Class: Preheating

Inherits:

OpenStudio::Measure::ModelMeasure

• Object
• OpenStudio::Measure::ModelMeasure
• Preheating

Defined in:

lib/measures/preheating/measure.rb

Instance Method Summary

• #arguments(model) ⇒ Object

  define the arguments that the user will input.

• #check_date_ranges_overlap(rule, adjust_start_date, adjust_end_date) ⇒ Object
• #checkDaysCovered(sch_rule, sch_day_covered) ⇒ Object
• #clone_rule_with_new_dayschedule(original_rule, new_rule_name) ⇒ Object
• #coverMissingDays(sch_rule, sch_day_covered) ⇒ Object
• #description ⇒ Object

  human readable description.

• #get_applied_dates_in_range(os_start_date, os_end_date, rule) ⇒ Object
• #merge_day_sch_with_min(day_schedule_left, day_schedule_right) ⇒ Object
• #modeler_description ⇒ Object

  human readable description of modeling approach.

• #modify_default_day_for_date_period(schedule_set, default_day, days_covered, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment, current_index, corresponding_cool_set, runner) ⇒ Object
• #modify_rule_for_date_period(original_rule, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment, applied_dow = nil, compared_day_sch = nil) ⇒ Object
• #modify_rule_for_specific_dates(original_rule, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment, applied_dates, compared_day_sch = nil) ⇒ Object
• #name ⇒ Object

  define the name that a user will see.

• #run(model, runner, user_arguments) ⇒ Object

  define what happens when the measure is run.

• #updateDaySchedule(sch_day, vec_time, vec_value, time_begin, time_end, adjustment) ⇒ Object
• #validate_date_format(start_date1, end_date1, runner, model) ⇒ Object
• #validate_time_format(star_time, end_time, runner) ⇒ Object
• #value_at_time(target_time, times, values) ⇒ Object

Instance Method Details

#arguments(model) ⇒ Object

define the arguments that the user will input

# File 'lib/measures/preheating/measure.rb', line 23

def arguments(model)
  args = OpenStudio::Measure::OSArgumentVector.new

  # make an argument for adjustment to cooling setpoint
  heating_adjustment = OpenStudio::Measure::OSArgument.makeDoubleArgument('heating_adjustment', true)
  heating_adjustment.setDisplayName('Degrees Fahrenheit to Adjust Heating Setpoint By')
  heating_adjustment.setDescription('Use positive value for increasing heating setpoint during preheating period')
  heating_adjustment.setDefaultValue(4.0)
  args << heating_adjustment

  start_date1 = OpenStudio::Ruleset::OSArgument.makeStringArgument('start_date1', true)
  start_date1.setDisplayName('First start date for preheating')
  start_date1.setDescription('In MM-DD format')
  start_date1.setDefaultValue('06-01')
  args << start_date1
  end_date1 = OpenStudio::Ruleset::OSArgument.makeStringArgument('end_date1', true)
  end_date1.setDisplayName('First end date for preheating')
  end_date1.setDescription('In MM-DD format')
  end_date1.setDefaultValue('09-30')
  args << end_date1

  start_date2 = OpenStudio::Ruleset::OSArgument.makeStringArgument('start_date2', false)
  start_date2.setDisplayName('Second start date for preheating (optional)')
  start_date2.setDescription('Specify a date in MM-DD format if you want a second season of preheating; leave blank if not needed.')
  start_date2.setDefaultValue('')
  args << start_date2
  end_date2 = OpenStudio::Ruleset::OSArgument.makeStringArgument('end_date2', false)
  end_date2.setDisplayName('Second end date for preheating')
  end_date2.setDescription('Specify a date in MM-DD format if you want a second season of preheating; leave blank if not needed. If either the start or end date is blank, the period is considered not used.')
  end_date2.setDefaultValue('')
  args << end_date2


  start_date3 = OpenStudio::Ruleset::OSArgument.makeStringArgument('start_date3', false)
  start_date3.setDisplayName('Third start date for preheating (optional)')
  start_date3.setDescription('Specify a date in MM-DD format if you want a third season of preheating; leave blank if not needed.')
  start_date3.setDefaultValue('')
  args << start_date3
  end_date3 = OpenStudio::Ruleset::OSArgument.makeStringArgument('end_date3', false)
  end_date3.setDisplayName('Third end date for preheating')
  end_date3.setDescription('Specify a date in MM-DD format if you want a third season of preheating; leave blank if not needed. If either the start or end date is blank, the period is considered not used.')
  end_date3.setDefaultValue('')
  args << end_date3

  start_date4 = OpenStudio::Ruleset::OSArgument.makeStringArgument('start_date4', false)
  start_date4.setDisplayName('Fourth start date for preheating (optional)')
  start_date4.setDescription('Specify a date in MM-DD format if you want a fourth season of preheating; leave blank if not needed.')
  start_date4.setDefaultValue('')
  args << start_date4
  end_date4 = OpenStudio::Ruleset::OSArgument.makeStringArgument('end_date4', false)
  end_date4.setDisplayName('Fourth end date for preheating')
  end_date4.setDescription('Specify a date in MM-DD format if you want a fourth season of preheating; leave blank if not needed. If either the start or end date is blank, the period is considered not used.')
  end_date4.setDefaultValue('')
  args << end_date4


  start_date5 = OpenStudio::Ruleset::OSArgument.makeStringArgument('start_date5', false)
  start_date5.setDisplayName('Fifth start date for preheating (optional)')
  start_date5.setDescription('Specify a date in MM-DD format if you want a fifth season of preheating; leave blank if not needed.')
  start_date5.setDefaultValue('')
  args << start_date5
  end_date5 = OpenStudio::Ruleset::OSArgument.makeStringArgument('end_date5', false)
  end_date5.setDisplayName('Fifth end date for preheating')
  end_date5.setDescription('Specify a date in MM-DD format if you want a fifth season of preheating; leave blank if not needed. If either the start or end date is blank, the period is considered not used.')
  end_date5.setDefaultValue('')
  args << end_date5

  start_time1 = OpenStudio::Measure::OSArgument.makeStringArgument('start_time1', true)
  start_time1.setDisplayName('Start time of preheating for the first season')
  start_time1.setDescription('In HH:MM:SS format')
  start_time1.setDefaultValue('17:00:00')
  args << start_time1
  end_time1 = OpenStudio::Measure::OSArgument.makeStringArgument('end_time1', true)
  end_time1.setDisplayName('End time of preheating for the first season')
  end_time1.setDescription('In HH:MM:SS format')
  end_time1.setDefaultValue('21:00:00')
  args << end_time1


  start_time2 = OpenStudio::Measure::OSArgument.makeStringArgument('start_time2', false)
  start_time2.setDisplayName('Start time of preheating for the second season (optional)')
  start_time2.setDescription('In HH:MM:SS format')
  start_time2.setDefaultValue('')
  args << start_time2
  end_time2 = OpenStudio::Measure::OSArgument.makeStringArgument('end_time2', false)
  end_time2.setDisplayName('End time of preheating for the second season (optional)')
  end_time2.setDescription('In HH:MM:SS format')
  end_time2.setDefaultValue('')
  args << end_time2


  start_time3 = OpenStudio::Measure::OSArgument.makeStringArgument('start_time3', false)
  start_time3.setDisplayName('Start time of preheating for the third season (optional)')
  start_time3.setDescription('In HH:MM:SS format')
  start_time3.setDefaultValue('')
  args << start_time3
  end_time3 = OpenStudio::Measure::OSArgument.makeStringArgument('end_time3', false)
  end_time3.setDisplayName('End time of preheating for the third season (optional)')
  end_time3.setDescription('In HH:MM:SS format')
  end_time3.setDefaultValue('')
  args << end_time3


  start_time4 = OpenStudio::Measure::OSArgument.makeStringArgument('start_time4', false)
  start_time4.setDisplayName('Start time of preheating for the fourth season (optional)')
  start_time4.setDescription('In HH:MM:SS format')
  start_time4.setDefaultValue('')
  args << start_time4
  end_time4 = OpenStudio::Measure::OSArgument.makeStringArgument('end_time4', false)
  end_time4.setDisplayName('End time of preheating for the fourth season (optional)')
  end_time4.setDescription('In HH:MM:SS format')
  end_time4.setDefaultValue('')
  args << end_time4


  start_time5 = OpenStudio::Measure::OSArgument.makeStringArgument('start_time5', false)
  start_time5.setDisplayName('Start time of preheating for the fifth season (optional)')
  start_time5.setDescription('In HH:MM:SS format')
  start_time5.setDefaultValue('')
  args << start_time5
  end_time5 = OpenStudio::Measure::OSArgument.makeStringArgument('end_time5', false)
  end_time5.setDisplayName('End time of preheating for the fifth season (optional)')
  end_time5.setDescription('In HH:MM:SS format')
  end_time5.setDefaultValue('')
  args << end_time5


  # Use alternative default start and end time for different climate zone
  alt_periods = OpenStudio::Measure::OSArgument.makeBoolArgument('alt_periods', true)
  alt_periods.setDisplayName('Use alternative default start and end time based on the state of the model from the Cambium load profile peak period?')
  alt_periods.setDescription('This will overwrite the start and end time and date provided by the user')
  alt_periods.setDefaultValue(false)
  args << alt_periods

  return args
end

#check_date_ranges_overlap(rule, adjust_start_date, adjust_end_date) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 876

def check_date_ranges_overlap(rule, adjust_start_date, adjust_end_date)
  ## check if the original rule applied DateRange overlaps with the adjustment date period
  overlapped = false
  new_start_dates = []
  new_end_dates = []
  if rule.endDate.get >= rule.startDate.get and rule.startDate.get <= adjust_end_date and rule.endDate.get >= adjust_start_date
    overlapped = true
    new_start_dates << [adjust_start_date, rule.startDate.get].max
    new_end_dates << [adjust_end_date, rule.endDate.get].min
  elsif rule.endDate.get < rule.startDate.get
    ## If the DateRange has a endDate < startDate, the range wraps around the year.
    if rule.endDate.get >= adjust_start_date
      overlapped = true
      new_start_dates << adjust_start_date
      new_end_dates << rule.endDate.get
    end
    if rule.startDate.get <= adjust_end_date
      overlapped = true
      new_start_dates << rule.startDate.get
      new_end_dates << adjust_end_date
    end
  end
  return overlapped, new_start_dates, new_end_dates
end

#checkDaysCovered(sch_rule, sch_day_covered) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 1114

def checkDaysCovered(sch_rule, sch_day_covered)
  if sch_rule.applySunday
    sch_day_covered[0] = true
  end
  if sch_rule.applyMonday
    sch_day_covered[1] = true
  end
  if sch_rule.applyTuesday
    sch_day_covered[2] = true
  end
  if sch_rule.applyWednesday
    sch_day_covered[3] = true
  end
  if sch_rule.applyThursday
    sch_day_covered[4] = true
  end
  if sch_rule.applyFriday
    sch_day_covered[5] = true
  end
  if sch_rule.applySaturday
    sch_day_covered[6] = true
  end
end

#clone_rule_with_new_dayschedule(original_rule, new_rule_name) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 901

def clone_rule_with_new_dayschedule(original_rule, new_rule_name)
  ## Cloning a scheduleRule will automatically clone the daySchedule associated with it, but it's a shallow copy,
  ## because the daySchedule is a resource that can be used by many scheduleRule
  ## Therefore, once the daySchedule is modified for the cloned scheduleRule, the original daySchedule is also changed
  ## Also, there's no function to assign a new daySchedule to the existing scheduleRule,
  ## so the only way to clone the scheduleRule but change the daySchedule is to construct a new scheduleRule with a daySchedule passed in
  ## and copy all other settings from the original scheduleRule
  rule_period = OpenStudio::Model::ScheduleRule.new(original_rule.scheduleRuleset, original_rule.daySchedule)
  rule_period.setName(new_rule_name)
  rule_period.setApplySunday(original_rule.applySunday)
  rule_period.setApplyMonday(original_rule.applyMonday)
  rule_period.setApplyTuesday(original_rule.applyTuesday)
  rule_period.setApplyWednesday(original_rule.applyWednesday)
  rule_period.setApplyThursday(original_rule.applyThursday)
  rule_period.setApplyFriday(original_rule.applyFriday)
  rule_period.setApplySaturday(original_rule.applySaturday)
  return rule_period
end

#coverMissingDays(sch_rule, sch_day_covered) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 1138

def coverMissingDays(sch_rule, sch_day_covered)
  if sch_day_covered[0] == false
    sch_rule.setApplySunday(true)
  end
  if sch_day_covered[1] == false
    sch_rule.setApplyMonday(true)
  end
  if sch_day_covered[2] == false
    sch_rule.setApplyTuesday(true)
  end
  if sch_day_covered[3] == false
    sch_rule.setApplyWednesday(true)
  end
  if sch_day_covered[4] == false
    sch_rule.setApplyThursday(true)
  end
  if sch_day_covered[5] == false
    sch_rule.setApplyFriday(true)
  end
  if sch_day_covered[6] == false
    sch_rule.setApplySaturday(true)
  end
end

#description ⇒ Object

human readable description

# File 'lib/measures/preheating/measure.rb', line 15

def description
  return "This measure adjusts heating schedules by a user specified number of degrees for the specified time period of a day. User can also specify the start and end date for the adjustment. This is applied throughout the entire building."
end

#get_applied_dates_in_range(os_start_date, os_end_date, rule) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 833

def get_applied_dates_in_range(os_start_date, os_end_date, rule)
  total_dates = (os_end_date - os_start_date).totalDays.to_i
  dates_vector = (0..total_dates).map{|delta| os_start_date + OpenStudio::Time.new(delta)}
  apply_flag = rule.containsDates(dates_vector)
  rule_applied_dates = dates_vector.select.with_index { |value, index| apply_flag[index] }
  return rule_applied_dates
end

#merge_day_sch_with_min(day_schedule_left, day_schedule_right) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 841

def merge_day_sch_with_min(day_schedule_left, day_schedule_right)

  def value_at_time(target_time, times, values)
    times.each_with_index do |until_time, index|
      if target_time <= until_time
        return values[index] # Return the corresponding value for the interval
      end
    end
  end
  combined_times = (day_schedule_left.times+day_schedule_right.times).map(&:toString).uniq.sort.map {|str_time| OpenStudio::Time.new(str_time)}
  original_day_times = day_schedule_left.times
  original_day_values = day_schedule_left.values
  # new_day_schedule = OpenStudio::Model::ScheduleDay.new(model)

  day_schedule_left.clearValues
  updated_times, updated_values = [], []
  combined_times.each do |time|
    # Get the current value from each series
    value_left = value_at_time(time, original_day_times, original_day_values)
    value_right = value_at_time(time, day_schedule_right.times, day_schedule_right.values)

    # Calculate the maximum value at this time
    max_value = [value_left, value_right].min
    updated_times << time
    updated_values << max_value
  end
  # Add to result only if the value changes to avoid redundant values
  updated_values.each_with_index do |entry, index|
    if index == updated_values.size || entry != updated_values[index + 1]
      day_schedule_left.addValue(updated_times[index], entry)
    end
  end
  return day_schedule_left
end

#modeler_description ⇒ Object

human readable description of modeling approach

# File 'lib/measures/preheating/measure.rb', line 19

def modeler_description
  return "This measure will clone all of the schedules that are used as heating setpoints for thermal zones. The clones are hooked up to the thermostat in place of the original schedules. Then the schedules are adjusted by the specified values. HVAC operation schedule will also be changed. "
end

#modify_default_day_for_date_period(schedule_set, default_day, days_covered, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment, current_index, corresponding_cool_set, runner) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 979

def modify_default_day_for_date_period(schedule_set, default_day, days_covered, os_start_date, os_end_date,
                                       shift_time_start, shift_time_end, adjustment, current_index,
                                       corresponding_cool_set, runner)
  # the new rule created for the ScheduleRuleSet by default has the highest priority (ruleIndex=0)
  new_default_rule = OpenStudio::Model::ScheduleRule.new(schedule_set, default_day)
  new_default_rule.setName("#{schedule_set.name.to_s} default day with DF for #{os_start_date.to_s} to #{os_end_date.to_s}")
  new_default_rule.setStartDate(os_start_date)
  new_default_rule.setEndDate(os_end_date)
  coverMissingDays(new_default_rule, days_covered)
  # days_of_week = ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"]
  # days_of_week.select.with_index { |value, index| !days_covered[index] }
  if corresponding_cool_set.nil?
    runner.registerInfo("==== Before, heating schedule: #{default_day.times.map(&:to_s)}, #{default_day.values}")
    runner.registerInfo("             NO PAIRED COOLING SCHEDULE!")
    new_default_day = new_default_rule.daySchedule
    day_time_vector = new_default_day.times
    day_value_vector = new_default_day.values
    new_default_day.clearValues
    updateDaySchedule(new_default_day, day_time_vector, day_value_vector, shift_time_start, shift_time_end, adjustment)
    runner.registerInfo("The default rule is created:")
    runner.registerInfo("#{new_default_day.times.map(&:to_s)}, #{new_default_day.values}")
  else
    heat_sch_applied_dates = get_applied_dates_in_range(os_start_date, os_end_date, new_default_rule)
    cool_day_mapping = {}
    day_of_week_mapping = {}
    heat_sch_applied_dates.each do |date|
      corresponding_cool_day = corresponding_cool_set.getDaySchedules(date, date)[0]
      if cool_day_mapping.key?(corresponding_cool_day.name.to_s)
        cool_day_mapping[corresponding_cool_day.name.to_s]["dates"] << date
      else
        cool_day_mapping[corresponding_cool_day.name.to_s] = {"cool_day_schedule" => corresponding_cool_day, "dates" => [date]}
      end
      if day_of_week_mapping.key?date.dayOfWeek.valueName
        day_of_week_mapping[date.dayOfWeek.valueName] << date
      else
        day_of_week_mapping[date.dayOfWeek.valueName] = [date]
      end
    end
    if cool_day_mapping.size == 1
      cool_day = cool_day_mapping.values.first["cool_day_schedule"]
      runner.registerInfo("==== Before, cooling schedule: #{cool_day.times.map(&:to_s)}, #{cool_day.values}")
      runner.registerInfo("             heating schedule: #{default_day.times.map(&:to_s)}, #{default_day.values}")
      new_default_day = new_default_rule.daySchedule
      day_time_vector = new_default_day.times
      day_value_vector = new_default_day.values
      new_default_day.clearValues
      updateDaySchedule(new_default_day, day_time_vector, day_value_vector, shift_time_start, shift_time_end, adjustment)
      merge_day_sch_with_min(new_default_day, cool_day)
      runner.registerInfo("The default rule is created:")
      runner.registerInfo("#{new_default_day.times.map(&:to_s)}, #{new_default_day.values}")
    else
      cool_day_mapping.each do |schedule_day_name, day_info|
        cool_day = day_info["cool_day_schedule"]
        runner.registerInfo("==== Before, heating schedule: #{cool_day.times.map(&:to_s)}, #{cool_day.values}")
        runner.registerInfo("             cooling schedule: #{default_day.times.map(&:to_s)}, #{default_day.values}")
        applied_day_of_week = []
        cool_sch_dates = day_info["dates"].map(&:to_s)
        day_of_week_mapping.each do |day_of_week, dates|
          week_day_dates = dates.map(&:to_s)
          if (week_day_dates - cool_sch_dates).empty?
            applied_day_of_week << day_of_week
            cool_sch_dates -= week_day_dates
            if cool_sch_dates.empty?
              break
            end
          end
        end
        unless applied_day_of_week.empty?
          new_default_rule_dow = modify_rule_for_date_period(new_default_rule, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment,
                                                             applied_dow=applied_day_of_week, compared_day_sch=cool_day)
          runner.registerInfo("A new rule is created for #{applied_day_of_week}:")
          runner.registerInfo("#{new_default_rule_dow.daySchedule.times.map(&:to_s)}, #{new_default_rule_dow.daySchedule.values}")
          schedule_set.setScheduleRuleIndex(new_default_rule_dow, current_index)
          current_index += 1
          runner.registerInfo("======== The rule #{new_default_rule_dow.name.to_s} is added as priority #{current_index}")

        end

        unless cool_sch_dates.empty?
          left_os_dates = cool_sch_dates.map {|str_date| OpenStudio::Date.new(str_date)}
          runner.registerInfo("Cooling sch #{schedule_day_name} still covers other days. These days will be added as a rule for specific dates.")
          new_default_rule_specific_dates = modify_rule_for_specific_dates(new_default_rule, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                                                           adjustment, left_os_dates, compared_day_sch=cool_day)
          runner.registerInfo("A new rule is created for specific dates:")
          runner.registerInfo("#{new_default_rule_specific_dates.daySchedule.times.map(&:to_s)}, #{new_default_rule_specific_dates.daySchedule.values}")
          schedule_set.setScheduleRuleIndex(new_default_rule_specific_dates, current_index)
          current_index += 1
          runner.registerInfo("======== The rule #{new_default_rule_specific_dates.name.to_s} is added as priority #{current_index}")
        end
      end
      new_default_rule.remove
    end
  end

  # TODO: if the scheduleRuleSet has holidaySchedule (which is a ScheduleDay), it cannot be altered
end

#modify_rule_for_date_period(original_rule, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment, applied_dow = nil, compared_day_sch = nil) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 920

def modify_rule_for_date_period(original_rule, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                adjustment, applied_dow=nil, compared_day_sch=nil)
  # The cloned scheduleRule will automatically belongs to the originally scheduleRuleSet
  # rule_period = original_rule.clone(model).to_ScheduleRule.get
  # rule_period.daySchedule = original_rule.daySchedule.clone(model)
  new_rule_name = "#{original_rule.name.to_s} with DF for #{os_start_date.to_s} to #{os_end_date.to_s}"
  rule_period = clone_rule_with_new_dayschedule(original_rule, new_rule_name)
  ## if applied_dow is nil, do not change the original applied day of week
  ## Otherwise, overwrite if the rule is applied to a certain day of week
  unless applied_dow.nil?
    rule_period.setApplySunday(applied_dow.include?"Sunday")
    rule_period.setApplyMonday(applied_dow.include?"Monday")
    rule_period.setApplyTuesday(applied_dow.include?"Tuesday")
    rule_period.setApplyWednesday(applied_dow.include?"Wednesday")
    rule_period.setApplyThursday(applied_dow.include?"Monday")
    rule_period.setApplyFriday(applied_dow.include?"Friday")
    rule_period.setApplySaturday(applied_dow.include?"Saturday")
  end
  day_rule_period = rule_period.daySchedule
  day_time_vector = day_rule_period.times
  day_value_vector = day_rule_period.values
  if day_time_vector.empty?
    return false
  end
  day_rule_period.clearValues
  updateDaySchedule(day_rule_period, day_time_vector, day_value_vector, shift_time_start, shift_time_end, adjustment)
  unless compared_day_sch.nil?
    merge_day_sch_with_min(day_rule_period, compared_day_sch)
  end
  if rule_period
    rule_period.setStartDate(os_start_date)
    rule_period.setEndDate(os_end_date)
  end
  return rule_period
end

#modify_rule_for_specific_dates(original_rule, os_start_date, os_end_date, shift_time_start, shift_time_end, adjustment, applied_dates, compared_day_sch = nil) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 956

def modify_rule_for_specific_dates(original_rule, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                   adjustment, applied_dates, compared_day_sch = nil)
  new_rule_name = "#{original_rule.name.to_s} with DF for #{os_start_date.to_s} to #{os_end_date.to_s}"
  rule_period = clone_rule_with_new_dayschedule(original_rule, new_rule_name)
  day_rule_period = rule_period.daySchedule
  day_time_vector = day_rule_period.times
  day_value_vector = day_rule_period.values
  if day_time_vector.empty?
    return false
  end
  day_rule_period.clearValues
  updateDaySchedule(day_rule_period, day_time_vector, day_value_vector, shift_time_start, shift_time_end, adjustment)
  unless compared_day_sch.nil?
    merge_day_sch_with_min(day_rule_period, compared_day_sch)
  end
  if rule_period
    applied_dates.each do |date|
      rule_period.addSpecificDate(date)
    end
  end
  return rule_period
end

#name ⇒ Object

define the name that a user will see

# File 'lib/measures/preheating/measure.rb', line 11

def name
  return "Preheating"
end

#run(model, runner, user_arguments) ⇒ Object

define what happens when the measure is run

# File 'lib/measures/preheating/measure.rb', line 161

def run(model, runner, user_arguments)
  super(model, runner, user_arguments)

  # use the built-in error checking
  if !runner.validateUserArguments(arguments(model), user_arguments)
    return false
  end

  # assign the user inputs to variables
  heating_adjustment = runner.getDoubleArgumentValue('heating_adjustment', user_arguments)
  start_time1 = runner.getStringArgumentValue('start_time1', user_arguments)
  end_time1 = runner.getStringArgumentValue('end_time1', user_arguments)
  start_time2 = runner.getStringArgumentValue('start_time2', user_arguments)
  end_time2 = runner.getStringArgumentValue('end_time2', user_arguments)
  start_time3 = runner.getStringArgumentValue('start_time3', user_arguments)
  end_time3 = runner.getStringArgumentValue('end_time3', user_arguments)
  start_time4 = runner.getStringArgumentValue('start_time4', user_arguments)
  end_time4 = runner.getStringArgumentValue('end_time4', user_arguments)
  start_time5 = runner.getStringArgumentValue('start_time5', user_arguments)
  end_time5 = runner.getStringArgumentValue('end_time5', user_arguments)
  start_date1 = runner.getStringArgumentValue('start_date1', user_arguments)
  end_date1 = runner.getStringArgumentValue('end_date1', user_arguments)
  start_date2 = runner.getStringArgumentValue('start_date2', user_arguments)
  end_date2 = runner.getStringArgumentValue('end_date2', user_arguments)
  start_date3 = runner.getStringArgumentValue('start_date3', user_arguments)
  end_date3 = runner.getStringArgumentValue('end_date3', user_arguments)
  start_date4 = runner.getStringArgumentValue('start_date4', user_arguments)
  end_date4 = runner.getStringArgumentValue('end_date4', user_arguments)
  start_date5 = runner.getStringArgumentValue('start_date5', user_arguments)
  end_date5 = runner.getStringArgumentValue('end_date5', user_arguments)
  alt_periods = runner.getBoolArgumentValue('alt_periods', user_arguments)

  if alt_periods
    state = model.getWeatherFile.stateProvinceRegion
    if state == ''
      runner.registerError('Unable to find state in model WeatherFile. The measure cannot be applied.')
      return false
    end
    file = File.open(File.join(File.dirname(__FILE__), "../../../files/seasonal_shifting_take_hours.json"))
    default_peak_periods = JSON.load(file)
    file.close
    unless default_peak_periods.key?state
      runner.registerAsNotApplicable("No default inputs for the state of the WeatherFile #{state}")
      return false
    end
    peak_periods = default_peak_periods[state]
    start_time1 = peak_periods["winter_take_start"].split[1]
    end_time1 = peak_periods["winter_take_end"].split[1]
    start_time2 = peak_periods["intermediate_take_start"].split[1]
    end_time2 = peak_periods["intermediate_take_end"].split[1]
    start_time3 = peak_periods["summer_take_start"].split[1]
    end_time3 = peak_periods["summer_take_end"].split[1]
    start_time4 = peak_periods["intermediate_take_start"].split[1]
    end_time4 = peak_periods["intermediate_take_end"].split[1]
    start_time5 = peak_periods["winter_take_start"].split[1]
    end_time5 = peak_periods["winter_take_end"].split[1]
    start_date1 = '01-01'
    end_date1 = '03-31'
    start_date2 = '04-01'
    end_date2 = '05-31'
    start_date3 = '06-01'
    end_date3 = '09-30'
    start_date4 = '10-01'
    end_date4 = '11-30'
    start_date5 = '12-01'
    end_date5 = '12-31'
  end

  def validate_time_format(star_time, end_time, runner)
    time1 = /(\d\d):(\d\d):(\d\d)/.match(star_time)
    time2 = /(\d\d):(\d\d):(\d\d)/.match(end_time)
    if time1 and time2
      os_starttime = OpenStudio::Time.new(star_time)
      os_endtime = OpenStudio::Time.new(end_time)
      if star_time >= end_time
        runner.registerError('The start time needs to be earlier than the end time.')
        return false
      else
        return os_starttime, os_endtime
      end
    else
      runner.registerError('The provided time is not in HH-MM-SS format.')
      return false
    end
  end

  def validate_date_format(start_date1, end_date1, runner, model)
    smd = /(\d\d)-(\d\d)/.match(start_date1)
    emd = /(\d\d)-(\d\d)/.match(end_date1)
    if smd.nil? or emd.nil?
      runner.registerError('The provided date is not in MM-DD format.')
      return false
    else
      start_month = smd[1].to_i
      start_day = smd[2].to_i
      end_month = emd[1].to_i
      end_day = emd[2].to_i
      if start_date1 > end_date1
        runner.registerError('The start date cannot be later date the end time.')
        return false
      else
        # os_start_date = OpenStudio::Date.new(OpenStudio::MonthOfYear.new(start_month), start_day)
        # os_end_date = OpenStudio::Date.new(OpenStudio::MonthOfYear.new(end_month), end_day)
        os_start_date = model.getYearDescription.makeDate(start_month, start_day)
        os_end_date = model.getYearDescription.makeDate(end_month, end_day)
        return os_start_date, os_end_date
      end
    end
  end

  # First time period
  time_result1 = validate_time_format(start_time1, end_time1, runner)
  if time_result1
    shift_time_start1, shift_time_end1 = time_result1
  else
    runner.registerError('The required time period for the reduction is not in correct format!')
    return false
  end
  # The other optional time periods
  shift_time_start2,shift_time_end2,shift_time_start3,shift_time_end3,shift_time_start4,shift_time_end4,shift_time_start5,shift_time_end5 = [nil]*8
  if (not start_time2.empty?) and (not end_time2.empty?)
    time_result2 = validate_time_format(start_time2, end_time2, runner)
    if time_result2
      shift_time_start2, shift_time_end2 = time_result2
    end
  end
  if (not start_time3.empty?) and (not end_time3.empty?)
    time_result3 = validate_time_format(start_time3, end_time3, runner)
    if time_result3
      shift_time_start3, shift_time_end3 = time_result3
    end
  end
  if (not start_time4.empty?) and (not end_time4.empty?)
    time_result4 = validate_time_format(start_time4, end_time4, runner)
    if time_result4
      shift_time_start4, shift_time_end4 = time_result4
    end
  end
  if (not start_time5.empty?) and (not end_time5.empty?)
    time_result5 = validate_time_format(start_time5, end_time5, runner)
    if time_result5
      shift_time_start5, shift_time_end5 = time_result5
    end
  end

  # First date period
  date_result1 = validate_date_format(start_date1, end_date1, runner, model)
  if date_result1
    os_start_date1, os_end_date1 = date_result1
  else
    runner.registerError('The required date period for the reduction is not in correct format!')
    return false
  end
  # Other optional date period
  os_start_date2, os_end_date2, os_start_date3, os_end_date3, os_start_date4, os_end_date4, os_start_date5, os_end_date5 = [nil]*8
  if (not start_date2.empty?) and (not end_date2.empty?)
    date_result2 = validate_date_format(start_date2, end_date2, runner, model)
    if date_result2
      os_start_date2, os_end_date2 = date_result2
    end
  end

  if (not start_date3.empty?) and (not end_date3.empty?)
    date_result3 = validate_date_format(start_date3, end_date3, runner, model)
    if date_result3
      os_start_date3, os_end_date3 = date_result3
    end
  end

  if (not start_date4.empty?) and (not end_date4.empty?)
    date_result4 = validate_date_format(start_date4, end_date4, runner, model)
    if date_result4
      os_start_date4, os_end_date4 = date_result4
    end
  end

  if (not start_date5.empty?) and (not end_date5.empty?)
    date_result5 = validate_date_format(start_date5, end_date5, runner, model)
    if date_result5
      os_start_date5, os_end_date5 = date_result5
    end
  end


  if heating_adjustment < 0
    runner.registerWarning('Lowering heating setpoint will not do pre-heating.')
  elsif heating_adjustment.abs > 500
    runner.registerError("Adjustment #{heating_adjustment} is too large to be correct. Please double check your input")
    return false
  elsif heating_adjustment.abs > 50
    runner.registerWarning("Adjustment #{heating_adjustment} is larger than typical setpoint adjustment. Please double check your input")
  end

  # setup OpenStudio units that we will need
  # temperature_ip_unit = OpenStudio.createUnit('F').get
  # temperature_si_unit = OpenStudio.createUnit('C').get
  # define starting units
  # heating_adjustment_ip = OpenStudio::Quantity.new(heating_adjustment, temperature_ip_unit)
  heating_adjustment_si = heating_adjustment*5/9

  # update the availability schedule
  # air_loop_avail_schs = {}
  # air_loops = model.getAirLoopHVACs
  # air_loops.each do |air_loop|
  #   avail_sch = air_loop.availabilitySchedule
  #
  #   if air_loop_avail_schs.key?(avail_sch.name.to_s)
  #     new_avail_sch = air_loop_avail_schs[avail_sch.name.to_s]
  #   else
  #     new_avail_sch = avail_sch.clone(model).to_Schedule.get
  #     new_avail_sch.setName("#{avail_sch.name.to_s} adjusted")
  #     # add to the hash
  #     air_loop_avail_schs[avail_sch.name.to_s] = new_avail_sch
  #   end
  #   air_loop.setAvailabilitySchedule(new_avail_sch)
  #
  # end
  #
  # air_loop_avail_schs.each do |sch_name, air_loop_sch|
  #   runner.registerInfo("Air Loop Schedule #{sch_name}:")
  #   if air_loop_sch.to_ScheduleRuleset.empty?
  #     runner.registerWarning("Schedule #{sch_name} isn't a ScheduleRuleset object and won't be altered by this measure.")
  #     air_loop_sch.remove # remove un-used clone
  #   else
  #     schedule = air_loop_sch.to_ScheduleRuleset.get
  #     default_rule = schedule.defaultDaySchedule
  #     rules = schedule.scheduleRules
  #     days_covered = Array.new(7, false)
  #
  #     rules.each do |rule|
  #       winter_avail_rule1 = copy_sch_rule_for_period(model, rule, rule.daySchedule, winterStartDate1, winterEndDate1)
  #       winter_avail_rule2 = copy_sch_rule_for_period(model, rule, rule.daySchedule, winterStartDate2, winterEndDate2)
  #       runner.registerInfo("    ------------ time: #{rule.daySchedule.times.map {|os_time| os_time.toString}}")
  #       runner.registerInfo("    ------------ values: #{rule.daySchedule.values}")
  #       summer_avail_rule = rule.clone(model).to_ScheduleRule.get
  #       summer_avail_rule.setStartDate(summerStartDate)
  #       summer_avail_rule.setEndDate(summerEndDate)
  #
  #       checkDaysCovered(summer_avail_rule, days_covered)
  #
  #       summer_avail_day = summer_avail_rule.daySchedule
  #       day_time_vector = summer_avail_day.times
  #       day_value_vector = summer_avail_day.values
  #       summer_avail_day.clearValues
  #
  #       summer_avail_day = updateAvailDaySchedule(summer_avail_day, day_time_vector, day_value_vector, shift_time1, shift_time2)
  #       runner.registerInfo("    ------------ updated time: #{summer_avail_day.times.map {|os_time| os_time.toString}}")
  #       runner.registerInfo("    ------------ uodated values: #{summer_avail_day.values}")
  #
  #     end
  #
  #     if days_covered.include?(false)
  #
  #       winter_rule1 = create_sch_rule_from_default(model, schedule, default_rule, winterStartDate1, winterEndDate1)
  #       winter_rule2 = create_sch_rule_from_default(model, schedule, default_rule, winterStartDate2, winterEndDate2)
  #
  #       coverMissingDays(winter_rule1, days_covered)
  #       checkDaysCovered(winter_rule1, days_covered)
  #
  #       summer_rule = copy_sch_rule_for_period(model, winter_rule1, default_rule, summerStartDate, summerEndDate)
  #
  #       summer_day = summer_rule.daySchedule
  #       day_time_vector = summer_day.times
  #       day_value_vector = summer_day.values
  #       summer_day.clearValues
  #
  #       summer_day = updateAvailDaySchedule(summer_day, day_time_vector, day_value_vector, shift_time1, shift_time2)
  #
  #     end
  #   end
  # end


  ## push schedules to hash to avoid making unnecessary duplicates
  ## one heating schedule set can correspond to multiple different cooling schedule set
  ## each unique pair would be cloned into a new heating schedule set because of the potential deadband conflict
  sch_set_mapping = {}
  ## sch_set_mapping = {old_heat_sch_name: {corresponding_cool_sch_handle1: [cloned_heat_sch1, corresponding_cool_sch1],
  ##                                       corresponding_cool_sch_handle2: [cloned_heat_sch2, corresponding_cool_sch2]} }
  thermostats = model.getThermostatSetpointDualSetpoints
  thermostats.each do |thermostat|
    ## setup new cooling setpoint schedule
    htg_set_sch = thermostat.heatingSetpointTemperatureSchedule
    clg_set_sch = thermostat.coolingSetpointTemperatureSchedule
    if htg_set_sch.empty?
      runner.registerWarning("Thermostat '#{thermostat.name}' doesn't have a heating setpoint schedule")
    else
      old_htg_schedule = htg_set_sch.get
      old_schedule_name = old_htg_schedule.name.to_s
      if old_htg_schedule.to_ScheduleRuleset.is_initialized
        if sch_set_mapping.key?(old_schedule_name)
          if clg_set_sch.empty? || clg_set_sch.get.to_ScheduleRuleset.empty?
            if sch_set_mapping[old_schedule_name].key?"nil"
              new_htg_set_sch = sch_set_mapping[old_schedule_name]["nil"][0]
            else
              new_htg_set_sch = old_htg_schedule.clone(model).to_Schedule.get
              n_new_heat_sch = sch_set_mapping[old_schedule_name].size
              new_htg_set_sch.setName("#{old_schedule_name} adjusted by #{heating_adjustment}F_#{n_new_heat_sch}")
              sch_set_mapping[old_schedule_name]["nil"] = [new_htg_set_sch, nil]
            end
          else
            clg_sch_handle = clg_set_sch.get.handle.to_s
            if sch_set_mapping[old_schedule_name].key?clg_sch_handle
              new_htg_set_sch = sch_set_mapping[old_schedule_name][clg_sch_handle][0]
            else
              new_htg_set_sch = old_htg_schedule.clone(model).to_Schedule.get
              n_new_heat_sch = sch_set_mapping[old_schedule_name].size
              new_htg_set_sch.setName("#{old_schedule_name} adjusted by #{heating_adjustment}F_#{n_new_heat_sch}")
              sch_set_mapping[old_schedule_name][clg_sch_handle] = [new_htg_set_sch, clg_set_sch.get]
            end
          end
        else
          new_htg_set_sch = old_htg_schedule.clone(model).to_Schedule.get
          new_htg_set_sch.setName("#{old_schedule_name} adjusted by #{heating_adjustment}F")
          if clg_set_sch.is_initialized
            sch_set_mapping[old_schedule_name] = {clg_set_sch.get.handle.to_s => [new_htg_set_sch, clg_set_sch.get]}
          else
            sch_set_mapping[old_schedule_name] = {"nil" => [new_htg_set_sch, nil]}
          end
        end
        ## hook up clone to thermostat
        thermostat.setHeatingSetpointTemperatureSchedule(new_htg_set_sch)
      else
        runner.registerWarning("Schedule '#{old_schedule_name}' isn't a ScheduleRuleset object and won't be altered by this measure.")
      end
    end
  end
  sch_set_mapping.each do |old_sch_name, new_sch_hash|
    runner.registerInfo("The original heating schedule ruleset #{old_sch_name} is paired with #{new_sch_hash.size} unique cooling schedules, so it will be cloned as #{new_sch_hash.size} new schedules")
  end

  ## consider issuing a warning if the model has un-conditioned thermal zones (no ideal air loads or hvac)
  zones = model.getThermalZones
  zones.each do |zone|
    ## if you have a thermostat but don't have ideal air loads or zone equipment then issue a warning
    if !zone.thermostatSetpointDualSetpoint.empty? && !zone.useIdealAirLoads && (zone.equipment.size <= 0)
      runner.registerWarning("Thermal zone '#{zone.name}' has a thermostat but does not appear to be conditioned.")
    end
  end

  heating_adjust_period_inputs = { "period1" => {"date_start"=>os_start_date1, "date_end"=>os_end_date1,
                                                 "time_start"=>shift_time_start1, "time_end"=>shift_time_end1},
                                   "period2" => {"date_start"=>os_start_date2, "date_end"=>os_end_date2,
                                                 "time_start"=>shift_time_start2, "time_end"=>shift_time_end2},
                                   "period3" => {"date_start"=>os_start_date3, "date_end"=>os_end_date3,
                                                 "time_start"=>shift_time_start3, "time_end"=>shift_time_end3},
                                   "period4" => {"date_start"=>os_start_date4, "date_end"=>os_end_date4,
                                                 "time_start"=>shift_time_start4, "time_end"=>shift_time_end4},
                                   "period5" => {"date_start"=>os_start_date5, "date_end"=>os_end_date5,
                                                 "time_start"=>shift_time_start5, "time_end"=>shift_time_end5} }

  applicable =  false

  sch_set_mapping.each do |old_sch_name, new_sch_hash|
    new_sch_hash.each do |paired_cool_sch_handle, os_schs|
      schedule = os_schs[0].to_ScheduleRuleset.get
      if os_schs[1].nil?
        cooling_set = nil
      else
        cooling_set = os_schs[1].to_ScheduleRuleset.get
      end
      rules = schedule.scheduleRules
      days_covered = Array.new(7, false)
      current_index = 0
      if rules.length <= 0
        runner.registerWarning("Heating setpoint schedule '#{old_sch_name}' is a ScheduleRuleSet, but has no ScheduleRules associated. It won't be altered by this measure.")
      else
        runner.registerInfo("Heating schedule ruleset #{schedule.name.to_s} cloned from #{old_sch_name} has #{rules.length} rules.")
        rules.each do |rule|
          runner.registerInfo("---- Rule No.#{rule.ruleIndex}: #{rule.name.to_s}")
          if rule.dateSpecificationType == "SpecificDates"
            ## if the rule applies to SpecificDates, collect the dates that fall into each adjustment date period,
            ## and create a new rule for each date period with covered specific dates
            runner.registerInfo("-------- The rule #{rule.name.to_s} only covers specific dates.")
            ## the specificDates cannot be modified in place because it's a frozen array
            all_specific_dates = []
            rule.specificDates.each { |date| all_specific_dates << date }
            heating_adjust_period_inputs.each do |period, period_inputs|
              period_inputs["specific_dates"] = []
              os_start_date = period_inputs["date_start"]
              os_end_date = period_inputs["date_end"]
              shift_time_start = period_inputs["time_start"]
              shift_time_end = period_inputs["time_end"]
              if [os_start_date, os_end_date, shift_time_start, shift_time_end].all?
                rule.specificDates.each do |covered_date|
                  if covered_date >= os_start_date and covered_date <= os_end_date
                    period_inputs["specific_dates"] << covered_date
                    all_specific_dates.delete(covered_date)
                  end
                end
                runner.registerInfo("-------- Specific dates within date range #{os_start_date.to_s} to #{os_end_date.to_s}: #{period_inputs["specific_dates"].map(&:to_s)}")
                # runner.registerInfo("!!! Specific dates haven't been covered: #{all_specific_dates.map(&:to_s)}")
                next if period_inputs["specific_dates"].empty?
                ## If there's no corresponding cooling set, no need to compare the cooling & heating setpoint to avoid deadband issue
                if cooling_set.nil?
                  runner.registerInfo("---- Before, heating schedule: #{rule.daySchedule.times.map(&:to_s)}, #{rule.daySchedule.values}")
                  runner.registerInfo("             NO PAIRED COOLING SCHEDULE!")
                  rule_period = modify_rule_for_specific_dates(rule, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                                               heating_adjustment_si, period_inputs["specific_dates"], compared_day_sch=nil)
                  runner.registerInfo("---- After, adjusted schedule: #{rule_period.daySchedule.times.map(&:to_s)}, #{rule_period.daySchedule.values}")
                  if rule_period
                    applicable = true
                    schedule.setScheduleRuleIndex(rule_period, current_index)
                    current_index += 1
                    runner.registerInfo("-------- The rule #{rule_period.name.to_s} for #{rule_period.dateSpecificationType} is added as priority #{current_index}")
                  end
                else
                  ## Otherwise, compare each cooling dayschedule within the applied date range to create a new heating schedule
                  ## to avoid deadband conflicts
                  cool_day_mapping = {}
                  period_inputs["specific_dates"].each do |date|
                    corresponding_cool_day = cooling_set.getDaySchedules(date, date)[0]
                    if cool_day_mapping.key?(corresponding_cool_day.name.to_s)
                      cool_day_mapping[corresponding_cool_day.name.to_s]["dates"] << date
                    else
                      cool_day_mapping[corresponding_cool_day.name.to_s] = {"cool_day_schedule" => corresponding_cool_day, "dates" => [date]}
                    end
                  end
                  runner.registerInfo("#{period} has #{cool_day_mapping.size} cooling setpoint days. ")
                  cool_day_mapping.each do |schedule_day_name, day_info|
                    runner.registerInfo("Cooling sch #{schedule_day_name} applies to #{day_info["dates"].size} days")
                    cool_day = day_info["cool_day_schedule"]
                    runner.registerInfo("---- Before, cooling schedule: #{cool_day.times.map(&:to_s)}, #{cool_day.values}")
                    runner.registerInfo("             heating schedule: #{rule.daySchedule.times.map(&:to_s)}, #{rule.daySchedule.values}")
                    rule_period = modify_rule_for_specific_dates(rule, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                                                 heating_adjustment_si, day_info["dates"], compared_day_sch=cool_day)
                    runner.registerInfo("---- After, adjusted schedule: #{rule_period.daySchedule.times.map(&:to_s)}, #{rule_period.daySchedule.values}")
                    if rule_period
                      applicable = true
                      schedule.setScheduleRuleIndex(rule_period, current_index)
                      current_index += 1
                      runner.registerInfo("-------- The rule #{rule_period.name.to_s} for #{rule_period.dateSpecificationType} is added as priority #{current_index}")
                    end
                  end
                end

              end
            end
            if all_specific_dates.empty?
              ## if all specific dates have been covered by new rules for each adjustment date period, remove the original rule
              runner.registerInfo("The original rule is removed since no specific date left")
            else
              ## if there's still dates left to be covered, modify the original rule to only cover these dates
              ## (this is just in case that the rule order was not set correctly, and the original rule is still applied to all specific dates;
              ##  also to make the logic in OSM more clearer)
              ## the specificDates cannot be modified in place, so create a new rule with the left dates to replace the original rule
              original_rule_update = clone_rule_with_new_dayschedule(rule, rule.name.to_s + " - dates left")
              schedule.setScheduleRuleIndex(original_rule_update, current_index)
              current_index += 1
              all_specific_dates.each do |date|
                original_rule_update.addSpecificDate(date)
              end
              runner.registerInfo("-------- The original rule #{rule.name.to_s} is modified to only cover the rest of the dates: #{all_specific_dates.map(&:to_s)}")
              runner.registerInfo("-------- and is shifted to priority #{current_index}")
            end
            rule.remove


          else
            ## If the rule applies to a DateRange, check if the DateRange overlaps with each adjustment date period
            ## if so, create a new rule for that adjustment date period
            runner.registerInfo("******* The rule #{rule.name.to_s} covers date range #{rule.startDate.get} - #{rule.endDate.get}.")
            heating_adjust_period_inputs.each do |period, period_inputs|
              os_start_date = period_inputs["date_start"]
              os_end_date = period_inputs["date_end"]
              shift_time_start = period_inputs["time_start"]
              shift_time_end = period_inputs["time_end"]
              if [os_start_date, os_end_date, shift_time_start, shift_time_end].all?
                ## check if the original rule applied DateRange overlaps with the adjustment date period
                overlapped, new_start_dates, new_end_dates = check_date_ranges_overlap(rule, os_start_date, os_end_date)
                next unless overlapped
                #############################################################

                ## If there's no corresponding cooling set, no need to compare the cooling & heating setpoint to avoid deadband issue
                if cooling_set.nil?
                  runner.registerInfo("**** Before, heating schedule: #{rule.daySchedule.times.map(&:to_s)}, #{rule.daySchedule.values}")
                  runner.registerInfo("             NO PAIRED COOLING SCHEDULE!")
                  new_start_dates.each_with_index do |start_date, i|
                    rule_period = modify_rule_for_date_period(rule, start_date, new_end_dates[i], shift_time_start, shift_time_end,
                                                              heating_adjustment_si,
                                                              applied_dow=nil, compared_day_sch=nil)
                    runner.registerInfo("A new rule is cloned from the original heating rule:")
                    runner.registerInfo("#{rule_period.daySchedule.times.map(&:to_s)}, #{rule_period.daySchedule.values}")
                    if rule_period
                      applicable = true
                      if period == "period1"
                        checkDaysCovered(rule_period, days_covered)
                      end
                      schedule.setScheduleRuleIndex(rule_period, current_index)
                      current_index += 1
                      runner.registerInfo("******* The rule #{rule_period.name.to_s} is added as priority #{current_index}")
                    end
                  end
                else
                  heat_sch_applied_dates = get_applied_dates_in_range(os_start_date, os_end_date, rule)
                  ## Get all dayschedules for the corresponding cooling schedule set for the dates where the heating schedule is applies
                  ## cool_day_mapping = {cooling_dayschedule_name => {"cool_day_schedule"=> cooling_dayschedule,
                  ##                                                  "dates"=>[applied_date1, applied_date2]}}
                  cool_day_mapping = {}
                  ## Get the day of week for all applicable dates
                  day_of_week_mapping = {}
                  heat_sch_applied_dates.each do |date|
                    corresponding_cool_day = cooling_set.getDaySchedules(date, date)[0]
                    if cool_day_mapping.key?(corresponding_cool_day.name.to_s)
                      cool_day_mapping[corresponding_cool_day.name.to_s]["dates"] << date
                    else
                      cool_day_mapping[corresponding_cool_day.name.to_s] = {"cool_day_schedule" => corresponding_cool_day, "dates" => [date]}
                    end
                    if day_of_week_mapping.key?date.dayOfWeek.valueName
                      day_of_week_mapping[date.dayOfWeek.valueName] << date
                    else
                      day_of_week_mapping[date.dayOfWeek.valueName] = [date]
                    end
                  end
                  runner.registerInfo("#{period} has #{cool_day_mapping.size} cooling setpoint days.")
                  cool_day_mapping.each do |schedule_day_name, day_info|
                    runner.registerInfo("Cooling sch #{schedule_day_name} applies to #{day_info["dates"].size} days")
                    if cool_day_mapping.size == 1
                      ## If there's only one corresponding cooling scheduleday, no need to clone multiple heating schedules
                      applied_day_of_week = nil
                      cool_sch_dates = []
                    else
                      cool_sch_dates = day_info["dates"].map(&:to_s)
                      applied_day_of_week = []
                      day_of_week_mapping.each do |day_of_week, dates|
                        week_day_dates = dates.map(&:to_s)
                        if (week_day_dates - cool_sch_dates).empty?
                          applied_day_of_week << day_of_week
                          cool_sch_dates -= week_day_dates
                          runner.registerInfo("Cooling sch #{schedule_day_name} applies to #{day_of_week}")
                          if cool_sch_dates.empty?
                            break
                          end
                        end
                      end
                    end
                    cool_day = day_info["cool_day_schedule"]
                    runner.registerInfo("**** Before, cooling schedule: #{cool_day.times.map(&:to_s)}, #{cool_day.values}")
                    runner.registerInfo("             heating schedule: #{rule.daySchedule.times.map(&:to_s)}, #{rule.daySchedule.values}")
                    new_start_dates.each_with_index do |start_date, i|
                      ## If applied_day_of_week is nil (only one cooling scheduleday), or the applied_day_of_week is not empty
                      unless applied_day_of_week&.empty?
                        rule_period = modify_rule_for_date_period(rule, start_date, new_end_dates[i], shift_time_start, shift_time_end, heating_adjustment_si,
                                                                  applied_dow=applied_day_of_week, compared_day_sch=cool_day)
                        runner.registerInfo("A new rule is created for #{applied_day_of_week}:")
                        runner.registerInfo("#{rule_period.daySchedule.times.map(&:to_s)}, #{rule_period.daySchedule.values}")
                        if rule_period
                          applicable = true
                          if period == "period1"
                            checkDaysCovered(rule_period, days_covered)
                          end
                          schedule.setScheduleRuleIndex(rule_period, current_index)
                          current_index += 1
                          runner.registerInfo("******* The rule #{rule_period.name.to_s} is added as priority #{current_index}")
                        end
                      end

                      unless cool_sch_dates.empty?
                        left_os_dates = cool_sch_dates.map {|str_date| OpenStudio::Date.new(str_date)}
                        runner.registerInfo("Cooling sch #{schedule_day_name} still covers other days. These days will be added as a rule for specific dates.")
                        rule_for_left_dates = modify_rule_for_specific_dates(rule, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                                                             heating_adjustment_si, left_os_dates, compared_day_sch=cool_day)
                        schedule.setScheduleRuleIndex(rule_for_left_dates, current_index)
                        current_index += 1
                        runner.registerInfo("******* The rule #{rule_for_left_dates.name.to_s} is added as priority #{current_index}")
                      end
                    end
                  end
                end

              end
            end
            ## The original rule will be shifted to the currently lowest priority
            ## Setting the rule to an existing index will automatically push all other rules after it down
            schedule.setScheduleRuleIndex(rule, current_index)
            runner.registerInfo("========== The original rule #{rule.name.to_s} is shifted to priority #{current_index}")
            current_index += 1
          end

        end
      end

      default_day = schedule.defaultDaySchedule
      if days_covered.include?(false)
        runner.registerInfo("Some days use default day. Adding new scheduleRule from defaultDaySchedule for applicable date period.")
        heating_adjust_period_inputs.each do |period, period_inputs|
          os_start_date = period_inputs["date_start"]
          os_end_date = period_inputs["date_end"]
          shift_time_start = period_inputs["time_start"]
          shift_time_end = period_inputs["time_end"]
          if [os_start_date, os_end_date, shift_time_start, shift_time_end].all?
            modify_default_day_for_date_period(schedule, default_day, days_covered, os_start_date, os_end_date, shift_time_start, shift_time_end,
                                               heating_adjustment_si, current_index, cooling_set, runner)
            # schedule.setScheduleRuleIndex(new_default_rule_period, current_index)
            applicable = true
          end
        end

      end
    end

  end

  # affected_actuators = {original_affected actuator_handle: [added_actuator_for_original_sch_copy1, added_actuator_for_original_sch_copy2]}
  affected_actuators = {}
  model.getEnergyManagementSystemActuators.each do |ems_actuator|
    next unless ems_actuator.actuatedComponent.is_initialized
    actuated_comp_name = ems_actuator.actuatedComponent.get.name.to_s
    if sch_set_mapping.key?actuated_comp_name
      ## If the actuator works on a heating schedule that has been modified, the actuator needs to be hooked up with the modified (cloned) schedule
      ## Also, if there's extra cloned copies of the original schedule, each of them needs an actuator (as well as a corresponding EMS program as well)
      new_sch_hash = sch_set_mapping[actuated_comp_name]
      new_sch_hash.each_with_index do |(key, schs), index|
        if index == 0
          ems_actuator.setActuatedComponent(schs[0])
          runner.registerInfo("The actuator component for EMS actuator #{ems_actuator.name.to_s} has been changed from #{actuated_comp_name} to #{schs[0].name.to_s}")
          affected_actuators[ems_actuator.handle.to_s] = []
        else
          ## Clone a new actuator for each extra copy of the original schedule and hook them up
          new_actuator = ems_actuator.clone(model).to_EnergyManagementSystemActuator.get
          new_actuator.setActuatedComponent(schs[0])
          runner.registerInfo("A new actuator #{new_actuator.name.to_s} has been added for the newly added schedule #{schs[0].name.to_s}")
          affected_actuators[ems_actuator.handle.to_s] << new_actuator.handle.to_s
        end
      end
    end
  end

  model.getEnergyManagementSystemPrograms.each do |ems_program|
    next unless ems_program.name.to_s.include?"OptimumStart"
    referenced_obj_names = (ems_program.referencedObjects.map {|obj| obj.handle.to_s}).uniq
    common_actuator = referenced_obj_names & affected_actuators.keys.map(&:to_s)
    next if common_actuator.empty?
    runner.registerInfo("EMS program #{ems_program.name.to_s} is associated with affected EMS actuators")
    # runner.registerInfo("#{ems_program.lines}")
    common_actuator.each do |actuator_handle|
      heating_adjust_period_inputs.each do |period, period_inputs|
        os_start_date = period_inputs["date_start"]
        os_end_date = period_inputs["date_end"]
        shift_time_start = period_inputs["time_start"]
        shift_time_end = period_inputs["time_end"]
        if [os_start_date, os_end_date, shift_time_start, shift_time_end].all?
          ## The OptimumStartProg EMS is applied to hour 5 and 7 during non-daylight saving time, and hour 4 and 6 during daylight saving time
          ## It's because the Hour function doesn't take daylight saving time into consideration, while the schedule objects do
          ## So the actual time EMS functions is 5:00 and 7:00 (if you output the thermostat setpoint variable to check)
          if shift_time_start.totalHours <= 7 and shift_time_end.totalHours > 5
            ## If the EMS program conflicts with the precooling adjustment, disable the program by setting the actuator to null
            ems_program.addLine("IF DayOfYear >= #{os_start_date.dayOfYear} && DayOfYear <= #{os_end_date.dayOfYear}")
            ems_program.addLine("SET #{actuator_handle} = NULL")
            ems_program.addLine("ENDIF")
          end
        end
      end
      ## For each extra copy of cloned heating schedule (actuator), clone an EMS program for it, and modify the corresponding handle in the program
      affected_actuators[actuator_handle].each do |new_actuator_handle|
        new_program = ems_program.clone(model).to_EnergyManagementSystemProgram.get
        new_program_body = new_program.body.gsub(actuator_handle, new_actuator_handle)
        new_program.setBody(new_program_body)
        runner.registerInfo("A new EMS program #{new_program.name.to_s} has been created for the newly added actuator #{new_actuator_handle}")
      end
    end
  end

  # not applicable if no schedules can be altered
  unless applicable
    runner.registerAsNotApplicable('No thermostat schedules in the models could be altered.')
  end

  return true
end

#updateDaySchedule(sch_day, vec_time, vec_value, time_begin, time_end, adjustment) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 1077

def updateDaySchedule(sch_day, vec_time, vec_value, time_begin, time_end, adjustment)
  count = 0
  vec_time.each_with_index do |exist_timestamp, i|
    adjusted_value = vec_value[i] + adjustment
    if exist_timestamp > time_begin && exist_timestamp < time_end && count == 0
      sch_day.addValue(time_begin, vec_value[i])
      sch_day.addValue(exist_timestamp, adjusted_value)
      count = 1
    elsif exist_timestamp == time_end && count == 0
      sch_day.addValue(time_begin, vec_value[i])
      sch_day.addValue(exist_timestamp, adjusted_value)
      count = 2
    elsif exist_timestamp == time_begin && count == 0
      sch_day.addValue(exist_timestamp, vec_value[i])
      count = 1
    elsif exist_timestamp > time_end && count == 0
      sch_day.addValue(time_begin, vec_value[i])
      sch_day.addValue(time_end, adjusted_value)
      sch_day.addValue(exist_timestamp,  vec_value[i])
      count = 2
    elsif exist_timestamp > time_begin && exist_timestamp < time_end && count==1
      sch_day.addValue(exist_timestamp, adjusted_value)
    elsif exist_timestamp == time_end && count==1
      sch_day.addValue(exist_timestamp, adjusted_value)
      count = 2
    elsif exist_timestamp > time_end && count == 1
      sch_day.addValue(time_end, adjusted_value)
      sch_day.addValue(exist_timestamp, vec_value[i])
      count = 2
    else
      sch_day.addValue(exist_timestamp, vec_value[i])
    end
  end

  return sch_day
end

#validate_date_format(start_date1, end_date1, runner, model) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 247

def validate_date_format(start_date1, end_date1, runner, model)
  smd = /(\d\d)-(\d\d)/.match(start_date1)
  emd = /(\d\d)-(\d\d)/.match(end_date1)
  if smd.nil? or emd.nil?
    runner.registerError('The provided date is not in MM-DD format.')
    return false
  else
    start_month = smd[1].to_i
    start_day = smd[2].to_i
    end_month = emd[1].to_i
    end_day = emd[2].to_i
    if start_date1 > end_date1
      runner.registerError('The start date cannot be later date the end time.')
      return false
    else
      # os_start_date = OpenStudio::Date.new(OpenStudio::MonthOfYear.new(start_month), start_day)
      # os_end_date = OpenStudio::Date.new(OpenStudio::MonthOfYear.new(end_month), end_day)
      os_start_date = model.getYearDescription.makeDate(start_month, start_day)
      os_end_date = model.getYearDescription.makeDate(end_month, end_day)
      return os_start_date, os_end_date
    end
  end
end

#validate_time_format(star_time, end_time, runner) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 229

def validate_time_format(star_time, end_time, runner)
  time1 = /(\d\d):(\d\d):(\d\d)/.match(star_time)
  time2 = /(\d\d):(\d\d):(\d\d)/.match(end_time)
  if time1 and time2
    os_starttime = OpenStudio::Time.new(star_time)
    os_endtime = OpenStudio::Time.new(end_time)
    if star_time >= end_time
      runner.registerError('The start time needs to be earlier than the end time.')
      return false
    else
      return os_starttime, os_endtime
    end
  else
    runner.registerError('The provided time is not in HH-MM-SS format.')
    return false
  end
end

#value_at_time(target_time, times, values) ⇒ Object

# File 'lib/measures/preheating/measure.rb', line 843

def value_at_time(target_time, times, values)
  times.each_with_index do |until_time, index|
    if target_time <= until_time
      return values[index] # Return the corresponding value for the interval
    end
  end
end