Documentation
¶
Overview ¶
Package forecast provides an interface for custom forecasting algorithms.
Index ¶
- Variables
- func ConfidenceLevelToZ(level float64) float64
- type Confidence
- type ConfidenceInterval
- func DriftConfidenceInterval(pred, level, sigmaHat float64, T, h uint) ConfidenceInterval
- func MeanConfidenceInterval(pred, level, sigmaHat float64, T uint) ConfidenceInterval
- func NaïveConfidenceInterval(pred, level, sigmaHat float64, h uint) ConfidenceInterval
- func SeasonalNaïveConfidenceInterval(pred, level, sigmaHat float64, h, seasonalPeriod uint) ConfidenceInterval
- type EvaluationFunc
- type EvaluationFuncOptions
- type ForecastingAlgorithm
Constants ¶
This section is empty.
Variables ¶
var ErrIndeterminate = errors.New("indeterminate")
ErrIndeterminate indicates that the result of a calculation is indeterminate.
var ErrInsufficientDataPoints = errors.New("insufficient data points or nil values found")
ErrInsufficientDataPoints signifies that a particular forecasting algorithm requires more data points to operate.
var ErrMismatchLen = errors.New("mismatch length")
ErrMismatchLen signifies that there is a mismatch between the length of 2 Series or slices.
Functions ¶
func ConfidenceLevelToZ ¶
ConfidenceLevelToZ returns the Z value for a given confidence level. level must be between 0 and 1 (exclusive).
level: 0.75 (75%) => 1.15 (approx)
level: 0.95 (95%) => 1.96 (approx)
level: 0.99 (99%) => 2.58 (approx)
Types ¶
type Confidence ¶
type Confidence map[float64]ConfidenceInterval
Confidence contains the confidence intervals for various confidence levels. The key must be between 0 and 1 (exclusive). A confidence level of 95% is represented by 0.95.
func Forecast ¶
func Forecast(ctx context.Context, sdf interface{}, r *dataframe.Range, alg ForecastingAlgorithm, cfg interface{}, n uint, evalFunc EvaluationFunc) (interface{}, []Confidence, float64, error)
Forecast predicts the next n values of sdf using the forecasting algorithm alg. cfg is required to configure the parameters of the algorithm. r is used to select a subset of sdf to be the "training set". Values after r form the "validation set". evalFunc can be set to measure the quality of the predictions. sdf can be a SeriesFloat64 or a DataFrame. DataFrame input is not yet implemented.
NOTE: You can find basic forecasting algorithms in forecast/algs subpackage.
type ConfidenceInterval ¶
type ConfidenceInterval struct {
// Upper bounds
Upper float64
// Lower bounds
Lower float64
// Normal can be set to signify that errors are normally distributed with a mean of zero.
Normal bool
}
ConfidenceInterval represents an estimated range of values that includes the forecasted value within its bounds.
func DriftConfidenceInterval ¶
func DriftConfidenceInterval(pred, level, sigmaHat float64, T, h uint) ConfidenceInterval
DriftConfidenceInterval - see https://otexts.com/fpp2/prediction-intervals.html
func MeanConfidenceInterval ¶
func MeanConfidenceInterval(pred, level, sigmaHat float64, T uint) ConfidenceInterval
MeanConfidenceInterval - see https://otexts.com/fpp2/prediction-intervals.html
func NaïveConfidenceInterval ¶
func NaïveConfidenceInterval(pred, level, sigmaHat float64, h uint) ConfidenceInterval
NaïveConfidenceInterval - see https://otexts.com/fpp2/prediction-intervals.html
func SeasonalNaïveConfidenceInterval ¶
func SeasonalNaïveConfidenceInterval(pred, level, sigmaHat float64, h, seasonalPeriod uint) ConfidenceInterval
SeasonalNaïveConfidenceInterval - see https://otexts.com/fpp2/prediction-intervals.html
func (ConfidenceInterval) NormalError ¶
func (c ConfidenceInterval) NormalError() float64
NormalError returns the error, assuming it is normally distributed with a mean of zero.
func (ConfidenceInterval) String ¶
func (c ConfidenceInterval) String() string
String implements fmt.Stringer interface.
type EvaluationFunc ¶
type EvaluationFunc func(ctx context.Context, validationSet, forecastSet []float64, opts *EvaluationFuncOptions) (float64, int, error)
EvaluationFunc compares the validationSet and forecastSet and calculates the error. See the validation subpackage for various approaches to calculating the error.
type EvaluationFuncOptions ¶
type EvaluationFuncOptions struct {
// SkipInvalids will skip Inf and NaN values.
// If set to false (default) and an invalid value is encountered, then an ErrIndeterminate is returned.
SkipInvalids bool
}
EvaluationFuncOptions is used to modify the behavior of the EvaluationFunc.
type ForecastingAlgorithm ¶
type ForecastingAlgorithm interface {
// Configure sets the various parameters for the algorithm.
// config must be a struct that the particular algorithm recognizes.
Configure(config interface{}) error
// Load loads historical data.
// Some forecasting algorithms do not tolerate nil values and will require interpolation.
// r is used to limit which rows of sf are loaded. Prediction will always begin
// from the row after that defined by r. r can be thought of as defining a "training set".
Load(ctx context.Context, sf *dataframe.SeriesFloat64, r *dataframe.Range) error
// Predict forecasts the next n values for the loaded data.
//
// NOTE: Not all forecasting algorithms return the confidence values.
Predict(ctx context.Context, n uint) (*dataframe.SeriesFloat64, []Confidence, error)
// Evaluate will measure the quality of the predicted values based on the evaluation calculation defined by evalFunc.
// It will compare the error between sf and the values from the end of the loaded data ("validation set").
// sf is usually the output of the Predict method.
//
// NOTE: You can use the functions directly from the validation subpackage if you need to do something
// other than that described above.
Evaluate(ctx context.Context, sf *dataframe.SeriesFloat64, evalFunc EvaluationFunc) (float64, error)
}
ForecastingAlgorithm defines the methods that all forecasting algorithms must implement.
Source Files
Directories
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| Path | Synopsis |
|---|---|
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algs
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hw
Package hw implements the Holt-Winters forecasting algorithm.
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Package hw implements the Holt-Winters forecasting algorithm. |
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ses
Package ses implements the simple exponential smooting forecasting algorithm.
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Package ses implements the simple exponential smooting forecasting algorithm. |
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Package interpolation implements various algorithms to fill in missing values in a Series or DataFrame.
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Package interpolation implements various algorithms to fill in missing values in a Series or DataFrame. |