# frozen_string_literal: true module ActiveSupport module NumberHelper class NumberToRoundedConverter < NumberConverter # :nodoc: self.namespace = :precision self.validate_float = true def convert helper = RoundingHelper.new(options) rounded_number = helper.round(number) if precision = options[:precision] if options[:significant] && precision > 0 digits = helper.digit_count(rounded_number) precision -= digits precision = 0 if precision < 0 # don't let it be negative end formatted_string = if BigDecimal === rounded_number && rounded_number.finite? s = rounded_number.to_s("F") s << "0".freeze * precision a, b = s.split(".".freeze, 2) a << ".".freeze a << b[0, precision] else "%00.#{precision}f" % rounded_number end else formatted_string = rounded_number end delimited_number = NumberToDelimitedConverter.convert(formatted_string, options) format_number(delimited_number) end private def digits_and_rounded_number(precision) if zero? [1, 0] else digits = digit_count(number) multiplier = 10**(digits - precision) rounded_number = calculate_rounded_number(multiplier) digits = digit_count(rounded_number) # After rounding, the number of digits may have changed [digits, rounded_number] end end def calculate_rounded_number(multiplier) (number / BigDecimal.new(multiplier.to_f.to_s)).round * multiplier end def digit_count(number) number.zero? ? 1 : (Math.log10(absolute_number(number)) + 1).floor end def strip_insignificant_zeros options[:strip_insignificant_zeros] end def format_number(number) if strip_insignificant_zeros escaped_separator = Regexp.escape(options[:separator]) number.sub(/(#{escaped_separator})(\d*[1-9])?0+\z/, '\1\2').sub(/#{escaped_separator}\z/, "") else number end end end end end