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DataFrames for Go: For statistics, machine-learning, and data manipulation/exploration

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dataframe-go

Dataframes are used for statistics, machine-learning, and data manipulation/exploration. You can think of a Dataframe as an excel spreadsheet. This package is designed to be light-weight and intuitive.

⚠️ The package is production ready but the API is not stable yet. Once Go 1.18 (Generics) is introduced, the ENTIRE package will be rewritten. For example, there will only be 1 generic Series type. After that, version 1.0.0 will be tagged.

It is recommended your package manager locks to a commit id instead of the master branch directly. ⚠️

Features

  1. Importing from CSV, JSONL, Parquet, MySQL & PostgreSQL
  2. Exporting to CSV, JSONL, Excel, Parquet, MySQL & PostgreSQL
  3. Developer Friendly
  4. Flexible - Create custom Series (custom data types)
  5. Performant
  6. Interoperability with gonum package.
  7. pandas sub-package Help Required
  8. Fake data generation
  9. Interpolation (ForwardFill, BackwardFill, Linear, Spline, Lagrange)
  10. Time-series Forecasting (SES, Holt-Winters)
  11. Math functions
  12. Plotting (cross-platform)

See Tutorial here.

Installation

go get -u github.com/rocketlaunchr/dataframe-go
import dataframe "github.com/rocketlaunchr/dataframe-go"

DataFrames

Creating a DataFrame

s1 := dataframe.NewSeriesInt64("day", nil, 1, 2, 3, 4, 5, 6, 7, 8)
s2 := dataframe.NewSeriesFloat64("sales", nil, 50.3, 23.4, 56.2, nil, nil, 84.2, 72, 89)
df := dataframe.NewDataFrame(s1, s2)

fmt.Print(df.Table())
  
OUTPUT:
+-----+-------+---------+
|     |  DAY  |  SALES  |
+-----+-------+---------+
| 0:  |   1   |  50.3   |
| 1:  |   2   |  23.4   |
| 2:  |   3   |  56.2   |
| 3:  |   4   |   NaN   |
| 4:  |   5   |   NaN   |
| 5:  |   6   |  84.2   |
| 6:  |   7   |   72    |
| 7:  |   8   |   89    |
+-----+-------+---------+
| 8X2 | INT64 | FLOAT64 |
+-----+-------+---------+

Go Playground

Insert and Remove Row

df.Append(nil, 9, 123.6)

df.Append(nil, map[string]interface{}{
	"day":   10,
	"sales": nil,
})

df.Remove(0)

OUTPUT:
+-----+-------+---------+
|     |  DAY  |  SALES  |
+-----+-------+---------+
| 0:  |   2   |  23.4   |
| 1:  |   3   |  56.2   |
| 2:  |   4   |   NaN   |
| 3:  |   5   |   NaN   |
| 4:  |   6   |  84.2   |
| 5:  |   7   |   72    |
| 6:  |   8   |   89    |
| 7:  |   9   |  123.6  |
| 8:  |  10   |   NaN   |
+-----+-------+---------+
| 9X2 | INT64 | FLOAT64 |
+-----+-------+---------+

Go Playground

Update Row

df.UpdateRow(0, nil, map[string]interface{}{
	"day":   3,
	"sales": 45,
})

Sorting

sks := []dataframe.SortKey{
	{Key: "sales", Desc: true},
	{Key: "day", Desc: true},
}

df.Sort(ctx, sks)

OUTPUT:
+-----+-------+---------+
|     |  DAY  |  SALES  |
+-----+-------+---------+
| 0:  |   9   |  123.6  |
| 1:  |   8   |   89    |
| 2:  |   6   |  84.2   |
| 3:  |   7   |   72    |
| 4:  |   3   |  56.2   |
| 5:  |   2   |  23.4   |
| 6:  |  10   |   NaN   |
| 7:  |   5   |   NaN   |
| 8:  |   4   |   NaN   |
+-----+-------+---------+
| 9X2 | INT64 | FLOAT64 |
+-----+-------+---------+

Go Playground

Iterating

You can change the step and starting row. It may be wise to lock the DataFrame before iterating.

The returned value is a map containing the name of the series (string) and the index of the series (int) as keys.

iterator := df.ValuesIterator(dataframe.ValuesOptions{0, 1, true}) // Don't apply read lock because we are write locking from outside.

df.Lock()
for {
	row, vals, _ := iterator()
	if row == nil {
		break
	}
	fmt.Println(*row, vals)
}
df.Unlock()

OUTPUT:
0 map[day:1 0:1 sales:50.3 1:50.3]
1 map[sales:23.4 1:23.4 day:2 0:2]
2 map[day:3 0:3 sales:56.2 1:56.2]
3 map[1:<nil> day:4 0:4 sales:<nil>]
4 map[day:5 0:5 sales:<nil> 1:<nil>]
5 map[sales:84.2 1:84.2 day:6 0:6]
6 map[day:7 0:7 sales:72 1:72]
7 map[day:8 0:8 sales:89 1:89]

Go Playground

Statistics

You can easily calculate statistics for a Series using the gonum or montanaflynn/stats package.

SeriesFloat64 and SeriesTime provide access to the exported Values field to seamlessly interoperate with external math-based packages.

Example

Some series provide easy conversion using the ToSeriesFloat64 method.

import "gonum.org/v1/gonum/stat"

s := dataframe.NewSeriesInt64("random", nil, 1, 2, 3, 4, 5, 6, 7, 8)
sf, _ := s.ToSeriesFloat64(ctx)

Mean

mean := stat.Mean(sf.Values, nil)

Median

import "github.com/montanaflynn/stats"
median, _ := stats.Median(sf.Values)

Standard Deviation

std := stat.StdDev(sf.Values, nil)

Plotting (cross-platform)

import (
	chart "github.com/wcharczuk/go-chart"
	"github.com/rocketlaunchr/dataframe-go/plot"
	wc "github.com/rocketlaunchr/dataframe-go/plot/wcharczuk/go-chart"
)

sales := dataframe.NewSeriesFloat64("sales", nil, 50.3, nil, 23.4, 56.2, 89, 32, 84.2, 72, 89)
cs, _ := wc.S(ctx, sales, nil, nil)

graph := chart.Chart{Series: []chart.Series{cs}}

plt, _ := plot.Open("Monthly sales", 450, 300)
graph.Render(chart.SVG, plt)
plt.Display(plot.None)
<-plt.Closed

Output:

plot

Math Functions

import "github.com/rocketlaunchr/dataframe-go/math/funcs"

res := 24
sx := dataframe.NewSeriesFloat64("x", nil, utils.Float64Seq(1, float64(res), 1))
sy := dataframe.NewSeriesFloat64("y", &dataframe.SeriesInit{Size: res})
df := dataframe.NewDataFrame(sx, sy)

fn := funcs.RegFunc("sin(2*𝜋*x/24)")
funcs.Evaluate(ctx, df, fn, 1)

Go Playground

Output:

sine wave

Importing Data

The imports sub-package has support for importing csv, jsonl, parquet, and directly from a SQL database. The DictateDataType option can be set to specify the true underlying data type. Alternatively, InferDataTypes option can be set.

CSV

csvStr := `
Country,Date,Age,Amount,Id
"United States",2012-02-01,50,112.1,01234
"United States",2012-02-01,32,321.31,54320
"United Kingdom",2012-02-01,17,18.2,12345
"United States",2012-02-01,32,321.31,54320
"United Kingdom",2012-05-07,NA,18.2,12345
"United States",2012-02-01,32,321.31,54320
"United States",2012-02-01,32,321.31,54320
Spain,2012-02-01,66,555.42,00241
`
df, err := imports.LoadFromCSV(ctx, strings.NewReader(csvStr))

OUTPUT:
+-----+----------------+------------+-------+---------+-------+
|     |    COUNTRY     |    DATE    |  AGE  | AMOUNT  |  ID   |
+-----+----------------+------------+-------+---------+-------+
| 0:  | United States  | 2012-02-01 |  50   |  112.1  | 1234  |
| 1:  | United States  | 2012-02-01 |  32   | 321.31  | 54320 |
| 2:  | United Kingdom | 2012-02-01 |  17   |  18.2   | 12345 |
| 3:  | United States  | 2012-02-01 |  32   | 321.31  | 54320 |
| 4:  | United Kingdom | 2015-05-07 |  NaN  |  18.2   | 12345 |
| 5:  | United States  | 2012-02-01 |  32   | 321.31  | 54320 |
| 6:  | United States  | 2012-02-01 |  32   | 321.31  | 54320 |
| 7:  |     Spain      | 2012-02-01 |  66   | 555.42  |  241  |
+-----+----------------+------------+-------+---------+-------+
| 8X5 |     STRING     |    TIME    | INT64 | FLOAT64 | INT64 |
+-----+----------------+------------+-------+---------+-------+

Go Playground

Exporting Data

The exports sub-package has support for exporting to csv, jsonl, parquet, Excel and directly to a SQL database.

Optimizations

  • If you know the number of rows in advance, you can set the capacity of the underlying slice of a series using SeriesInit{}. This will preallocate memory and provide speed improvements.

Generic Series

Out of the box, there is support for string, time.Time, float64 and int64. Automatic support exists for float32 and all types of integers. There is a convenience function provided for dealing with bool. There is also support for complex128 inside the xseries subpackage.

There may be times that you want to use your own custom data types. You can either implement your own Series type (more performant) or use the Generic Series (more convenient).

civil.Date

import "time"
import "cloud.google.com/go/civil"

sg := dataframe.NewSeriesGeneric("date", civil.Date{}, nil, civil.Date{2018, time.May, 01}, civil.Date{2018, time.May, 02}, civil.Date{2018, time.May, 03})
s2 := dataframe.NewSeriesFloat64("sales", nil, 50.3, 23.4, 56.2)

df := dataframe.NewDataFrame(sg, s2)

OUTPUT:
+-----+------------+---------+
|     |    DATE    |  SALES  |
+-----+------------+---------+
| 0:  | 2018-05-01 |  50.3   |
| 1:  | 2018-05-02 |  23.4   |
| 2:  | 2018-05-03 |  56.2   |
+-----+------------+---------+
| 3X2 | CIVIL DATE | FLOAT64 |
+-----+------------+---------+

Tutorial

Create some fake data

Let's create a list of 8 "fake" employees with a name, title and base hourly wage rate.

import "golang.org/x/exp/rand"
import "rocketlaunchr/dataframe-go/utils/faker"

src := rand.NewSource(uint64(time.Now().UTC().UnixNano()))
df := faker.NewDataFrame(8, src, faker.S("name", 0, "Name"), faker.S("title", 0.5, "JobTitle"), faker.S("base rate", 0, "Number", 15, 50))
+-----+----------------+----------------+-----------+
|     |      NAME      |     TITLE      | BASE RATE |
+-----+----------------+----------------+-----------+
| 0:  | Cordia Jacobi  |   Consultant   |    42     |
| 1:  | Nickolas Emard |      NaN       |    22     |
| 2:  | Hollis Dickens | Representative |    22     |
| 3:  | Stacy Dietrich |      NaN       |    43     |
| 4:  |  Aleen Legros  |    Officer     |    21     |
| 5:  |  Adelia Metz   |   Architect    |    18     |
| 6:  | Sunny Gerlach  |      NaN       |    28     |
| 7:  | Austin Hackett |      NaN       |    39     |
+-----+----------------+----------------+-----------+
| 8X3 |     STRING     |     STRING     |   INT64   |
+-----+----------------+----------------+-----------+

Apply Function

Let's give a promotion to everyone by doubling their salary.

s := df.Series[2]

applyFn := dataframe.ApplySeriesFn(func(val interface{}, row, nRows int) interface{} {
	return 2 * val.(int64)
})

dataframe.Apply(ctx, s, applyFn, dataframe.FilterOptions{InPlace: true})
+-----+----------------+----------------+-----------+
|     |      NAME      |     TITLE      | BASE RATE |
+-----+----------------+----------------+-----------+
| 0:  | Cordia Jacobi  |   Consultant   |    84     |
| 1:  | Nickolas Emard |      NaN       |    44     |
| 2:  | Hollis Dickens | Representative |    44     |
| 3:  | Stacy Dietrich |      NaN       |    86     |
| 4:  |  Aleen Legros  |    Officer     |    42     |
| 5:  |  Adelia Metz   |   Architect    |    36     |
| 6:  | Sunny Gerlach  |      NaN       |    56     |
| 7:  | Austin Hackett |      NaN       |    78     |
+-----+----------------+----------------+-----------+
| 8X3 |     STRING     |     STRING     |   INT64   |
+-----+----------------+----------------+-----------+

Create a Time series

Let's inform all employees separately on sequential days.

import "rocketlaunchr/dataframe-go/utils/utime"

mts, _ := utime.NewSeriesTime(ctx, "meeting time", "1D", time.Now().UTC(), false, utime.NewSeriesTimeOptions{Size: &[]int{8}[0]})
df.AddSeries(mts, nil)
+-----+----------------+----------------+-----------+--------------------------------+
|     |      NAME      |     TITLE      | BASE RATE |          MEETING TIME          |
+-----+----------------+----------------+-----------+--------------------------------+
| 0:  | Cordia Jacobi  |   Consultant   |    84     |   2020-02-02 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 1:  | Nickolas Emard |      NaN       |    44     |   2020-02-03 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 2:  | Hollis Dickens | Representative |    44     |   2020-02-04 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 3:  | Stacy Dietrich |      NaN       |    86     |   2020-02-05 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 4:  |  Aleen Legros  |    Officer     |    42     |   2020-02-06 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 5:  |  Adelia Metz   |   Architect    |    36     |   2020-02-07 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 6:  | Sunny Gerlach  |      NaN       |    56     |   2020-02-08 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 7:  | Austin Hackett |      NaN       |    78     |   2020-02-09 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
+-----+----------------+----------------+-----------+--------------------------------+
| 8X4 |     STRING     |     STRING     |   INT64   |              TIME              |
+-----+----------------+----------------+-----------+--------------------------------+

Filtering

Let's filter out our senior employees (they have titles) for no reason.

filterFn := dataframe.FilterDataFrameFn(func(vals map[interface{}]interface{}, row, nRows int) (dataframe.FilterAction, error) {
	if vals["title"] == nil {
		return dataframe.DROP, nil
	}
	return dataframe.KEEP, nil
})

seniors, _ := dataframe.Filter(ctx, df, filterFn)
+-----+----------------+----------------+-----------+--------------------------------+
|     |      NAME      |     TITLE      | BASE RATE |          MEETING TIME          |
+-----+----------------+----------------+-----------+--------------------------------+
| 0:  | Cordia Jacobi  |   Consultant   |    84     |   2020-02-02 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 1:  | Hollis Dickens | Representative |    44     |   2020-02-04 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 2:  |  Aleen Legros  |    Officer     |    42     |   2020-02-06 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
| 3:  |  Adelia Metz   |   Architect    |    36     |   2020-02-07 23:13:53.015324   |
|     |                |                |           |           +0000 UTC            |
+-----+----------------+----------------+-----------+--------------------------------+
| 4X4 |     STRING     |     STRING     |   INT64   |              TIME              |
+-----+----------------+----------------+-----------+--------------------------------+

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Legal Information

The license is a modified MIT license. Refer to LICENSE file for more details.

© 2018-21 PJ Engineering and Business Solutions Pty. Ltd.