# The date_arithmetic extension adds the ability to perform database-independent # addition/substraction of intervals to/from dates and timestamps. # # First, you need to load the extension into the database: # # DB.extension :date_arithmetic # # Then you can use the Sequel.date_add and Sequel.date_sub methods # to return Sequel expressions: # # add = Sequel.date_add(:date_column, :years=>1, :months=>2, :days=>3) # sub = Sequel.date_sub(:date_column, :hours=>1, :minutes=>2, :seconds=>3) # # In addition to specifying the interval as a hash, there is also # support for specifying the interval as an ActiveSupport::Duration # object: # # require 'active_support/all' # add = Sequel.date_add(:date_column, 1.years + 2.months + 3.days) # sub = Sequel.date_sub(:date_column, 1.hours + 2.minutes + 3.seconds) # # These expressions can be used in your datasets, or anywhere else that # Sequel expressions are allowed: # # DB[:table].select(add.as(:d)).where(sub > Sequel::CURRENT_TIMESTAMP) module Sequel module SQL module Builders # Return a DateAdd expression, adding an interval to the date/timestamp expr. def date_add(expr, interval) DateAdd.new(expr, interval) end # Return a DateAdd expression, adding the negative of the interval to # the date/timestamp expr. def date_sub(expr, interval) interval = if interval.is_a?(Hash) h = {} interval.each{|k,v| h[k] = -v unless v.nil?} h else -interval end DateAdd.new(expr, interval) end end # The DateAdd class represents the addition of an interval to a # date/timestamp expression. class DateAdd < GenericExpression # These methods are added to datasets using the date_arithmetic # extension, for the purposes of correctly literalizing DateAdd # expressions for the appropriate database type. module DatasetMethods DURATION_UNITS = [:years, :months, :days, :hours, :minutes, :seconds].freeze DEF_DURATION_UNITS = DURATION_UNITS.zip(DURATION_UNITS.map{|s| s.to_s.freeze}).freeze MYSQL_DURATION_UNITS = DURATION_UNITS.zip(DURATION_UNITS.map{|s| Sequel.lit(s.to_s.upcase[0...-1]).freeze}).freeze MSSQL_DURATION_UNITS = DURATION_UNITS.zip(DURATION_UNITS.map{|s| Sequel.lit(s.to_s[0...-1]).freeze}).freeze H2_DURATION_UNITS = DURATION_UNITS.zip(DURATION_UNITS.map{|s| s.to_s[0...-1].freeze}).freeze DERBY_DURATION_UNITS = DURATION_UNITS.zip(DURATION_UNITS.map{|s| Sequel.lit("SQL_TSI_#{s.to_s.upcase[0...-1]}").freeze}).freeze ACCESS_DURATION_UNITS = DURATION_UNITS.zip(%w'yyyy m d h n s'.map{|s| s.freeze}).freeze DB2_DURATION_UNITS = DURATION_UNITS.zip(DURATION_UNITS.map{|s| Sequel.lit(s.to_s).freeze}).freeze # Append the SQL fragment for the DateAdd expression to the SQL query. def date_add_sql_append(sql, da) h = da.interval expr = da.expr cast = case db_type = db.database_type when :postgres interval = "" each_valid_interval_unit(h, DEF_DURATION_UNITS) do |value, sql_unit| interval << "#{value} #{sql_unit} " end if interval.empty? return literal_append(sql, Sequel.cast(expr, Time)) else return complex_expression_sql_append(sql, :+, [Sequel.cast(expr, Time), Sequel.cast(interval, :interval)]) end when :sqlite args = [expr] each_valid_interval_unit(h, DEF_DURATION_UNITS) do |value, sql_unit| args << "#{value} #{sql_unit}" end return _function_sql_append(sql, :datetime, args) when :mysql, :hsqldb, :cubrid if db_type == :hsqldb # HSQLDB requires 2.2.9+ for the DATE_ADD function expr = Sequel.cast(expr, Time) end each_valid_interval_unit(h, MYSQL_DURATION_UNITS) do |value, sql_unit| expr = Sequel.function(:DATE_ADD, expr, Sequel.lit(["INTERVAL ", " "], value, sql_unit)) end when :mssql, :h2, :access, :sqlanywhere units = case db_type when :mssql, :sqlanywhere MSSQL_DURATION_UNITS when :h2 H2_DURATION_UNITS when :access ACCESS_DURATION_UNITS end each_valid_interval_unit(h, units) do |value, sql_unit| expr = Sequel.function(:DATEADD, sql_unit, value, expr) end when :derby if expr.is_a?(Date) && !expr.is_a?(DateTime) # Work around for https://issues.apache.org/jira/browse/DERBY-896 expr = Sequel.cast_string(expr) + ' 00:00:00' end each_valid_interval_unit(h, DERBY_DURATION_UNITS) do |value, sql_unit| expr = Sequel.lit(["{fn timestampadd(#{sql_unit}, ", ", timestamp(", "))}"], value, expr) end when :oracle each_valid_interval_unit(h, MYSQL_DURATION_UNITS) do |value, sql_unit| expr = Sequel.+(expr, Sequel.lit(["INTERVAL ", " "], value.to_s, sql_unit)) end when :db2 expr = Sequel.cast(expr, Time) each_valid_interval_unit(h, DB2_DURATION_UNITS) do |value, sql_unit| expr = Sequel.+(expr, Sequel.lit(["", " "], value, sql_unit)) end false else raise Error, "date arithmetic is not implemented on #{db.database_type}" end if cast expr = Sequel.cast(expr, Time) end literal_append(sql, expr) end private # Yield the value in the interval for each of the units # present in the interval, along with the SQL fragment # representing the unit name. Returns false if any # values were yielded, true otherwise def each_valid_interval_unit(interval, units) cast = true units.each do |unit, sql_unit| if (value = interval[unit]) && value != 0 cast = false yield value, sql_unit end end cast end end # The expression that the interval is being added to. attr_reader :expr # The interval added to the expression, as a hash with # symbol keys. attr_reader :interval # Supports two types of intervals: # Hash :: Used directly, but values cannot be plain strings. # ActiveSupport::Duration :: Converted to a hash using the interval's parts. def initialize(expr, interval) @expr = expr @interval = if interval.is_a?(Hash) interval.each_value do |v| # Attempt to prevent SQL injection by users who pass untrusted strings # as interval values. if v.is_a?(String) && !v.is_a?(LiteralString) raise Sequel::InvalidValue, "cannot provide String value as interval part: #{v.inspect}" end end interval else h = Hash.new(0) interval.parts.each{|unit, value| h[unit] += value} {}.merge(h) end end to_s_method :date_add_sql end end Dataset.register_extension(:date_arithmetic, SQL::DateAdd::DatasetMethods) end