeChanged :: Server s a b -> Signal (SamplingStats Double) Source

Signal when the serverOutputWaitTime property value has changed.

serverOutputWaitTimeChanged_ :: Server s a b -> Signal () Source

Signal when the serverOutputWaitTime property value has changed.

serverInputWaitFactorChanged :: Server s a b -> Signal Double Source

Signal when the serverInputWaitFactor property value has changed.

serverInputWaitFactorChanged_ :: Server s a b -> Signal () Source

Signal when the serverInputWaitFactor property value has changed.

serverProcessingFactorChanged :: Server s a b -> Signal Double Source

Signal when the serverProcessingFactor property value has changed.

serverProcessingFactorChanged_ :: Server s a b -> Signal () Source

Signal when the serverProcessingFactor property value has changed.

serverOutputWaitFactorChanged :: Server s a b -> Signal Double Source

Signal when the serverOutputWaitFactor property value has changed.

serverOutputWaitFactorChanged_ :: Server s a b -> Signal () Source

Signal when the serverOutputWaitFactor property value has changed.

Basic Signals

serverInputReceived :: Server s a b -> Signal a Source

Raised when the server receives a new input task.

serverTaskProcessed :: Server s a b -> Signal (a, b) Source

Raised when the server has just processed the task.

serverOutputProvided :: Server s a b -> Signal (a, b) Source

Raised when the server has just delivered the output.

Overall Signal

serverChanged_ :: Server s a b -> Signal () Source

Signal whenever any property of the server changes.