Class: Daru::DataFrame

Inherits:

Object

• Object
• Daru::DataFrame

Extended by:

Gem::Deprecate

Includes:

Maths::Arithmetic::DataFrame, Maths::Statistics::DataFrame, Plotting::DataFrame::NyaplotLibrary

Defined in:

lib/daru/dataframe.rb,
lib/daru/extensions/rserve.rb,
lib/daru/extensions/which_dsl.rb

Overview

rubocop:disable Metrics/ClassLength

Instance Attribute Summary

• #data ⇒ Object readonly

  TOREMOVE.

• #index ⇒ Object

  The index of the rows of the DataFrame.

• #name ⇒ Object readonly

  The name of the DataFrame.

• #size ⇒ Object readonly

  The number of rows present in the DataFrame.

• #vectors ⇒ Object

  The vectors (columns) index of the DataFrame.

Class Method Summary

• ._load(data) ⇒ Object
• .crosstab_by_assignation(rows, columns, values) ⇒ Object

  Generates a new dataset, using three vectors - Rows - Columns - Values.

• .from_activerecord(relation, *fields) ⇒ Object

  Read a dataframe from AR::Relation.

• .from_csv(path, opts = {}, &block) ⇒ Object

  Load data from a CSV file.

• .from_excel(path, opts = {}, &block) ⇒ Object

  Read data from an Excel file into a DataFrame.

• .from_html(path, fields = {}) ⇒ Object

  Read the table data from a remote html file.

• .from_plaintext(path, fields) ⇒ Object

  Read the database from a plaintext file.

• .from_sql(dbh, query) ⇒ Object

  Read a database query and returns a Dataset.

• .rows(source, opts = {}) ⇒ Object

  Create DataFrame by specifying rows as an Array of Arrays or Array of Daru::Vector objects.

Instance Method Summary

• #==(other) ⇒ Object
• #[](*names) ⇒ Object

  Access row or vector.

• #[]=(*args) ⇒ Object

  Insert a new row/vector of the specified name or modify a previous row.

• #_dump(_depth) ⇒ Object
• #access_row_tuples_by_indexs(*indexes) ⇒ Object

  returns array of row tuples at given index(s).

• #add_row(row, index = nil) ⇒ Object
• #add_vector(n, vector) ⇒ Object
• #add_vectors_by_split(name, join = '-', sep = Daru::SPLIT_TOKEN) ⇒ Object
• #add_vectors_by_split_recode(nm, join = '-', sep = Daru::SPLIT_TOKEN) ⇒ Object
• #aggregate(options = {}) ⇒ Daru::DataFrame

  Function to use for aggregating the data.

• #all?(axis = :vector, &block) ⇒ Boolean

  Works like Array#all?.

• #any?(axis = :vector, &block) ⇒ Boolean

  Works like Array#any?.

• #at(*positions) ⇒ Daru::Vector, Daru::DataFrame

  Retrive vectors by positions.

• #bootstrap(n = nil) ⇒ Daru::DataFrame

  Creates a DataFrame with the random data, of n size.

• #clone(*vectors_to_clone) ⇒ Object

  Returns a ‘view’ of the DataFrame, i.e the object ID’s of vectors are preserved.

• #clone_only_valid ⇒ Object

  Returns a ‘shallow’ copy of DataFrame if missing data is not present, or a full copy of only valid data if missing data is present.

• #clone_structure ⇒ Object

  Only clone the structure of the DataFrame.

• #collect(axis = :vector, &block) ⇒ Object

  Iterate over a row or vector and return results in a Daru::Vector.

• #collect_matrix ⇒ ::Matrix

  Generate a matrix, based on vector names of the DataFrame.

• #collect_row_with_index(&block) ⇒ Object
• #collect_rows(&block) ⇒ Object

  Retrieves a Daru::Vector, based on the result of calculation performed on each row.

• #collect_vector_with_index(&block) ⇒ Object
• #collect_vectors(&block) ⇒ Object

  Retrives a Daru::Vector, based on the result of calculation performed on each vector.

• #compute(text, &block) ⇒ Object

  Returns a vector, based on a string with a calculation based on vector.

• #concat(other_df) ⇒ Object

  Concatenate another DataFrame along corresponding columns.

• #create_sql(table, charset = 'UTF8') ⇒ Object

  Create a sql, basen on a given Dataset.

• #delete_row(index) ⇒ Object

  Delete a row.

• #delete_vector(vector) ⇒ Object

  Delete a vector.

• #delete_vectors(*vectors) ⇒ Object

  Deletes a list of vectors.

• #dup(vectors_to_dup = nil) ⇒ Object

  Duplicate the DataFrame entirely.

• #dup_only_valid(vecs = nil) ⇒ Object

  Creates a new duplicate dataframe containing only rows without a single missing value.

• #each(axis = :vector, &block) ⇒ Object

  Iterate over each row or vector of the DataFrame.

• #each_index(&block) ⇒ Object

  Iterate over each index of the DataFrame.

• #each_row ⇒ Object

  Iterate over each row.

• #each_row_with_index ⇒ Object
• #each_vector(&block) ⇒ Object (also: #each_column)

  Iterate over each vector.

• #each_vector_with_index ⇒ Object (also: #each_column_with_index)

  Iterate over each vector alongwith the name of the vector.

• #filter(axis = :vector, &block) ⇒ Object

  Retain vectors or rows if the block returns a truthy value.

• #filter_rows ⇒ Object

  Iterates over each row and retains it in a new DataFrame if the block returns true for that row.

• #filter_vector(vec, &block) ⇒ Object

  creates a new vector with the data of a given field which the block returns true.

• #filter_vectors(&block) ⇒ Object

  Iterates over each vector and retains it in a new DataFrame if the block returns true for that vector.

• #get_vector_anyways(v) ⇒ Object
• #group_by(*vectors) ⇒ Object

  Group elements by vector to perform operations on them.

• #has_missing_data? ⇒ Boolean (also: #flawed?)
• #has_vector?(vector) ⇒ Boolean

  Check if a vector is present.

• #head(quantity = 10) ⇒ Object (also: #first)

  The first ten elements of the DataFrame.

• #include_values?(*values) ⇒ true, false

  Check if any of given values occur in the data frame.

• #initialize(source = {}, opts = {}) ⇒ DataFrame constructor

  DataFrame basically consists of an Array of Vector objects.

• #inspect(spacing = 10, threshold = 15) ⇒ Object

  Pretty print in a nice table format for the command line (irb/pry/iruby).

• #interact_code(vector_names, full) ⇒ Object
• #join(other_df, opts = {}) ⇒ Daru::DataFrame

  Join 2 DataFrames with SQL style joins.

• #keep_row_if ⇒ Object
• #keep_vector_if ⇒ Object
• #map(axis = :vector, &block) ⇒ Object

  Map over each vector or row of the data frame according to the argument specified.

• #map!(axis = :vector, &block) ⇒ Object

  Destructive map.

• #map_rows(&block) ⇒ Object

  Map each row.

• #map_rows! ⇒ Object
• #map_rows_with_index(&block) ⇒ Object
• #map_vectors(&block) ⇒ Object

  Map each vector and return an Array.

• #map_vectors! ⇒ Object

  Destructive form of #map_vectors.

• #map_vectors_with_index(&block) ⇒ Object

  Map vectors alongwith the index.

• #merge(other_df) ⇒ Daru::DataFrame

  Merge vectors from two DataFrames.

• #method_missing(name, *args, &block) ⇒ Object
• #missing_values_rows(missing_values = [nil]) ⇒ Object (also: #vector_missing_values)

  Return a vector with the number of missing values in each row.

• #ncols ⇒ Object

  The number of vectors.

• #nest(*tree_keys, &_block) ⇒ Object

  Return a nested hash using vector names as keys and an array constructed of hashes with other values.

• #nrows ⇒ Object

  The number of rows.

• #numeric_vector_names ⇒ Object
• #numeric_vectors ⇒ Object

  Return the indexes of all the numeric vectors.

• #one_to_many(parent_fields, pattern) ⇒ Object

  Creates a new dataset for one to many relations on a dataset, based on pattern of field names.

• #only_numerics(opts = {}) ⇒ Object

  Return a DataFrame of only the numerical Vectors.

• #order=(order_array) ⇒ Object

  Reorder the vectors in a dataframe.

• #pivot_table(opts = {}) ⇒ Object

  Pivots a data frame on specified vectors and applies an aggregate function to quickly generate a summary.

• #plotting_library=(lib) ⇒ Object
• #recast(opts = {}) ⇒ Object

  Change dtypes of vectors by supplying a hash of :vector_name => :new_dtype.

• #recode(axis = :vector, &block) ⇒ Object

  Maps over the DataFrame and returns a DataFrame.

• #recode_rows ⇒ Object
• #recode_vectors ⇒ Object
• #reindex(new_index) ⇒ Object

  Change the index of the DataFrame and preserve the labels of the previous indexing.

• #reindex_vectors(new_vectors) ⇒ Object
• #reject_values(*values) ⇒ Daru::DataFrame

  Returns a dataframe in which rows with any of the mentioned values are ignored.

• #rename(new_name) ⇒ Object (also: #name=)

  Rename the DataFrame.

• #rename_vectors(name_map) ⇒ Object

  Renames the vectors.

• #replace_values(old_values, new_value) ⇒ Daru::DataFrame

  Replace specified values with given value.

• #respond_to_missing?(name, include_private = false) ⇒ Boolean
• #rolling_fillna(direction = :forward) ⇒ Object
• #rolling_fillna!(direction = :forward) ⇒ Object

  Rolling fillna replace all Float::NAN and NIL values with the preceeding or following value.

• #row ⇒ Object

  Access a row or set/create a row.

• #row_at(*positions) ⇒ Daru::Vector, Daru::DataFrame

  Retrive rows by positions.

• #save(filename) ⇒ Object

  Use marshalling to save dataframe to a file.

• #set_at(positions, vector) ⇒ Object

  Set vectors by positions.

• #set_index(new_index, opts = {}) ⇒ Object

  Set a particular column as the new DF.

• #set_row_at(positions, vector) ⇒ Object

  Set rows by positions.

• #shape ⇒ Object

  Return the number of rows and columns of the DataFrame in an Array.

• #sort(vector_order, opts = {}) ⇒ Object

  Non-destructive version of #sort!.

• #sort!(vector_order, opts = {}) ⇒ Object

  Sorts a dataframe (ascending/descending) in the given pripority sequence of vectors, with or without a block.

• #split_by_category(cat_name) ⇒ Array

  Split the dataframe into many dataframes based on category vector.

• #summary ⇒ String

  Generate a summary of this DataFrame based on individual vectors in the DataFrame.

• #tail(quantity = 10) ⇒ Object (also: #last)

  The last ten elements of the DataFrame.

• #to_a ⇒ Object

  Converts the DataFrame into an array of hashes where key is vector name and value is the corresponding element.

• #to_category(*names) ⇒ Daru::DataFrame

  Converts the specified non category type vectors to category type vectors.

• #to_df ⇒ self

  Returns the dataframe.

• #to_gsl ⇒ Object

  Convert all numeric vectors to GSL::Matrix.

• #to_h ⇒ Object

  Converts DataFrame to a hash (explicit) with keys as vector names and values as the corresponding vectors.

• #to_html(threshold = 30) ⇒ Object

  Convert to html for IRuby.

• #to_html_tbody(threshold = 30) ⇒ Object
• #to_html_thead ⇒ Object
• #to_json(no_index = true) ⇒ Object

  Convert to json.

• #to_matrix ⇒ Object

  Convert all vectors of type :numeric into a Matrix.

• #to_nmatrix ⇒ Object

  Convert all vectors of type :numeric and not containing nils into an NMatrix.

• #to_nyaplotdf ⇒ Object

  Return a Nyaplot::DataFrame from the data of this DataFrame.

• #to_REXP ⇒ Object

  rubocop:disable Style/MethodName.

• #to_s ⇒ Object
• #transpose ⇒ Object

  Transpose a DataFrame, tranposing elements and row, column indexing.

• #union(other_df) ⇒ Object

  Concatenates another DataFrame as #concat.

• #uniq(*vtrs) ⇒ Object

  Return unique rows by vector specified or all vectors.

• #update ⇒ Object

  Method for updating the metadata (i.e. missing value positions) of the after assingment/deletion etc.

• #vector_by_calculation(&block) ⇒ Object

  DSL for yielding each row and returning a Daru::Vector based on the value each run of the block returns.

• #vector_count_characters(vecs = nil) ⇒ Object
• #vector_mean(max_missing = 0) ⇒ Object

  Calculate mean of the rows of the dataframe.

• #vector_sum(*args) ⇒ Object

  Sum all numeric/specified vectors in the DataFrame.

• #verify(*tests) ⇒ Object

  Test each row with one or more tests.

• #where(bool_array) ⇒ Object

  Query a DataFrame by passing a Daru::Core::Query::BoolArray object.

• #which(&block) ⇒ Object

  a simple query DSL for accessing where(), inspired by gem “squeel” e.g.: df.which{ ‘FamilySize` == `FamilySize`.max } equals df.where( df.eq( df.max ) ).

• #write_csv(filename, opts = {}) ⇒ Object

  Write this DataFrame to a CSV file.

• #write_excel(filename, opts = {}) ⇒ Object

  Write this dataframe to an Excel Spreadsheet.

• #write_sql(dbh, table) ⇒ Object

  Insert each case of the Dataset on the selected table.

Methods included from Plotting::DataFrame::NyaplotLibrary

#plot

Methods included from Maths::Statistics::DataFrame

#acf, #correlation, #count, #covariance, #cumsum, #describe, #ema, #max, #mean, #median, #min, #mode, #percent_change, #product, #range, #rolling_count, #rolling_max, #rolling_mean, #rolling_median, #rolling_min, #rolling_std, #rolling_variance, #standardize, #std, #sum, #variance_sample

Methods included from Maths::Arithmetic::DataFrame

#%, #*, #**, #+, #-, #/, #exp, #round, #sqrt

Constructor Details

#initialize(source = {}, opts = {}) ⇒ DataFrame

DataFrame basically consists of an Array of Vector objects. These objects are indexed by row and column by vectors and index Index objects.

Arguments

• source - Source from the DataFrame is to be initialized. Can be a Hash

of names and vectors (array or Daru::Vector), an array of arrays or array of Daru::Vectors.

Options

:order - An Array/Daru::Index/Daru::MultiIndex containing the order in which Vectors should appear in the DataFrame.

:index - An Array/Daru::Index/Daru::MultiIndex containing the order in which rows of the DataFrame will be named.

:name - A name for the DataFrame.

:clone - Specify as true or false. When set to false, and Vector objects are passed for the source, the Vector objects will not duplicated when creating the DataFrame. Will have no effect if Array is passed in the source, or if the passed Daru::Vectors have different indexes. Default to true.

Usage

df = Daru::DataFrame.new
# =>
# <Daru::DataFrame(0x0)>
# Creates an empty DataFrame with no rows or columns.

df = Daru::DataFrame.new({}, order: [:a, :b])
#<Daru::DataFrame(0x2)>
  a   b
# Creates a DataFrame with no rows and columns :a and :b

df = Daru::DataFrame.new({a: [1,2,3,4], b: [6,7,8,9]}, order: [:b, :a],
  index: [:a, :b, :c, :d], name: :spider_man)

# =>
# <Daru::DataFrame:80766980 @name = spider_man @size = 4>
#             b          a
#  a          6          1
#  b          7          2
#  c          8          3
#  d          9          4

df = Daru::DataFrame.new([[1,2,3,4],[6,7,8,9]], name: :bat_man)

# =>
# #<Daru::DataFrame: bat_man (4x2)>
#             0          1
#  0          1          6
#  1          2          7
#  2          3          8
#  3          4          9

# Dataframe having Index name

df = Daru::DataFrame.new({a: [1,2,3,4], b: [6,7,8,9]}, order: [:b, :a],
  index: Daru::Index.new([:a, :b, :c, :d], name: 'idx_name'),
  name: :spider_man)

# =>
# <Daru::DataFrame:80766980 @name = spider_man @size = 4>
# idx_name            b          a
#        a          6          1
#        b          7          2
#        c          8          3
#        d          9          4

idx = Daru::Index.new [100, 99, 101, 1, 2], name: "s1"
=> #<Daru::Index(5): s1 {100, 99, 101, 1, 2}>

df = Daru::DataFrame.new({b: [11,12,13,14,15], a: [1,2,3,4,5],
  c: [11,22,33,44,55]},
  order: [:a, :b, :c],
  index: idx)
 # =>
 #<Daru::DataFrame(5x3)>
 #   s1   a   b   c
 #  100   1  11  11
 #   99   2  12  22
 #  101   3  13  33
 #    1   4  14  44
 #    2   5  15  55

# File 'lib/daru/dataframe.rb', line 343

def initialize source={}, opts={} # rubocop:disable Metrics/MethodLength
  vectors, index = opts[:order], opts[:index] # FIXME: just keyword arges after Ruby 2.1
  @data = []
  @name = opts[:name]

  case source
  when ->(s) { s.empty? }
    @vectors = Index.coerce vectors
    @index   = Index.coerce index
    create_empty_vectors
  when Array
    initialize_from_array source, vectors, index, opts
  when Hash
    initialize_from_hash source, vectors, index, opts
  end

  set_size
  validate
  update
  self.plotting_library = Daru.plotting_library
end

Dynamic Method Handling

This class handles dynamic methods through the method_missing method

#method_missing(name, *args, &block) ⇒ Object

# File 'lib/daru/dataframe.rb', line 2193

def method_missing(name, *args, &block)
  case
  when name =~ /(.+)\=/
    name = name[/(.+)\=/].delete('=')
    name = name.to_sym unless has_vector?(name)
    insert_or_modify_vector [name], args[0]
  when has_vector?(name)
    self[name]
  when has_vector?(name.to_s)
    self[name.to_s]
  else
    super
  end
end

Instance Attribute Details

#data ⇒ Object (readonly)

TOREMOVE

# File 'lib/daru/dataframe.rb', line 243

def data
  @data
end

#index ⇒ Object

The index of the rows of the DataFrame

# File 'lib/daru/dataframe.rb', line 246

def index
  @index
end

#name ⇒ Object (readonly)

The name of the DataFrame

# File 'lib/daru/dataframe.rb', line 249

def name
  @name
end

#size ⇒ Object (readonly)

The number of rows present in the DataFrame

# File 'lib/daru/dataframe.rb', line 252

def size
  @size
end

#vectors ⇒ Object

The vectors (columns) index of the DataFrame

# File 'lib/daru/dataframe.rb', line 241

def vectors
  @vectors
end

Class Method Details

._load(data) ⇒ Object

# File 'lib/daru/dataframe.rb', line 2119

def self._load data
  h = Marshal.load data
  Daru::DataFrame.new(h[:data],
    index: h[:index],
    order: h[:order],
    name:  h[:name])
end

.crosstab_by_assignation(rows, columns, values) ⇒ Object

Generates a new dataset, using three vectors

• Rows

• Columns

• Values

For example, you have these values

x   y   v
a   a   0
a   b   1
b   a   1
b   b   0

You obtain

id  a   b
 a  0   1
 b  1   0

Useful to process outputs from databases

# File 'lib/daru/dataframe.rb', line 199

def crosstab_by_assignation rows, columns, values
  raise 'Three vectors should be equal size' if
    rows.size != columns.size || rows.size!=values.size

  data = Hash.new { |h, col|
    h[col] = rows.factors.map { |r| [r, nil] }.to_h
  }
  columns.zip(rows, values).each { |c, r, v| data[c][r] = v }

  # FIXME: in fact, WITHOUT this line you'll obtain more "right"
  # data: with vectors having "rows" as an index...
  data = data.map { |c, r| [c, r.values] }.to_h
  data[:_id] = rows.factors

  DataFrame.new(data)
end

.from_activerecord(relation, *fields) ⇒ Object

Read a dataframe from AR::Relation

USE:

# When Post model is defined as:
class Post < ActiveRecord::Base
  scope :active, -> { where.not(published_at: nil) }
end

# You can load active posts into a dataframe by:
Daru::DataFrame.from_activerecord(Post.active, :title, :published_at)

Parameters:

• relation (ActiveRecord::Relation) —

  An AR::Relation object from which data is loaded

• fields (Array) —

  Field names to be loaded (optional)

Returns:

• A dataframe containing the data loaded from the relation

# File 'lib/daru/dataframe.rb', line 100

def from_activerecord relation, *fields
  Daru::IO.from_activerecord relation, *fields
end

.from_csv(path, opts = {}, &block) ⇒ Object

Load data from a CSV file. Specify an optional block to grab the CSV object and pre-condition it (for example use the ‘convert` or `header_convert` methods).

Arguments

• path - Local path / Remote URL of the file to load specified as a String.

Options

Accepts the same options as the Daru::DataFrame constructor and CSV.open() and uses those to eventually construct the resulting DataFrame.

Verbose Description

You can specify all the options to the ‘.from_csv` function that you do to the Ruby `CSV.read()` function, since this is what is used internally.

For example, if the columns in your CSV file are separated by something other that commas, you can use the ‘:col_sep` option. If you want to convert numeric values to numbers and not keep them as strings, you can use the `:converters` option and set it to `:numeric`.

The ‘.from_csv` function uses the following defaults for reading CSV files (that are passed into the `CSV.read()` function):

{
  :col_sep           => ',',
  :converters        => :numeric
}

# File 'lib/daru/dataframe.rb', line 47

def from_csv path, opts={}, &block
  Daru::IO.from_csv path, opts, &block
end

.from_excel(path, opts = {}, &block) ⇒ Object

Read data from an Excel file into a DataFrame.

Arguments

• path - Path of the file to be read.

Options

*:worksheet_id - ID of the worksheet that is to be read.

# File 'lib/daru/dataframe.rb', line 60

def from_excel path, opts={}, &block
  Daru::IO.from_excel path, opts, &block
end

.from_html(path, fields = {}) ⇒ Object

Read the table data from a remote html file. Please note that this module works only for static table elements on a HTML page, and won’t work in cases where the data is being loaded into the HTML table by Javascript.

By default - all <th> tag elements in the first proper row are considered as the order, and all the <th> tag elements in the first column are considered as the index.

Arguments

• path [String] - URL of the target HTML file.

• fields [Hash] -

  :match - A String to match and choose a particular table(s) from multiple tables of a HTML page.

  :order - An Array which would act as the user-defined order, to override the parsed Daru::DataFrame.

  :index - An Array which would act as the user-defined index, to override the parsed Daru::DataFrame.

  :name - A String that manually assigns a name to the scraped Daru::DataFrame, for user’s preference.

Returns

An Array of Daru::DataFrames, with each dataframe corresponding to a HTML table on that webpage.

Usage

dfs = Daru::DataFrame.from_html("http://www.moneycontrol.com/", match: "Sun Pharma")
dfs.count
# => 4

dfs.first
#
# => <Daru::DataFrame(5x4)>
#          Company      Price     Change Value (Rs
#     0 Sun Pharma     502.60     -65.05   2,117.87
#     1   Reliance    1356.90      19.60     745.10
#     2 Tech Mahin     379.45     -49.70     650.22
#     3        ITC     315.85       6.75     621.12
#     4       HDFC    1598.85      50.95     553.91

# File 'lib/daru/dataframe.rb', line 159

def from_html path, fields={}
  Daru::IO.from_html path, fields
end

.from_plaintext(path, fields) ⇒ Object

Read the database from a plaintext file. For this method to work, the data should be present in a plain text file in columns. See spec/fixtures/bank2.dat for an example.

Arguments

• path - Path of the file to be read.

• fields - Vector names of the resulting database.

Usage

df = Daru::DataFrame.from_plaintext 'spec/fixtures/bank2.dat', [:v1,:v2,:v3,:v4,:v5,:v6]

# File 'lib/daru/dataframe.rb', line 116

def from_plaintext path, fields
  Daru::IO.from_plaintext path, fields
end

.from_sql(dbh, query) ⇒ Object

Read a database query and returns a Dataset

USE:

dbh = DBI.connect("DBI:Mysql:database:localhost", "user", "password")
Daru::DataFrame.from_sql(dbh, "SELECT * FROM test")

#Alternatively

require 'dbi'
Daru::DataFrame.from_sql("path/to/sqlite.db", "SELECT * FROM test")

Parameters:

• dbh (DBI::DatabaseHandle, String) —

  A DBI connection OR Path to a SQlite3 database.

• query (String) —

  The query to be executed

Returns:

• A dataframe containing the data resulting from the query

# File 'lib/daru/dataframe.rb', line 80

def from_sql dbh, query
  Daru::IO.from_sql dbh, query
end

.rows(source, opts = {}) ⇒ Object

Create DataFrame by specifying rows as an Array of Arrays or Array of Daru::Vector objects.

Raises:

• (SizeError)

# File 'lib/daru/dataframe.rb', line 165

def rows source, opts={}
  raise SizeError, 'All vectors must have same length' \
    unless source.all? { |v| v.size == source.first.size }

  opts[:order] ||= guess_order(source)

  if ArrayHelper.array_of?(source, Array) || source.empty?
    DataFrame.new(source.transpose, opts)
  elsif ArrayHelper.array_of?(source, Vector)
    from_vector_rows(source, opts)
  else
    raise ArgumentError, "Can't create DataFrame from #{source}"
  end
end

Instance Method Details

#==(other) ⇒ Object

# File 'lib/daru/dataframe.rb', line 2168

def == other
  self.class == other.class   &&
    @size    == other.size    &&
    @index   == other.index   &&
    @vectors == other.vectors &&
    @vectors.to_a.all? { |v| self[v] == other[v] }
end

#[](*names) ⇒ Object

Access row or vector. Specify name of row/vector followed by axis(:row, :vector). Defaults to :vector. Use of this method is not recommended for accessing rows. Use df.row for accessing row with index ‘:a’.

# File 'lib/daru/dataframe.rb', line 383

def [](*names)
  axis = extract_axis(names, :vector)
  dispatch_to_axis axis, :access, *names
end

#[]=(*args) ⇒ Object

Insert a new row/vector of the specified name or modify a previous row. Instead of using this method directly, use df.row = [1,2,3] to set/create a row ‘:a’ to [1,2,3], or df.vector = [1,2,3] for vectors.

In case a Daru::Vector is specified after the equality the sign, the indexes of the vector will be matched against the row/vector indexes of the DataFrame before an insertion is performed. Unmatched indexes will be set to nil.

# File 'lib/daru/dataframe.rb', line 527

def []=(*args)
  vector = args.pop
  axis = extract_axis(args)
  names = args

  dispatch_to_axis axis, :insert_or_modify, names, vector
end

#_dump(_depth) ⇒ Object

# File 'lib/daru/dataframe.rb', line 2110

def _dump(_depth)
  Marshal.dump(
    data:  @data,
    index: @index.to_a,
    order: @vectors.to_a,
    name:  @name
  )
end

#access_row_tuples_by_indexs(*indexes) ⇒ Object

returns array of row tuples at given index(s)

# File 'lib/daru/dataframe.rb', line 2253

def access_row_tuples_by_indexs *indexes
  positions = @index.pos(*indexes)

  return populate_row_for(positions) if positions.is_a? Numeric

  res = []
  new_rows = @data.map { |vec| vec[*indexes] }
  indexes.each do |index|
    tuples = []
    new_rows.map { |row| tuples += [row[index]] }
    res << tuples
  end
  res
end

#add_row(row, index = nil) ⇒ Object

# File 'lib/daru/dataframe.rb', line 535

def add_row row, index=nil
  self.row[*(index || @size)] = row
end

#add_vector(n, vector) ⇒ Object

# File 'lib/daru/dataframe.rb', line 539

def add_vector n, vector
  self[n] = vector
end

#add_vectors_by_split(name, join = '-', sep = Daru::SPLIT_TOKEN) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1269

def add_vectors_by_split(name,join='-',sep=Daru::SPLIT_TOKEN)
  self[name]
    .split_by_separator(sep)
    .each { |k,v| self["#{name}#{join}#{k}".to_sym] = v }
end

#add_vectors_by_split_recode(nm, join = '-', sep = Daru::SPLIT_TOKEN) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1916

def add_vectors_by_split_recode(nm, join='-', sep=Daru::SPLIT_TOKEN)
  self[nm]
    .split_by_separator(sep)
    .each_with_index do |(k, v), i|
      v.rename "#{nm}:#{k}"
      self["#{nm}#{join}#{i + 1}".to_sym] = v
    end
end

#aggregate(options = {}) ⇒ Daru::DataFrame

Function to use for aggregating the data.

Note: ‘GroupBy` class `aggregate` method uses this `aggregate` method internally.

Examples:

df = Daru::DataFrame.new(
   {col: [:a, :b, :c, :d, :e], num: [52,12,07,17,01]})
=> #<Daru::DataFrame(5x2)>
     col num
   0   a  52
   1   b  12
   2   c   7
   3   d  17
   4   e   1

 df.aggregate(num_100_times: ->(df) { df.num*100 })
=> #<Daru::DataFrame(5x1)>
            num_100_ti
          0       5200
          1       1200
          2        700
          3       1700
          4        100

When we have duplicate index :

idx = Daru::CategoricalIndex.new [:a, :b, :a, :a, :c]
df = Daru::DataFrame.new({num: [52,12,07,17,01]}, index: idx)
=> #<Daru::DataFrame(5x1)>
     num
   a  52
   b  12
   a   7
   a  17
   c   1

df.aggregate(num: :mean)
=> #<Daru::DataFrame(3x1)>
                   num
          a 25.3333333
          b         12
          c          1

Parameters:

• options (Hash) (defaults to: {}) —

  options for column, you want in resultant dataframe

Returns:

• (Daru::DataFrame)

# File 'lib/daru/dataframe.rb', line 2315

def aggregate(options={})
  colmn_value, index_tuples = aggregated_colmn_value(options)
  Daru::DataFrame.new(
    colmn_value, index: index_tuples, order: options.keys
  )
end

#all?(axis = :vector, &block) ⇒ Boolean

Works like Array#all?

Examples:

Using all?

df = Daru::DataFrame.new({a: [1,2,3,4,5], b: ['a', 'b', 'c', 'd', 'e']})
df.all?(:row) do |row|
  row[:a] < 10
end #=> true

Parameters:

• axis (Symbol) (defaults to: :vector) —

  (:vector) The axis to iterate over. Can be :vector or :row. A Daru::Vector object is yielded in the block.

Returns:

• (Boolean)

# File 'lib/daru/dataframe.rb', line 1326

def all? axis=:vector, &block
  if %i[vector column].include?(axis)
    @data.all?(&block)
  elsif axis == :row
    each_row.all?(&block)
  else
    raise ArgumentError, "Unidentified axis #{axis}"
  end
end

#any?(axis = :vector, &block) ⇒ Boolean

Works like Array#any?.

Examples:

Using any?

df = Daru::DataFrame.new({a: [1,2,3,4,5], b: ['a', 'b', 'c', 'd', 'e']})
df.any?(:row) do |row|
  row[:a] < 3 and row[:b] == 'b'
end #=> true

Parameters:

• axis (Symbol) (defaults to: :vector) —

  (:vector) The axis to iterate over. Can be :vector or :row. A Daru::Vector object is yielded in the block.

Returns:

• (Boolean)

# File 'lib/daru/dataframe.rb', line 1304

def any? axis=:vector, &block
  if %i[vector column].include?(axis)
    @data.any?(&block)
  elsif axis == :row
    each_row do |row|
      return true if yield(row)
    end
    false
  else
    raise ArgumentError, "Unidentified axis #{axis}"
  end
end

#at(*positions) ⇒ Daru::Vector, Daru::DataFrame

Retrive vectors by positions

Examples:

df = Daru::DataFrame.new({
  a: [1, 2, 3],
  b: ['a', 'b', 'c']
})
df.at 0
# => #<Daru::Vector(3)>
#       a
#   0   1
#   1   2
#   2   3

Parameters:

• positions (Array<Integer>) —

  of vectors to retrive

Returns:

• (Daru::Vector, Daru::DataFrame) —

  vector for single position and dataframe for multiple positions

# File 'lib/daru/dataframe.rb', line 465

def at *positions
  if AXES.include? positions.last
    axis = positions.pop
    return row_at(*positions) if axis == :row
  end

  original_positions = positions
  positions = coerce_positions(*positions, ncols)
  validate_positions(*positions, ncols)

  if positions.is_a? Integer
    @data[positions].dup
  else
    Daru::DataFrame.new positions.map { |pos| @data[pos].dup },
      index: @index,
      order: @vectors.at(*original_positions),
      name: @name
  end
end

#bootstrap(n = nil) ⇒ Daru::DataFrame

Creates a DataFrame with the random data, of n size. If n not given, uses original number of rows.

Returns:

• (Daru::DataFrame)

# File 'lib/daru/dataframe.rb', line 1075

def bootstrap(n=nil)
  n ||= nrows
  Daru::DataFrame.new({}, order: @vectors).tap do |df_boot|
    n.times do
      df_boot.add_row(row[rand(n)])
    end
    df_boot.update
  end
end

#clone(*vectors_to_clone) ⇒ Object

Returns a ‘view’ of the DataFrame, i.e the object ID’s of vectors are preserved.

Arguments

vectors_to_clone - Names of vectors to clone. Optional. Will return a view of the whole data frame otherwise.

# File 'lib/daru/dataframe.rb', line 579

def clone *vectors_to_clone
  vectors_to_clone.flatten! if ArrayHelper.array_of?(vectors_to_clone, Array)
  vectors_to_clone = @vectors.to_a if vectors_to_clone.empty?

  h = vectors_to_clone.map { |vec| [vec, self[vec]] }.to_h
  Daru::DataFrame.new(h, clone: false, order: vectors_to_clone, name: @name)
end

#clone_only_valid ⇒ Object

Returns a ‘shallow’ copy of DataFrame if missing data is not present, or a full copy of only valid data if missing data is present.

# File 'lib/daru/dataframe.rb', line 589

def clone_only_valid
  if include_values?(*Daru::MISSING_VALUES)
    reject_values(*Daru::MISSING_VALUES)
  else
    clone
  end
end

#clone_structure ⇒ Object

Only clone the structure of the DataFrame.

# File 'lib/daru/dataframe.rb', line 568

def clone_structure
  Daru::DataFrame.new([], order: @vectors.dup, index: @index.dup, name: @name)
end

#collect(axis = :vector, &block) ⇒ Object

Iterate over a row or vector and return results in a Daru::Vector. Specify axis with :vector or :row. Default to :vector.

Description

The #collect iterator works similar to #map, the only difference being that it returns a Daru::Vector comprising of the results of each block run. The resultant Vector has the same index as that of the axis over which collect has iterated. It also accepts the optional axis argument.

Arguments

• axis - The axis to iterate over. Can be :vector (or :column)

or :row. Default to :vector.

# File 'lib/daru/dataframe.rb', line 832

def collect axis=:vector, &block
  dispatch_to_axis_pl axis, :collect, &block
end

#collect_matrix ⇒ ::Matrix

Generate a matrix, based on vector names of the DataFrame.

:nocov: FIXME: Even not trying to cover this: I can’t get, how it is expected to work.… – zverok

Returns:

• (::Matrix)

# File 'lib/daru/dataframe.rb', line 1027

def collect_matrix
  return to_enum(:collect_matrix) unless block_given?

  vecs = vectors.to_a
  rows = vecs.collect { |row|
    vecs.collect { |col|
      yield row,col
    }
  }

  Matrix.rows(rows)
end

#collect_row_with_index(&block) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1001

def collect_row_with_index &block
  return to_enum(:collect_row_with_index) unless block_given?

  Daru::Vector.new(each_row_with_index.map(&block), index: @index)
end

#collect_rows(&block) ⇒ Object

Retrieves a Daru::Vector, based on the result of calculation performed on each row.

# File 'lib/daru/dataframe.rb', line 995

def collect_rows &block
  return to_enum(:collect_rows) unless block_given?

  Daru::Vector.new(each_row.map(&block), index: @index)
end

#collect_vector_with_index(&block) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1015

def collect_vector_with_index &block
  return to_enum(:collect_vector_with_index) unless block_given?

  Daru::Vector.new(each_vector_with_index.map(&block), index: @vectors)
end

#collect_vectors(&block) ⇒ Object

Retrives a Daru::Vector, based on the result of calculation performed on each vector.

# File 'lib/daru/dataframe.rb', line 1009

def collect_vectors &block
  return to_enum(:collect_vectors) unless block_given?

  Daru::Vector.new(each_vector.map(&block), index: @vectors)
end

#compute(text, &block) ⇒ Object

Returns a vector, based on a string with a calculation based on vector.

The calculation will be eval’ed, so you can put any variable or expression valid on ruby.

For example:

a = Daru::Vector.new [1,2]
b = Daru::Vector.new [3,4]
ds = Daru::DataFrame.new({:a => a,:b => b})
ds.compute("a+b")
=> Vector [4,6]

# File 'lib/daru/dataframe.rb', line 1194

def compute text, &block
  return instance_eval(&block) if block_given?
  instance_eval(text)
end

#concat(other_df) ⇒ Object

Concatenate another DataFrame along corresponding columns. If columns do not exist in both dataframes, they are filled with nils

# File 'lib/daru/dataframe.rb', line 1482

def concat other_df
  vectors = (@vectors.to_a + other_df.vectors.to_a).uniq

  data = vectors.map do |v|
    get_vector_anyways(v).dup.concat(other_df.get_vector_anyways(v))
  end

  Daru::DataFrame.new(data, order: vectors)
end

#create_sql(table, charset = 'UTF8') ⇒ Object

Create a sql, basen on a given Dataset

Arguments

• table - String specifying name of the table that will created in SQL.

• charset - Character set. Default is “UTF8”.

Examples:

ds = Daru::DataFrame.new({
 :id   => Daru::Vector.new([1,2,3,4,5]),
 :name => Daru::Vector.new(%w{Alex Peter Susan Mary John})
})
ds.create_sql('names')
 #=>"CREATE TABLE names (id INTEGER,\n name VARCHAR (255)) CHARACTER SET=UTF8;"

# File 'lib/daru/dataframe.rb', line 1941

def create_sql(table,charset='UTF8')
  sql    = "CREATE TABLE #{table} ("
  fields = vectors.to_a.collect do |f|
    v = self[f]
    f.to_s + ' ' + v.db_type
  end

  sql + fields.join(",\n ")+") CHARACTER SET=#{charset};"
end

#delete_row(index) ⇒ Object

Delete a row

Raises:

• (IndexError)

# File 'lib/daru/dataframe.rb', line 1059

def delete_row index
  idx = named_index_for index

  raise IndexError, "Index #{index} does not exist." unless @index.include? idx
  @index = Daru::Index.new(@index.to_a - [idx])
  each_vector do |vector|
    vector.delete_at idx
  end

  set_size
end

#delete_vector(vector) ⇒ Object

Delete a vector

Raises:

• (IndexError)

# File 'lib/daru/dataframe.rb', line 1042

def delete_vector vector
  raise IndexError, "Vector #{vector} does not exist." unless @vectors.include?(vector)

  @data.delete_at @vectors[vector]
  @vectors = Daru::Index.new @vectors.to_a - [vector]

  self
end

#delete_vectors(*vectors) ⇒ Object

Deletes a list of vectors

# File 'lib/daru/dataframe.rb', line 1052

def delete_vectors *vectors
  Array(vectors).each { |vec| delete_vector vec }

  self
end

#dup(vectors_to_dup = nil) ⇒ Object

Duplicate the DataFrame entirely.

Arguments

• vectors_to_dup - An Array specifying the names of Vectors to

be duplicated. Will duplicate the entire DataFrame if not specified.

# File 'lib/daru/dataframe.rb', line 558

def dup vectors_to_dup=nil
  vectors_to_dup = @vectors.to_a unless vectors_to_dup

  src = vectors_to_dup.map { |vec| @data[@vectors.pos(vec)].dup }
  new_order = Daru::Index.new(vectors_to_dup)

  Daru::DataFrame.new src, order: new_order, index: @index.dup, name: @name, clone: true
end

#dup_only_valid(vecs = nil) ⇒ Object

Creates a new duplicate dataframe containing only rows without a single missing value.

# File 'lib/daru/dataframe.rb', line 599

def dup_only_valid vecs=nil
  rows_with_nil = @data.map { |vec| vec.indexes(*Daru::MISSING_VALUES) }
                       .inject(&:concat)
                       .uniq

  row_indexes = @index.to_a
  (vecs.nil? ? self : dup(vecs)).row[*(row_indexes - rows_with_nil)]
end

#each(axis = :vector, &block) ⇒ Object

Iterate over each row or vector of the DataFrame. Specify axis by passing :vector or :row as the argument. Default to :vector.

Description

‘#each` works exactly like Array#each. The default mode for `each` is to iterate over the columns of the DataFrame. To iterate over rows you must pass the axis, i.e `:row` as an argument.

Arguments

• axis - The axis to iterate over. Can be :vector (or :column)

or :row. Default to :vector.

# File 'lib/daru/dataframe.rb', line 813

def each axis=:vector, &block
  dispatch_to_axis axis, :each, &block
end

#each_index(&block) ⇒ Object

Iterate over each index of the DataFrame.

# File 'lib/daru/dataframe.rb', line 747

def each_index &block
  return to_enum(:each_index) unless block_given?

  @index.each(&block)

  self
end

#each_row ⇒ Object

Iterate over each row

# File 'lib/daru/dataframe.rb', line 780

def each_row
  return to_enum(:each_row) unless block_given?

  @index.size.times do |pos|
    yield row_at(pos)
  end

  self
end

#each_row_with_index ⇒ Object

# File 'lib/daru/dataframe.rb', line 790

def each_row_with_index
  return to_enum(:each_row_with_index) unless block_given?

  @index.each do |index|
    yield access_row(index), index
  end

  self
end

#each_vector(&block) ⇒ Object Also known as: each_column

Iterate over each vector

# File 'lib/daru/dataframe.rb', line 756

def each_vector(&block)
  return to_enum(:each_vector) unless block_given?

  @data.each(&block)

  self
end

#each_vector_with_index ⇒ Object Also known as: each_column_with_index

Iterate over each vector alongwith the name of the vector

# File 'lib/daru/dataframe.rb', line 767

def each_vector_with_index
  return to_enum(:each_vector_with_index) unless block_given?

  @vectors.each do |vector|
    yield @data[@vectors[vector]], vector
  end

  self
end

#filter(axis = :vector, &block) ⇒ Object

Retain vectors or rows if the block returns a truthy value.

Description

For filtering out certain rows/vectors based on their values, use the #filter method. By default it iterates over vectors and keeps those vectors for which the block returns true. It accepts an optional axis argument which lets you specify whether you want to iterate over vectors or rows.

Arguments

• axis - The axis to map over. Can be :vector (or :column) or :row.

Default to :vector.

Usage

# Filter vectors

df.filter do |vector|
  vector.type == :numeric and vector.median < 50
end

# Filter rows

df.filter(:row) do |row|
  row[:a] + row[:d] < 100
end

# File 'lib/daru/dataframe.rb', line 921

def filter axis=:vector, &block
  dispatch_to_axis_pl axis, :filter, &block
end

#filter_rows ⇒ Object

Iterates over each row and retains it in a new DataFrame if the block returns true for that row.

# File 'lib/daru/dataframe.rb', line 1104

def filter_rows
  return to_enum(:filter_rows) unless block_given?

  keep_rows = @index.map { |index| yield access_row(index) }

  where keep_rows
end

#filter_vector(vec, &block) ⇒ Object

creates a new vector with the data of a given field which the block returns true

# File 'lib/daru/dataframe.rb', line 1098

def filter_vector vec, &block
  Daru::Vector.new(each_row.select(&block).map { |row| row[vec] })
end

#filter_vectors(&block) ⇒ Object

Iterates over each vector and retains it in a new DataFrame if the block returns true for that vector.

# File 'lib/daru/dataframe.rb', line 1114

def filter_vectors &block
  return to_enum(:filter_vectors) unless block_given?

  dup.tap { |df| df.keep_vector_if(&block) }
end

#get_vector_anyways(v) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1476

def get_vector_anyways(v)
  @vectors.include?(v) ? self[v].to_a : [nil] * size
end

#group_by(*vectors) ⇒ Object

Group elements by vector to perform operations on them. Returns a Daru::Core::GroupBy object.See the Daru::Core::GroupBy docs for a detailed list of possible operations.

Arguments

• vectors - An Array contatining names of vectors to group by.

Usage

df = Daru::DataFrame.new({
  a: %w{foo bar foo bar   foo bar foo foo},
  b: %w{one one two three two two one three},
  c:   [1  ,2  ,3  ,1    ,3  ,6  ,3  ,8],
  d:   [11 ,22 ,33 ,44   ,55 ,66 ,77 ,88]
})
df.group_by([:a,:b,:c]).groups
#=> {["bar", "one", 2]=>[1],
# ["bar", "three", 1]=>[3],
# ["bar", "two", 6]=>[5],
# ["foo", "one", 1]=>[0],
# ["foo", "one", 3]=>[6],
# ["foo", "three", 8]=>[7],
# ["foo", "two", 3]=>[2, 4]}

# File 'lib/daru/dataframe.rb', line 1451

def group_by *vectors
  vectors.flatten!
  # FIXME: wouldn't it better to do vectors - @vectors here and
  # raise one error with all non-existent vector names?.. - zverok, 2016-05-18
  vectors.each { |v|
    raise(ArgumentError, "Vector #{v} does not exist") unless has_vector?(v)
  }

  vectors = [@vectors.first] if vectors.empty?

  Daru::Core::GroupBy.new(self, vectors)
end

#has_missing_data? ⇒ Boolean Also known as: flawed?

Returns:

• (Boolean)

# File 'lib/daru/dataframe.rb', line 1216

def has_missing_data?
  @data.any? { |vec| vec.include_values?(*Daru::MISSING_VALUES) }
end

#has_vector?(vector) ⇒ Boolean

Check if a vector is present

Returns:

• (Boolean)

# File 'lib/daru/dataframe.rb', line 1291

def has_vector? vector
  @vectors.include? vector
end

#head(quantity = 10) ⇒ Object Also known as: first

The first ten elements of the DataFrame

Parameters:

• quantity (Fixnum) (defaults to: 10) —

  (10) The number of elements to display from the top.

# File 'lib/daru/dataframe.rb', line 1339

def head quantity=10
  row.at 0..(quantity-1)
end

#include_values?(*values) ⇒ true, false

Check if any of given values occur in the data frame

Examples:

df = Daru::DataFrame.new({
  a: [1,    2,          3,   nil,        Float::NAN, nil, 1,   7],
  b: [:a,  :b,          nil, Float::NAN, nil,        3,   5,   8],
  c: ['a',  Float::NAN, 3,   4,          3,          5,   nil, 7]
}, index: 11..18)
df.include_values? nil
# => true

Parameters:

• values (Array) —

  to check for

Returns:

• (true, false) —

  true if any of the given values occur in the dataframe, false otherwise

# File 'lib/daru/dataframe.rb', line 1235

def include_values?(*values)
  @data.any? { |vec| vec.include_values?(*values) }
end

#inspect(spacing = 10, threshold = 15) ⇒ Object

Pretty print in a nice table format for the command line (irb/pry/iruby)

# File 'lib/daru/dataframe.rb', line 2150

def inspect spacing=10, threshold=15
  name_part = @name ? ": #{@name} " : ''

  "#<#{self.class}#{name_part}(#{nrows}x#{ncols})>\n" +
    Formatters::Table.format(
      each_row.lazy,
      row_headers: row_headers,
      headers: headers,
      threshold: threshold,
      spacing: spacing
    )
end

#interact_code(vector_names, full) ⇒ Object

# File 'lib/daru/dataframe.rb', line 2212

def interact_code vector_names, full
  dfs = vector_names.zip(full).map do |vec_name, f|
    self[vec_name].contrast_code(full: f).each.to_a
  end

  all_vectors = recursive_product(dfs)
  Daru::DataFrame.new all_vectors,
    order: all_vectors.map(&:name)
end

#join(other_df, opts = {}) ⇒ Daru::DataFrame

Join 2 DataFrames with SQL style joins. Currently supports inner, left outer, right outer and full outer joins.

Examples:

Inner Join

left = Daru::DataFrame.new({
  :id   => [1,2,3,4],
  :name => ['Pirate', 'Monkey', 'Ninja', 'Spaghetti']
})
right = Daru::DataFrame.new({
  :id => [1,2,3,4],
  :name => ['Rutabaga', 'Pirate', 'Darth Vader', 'Ninja']
})
left.join(right, how: :inner, on: [:name])
#=>
##<Daru::DataFrame:82416700 @name = 74c0811b-76c6-4c42-ac93-e6458e82afb0 @size = 2>
#                 id_1       name       id_2
#         0          1     Pirate          2
#         1          3      Ninja          4

Parameters:

• other_df (Daru::DataFrame) —

  Another DataFrame on which the join is to be performed.

• opts (Hash) (defaults to: {}) —

  Options Hash

• :how (Hash) —

  a customizable set of options

• :on (Hash) —

  a customizable set of options

• :indicator (Hash) —

  a customizable set of options

Returns:

• (Daru::DataFrame)

# File 'lib/daru/dataframe.rb', line 1864

def join(other_df,opts={})
  Daru::Core::Merge.join(self, other_df, opts)
end

#keep_row_if ⇒ Object

# File 'lib/daru/dataframe.rb', line 1085

def keep_row_if
  @index
    .reject { |idx| yield access_row(idx) }
    .each { |idx| delete_row idx }
end

#keep_vector_if ⇒ Object

# File 'lib/daru/dataframe.rb', line 1091

def keep_vector_if
  @vectors.each do |vector|
    delete_vector(vector) unless yield(@data[@vectors[vector]], vector)
  end
end

#map(axis = :vector, &block) ⇒ Object

Map over each vector or row of the data frame according to the argument specified. Will return an Array of the resulting elements. To map over each row/vector and get a DataFrame, see #recode.

Description

The #map iterator works like Array#map. The value returned by each run of the block is added to an Array and the Array is returned. This method also accepts an axis argument, like #each. The default is :vector.

Arguments

• axis - The axis to map over. Can be :vector (or :column) or :row.

Default to :vector.

# File 'lib/daru/dataframe.rb', line 852

def map axis=:vector, &block
  dispatch_to_axis_pl axis, :map, &block
end

#map!(axis = :vector, &block) ⇒ Object

Destructive map. Modifies the DataFrame. Each run of the block must return a Daru::Vector. You can specify the axis to map over as the argument. Default to :vector.

Arguments

• axis - The axis to map over. Can be :vector (or :column) or :row.

Default to :vector.

# File 'lib/daru/dataframe.rb', line 864

def map! axis=:vector, &block
  if %i[vector column].include?(axis)
    map_vectors!(&block)
  elsif axis == :row
    map_rows!(&block)
  end
end

#map_rows(&block) ⇒ Object

Map each row

# File 'lib/daru/dataframe.rb', line 971

def map_rows &block
  return to_enum(:map_rows) unless block_given?

  each_row.map(&block)
end

#map_rows! ⇒ Object

# File 'lib/daru/dataframe.rb', line 983

def map_rows!
  return to_enum(:map_rows!) unless block_given?

  index.dup.each do |i|
    row[i] = should_be_vector!(yield(row[i]))
  end

  self
end

#map_rows_with_index(&block) ⇒ Object

# File 'lib/daru/dataframe.rb', line 977

def map_rows_with_index &block
  return to_enum(:map_rows_with_index) unless block_given?

  each_row_with_index.map(&block)
end

#map_vectors(&block) ⇒ Object

Map each vector and return an Array.

# File 'lib/daru/dataframe.rb', line 946

def map_vectors &block
  return to_enum(:map_vectors) unless block_given?

  @data.map(&block)
end

#map_vectors! ⇒ Object

Destructive form of #map_vectors

# File 'lib/daru/dataframe.rb', line 953

def map_vectors!
  return to_enum(:map_vectors!) unless block_given?

  vectors.dup.each do |n|
    self[n] = should_be_vector!(yield(self[n]))
  end

  self
end

#map_vectors_with_index(&block) ⇒ Object

Map vectors alongwith the index.

# File 'lib/daru/dataframe.rb', line 964

def map_vectors_with_index &block
  return to_enum(:map_vectors_with_index) unless block_given?

  each_vector_with_index.map(&block)
end

#merge(other_df) ⇒ Daru::DataFrame

Merge vectors from two DataFrames. In case of name collision, the vectors names are changed to x_1, x_2 .…

Returns:

• (Daru::DataFrame)

# File 'lib/daru/dataframe.rb', line 1819

def merge other_df # rubocop:disable Metrics/AbcSize
  unless nrows == other_df.nrows
    raise ArgumentError,
      "Number of rows must be equal in this: #{nrows} and other: #{other_df.nrows}"
  end

  new_fields = (@vectors.to_a + other_df.vectors.to_a)
  new_fields = ArrayHelper.recode_repeated(new_fields)
  DataFrame.new({}, order: new_fields).tap do |df_new|
    (0...nrows).each do |i|
      df_new.add_row row[i].to_a + other_df.row[i].to_a
    end
    df_new.index = @index if @index == other_df.index
    df_new.update
  end
end

#missing_values_rows(missing_values = [nil]) ⇒ Object Also known as: vector_missing_values

Return a vector with the number of missing values in each row.

Arguments

• missing_values - An Array of the values that should be

treated as ‘missing’. The default missing value is nil.

# File 'lib/daru/dataframe.rb', line 1205

def missing_values_rows missing_values=[nil]
  number_of_missing = each_row.map do |row|
    row.indexes(*missing_values).size
  end

  Daru::Vector.new number_of_missing, index: @index, name: "#{@name}_missing_rows"
end

#ncols ⇒ Object

The number of vectors

# File 'lib/daru/dataframe.rb', line 1286

def ncols
  @vectors.size
end

#nest(*tree_keys, &_block) ⇒ Object

Return a nested hash using vector names as keys and an array constructed of hashes with other values. If block provided, is used to provide the values, with parameters row of dataset, current last hash on hierarchy and name of the key to include

# File 'lib/daru/dataframe.rb', line 1243

def nest *tree_keys, &_block
  tree_keys = tree_keys[0] if tree_keys[0].is_a? Array

  each_row.each_with_object({}) do |row, current|
    # Create tree
    *keys, last = tree_keys
    current = keys.inject(current) { |c, f| c[row[f]] ||= {} }
    name = row[last]

    if block_given?
      current[name] = yield(row, current, name)
    else
      current[name] ||= []
      current[name].push(row.to_h.delete_if { |key,_value| tree_keys.include? key })
    end
  end
end

#nrows ⇒ Object

The number of rows

# File 'lib/daru/dataframe.rb', line 1281

def nrows
  @index.size
end

#numeric_vector_names ⇒ Object

# File 'lib/daru/dataframe.rb', line 1626

def numeric_vector_names
  @vectors.select { |v| self[v].numeric? }
end

#numeric_vectors ⇒ Object

Return the indexes of all the numeric vectors. Will include vectors with nils alongwith numbers.

# File 'lib/daru/dataframe.rb', line 1619

def numeric_vectors
  # FIXME: Why _with_index ?..
  each_vector_with_index
    .select { |vec, _i| vec.numeric? }
    .map(&:last)
end

#one_to_many(parent_fields, pattern) ⇒ Object

Creates a new dataset for one to many relations on a dataset, based on pattern of field names.

for example, you have a survey for number of children with this structure:

id, name, child_name_1, child_age_1, child_name_2, child_age_2

with

ds.one_to_many([:id], "child_%v_%n"

the field of first parameters will be copied verbatim to new dataset, and fields which responds to second pattern will be added one case for each different %n.

Examples:

cases=[
  ['1','george','red',10,'blue',20,nil,nil],
  ['2','fred','green',15,'orange',30,'white',20],
  ['3','alfred',nil,nil,nil,nil,nil,nil]
]
ds=Daru::DataFrame.rows(cases, order:
  [:id, :name,
   :car_color1, :car_value1,
   :car_color2, :car_value2,
   :car_color3, :car_value3])
ds.one_to_many([:id],'car_%v%n').to_matrix
#=> Matrix[
#   ["red", "1", 10],
#   ["blue", "1", 20],
#   ["green", "2", 15],
#   ["orange", "2", 30],
#   ["white", "2", 20]
#   ]

# File 'lib/daru/dataframe.rb', line 1899

def one_to_many(parent_fields, pattern)
  vars, numbers = one_to_many_components(pattern)

  DataFrame.new([], order: [*parent_fields, '_col_id', *vars]).tap do |ds|
    each_row do |row|
      verbatim = parent_fields.map { |f| [f, row[f]] }.to_h
      numbers.each do |n|
        generated = one_to_many_row row, n, vars, pattern
        next if generated.values.all?(&:nil?)

        ds.add_row(verbatim.merge(generated).merge('_col_id' => n))
      end
    end
    ds.update
  end
end

#only_numerics(opts = {}) ⇒ Object

Return a DataFrame of only the numerical Vectors. If clone: false is specified as option, only a view of the Vectors will be returned. Defaults to clone: true.

# File 'lib/daru/dataframe.rb', line 1633

def only_numerics opts={}
  cln = opts[:clone] == false ? false : true
  arry = numeric_vectors.map { |v| self[v] }

  order = Index.new(numeric_vectors)
  Daru::DataFrame.new(arry, clone: cln, order: order, index: @index)
end

#order=(order_array) ⇒ Object

Reorder the vectors in a dataframe

Examples:

df = Daru::DataFrame({
  a: [1, 2, 3],
  b: [4, 5, 6]
}, order: [:a, :b])
df.order = [:b, :a]
df
# => #<Daru::DataFrame(3x2)>
#       b   a
#   0   4   1
#   1   5   2
#   2   6   3

Parameters:

• order_array (Array) —

  new order of the vectors

Raises:

• (ArgumentError)

# File 'lib/daru/dataframe.rb', line 1176

def order=(order_array)
  raise ArgumentError, 'Invalid order' unless
    order_array.sort == vectors.to_a.sort
  initialize(to_h, order: order_array)
end

#pivot_table(opts = {}) ⇒ Object

Pivots a data frame on specified vectors and applies an aggregate function to quickly generate a summary.

Options

:index - Keys to group by on the pivot table row index. Pass vector names contained in an Array.

:vectors - Keys to group by on the pivot table column index. Pass vector names contained in an Array.

:agg - Function to aggregate the grouped values. Default to :mean. Can use any of the statistics functions applicable on Vectors that can be found in the Daru::Statistics::Vector module.

:values - Columns to aggregate. Will consider all numeric columns not specified in :index or :vectors. Optional.

Usage

df = Daru::DataFrame.new({
  a: ['foo'  ,  'foo',  'foo',  'foo',  'foo',  'bar',  'bar',  'bar',  'bar'],
  b: ['one'  ,  'one',  'one',  'two',  'two',  'one',  'one',  'two',  'two'],
  c: ['small','large','large','small','small','large','small','large','small'],
  d: [1,2,2,3,3,4,5,6,7],
  e: [2,4,4,6,6,8,10,12,14]
})
df.pivot_table(index: [:a], vectors: [:b], agg: :sum, values: :e)

#=>
# #<Daru::DataFrame:88342020 @name = 08cdaf4e-b154-4186-9084-e76dd191b2c9 @size = 2>
#            [:e, :one] [:e, :two]
#     [:bar]         18         26
#     [:foo]         10         12

Raises:

• (ArgumentError)

# File 'lib/daru/dataframe.rb', line 1798

def pivot_table opts={}
  raise ArgumentError, 'Specify grouping index' if Array(opts[:index]).empty?

  index               = opts[:index]
  vectors             = opts[:vectors] || []
  aggregate_function  = opts[:agg] || :mean
  values              = prepare_pivot_values index, vectors, opts
  raise IndexError, 'No numeric vectors to aggregate' if values.empty?

  grouped = group_by(index)
  return grouped.send(aggregate_function) if vectors.empty?

  super_hash = make_pivot_hash grouped, vectors, values, aggregate_function

  pivot_dataframe super_hash
end

#plotting_library=(lib) ⇒ Object

# File 'lib/daru/dataframe.rb', line 365

def plotting_library= lib
  case lib
  when :gruff, :nyaplot
    @plotting_library = lib
    if Daru.send("has_#{lib}?".to_sym)
      extend Module.const_get(
        "Daru::Plotting::DataFrame::#{lib.to_s.capitalize}Library"
      )
    end
  else
    raise ArguementError, "Plotting library #{lib} not supported. "\
      'Supported libraries are :nyaplot and :gruff'
  end
end

#recast(opts = {}) ⇒ Object

Change dtypes of vectors by supplying a hash of :vector_name => :new_dtype

Usage

df = Daru::DataFrame.new({a: [1,2,3], b: [1,2,3], c: [1,2,3]})
df.recast a: :nmatrix, c: :nmatrix

# File 'lib/daru/dataframe.rb', line 2132

def recast opts={}
  opts.each do |vector_name, dtype|
    self[vector_name].cast(dtype: dtype)
  end
end

#recode(axis = :vector, &block) ⇒ Object

Maps over the DataFrame and returns a DataFrame. Each run of the block must return a Daru::Vector object. You can specify the axis to map over. Default to :vector.

Description

Recode works similarly to #map, but an important difference between the two is that recode returns a modified Daru::DataFrame instead of an Array. For this reason, #recode expects that every run of the block to return a Daru::Vector.

Just like map and each, recode also accepts an optional axis argument.

Arguments

• axis - The axis to map over. Can be :vector (or :column) or :row.

Default to :vector.

# File 'lib/daru/dataframe.rb', line 889

def recode axis=:vector, &block
  dispatch_to_axis_pl axis, :recode, &block
end

#recode_rows ⇒ Object

# File 'lib/daru/dataframe.rb', line 935

def recode_rows
  block_given? or return to_enum(:recode_rows)

  dup.tap do |df|
    df.each_row_with_index do |r, i|
      df.row[i] = should_be_vector!(yield(r))
    end
  end
end

#recode_vectors ⇒ Object

# File 'lib/daru/dataframe.rb', line 925

def recode_vectors
  block_given? or return to_enum(:recode_vectors)

  dup.tap do |df|
    df.each_vector_with_index do |v, i|
      df[*i] = should_be_vector!(yield(v))
    end
  end
end

#reindex(new_index) ⇒ Object

Change the index of the DataFrame and preserve the labels of the previous indexing. New index can be Daru::Index or any of its subclasses.

Examples:

Reindexing DataFrame

df = Daru::DataFrame.new({a: [1,2,3,4], b: [11,22,33,44]},
  index: ['a','b','c','d'])
#=>
##<Daru::DataFrame:83278130 @name = b19277b8-c548-41da-ad9a-2ad8c060e273 @size = 4>
#                    a          b
#         a          1         11
#         b          2         22
#         c          3         33
#         d          4         44
df.reindex Daru::Index.new(['b', 0, 'a', 'g'])
#=>
##<Daru::DataFrame:83177070 @name = b19277b8-c548-41da-ad9a-2ad8c060e273 @size = 4>
#                    a          b
#         b          2         22
#         0        nil        nil
#         a          1         11
#         g        nil        nil

Parameters:

• new_index (Daru::Index) —

  The new Index for reindexing the DataFrame.

# File 'lib/daru/dataframe.rb', line 1538

def reindex new_index
  unless new_index.is_a?(Daru::Index)
    raise ArgumentError, 'Must pass the new index of type Index or its '\
      "subclasses, not #{new_index.class}"
  end

  cl = Daru::DataFrame.new({}, order: @vectors, index: new_index, name: @name)
  new_index.each_with_object(cl) do |idx, memo|
    memo.row[idx] = @index.include?(idx) ? row[idx] : [nil]*ncols
  end
end

#reindex_vectors(new_vectors) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1464

def reindex_vectors new_vectors
  unless new_vectors.is_a?(Daru::Index)
    raise ArgumentError, 'Must pass the new index of type Index or its '\
      "subclasses, not #{new_index.class}"
  end

  cl = Daru::DataFrame.new({}, order: new_vectors, index: @index, name: @name)
  new_vectors.each_with_object(cl) do |vec, memo|
    memo[vec] = @vectors.include?(vec) ? self[vec] : [nil]*nrows
  end
end

#reject_values(*values) ⇒ Daru::DataFrame

Returns a dataframe in which rows with any of the mentioned values

are ignored.

Examples:

df = Daru::DataFrame.new({
  a: [1,    2,          3,   nil,        Float::NAN, nil, 1,   7],
  b: [:a,  :b,          nil, Float::NAN, nil,        3,   5,   8],
  c: ['a',  Float::NAN, 3,   4,          3,          5,   nil, 7]
}, index: 11..18)
df.reject_values nil, Float::NAN
# => #<Daru::DataFrame(2x3)>
#       a   b   c
#   11   1   a   a
#   18   7   8   7

Parameters:

• values (Array) —

  to reject to form the new dataframe

Returns:

• (Daru::DataFrame) —

  Data Frame with only rows which doesn’t contain the mentioned values

# File 'lib/daru/dataframe.rb', line 625

def reject_values(*values)
  positions =
    size.times.to_a - @data.flat_map { |vec| vec.positions(*values) }
  # Handle the case when positions size is 1 and #row_at wouldn't return a df
  if positions.size == 1
    pos = positions.first
    row_at(pos..pos)
  else
    row_at(*positions)
  end
end

#rename(new_name) ⇒ Object Also known as: name=

Rename the DataFrame.

# File 'lib/daru/dataframe.rb', line 2057

def rename new_name
  @name = new_name
  self
end

#rename_vectors(name_map) ⇒ Object

Renames the vectors

Arguments

• name_map - A hash where the keys are the exising vector names and

  the values are the new names.  If a vector is renamed
  to a vector name that is already in use, the existing
  one is overwritten.
  

Usage

df = Daru::DataFrame.new({ a: [1,2,3,4], b: [:a,:b,:c,:d], c: [11,22,33,44] })
df.rename_vectors :a => :alpha, :c => :gamma
df.vectors.to_a #=> [:alpha, :b, :gamma]

# File 'lib/daru/dataframe.rb', line 1609

def rename_vectors name_map
  existing_targets = name_map.reject { |k,v| k == v }.values & vectors.to_a
  delete_vectors(*existing_targets)

  new_names = vectors.to_a.map { |v| name_map[v] ? name_map[v] : v }
  self.vectors = Daru::Index.new new_names
end

#replace_values(old_values, new_value) ⇒ Daru::DataFrame

Replace specified values with given value

Examples:

df = Daru::DataFrame.new({
  a: [1,    2,          3,   nil,        Float::NAN, nil, 1,   7],
  b: [:a,  :b,          nil, Float::NAN, nil,        3,   5,   8],
  c: ['a',  Float::NAN, 3,   4,          3,          5,   nil, 7]
}, index: 11..18)
df.replace_values nil, Float::NAN
# => #<Daru::DataFrame(8x3)>
#       a   b   c
#   11   1   a   a
#   12   2   b NaN
#   13   3 NaN   3
#   14 NaN NaN   4
#   15 NaN NaN   3
#   16 NaN   3   5
#   17   1   5 NaN
#   18   7   8   7

Parameters:

• old_values (Array) —

  values to replace with new value

• new_value (object) —

  new value to replace with

Returns:

• (Daru::DataFrame) —

  Data Frame itself with old values replace with new value

# File 'lib/daru/dataframe.rb', line 659

def replace_values old_values, new_value
  @data.each { |vec| vec.replace_values old_values, new_value }
  self
end

#respond_to_missing?(name, include_private = false) ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/daru/dataframe.rb', line 2208

def respond_to_missing?(name, include_private=false)
  name.to_s.end_with?('=') || has_vector?(name) || super
end

#rolling_fillna(direction = :forward) ⇒ Object

# File 'lib/daru/dataframe.rb', line 703

def rolling_fillna(direction=:forward)
  dup.rolling_fillna!(direction)
end

#rolling_fillna!(direction = :forward) ⇒ Object

Rolling fillna replace all Float::NAN and NIL values with the preceeding or following value

Examples:

df = Daru::DataFrame.new({
 a: [1,    2,          3,   nil,        Float::NAN, nil, 1,   7],
 b: [:a,  :b,          nil, Float::NAN, nil,        3,   5,   nil],
 c: ['a',  Float::NAN, 3,   4,          3,          5,   nil, 7]
})

=> #<Daru::DataFrame(8x3)>
     a   b   c
 0   1   a   a
 1   2   b NaN
 2   3 nil   3
 3 nil NaN   4
 4 NaN nil   3
 5 nil   3   5
 6   1   5 nil
 7   7 nil   7

2.3.3 :068 > df.rolling_fillna(:forward)
=> #<Daru::DataFrame(8x3)>
     a   b   c
 0   1   a   a
 1   2   b   a
 2   3   b   3
 3   3   b   4
 4   3   b   3
 5   3   3   5
 6   1   5   5
 7   7   5   7

Parameters:

• direction (Symbol) (defaults to: :forward) —

  (:forward, :backward) whether replacement value is preceeding or following

# File 'lib/daru/dataframe.rb', line 699

def rolling_fillna!(direction=:forward)
  @data.each { |vec| vec.rolling_fillna!(direction) }
end

#row ⇒ Object

Access a row or set/create a row. Refer #[] and #[]= docs for details.

Usage

df.row[:a] # access row named ':a'
df.row[:b] = [1,2,3] # set row ':b' to [1,2,3]

# File 'lib/daru/dataframe.rb', line 548

def row
  Daru::Accessors::DataFrameByRow.new(self)
end

#row_at(*positions) ⇒ Daru::Vector, Daru::DataFrame

Retrive rows by positions

Examples:

df = Daru::DataFrame.new({
  a: [1, 2, 3],
  b: ['a', 'b', 'c']
})
df.row_at 1, 2
# => #<Daru::DataFrame(2x2)>
#       a   b
#   1   2   b
#   2   3   c

Parameters:

• positions (Array<Integer>) —

  of rows to retrive

Returns:

• (Daru::Vector, Daru::DataFrame) —

  vector for single position and dataframe for multiple positions

# File 'lib/daru/dataframe.rb', line 401

def row_at *positions
  original_positions = positions
  positions = coerce_positions(*positions, nrows)
  validate_positions(*positions, nrows)

  if positions.is_a? Integer
    return Daru::Vector.new @data.map { |vec| vec.at(*positions) },
      index: @vectors
  else
    new_rows = @data.map { |vec| vec.at(*original_positions) }
    return Daru::DataFrame.new new_rows,
      index: @index.at(*original_positions),
      order: @vectors
  end
end

#save(filename) ⇒ Object

Use marshalling to save dataframe to a file.

# File 'lib/daru/dataframe.rb', line 2106

def save filename
  Daru::IO.save self, filename
end

#set_at(positions, vector) ⇒ Object

Set vectors by positions

Examples:

df = Daru::DataFrame.new({
  a: [1, 2, 3],
  b: ['a', 'b', 'c']
})
df.set_at [0], ['x', 'y', 'z']
df
#=> #<Daru::DataFrame(3x2)>
#       a   b
#   0   x   a
#   1   y   b
#   2   z   c

Parameters:

• positions (Array<Integer>) —

  positions of vectors to set

• vector (Array, Daru::Vector) —

  vector to be assigned

Raises:

• (SizeError)

# File 'lib/daru/dataframe.rb', line 500

def set_at positions, vector
  if positions.last == :row
    positions.pop
    return set_row_at(positions, vector)
  end

  validate_positions(*positions, ncols)
  vector =
    if vector.is_a? Daru::Vector
      vector.reindex @index
    else
      Daru::Vector.new vector
    end

  raise SizeError, 'Vector length should match index length' if
    vector.size != @index.size

  positions.each { |pos| @data[pos] = vector }
end

#set_index(new_index, opts = {}) ⇒ Object

Set a particular column as the new DF

Raises:

• (ArgumentError)

# File 'lib/daru/dataframe.rb', line 1506

def set_index new_index, opts={}
  raise ArgumentError, 'All elements in new index must be unique.' if
    @size != self[new_index].uniq.size

  self.index = Daru::Index.new(self[new_index].to_a)
  delete_vector(new_index) unless opts[:keep]

  self
end

#set_row_at(positions, vector) ⇒ Object

Set rows by positions

Examples:

df = Daru::DataFrame.new({
  a: [1, 2, 3],
  b: ['a', 'b', 'c']
})
df.set_row_at [0, 1], ['x', 'x']
df
#=> #<Daru::DataFrame(3x2)>
#       a   b
#   0   x   x
#   1   x   x
#   2   3   c

Parameters:

• positions (Array<Integer>) —

  positions of rows to set

• vector (Array, Daru::Vector) —

  vector to be assigned

Raises:

• (SizeError)

# File 'lib/daru/dataframe.rb', line 432

def set_row_at positions, vector
  validate_positions(*positions, nrows)
  vector =
    if vector.is_a? Daru::Vector
      vector.reindex @vectors
    else
      Daru::Vector.new vector
    end

  raise SizeError, 'Vector length should match row length' if
    vector.size != @vectors.size

  @data.each_with_index do |vec, pos|
    vec.set_at(positions, vector.at(pos))
  end
  @index = @data[0].index
  set_size
end

#shape ⇒ Object

Return the number of rows and columns of the DataFrame in an Array.

# File 'lib/daru/dataframe.rb', line 1276

def shape
  [nrows, ncols]
end

#sort(vector_order, opts = {}) ⇒ Object

Non-destructive version of #sort!

# File 'lib/daru/dataframe.rb', line 1760

def sort vector_order, opts={}
  dup.sort! vector_order, opts
end

#sort!(vector_order, opts = {}) ⇒ Object

Sorts a dataframe (ascending/descending) in the given pripority sequence of vectors, with or without a block.

Examples:

Sort a dataframe with a vector sequence.

df = Daru::DataFrame.new({a: [1,2,1,2,3], b: [5,4,3,2,1]})

df.sort [:a, :b]
# =>
# <Daru::DataFrame:30604000 @name = d6a9294e-2c09-418f-b646-aa9244653444 @size = 5>
#                   a          b
#        2          1          3
#        0          1          5
#        3          2          2
#        1          2          4
#        4          3          1

Sort a dataframe without a block. Here nils will be handled automatically.

df = Daru::DataFrame.new({a: [-3,nil,-1,nil,5], b: [4,3,2,1,4]})

df.sort([:a])
# =>
# <Daru::DataFrame:14810920 @name = c07fb5c7-2201-458d-b679-6a1f7ebfe49f @size = 5>
#                    a          b
#         1        nil          3
#         3        nil          1
#         0         -3          4
#         2         -1          2
#         4          5          4

Sort a dataframe with a block with nils handled automatically.

df = Daru::DataFrame.new({a: [nil,-1,1,nil,-1,1], b: ['aaa','aa',nil,'baaa','x',nil] })

df.sort [:b], by: {b: lambda { |a| a.length } }
# NoMethodError: undefined method `length' for nil:NilClass
# from (pry):8:in `block in __pry__'

df.sort [:b], by: {b: lambda { |a| a.length } }, handle_nils: true

# =>
# <Daru::DataFrame:28469540 @name = 5f986508-556f-468b-be0c-88cc3534445c @size = 6>
#                    a          b
#         2          1        nil
#         5          1        nil
#         4         -1          x
#         1         -1         aa
#         0        nil        aaa
#         3        nil       baaa

Sort a dataframe with a block with nils handled manually.

df = Daru::DataFrame.new({a: [nil,-1,1,nil,-1,1], b: ['aaa','aa',nil,'baaa','x',nil] })

# To print nils at the bottom one can use lambda { |a| (a.nil?)[1]:[0,a.length] }
df.sort [:b], by: {b: lambda { |a| (a.nil?)?[1]:[0,a.length] } }, handle_nils: true

# =>
#<Daru::DataFrame:22214180 @name = cd7703c7-1dca-4560-840b-5ea51a852ef9 @size = 6>
#                 a          b
#      4         -1          x
#      1         -1         aa
#      0        nil        aaa
#      3        nil       baaa
#      2          1        nil
#      5          1        nil

Parameters:

• vector_order (Array) —

  The order of vector names in which the DataFrame should be sorted.

• opts (Hash) (defaults to: {}) —

  opts The options to sort with.

Options Hash (opts):

• :ascending (TrueClass, FalseClass, Array) — default: true —

  Sort in ascending or descending order. Specify Array corresponding to order for multiple sort orders.

• :by (Hash) — default: lambda{|a| a } —

  Specify attributes of objects to to be used for sorting, for each vector name in order as a hash of vector name and lambda expressions. In case a lambda for a vector is not specified, the default will be used.

• :handle_nils (TrueClass, FalseClass, Array) — default: false —

  Handle nils automatically or not when a block is provided. If set to True, nils will appear at top after sorting.

Raises:

• (ArgumentError)

# File 'lib/daru/dataframe.rb', line 1736

def sort! vector_order, opts={}
  raise ArgumentError, 'Required atleast one vector name' if vector_order.empty?

  # To enable sorting with categorical data,
  # map categories to integers preserving their order
  old = convert_categorical_vectors vector_order
  block = sort_prepare_block vector_order, opts

  order = @index.size.times.sort(&block)
  new_index = @index.reorder order

  # To reverse map mapping of categorical data to integers
  restore_categorical_vectors old

  @data.each do |vector|
    vector.reorder! order
  end

  self.index = new_index

  self
end

#split_by_category(cat_name) ⇒ Array

Split the dataframe into many dataframes based on category vector

Examples:

df = Daru::DataFrame.new({
  a: [1, 2, 3],
  b: ['a', 'a', 'b']
})
df.to_category :b
df.split_by_category :b
# => [#<Daru::DataFrame: a (2x1)>
#       a
#   0   1
#   1   2,
# #<Daru::DataFrame: b (1x1)>
#       a
#   2   3]

Parameters:

• cat_name (object) —

  name of category vector to split the dataframe

Returns:

• (Array) —

  array of dataframes split by category with category vector used to split not included

Raises:

• (ArguementError)

# File 'lib/daru/dataframe.rb', line 2240

def split_by_category cat_name
  cat_dv = self[cat_name]
  raise ArguementError, "#{cat_name} is not a category vector" unless
    cat_dv.category?

  cat_dv.categories.map do |cat|
    where(cat_dv.eq cat)
      .rename(cat)
      .delete_vector cat_name
  end
end

#summary ⇒ String

Generate a summary of this DataFrame based on individual vectors in the DataFrame

Returns:

• (String) —

  String containing the summary of the DataFrame

# File 'lib/daru/dataframe.rb', line 1643

def summary
  summary = "= #{name}"
  summary << "\n  Number of rows: #{nrows}"
  @vectors.each do |v|
    summary << "\n  Element:[#{v}]\n"
    summary << self[v].summary(1)
  end
  summary
end

#tail(quantity = 10) ⇒ Object Also known as: last

The last ten elements of the DataFrame

Parameters:

• quantity (Fixnum) (defaults to: 10) —

  (10) The number of elements to display from the bottom.

# File 'lib/daru/dataframe.rb', line 1348

def tail quantity=10
  start = [-quantity, -size].max
  row.at start..-1
end

#to_a ⇒ Object

Converts the DataFrame into an array of hashes where key is vector name and value is the corresponding element. The 0th index of the array contains the array of hashes while the 1th index contains the indexes of each row of the dataframe. Each element in the index array corresponds to its row in the array of hashes, which has the same index.

# File 'lib/daru/dataframe.rb', line 1989

def to_a
  [each_row.map(&:to_h), @index.to_a]
end

#to_category(*names) ⇒ Daru::DataFrame

Converts the specified non category type vectors to category type vectors

Examples:

df = Daru::DataFrame.new({
  a: [1, 2, 3],
  b: ['a', 'a', 'b']
})
df.to_category :b
df[:b].type
# => :category

Parameters:

• names (Array) —

  of non category type vectors to be converted

Returns:

• (Daru::DataFrame) —

  data frame in which specified vectors have been converted to category type

# File 'lib/daru/dataframe.rb', line 2188

def to_category *names
  names.each { |n| self[n] = self[n].to_category }
  self
end

#to_df ⇒ self

Returns the dataframe. This can be convenient when the user does not know whether the object is a vector or a dataframe.

Returns:

• (self) —

  the dataframe

# File 'lib/daru/dataframe.rb', line 1954

def to_df
  self
end

#to_gsl ⇒ Object

Convert all numeric vectors to GSL::Matrix

# File 'lib/daru/dataframe.rb', line 1959

def to_gsl
  numerics_as_arrays = numeric_vectors.map { |n| self[n].to_a }

  GSL::Matrix.alloc(*numerics_as_arrays.transpose)
end

#to_h ⇒ Object

Converts DataFrame to a hash (explicit) with keys as vector names and values as the corresponding vectors.

# File 'lib/daru/dataframe.rb', line 2005

def to_h
  @vectors
    .each_with_index
    .map { |vec_name, idx| [vec_name, @data[idx]] }.to_h
end

#to_html(threshold = 30) ⇒ Object

Convert to html for IRuby.

# File 'lib/daru/dataframe.rb', line 2012

def to_html(threshold=30)
  table_thead = to_html_thead
  table_tbody = to_html_tbody(threshold)
  path = if index.is_a?(MultiIndex)
           File.expand_path('../iruby/templates/dataframe_mi.html.erb', __FILE__)
         else
           File.expand_path('../iruby/templates/dataframe.html.erb', __FILE__)
         end
  ERB.new(File.read(path).strip).result(binding)
end

#to_html_tbody(threshold = 30) ⇒ Object

# File 'lib/daru/dataframe.rb', line 2033

def to_html_tbody(threshold=30)
  table_tbody_path =
    if index.is_a?(MultiIndex)
      File.expand_path('../iruby/templates/dataframe_mi_tbody.html.erb', __FILE__)
    else
      File.expand_path('../iruby/templates/dataframe_tbody.html.erb', __FILE__)
    end
  ERB.new(File.read(table_tbody_path).strip).result(binding)
end

#to_html_thead ⇒ Object

# File 'lib/daru/dataframe.rb', line 2023

def to_html_thead
  table_thead_path =
    if index.is_a?(MultiIndex)
      File.expand_path('../iruby/templates/dataframe_mi_thead.html.erb', __FILE__)
    else
      File.expand_path('../iruby/templates/dataframe_thead.html.erb', __FILE__)
    end
  ERB.new(File.read(table_thead_path).strip).result(binding)
end

#to_json(no_index = true) ⇒ Object

Convert to json. If no_index is false then the index will NOT be included in the JSON thus created.

# File 'lib/daru/dataframe.rb', line 1995

def to_json no_index=true
  if no_index
    to_a[0].to_json
  else
    to_a.to_json
  end
end

#to_matrix ⇒ Object

Convert all vectors of type :numeric into a Matrix.

# File 'lib/daru/dataframe.rb', line 1966

def to_matrix
  Matrix.columns each_vector.select(&:numeric?).map(&:to_a)
end

#to_nmatrix ⇒ Object

Convert all vectors of type :numeric and not containing nils into an NMatrix.

# File 'lib/daru/dataframe.rb', line 1978

def to_nmatrix
  each_vector.select do |vector|
    vector.numeric? && !vector.include_values?(*Daru::MISSING_VALUES)
  end.map(&:to_a).transpose.to_nm
end

#to_nyaplotdf ⇒ Object

Return a Nyaplot::DataFrame from the data of this DataFrame. :nocov:

# File 'lib/daru/dataframe.rb', line 1972

def to_nyaplotdf
  Nyaplot::DataFrame.new(to_a[0])
end

#to_REXP ⇒ Object

rubocop:disable Style/MethodName

# File 'lib/daru/extensions/rserve.rb', line 5

def to_REXP # rubocop:disable Style/MethodName
  names = @vectors.to_a
  data  = names.map do |f|
    Rserve::REXP::Wrapper.wrap(self[f].to_a)
  end
  l = Rserve::Rlist.new(data, names.map(&:to_s))

  Rserve::REXP.create_data_frame(l)
end

#to_s ⇒ Object

# File 'lib/daru/dataframe.rb', line 2043

def to_s
  "#<#{self.class}#{': ' + @name.to_s if @name}(#{nrows}x#{ncols})>"
end

#transpose ⇒ Object

Transpose a DataFrame, tranposing elements and row, column indexing.

# File 'lib/daru/dataframe.rb', line 2139

def transpose
  Daru::DataFrame.new(
    each_vector.map(&:to_a).transpose,
    index: @vectors,
    order: @index,
    dtype: @dtype,
    name: @name
  )
end

#union(other_df) ⇒ Object

Concatenates another DataFrame as #concat. Additionally it tries to preserve the index. If the indices contain common elements, #union will overwrite the according rows in the first dataframe.

# File 'lib/daru/dataframe.rb', line 1496

def union other_df
  index = (@index.to_a + other_df.index.to_a).uniq
  df = row[*(@index.to_a - other_df.index.to_a)]

  df = df.concat(other_df)
  df.index = Daru::Index.new(index)
  df
end

#uniq(*vtrs) ⇒ Object

Return unique rows by vector specified or all vectors

Examples:

=> #<Daru::DataFrame(6x2)>
     a   b
 0   1   a
 1   2   b
 2   3   c
 3   4   d
 2   3   c
 3   4   f

2.3.3 :> df.unique
=> #<Daru::DataFrame(5x2)>
     a   b
 0   1   a
 1   2   b
 2   3   c
 3   4   d
 3   4   f

2.3.3 :> df.unique(:a)
=> #<Daru::DataFrame(5x2)>
     a   b
 0   1   a
 1   2   b
 2   3   c
 3   4   d

Parameters:

• vtrs (String) —

  Symbol

  vector names(s) that should be considered

# File 'lib/daru/dataframe.rb', line 739

def uniq(*vtrs)
  vecs = vtrs.empty? ? vectors.map(&:to_s) : Array(vtrs)
  grouped = group_by(vecs)
  indexes = grouped.groups.values.map { |v| v[0] }.sort
  row[*indexes]
end

#update ⇒ Object

Method for updating the metadata (i.e. missing value positions) of the after assingment/deletion etc. are complete. This is provided so that time is not wasted in creating the metadata for the vector each time assignment/deletion of elements is done. Updating data this way is called lazy loading. To set or unset lazy loading, see the .lazy_update= method.

# File 'lib/daru/dataframe.rb', line 2052

def update
  @data.each(&:update) if Daru.lazy_update
end

#vector_by_calculation(&block) ⇒ Object

DSL for yielding each row and returning a Daru::Vector based on the value each run of the block returns.

Usage

a1 = Daru::Vector.new([1, 2, 3, 4, 5, 6, 7])
a2 = Daru::Vector.new([10, 20, 30, 40, 50, 60, 70])
a3 = Daru::Vector.new([100, 200, 300, 400, 500, 600, 700])
ds = Daru::DataFrame.new({ :a => a1, :b => a2, :c => a3 })
total = ds.vector_by_calculation { a + b + c }
# <Daru::Vector:82314050 @name = nil @size = 7 >
#   nil
# 0 111
# 1 222
# 2 333
# 3 444
# 4 555
# 5 666
# 6 777

# File 'lib/daru/dataframe.rb', line 1156

def vector_by_calculation &block
  a = each_row.map { |r| r.instance_eval(&block) }

  Daru::Vector.new a, index: @index
end

#vector_count_characters(vecs = nil) ⇒ Object

# File 'lib/daru/dataframe.rb', line 1261

def vector_count_characters vecs=nil
  vecs ||= @vectors.to_a

  collect_rows do |row|
    vecs.map { |v| row[v].to_s.size }.inject(:+)
  end
end

#vector_mean(max_missing = 0) ⇒ Object

Calculate mean of the rows of the dataframe.

Arguments

• max_missing - The maximum number of elements in the row that can be

zero for the mean calculation to happen. Default to 0.

# File 'lib/daru/dataframe.rb', line 1417

def vector_mean max_missing=0
  # FIXME: in vector_sum we preserve created vector dtype, but
  # here we are not. Is this by design or ...? - zverok, 2016-05-18
  mean_vec = Daru::Vector.new [0]*@size, index: @index, name: "mean_#{@name}"

  each_row_with_index.each_with_object(mean_vec) do |(row, i), memo|
    memo[i] = row.indexes(*Daru::MISSING_VALUES).size > max_missing ? nil : row.mean
  end
end

#vector_sum(*args) ⇒ Object

Sum all numeric/specified vectors in the DataFrame.

Returns a new vector that’s a containing a sum of all numeric or specified vectors of the DataFrame. By default, if the vector contains a nil, the sum is nil. With :skipnil argument set to true, nil values are assumed to be 0 (zero) and the sum vector is returned.

Examples:

df = Daru::DataFrame.new({
   a: [1, 2, nil],
   b: [2, 1, 3],
   c: [1, 1, 1]
 })
=> #<Daru::DataFrame(3x3)>
       a   b   c
   0   1   2   1
   1   2   1   1
   2 nil   3   1
df.vector_sum [:a, :c]
=> #<Daru::Vector(3)>
   0   2
   1   3
   2 nil
df.vector_sum
=> #<Daru::Vector(3)>
   0   4
   1   4
   2 nil
df.vector_sum skipnil: true
=> #<Daru::Vector(3)>
       c
   0   4
   1   4
   2   4

Parameters:

• args (Array) —

  List of vectors to sum. Default is nil in which case all numeric vectors are summed.

• opts (Hash) —

  a customizable set of options

Returns:

• Vector with sum of all vectors specified in the argument. If vecs parameter is empty, sum all numeric vector.

# File 'lib/daru/dataframe.rb', line 1399

def vector_sum(*args)
  defaults = {vecs: nil, skipnil: false}
  options = args.last.is_a?(::Hash) ? args.pop : {}
  options = defaults.merge(options)
  vecs = args[0] || options[:vecs]
  skipnil = args[1] || options[:skipnil]

  vecs ||= numeric_vectors
  sum = Daru::Vector.new [0]*@size, index: @index, name: @name, dtype: @dtype
  vecs.inject(sum) { |memo, n| self[n].add(memo, skipnil: skipnil) }
end

#verify(*tests) ⇒ Object

Test each row with one or more tests. The function returns an array with all errors.

FIXME: description here is too sparse. As far as I can get, it should tell something about that each test is [descr, fields, block], and that first value may be column name to output. - zverok, 2016-05-18

Parameters:

• tests (Proc) —

  Each test is a Proc with the form *Proc.new {|row| row > 0}*

# File 'lib/daru/dataframe.rb', line 1128

def verify(*tests)
  id = tests.first.is_a?(Symbol) ? tests.shift : @vectors.first

  each_row_with_index.map do |row, i|
    tests.reject { |*_, block| block.call(row) }
         .map { |test| verify_error_message row, test, id, i }
  end.flatten
end

#where(bool_array) ⇒ Object

Query a DataFrame by passing a Daru::Core::Query::BoolArray object.

# File 'lib/daru/dataframe.rb', line 2164

def where bool_array
  Daru::Core::Query.df_where self, bool_array
end

#which(&block) ⇒ Object

a simple query DSL for accessing where(), inspired by gem “squeel” e.g.: df.which{ ‘FamilySize` == `FamilySize`.max } equals df.where( df.eq( df.max ) )

e.g.: df.which{ (‘NameTitle` == ’Dr’) & (‘Sex` == ’female’) } equals df.where( df.eq(‘Dr’) & df.eq(‘female’) )

# File 'lib/daru/extensions/which_dsl.rb', line 15

def which(&block)
  WhichQuery.new(self, &block).exec
end

#write_csv(filename, opts = {}) ⇒ Object

Write this DataFrame to a CSV file.

Arguements

• filename - Path of CSV file where the DataFrame is to be saved.

Options

• convert_comma - If set to true, will convert any commas in any

of the data to full stops (‘.’). All the options accepted by CSV.read() can also be passed into this function.

# File 'lib/daru/dataframe.rb', line 2076

def write_csv filename, opts={}
  Daru::IO.dataframe_write_csv self, filename, opts
end

#write_excel(filename, opts = {}) ⇒ Object

Write this dataframe to an Excel Spreadsheet

Arguments

• filename - The path of the file where the DataFrame should be written.

# File 'lib/daru/dataframe.rb', line 2085

def write_excel filename, opts={}
  Daru::IO.dataframe_write_excel self, filename, opts
end

#write_sql(dbh, table) ⇒ Object

Insert each case of the Dataset on the selected table

Arguments

• dbh - DBI database connection object.

• query - Query string.

Usage

ds = Daru::DataFrame.new({:id=>Daru::Vector.new([1,2,3]), :name=>Daru::Vector.new(["a","b","c"])})
dbh = DBI.connect("DBI:Mysql:database:localhost", "user", "password")
ds.write_sql(dbh,"test")

# File 'lib/daru/dataframe.rb', line 2101

def write_sql dbh, table
  Daru::IO.dataframe_write_sql self, dbh, table
end