# frozen_string_literal: true

require 'forwardable'
require 'cucumber/gherkin/data_table_parser'
require 'cucumber/gherkin/formatter/escaping'
require 'cucumber/multiline_argument/data_table/diff_matrices'

module Cucumber
  module MultilineArgument
    # Step Definitions that match a plain text Step with a multiline argument table
    # will receive it as an instance of Table. A Table object holds the data of a
    # table parsed from a feature file and lets you access and manipulate the data
    # in different ways.
    #
    # For example:
    #
    #   Given I have:
    #     | a | b |
    #     | c | d |
    #
    # And a matching StepDefinition:
    #
    #   Given /I have:/ do |table|
    #     data = table.raw
    #   end
    #
    # This will store <tt>[['a', 'b'], ['c', 'd']]</tt> in the <tt>data</tt> variable.
    #
    class DataTable
      def self.default_arg_name # :nodoc:
        'table'
      end

      def describe_to(visitor, *args)
        visitor.legacy_table(self, *args)
      end

      class << self
        def from(data)
          case data
          when Array
            from_array(data)
          when String
            parse(data)
          else
            raise ArgumentError, 'expected data to be a String or an Array.'
          end
        end

        private

        def parse(text)
          builder = Builder.new
          parser = Cucumber::Gherkin::DataTableParser.new(builder)
          parser.parse(text)
          from_array(builder.rows)
        end

        def from_array(data)
          new Core::Test::DataTable.new(data)
        end
      end

      class Builder
        attr_reader :rows

        def initialize
          @rows = []
        end

        def row(row)
          @rows << row
        end

        def eof; end
      end

      NULL_CONVERSIONS = Hash.new(strict: false, proc: ->(cell_value) { cell_value }).freeze

      # @param data [Core::Test::DataTable] the data for the table
      # @param conversion_procs [Hash] see map_column
      # @param header_mappings [Hash] see map_headers
      # @param header_conversion_proc [Proc] see map_headers
      def initialize(data, conversion_procs = NULL_CONVERSIONS.dup, header_mappings = {}, header_conversion_proc = nil)
        raise ArgumentError, 'data must be a Core::Test::DataTable' unless data.is_a? Core::Test::DataTable

        ast_table = data
        # Verify that it's square
        ast_table.transpose
        @cell_matrix = create_cell_matrix(ast_table)
        @conversion_procs = conversion_procs
        @header_mappings = header_mappings
        @header_conversion_proc = header_conversion_proc
        @ast_table = ast_table
      end

      def append_to(array)
        array << self
      end

      def to_step_definition_arg
        dup
      end

      attr_accessor :file

      def location
        @ast_table.location
      end

      # Returns a new, transposed table. Example:
      #
      #   | a | 7 | 4 |
      #   | b | 9 | 2 |
      #
      # Gets converted into the following:
      #
      #   | a | b |
      #   | 7 | 9 |
      #   | 4 | 2 |
      #
      def transpose
        self.class.new(Core::Test::DataTable.new(raw.transpose), @conversion_procs.dup, @header_mappings.dup, @header_conversion_proc)
      end

      # Converts this table into an Array of Hash where the keys of each
      # Hash are the headers in the table. For example, a Table built from
      # the following plain text:
      #
      #   | a | b | sum |
      #   | 2 | 3 | 5   |
      #   | 7 | 9 | 16  |
      #
      # Gets converted into the following:
      #
      #   [{'a' => '2', 'b' => '3', 'sum' => '5'}, {'a' => '7', 'b' => '9', 'sum' => '16'}]
      #
      # Use #map_column to specify how values in a column are converted.
      #
      def hashes
        @hashes ||= build_hashes
      end

      # Converts this table into an Array of Hashes where the keys are symbols.
      # For example, a Table built from the following plain text:
      #
      #   | foo | Bar | Foo Bar |
      #   | 2   | 3   | 5       |
      #   | 7   | 9   | 16      |
      #
      # Gets converted into the following:
      #
      #   [{:foo => '2', :bar => '3', :foo_bar => '5'}, {:foo => '7', :bar => '9', :foo_bar => '16'}]
      #
      def symbolic_hashes
        @symbolic_hashes ||=
          hashes.map do |string_hash|
            string_hash.transform_keys { |a| symbolize_key(a) }
          end
      end

      # Converts this table into a Hash where the first column is
      # used as keys and the second column is used as values
      #
      #   | a | 2 |
      #   | b | 3 |
      #
      # Gets converted into the following:
      #
      #   {'a' => '2', 'b' => '3'}
      #
      # The table must be exactly two columns wide
      #
      def rows_hash
        return @rows_hash if @rows_hash

        verify_table_width(2)
        @rows_hash = transpose.hashes[0]
      end

      # Gets the raw data of this table. For example, a Table built from
      # the following plain text:
      #
      #   | a | b |
      #   | c | d |
      #
      # gets converted into the following:
      #
      #   [['a', 'b'], ['c', 'd']]
      #
      def raw
        cell_matrix.map do |row|
          row.map(&:value)
        end
      end

      def column_names # :nodoc:
        @column_names ||= cell_matrix[0].map(&:value)
      end

      def rows
        hashes.map do |hash|
          hash.values_at *headers
        end
      end

      def each_cells_row(&proc) # :nodoc:
        cells_rows.each(&proc)
      end

      # Matches +pattern+ against the header row of the table.
      # This is used especially for argument transforms.
      #
      # Example:
      #  | column_1_name | column_2_name |
      #  | x             | y             |
      #
      #  table.match(/table:column_1_name,column_2_name/) #=> non-nil
      #
      # Note: must use 'table:' prefix on match
      def match(pattern)
        header_to_match = "table:#{headers.join(',')}"
        pattern.match(header_to_match)
      end

      # Returns a new Table where the headers are redefined.
      # This makes it possible to use
      # prettier and more flexible header names in the features.  The
      # keys of +mappings+ are Strings or regular expressions
      # (anything that responds to #=== will work) that may match
      # column headings in the table.  The values of +mappings+ are
      # desired names for the columns.
      #
      # Example:
      #
      #   | Phone Number | Address |
      #   | 123456       | xyz     |
      #   | 345678       | abc     |
      #
      # A StepDefinition receiving this table can then map the columns
      # with both Regexp and String:
      #
      #   table.map_headers(/phone( number)?/i => :phone, 'Address' => :address)
      #   table.hashes
      #   # => [{:phone => '123456', :address => 'xyz'}, {:phone => '345678', :address => 'abc'}]
      #
      # You may also pass in a block if you wish to convert all of the headers:
      #
      #   table.map_headers { |header| header.downcase }
      #   table.hashes.keys
      #   # => ['phone number', 'address']
      #
      # When a block is passed in along with a hash then the mappings in the hash take precendence:
      #
      #   table.map_headers('Address' => 'ADDRESS') { |header| header.downcase }
      #   table.hashes.keys
      #   # => ['phone number', 'ADDRESS']
      #
      def map_headers(mappings = {}, &block)
        self.class.new(Core::Test::DataTable.new(raw), @conversion_procs.dup, mappings, block)
      end

      # Returns a new Table with an additional column mapping.
      #
      # Change how #hashes converts column values. The +column_name+ argument identifies the column
      # and +conversion_proc+ performs the conversion for each cell in that column. If +strict+ is
      # true, an error will be raised if the column named +column_name+ is not found. If +strict+
      # is false, no error will be raised. Example:
      #
      #   Given /^an expense report for (.*) with the following posts:$/ do |table|
      #     posts_table = posts_table.map_column('amount') { |a| a.to_i }
      #     posts_table.hashes.each do |post|
      #       # post['amount'] is a Fixnum, rather than a String
      #     end
      #   end
      #
      def map_column(column_name, strict: true, &conversion_proc)
        conversion_procs = @conversion_procs.dup
        conversion_procs[column_name.to_s] = { strict: strict, proc: conversion_proc }
        self.class.new(Core::Test::DataTable.new(raw), conversion_procs, @header_mappings.dup, @header_conversion_proc)
      end

      # Compares +other_table+ to self. If +other_table+ contains columns
      # and/or rows that are not in self, new columns/rows are added at the
      # relevant positions, marking the cells in those rows/columns as
      # <tt>surplus</tt>. Likewise, if +other_table+ lacks columns and/or
      # rows that are present in self, these are marked as <tt>missing</tt>.
      #
      # <tt>surplus</tt> and <tt>missing</tt> cells are recognised by formatters
      # and displayed so that it's easy to read the differences.
      #
      # Cells that are different, but <em>look</em> identical (for example the
      # boolean true and the string "true") are converted to their Object#inspect
      # representation and preceded with (i) - to make it easier to identify
      # where the difference actually is.
      #
      # Since all tables that are passed to StepDefinitions always have String
      # objects in their cells, you may want to use #map_column before calling
      # #diff!. You can use #map_column on either of the tables.
      #
      # A Different error is raised if there are missing rows or columns, or
      # surplus rows. An error is <em>not</em> raised for surplus columns. An
      # error is <em>not</em> raised for misplaced (out of sequence) columns.
      # Whether to raise or not raise can be changed by setting values in
      # +options+ to true or false:
      #
      # * <tt>missing_row</tt> : Raise on missing rows (defaults to true)
      # * <tt>surplus_row</tt> : Raise on surplus rows (defaults to true)
      # * <tt>missing_col</tt> : Raise on missing columns (defaults to true)
      # * <tt>surplus_col</tt> : Raise on surplus columns (defaults to false)
      # * <tt>misplaced_col</tt> : Raise on misplaced columns (defaults to false)
      #
      # The +other_table+ argument can be another Table, an Array of Array or
      # an Array of Hash (similar to the structure returned by #hashes).
      #
      # Calling this method is particularly useful in <tt>Then</tt> steps that take
      # a Table argument, if you want to compare that table to some actual values.
      #
      def diff!(other_table, options = {})
        other_table = ensure_table(other_table)
        other_table.convert_headers!
        other_table.convert_columns!

        convert_headers!
        convert_columns!

        DiffMatrices.new(cell_matrix, other_table.cell_matrix, options).call
      end

      class Different < StandardError
        attr_reader :table

        def initialize(table)
          @table = table
          super("Tables were not identical:\n#{table}")
        end
      end

      def to_hash
        cells_rows.map { |cells| cells.map(&:value) }
      end

      def cells_to_hash(cells) # :nodoc:
        hash = Hash.new do |hash_inner, key|
          hash_inner[key.to_s] if key.is_a?(Symbol)
        end
        column_names.each_with_index do |column_name, column_index|
          hash[column_name] = cells.value(column_index)
        end
        hash
      end

      def index(cells) # :nodoc:
        cells_rows.index(cells)
      end

      def verify_column(column_name) # :nodoc:
        raise %(The column named "#{column_name}" does not exist) unless raw[0].include?(column_name)
      end

      def verify_table_width(width) # :nodoc:
        raise %(The table must have exactly #{width} columns) unless raw[0].size == width
      end

      # TODO: remove the below function if it's not actually being used.
      # Nothing else in this repo calls it.
      def text?(text) # :nodoc:
        raw.flatten.compact.detect { |cell_value| cell_value.index(text) }
      end

      def cells_rows # :nodoc:
        @rows ||= cell_matrix.map do |cell_row| # rubocop:disable Naming/MemoizedInstanceVariableName
          Cells.new(self, cell_row)
        end
      end

      def headers # :nodoc:
        raw.first
      end

      def header_cell(col) # :nodoc:
        cells_rows[0][col]
      end

      attr_reader :cell_matrix

      def col_width(col) # :nodoc:
        columns[col].__send__(:width)
      end

      def to_s(options = {}) # :nodoc:
        indentation = options.key?(:indent) ? options[:indent] : 2
        prefixes = options.key?(:prefixes) ? options[:prefixes] : TO_S_PREFIXES
        DataTablePrinter.new(self, indentation, prefixes).to_s
      end

      class DataTablePrinter # :nodoc:
        include Cucumber::Gherkin::Formatter::Escaping
        attr_reader :data_table, :indentation, :prefixes
        private :data_table, :indentation, :prefixes

        def initialize(data_table, indentation, prefixes)
          @data_table = data_table
          @indentation = indentation
          @prefixes = prefixes
        end

        def to_s
          leading_row = "\n"
          end_indentation = indentation - 2
          trailing_row = "\n#{' ' * end_indentation}"
          table_rows = data_table.cell_matrix.map { |row| format_row(row) }
          leading_row + table_rows.join("\n") + trailing_row
        end

        private

        def format_row(row)
          row_start = "#{' ' * indentation}| "
          row_end = '|'
          cells = row.map.with_index do |cell, i|
            format_cell(cell, data_table.col_width(i))
          end
          row_start + cells.join('| ') + row_end
        end

        def format_cell(cell, col_width)
          cell_text = escape_cell(cell.value.to_s)
          cell_text_width = cell_text.unpack('U*').length
          padded_text = cell_text + (' ' * (col_width - cell_text_width))
          prefix = prefixes[cell.status]
          "#{prefix}#{padded_text} "
        end
      end

      def columns # :nodoc:
        @columns ||= cell_matrix.transpose.map do |cell_row|
          Cells.new(self, cell_row)
        end
      end

      def to_json(*args)
        raw.to_json(*args)
      end

      TO_S_PREFIXES = Hash.new('    ')
      TO_S_PREFIXES[:comment]   = '(+) '
      TO_S_PREFIXES[:undefined] = '(-) '
      private_constant :TO_S_PREFIXES

      protected

      def build_hashes
        convert_headers!
        convert_columns!
        cells_rows[1..].map(&:to_hash)
      end

      def create_cell_matrix(ast_table) # :nodoc:
        ast_table.raw.map do |raw_row|
          line = begin
            raw_row.line
          rescue StandardError
            -1
          end
          raw_row.map do |raw_cell|
            Cell.new(raw_cell, self, line)
          end
        end
      end

      def convert_columns! # :nodoc:
        @conversion_procs.each do |column_name, conversion_proc|
          verify_column(column_name) if conversion_proc[:strict]
        end

        cell_matrix.transpose.each do |col|
          column_name = col[0].value
          conversion_proc = @conversion_procs[column_name][:proc]
          col[1..].each do |cell|
            cell.value = conversion_proc.call(cell.value)
          end
        end
      end

      def convert_headers! # :nodoc:
        header_cells = cell_matrix[0]

        if @header_conversion_proc
          header_values = header_cells.map(&:value) - @header_mappings.keys
          @header_mappings = @header_mappings.merge(Hash[*header_values.zip(header_values.map(&@header_conversion_proc)).flatten])
        end

        @header_mappings.each_pair do |pre, post|
          mapped_cells = header_cells.select { |cell| pre.is_a?(Regexp) ? cell.value.match?(pre) : cell.value == pre }
          raise "No headers matched #{pre.inspect}" if mapped_cells.empty?
          raise "#{mapped_cells.length} headers matched #{pre.inspect}: #{mapped_cells.map(&:value).inspect}" if mapped_cells.length > 1

          mapped_cells[0].value = post
          @conversion_procs[post] = @conversion_procs.delete(pre) if @conversion_procs.key?(pre)
        end
      end

      def clear_cache! # :nodoc:
        @hashes = @rows_hash = @column_names = @rows = @columns = nil
      end

      def ensure_table(table_or_array) # :nodoc:
        return table_or_array if table_or_array.instance_of?(DataTable)

        DataTable.from(table_or_array)
      end

      def symbolize_key(key)
        key.downcase.tr(' ', '_').to_sym
      end

      # Represents a row of cells or columns of cells
      class Cells # :nodoc:
        include Enumerable
        include Cucumber::Gherkin::Formatter::Escaping

        attr_reader :exception

        def initialize(table, cells)
          @table = table
          @cells = cells
        end

        def accept(visitor)
          return if Cucumber.wants_to_quit

          each do |cell|
            visitor.visit_table_cell(cell)
          end
          nil
        end

        # For testing only
        def to_sexp # :nodoc:
          [:row, line, *@cells.map(&:to_sexp)]
        end

        def to_hash # :nodoc:
          @to_hash ||= @table.cells_to_hash(self)
        end

        def value(n) # :nodoc:
          self[n].value
        end

        def [](n)
          @cells[n]
        end

        def line
          @cells[0].line
        end

        def dom_id
          "row_#{line}"
        end

        def each(&proc)
          @cells.each(&proc)
        end

        private

        def index
          @table.index(self)
        end

        def width
          map { |cell| cell.value ? escape_cell(cell.value.to_s).unpack('U*').length : 0 }.max
        end
      end

      class Cell # :nodoc:
        attr_reader :line, :table
        attr_accessor :status, :value

        def initialize(value, table, line)
          @value = value
          @table = table
          @line = line
        end

        def inspect!
          @value = "(i) #{value.inspect}"
        end

        def ==(other)
          other.class == SurplusCell || value == other.value
        end

        def eql?(other)
          self == other
        end

        def hash
          0
        end

        # For testing only
        def to_sexp # :nodoc:
          [:cell, @value]
        end
      end

      class SurplusCell < Cell # :nodoc:
        def status
          :comment
        end

        def ==(_other)
          true
        end

        def hash
          0
        end
      end
    end
  end
end