aivika-transformers-4.5: Transformers for the Aivika simulation library

CopyrightCopyright (c) 2009-2016, David Sorokin <david.sorokin@gmail.com>
LicenseBSD3
MaintainerDavid Sorokin <david.sorokin@gmail.com>
Stabilityexperimental
Safe HaskellSafe
LanguageHaskell2010

Simulation.Aivika.Trans.Statistics

Contents

Description

Tested with: GHC 8.0.1

Represents statistics.

Synopsis

Simple Statistics

data SamplingStats a :: * -> * #

Describes when the statistics consists of only samples not bound to the simulation time.

Constructors

SamplingStats 

Fields

Instances

Eq a => Eq (SamplingStats a) 
Ord a => Ord (SamplingStats a) 
Show a => Show (SamplingStats a) 
SamplingData a => Monoid (SamplingStats a) 
ResultItemable (ResultValue (SamplingStats Double)) Source # 

Methods

resultItemName :: ResultValue (SamplingStats Double) m -> ResultName Source #

resultItemId :: ResultValue (SamplingStats Double) m -> ResultId Source #

resultItemSignal :: MonadDES m => ResultValue (SamplingStats Double) m -> ResultSignal m Source #

resultItemExpansion :: MonadDES m => ResultValue (SamplingStats Double) m -> ResultSource m Source #

resultItemSummary :: MonadDES m => ResultValue (SamplingStats Double) m -> ResultSource m Source #

resultItemAsIntValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue Int m) Source #

resultItemAsIntListValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue [Int] m) Source #

resultItemAsIntStatsValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue (SamplingStats Int) m) Source #

resultItemAsIntTimingStatsValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue (TimingStats Int) m) Source #

resultItemAsDoubleValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue Double m) Source #

resultItemAsDoubleListValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue [Double] m) Source #

resultItemAsDoubleStatsValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue (SamplingStats Double) m) Source #

resultItemAsDoubleTimingStatsValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue (TimingStats Double) m) Source #

resultItemAsStringValue :: MonadDES m => ResultValue (SamplingStats Double) m -> Maybe (ResultValue String m) Source #

ResultItemable (ResultValue (SamplingStats Int)) Source # 

Methods

resultItemName :: ResultValue (SamplingStats Int) m -> ResultName Source #

resultItemId :: ResultValue (SamplingStats Int) m -> ResultId Source #

resultItemSignal :: MonadDES m => ResultValue (SamplingStats Int) m -> ResultSignal m Source #

resultItemExpansion :: MonadDES m => ResultValue (SamplingStats Int) m -> ResultSource m Source #

resultItemSummary :: MonadDES m => ResultValue (SamplingStats Int) m -> ResultSource m Source #

resultItemAsIntValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue Int m) Source #

resultItemAsIntListValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue [Int] m) Source #

resultItemAsIntStatsValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue (SamplingStats Int) m) Source #

resultItemAsIntTimingStatsValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue (TimingStats Int) m) Source #

resultItemAsDoubleValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue Double m) Source #

resultItemAsDoubleListValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue [Double] m) Source #

resultItemAsDoubleStatsValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue (SamplingStats Double) m) Source #

resultItemAsDoubleTimingStatsValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue (TimingStats Double) m) Source #

resultItemAsStringValue :: MonadDES m => ResultValue (SamplingStats Int) m -> Maybe (ResultValue String m) Source #

ResultComputing t m => ResultProvider (t m (SamplingStats Int)) m Source # 
ResultComputing t m => ResultProvider (t m (SamplingStats Double)) m Source # 

combineSamplingStatsEither :: SamplingData a => Either a (SamplingStats a) -> SamplingStats a -> SamplingStats a #

If allows combining statistics more efficiently if we know that the first argument can be a scalar.

samplingStatsVariance :: SamplingStats a -> Double #

Return the variance.

samplingStatsDeviation :: SamplingStats a -> Double #

Return the deviation.

samplingStatsSummary :: Show a => SamplingStats a -> Int -> ShowS #

Show the summary of the statistics using the specified indent.

returnSamplingStats :: SamplingData a => a -> SamplingStats a #

Return the statistics by a single sample.

listSamplingStats :: SamplingData a => [a] -> SamplingStats a #

Create the statistics by the specified list of data.

fromIntSamplingStats :: SamplingStats Int -> SamplingStats Double #

Convert the statistics from integer to double values.

Timing Statistics

data TimingStats a :: * -> * #

This is the timing statistics where data are bound to the time.

Constructors

TimingStats 

Fields

Instances

Eq a => Eq (TimingStats a) 
Ord a => Ord (TimingStats a) 
(Show a, TimingData a) => Show (TimingStats a) 
ResultItemable (ResultValue (TimingStats Double)) Source # 

Methods

resultItemName :: ResultValue (TimingStats Double) m -> ResultName Source #

resultItemId :: ResultValue (TimingStats Double) m -> ResultId Source #

resultItemSignal :: MonadDES m => ResultValue (TimingStats Double) m -> ResultSignal m Source #

resultItemExpansion :: MonadDES m => ResultValue (TimingStats Double) m -> ResultSource m Source #

resultItemSummary :: MonadDES m => ResultValue (TimingStats Double) m -> ResultSource m Source #

resultItemAsIntValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue Int m) Source #

resultItemAsIntListValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue [Int] m) Source #

resultItemAsIntStatsValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue (SamplingStats Int) m) Source #

resultItemAsIntTimingStatsValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue (TimingStats Int) m) Source #

resultItemAsDoubleValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue Double m) Source #

resultItemAsDoubleListValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue [Double] m) Source #

resultItemAsDoubleStatsValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue (SamplingStats Double) m) Source #

resultItemAsDoubleTimingStatsValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue (TimingStats Double) m) Source #

resultItemAsStringValue :: MonadDES m => ResultValue (TimingStats Double) m -> Maybe (ResultValue String m) Source #

ResultItemable (ResultValue (TimingStats Int)) Source # 

Methods

resultItemName :: ResultValue (TimingStats Int) m -> ResultName Source #

resultItemId :: ResultValue (TimingStats Int) m -> ResultId Source #

resultItemSignal :: MonadDES m => ResultValue (TimingStats Int) m -> ResultSignal m Source #

resultItemExpansion :: MonadDES m => ResultValue (TimingStats Int) m -> ResultSource m Source #

resultItemSummary :: MonadDES m => ResultValue (TimingStats Int) m -> ResultSource m Source #

resultItemAsIntValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue Int m) Source #

resultItemAsIntListValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue [Int] m) Source #

resultItemAsIntStatsValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue (SamplingStats Int) m) Source #

resultItemAsIntTimingStatsValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue (TimingStats Int) m) Source #

resultItemAsDoubleValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue Double m) Source #

resultItemAsDoubleListValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue [Double] m) Source #

resultItemAsDoubleStatsValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue (SamplingStats Double) m) Source #

resultItemAsDoubleTimingStatsValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue (TimingStats Double) m) Source #

resultItemAsStringValue :: MonadDES m => ResultValue (TimingStats Int) m -> Maybe (ResultValue String m) Source #

ResultComputing t m => ResultProvider (t m (TimingStats Int)) m Source # 
ResultComputing t m => ResultProvider (t m (TimingStats Double)) m Source # 

timingStatsDeviation :: TimingData a => TimingStats a -> Double #

Return the deviation.

timingStatsSummary :: (Show a, TimingData a) => TimingStats a -> Int -> ShowS #

Show the summary of the statistics using the specified indent.

returnTimingStats :: TimingData a => Double -> a -> TimingStats a #

Return the statistics by single timing data.

fromIntTimingStats :: TimingStats Int -> TimingStats Double #

Convert the statistics from integer to double values.

normTimingStats :: TimingData a => Int -> TimingStats a -> SamplingStats a #

Convert the statistics to its normalised sampling-based representation, where the first argument specifies the number of pseudo-samples.

Simple Counter

data SamplingCounter a :: * -> * #

A counter for which the statistics is collected too.

Constructors

SamplingCounter 

Fields

incSamplingCounter :: SamplingData a => a -> SamplingCounter a -> SamplingCounter a #

Increase the counter.

decSamplingCounter :: SamplingData a => a -> SamplingCounter a -> SamplingCounter a #

Decrease the counter.

setSamplingCounter :: SamplingData a => a -> SamplingCounter a -> SamplingCounter a #

Set a new value for the counter.

returnSamplingCounter :: SamplingData a => a -> SamplingCounter a #

Create a counter with the specified initial value.

Timing Counter

data TimingCounter a :: * -> * #

A counter for which the timing statistics is collected too.

Constructors

TimingCounter 

Fields

emptyTimingCounter :: TimingData a => TimingCounter a #

An empty counter.

incTimingCounter :: TimingData a => Double -> a -> TimingCounter a -> TimingCounter a #

Increase the counter at the specified time.

decTimingCounter :: TimingData a => Double -> a -> TimingCounter a -> TimingCounter a #

Decrease the counter at the specified time.

setTimingCounter :: TimingData a => Double -> a -> TimingCounter a -> TimingCounter a #

Set a new value for the counter at the specified time.

returnTimingCounter :: TimingData a => Double -> a -> TimingCounter a #

Create a timing counter with the specified initial value at the given time.