# frozen_string_literal: true module MalawiHivProgramReports module Cohort # Disaggregated cohort report # rubocop:disable Metrics/ClassLength class Disaggregated attr_accessor :type, :start_date, :end_date, :rebuild, :occupation, :report, :maternal, :location include MalawiHivProgramReports::Utils::ModelUtils include MalawiHivProgramReports::Pepfar::Utils include MalawiHivProgramReports::Adapters::Moh::Custom def initialize(start_date:, end_date:, **kwargs) @type = kwargs[:definition] || 'pepfar' @start_date = start_date @end_date = end_date @rebuild = kwargs[:rebuild]&.casecmp?('true') @occupation = kwargs[:occupation] @location = kwargs[:location] @maternal = {} # raise an error if location is empty raise 'Location cannot be empty' if @location.blank? end def find_report rebuild_report if rebuild process_initialization process_data flatten_and_sort_data end private GENDER = %w[M F].freeze AGGREGATE_GENDER_ROWS = %w[M FP FNP FBf].freeze def process_initialization init_report init_aggregate_rows end def init_report @report = pepfar_age_groups.each_with_object({}) do |age_group, report| report[age_group] = {} GENDER.each do |gender| report[age_group][gender] = {} init_cohort_section(report[age_group][gender]) end end end def init_aggregate_rows report['All'] = {} AGGREGATE_GENDER_ROWS.each do |gender| report['All'][gender] = {} init_cohort_section(report['All'][gender]) end end def init_cohort_section(cursor) cursor['tx_curr'] = [] (COHORT_REGIMENS + ['Unknown']).each do |regimen| cursor[regimen] = [] end cursor['unknown'] = [] cursor['total'] = [] end def process_data process_db_data process_maternal_data end # rubocop:disable Metrics/AbcSize def process_db_data fetch_data.each do |data| age_group = data['age_group'] regimen = data['regimen'] || 'Unknown' patient_id = data['patient_id'] # we need to handle regimes that only have one P to become PP. Otherwise if it is already PP or PA we leave # it as is. Regimens are in this format NUMBERLETTERS regimen = regimen.gsub(/(\d+[A-Za-z]*P)\z/, '\1P') if regimen.match?(/\A\d+[A-Za-z]*[^P]P\z/) gender = data['gender'] report[age_group.to_s][gender.to_s][regimen.to_s] << patient_id report[age_group.to_s][gender.to_s]['tx_curr'] << patient_id report[age_group.to_s][gender.to_s]['total'] << patient_id process_aggregate_rows(gender:, regimen:, patient_id:) end end def process_maternal_data result = MalawiHivProgramReports::Pepfar::ViralLoadCoverage2.new(start_date:, end_date:, location:) .vl_maternal_status(maternal.keys) # result comes in this form: { FP: [], FBf: [] } # we need to loop through the keys result.each_key do |key| result[key].each do |patient_id| report['All'][key.to_s]['tx_curr'] << patient_id report['All'][key.to_s][maternal[patient_id].to_s] << patient_id report['All'][key.to_s]['total'] << patient_id end end end # rubocop:enable Metrics/AbcSize def process_aggregate_rows(gender:, regimen:, patient_id:) if gender == 'M' report['All']['M']['tx_curr'] << patient_id report['All']['M'][regimen.to_s] << patient_id report['All']['M']['total'] << patient_id else maternal[patient_id] = regimen end end # we need to flatten the data def flatten_data flat_data = [] report.each do |age_group, gender_data| gender_data.each do |gender, regimen_data| flat_data << { 'age_group' => age_group, 'gender' => gender, **regimen_data } end end flat_data end def flatten_and_sort_data flat_data = flatten_data age_group_order = ['Unknown', '<1 year', '1-4 years', '5-9 years', '10-14 years', '15-19 years', '20-24 years', '25-29 years', '30-34 years', '35-39 years', '40-44 years', '45-49 years', '50-54 years', '55-59 years', '60-64 years', '65-69 years', '70-74 years', '75-79 years', '80-84 years', '85-89 years', '90 plus years', 'All'] gender_order = %w[F M FP FNP FBF] flat_data.sort_by do |row| [age_group_order.index(row['age_group']) || Float::INFINITY, gender_order.index(row['gender']) || Float::INFINITY] end end # rubocop:disable Metrics/MethodLength def fetch_data ActiveRecord::Base.connection.select_all <<~SQL SELECT prescriptions.patient_id, COALESCE(regimens.name, 'unknown') AS regimen, prescriptions.age_group, prescriptions.gender FROM ( SELECT tcm.patient_id, GROUP_CONCAT(DISTINCT(tcm.drug_id) ORDER BY tcm.drug_id ASC) AS drugs, disaggregated_age_group(date(earliest_start_date.birthdate), date('#{end_date}')) AS age_group, earliest_start_date.gender FROM cdr_temp_current_medication #{current_partition} tcm INNER JOIN cdr_temp_patient_outcomes #{current_partition} AS outcomes ON outcomes.patient_id = tcm.patient_id AND outcomes.cum_outcome = 'On antiretrovirals' INNER JOIN cdr_temp_cohort_members #{current_partition} AS earliest_start_date ON earliest_start_date.patient_id = tcm.patient_id GROUP BY tcm.patient_id ) AS prescriptions LEFT JOIN ( SELECT GROUP_CONCAT(drug.drug_id ORDER BY drug.drug_id ASC) AS drugs, regimen_name.name AS name FROM moh_regimen_combination AS combo INNER JOIN moh_regimen_combination_drug AS drug USING (regimen_combination_id) INNER JOIN moh_regimen_name AS regimen_name USING (regimen_name_id) GROUP BY combo.regimen_combination_id ) AS regimens ON regimens.drugs = prescriptions.drugs SQL end # rubocop:enable Metrics/MethodLength def update_outcomes if check_if_table_exists('cdr_temp_patient_outcomes') MalawiHivProgramReports::Moh::CumulativeOutcome.new(end_date:, start_date:, definition:, rebuild: 'true', location:).find_report else rebuild_report end end def rebuild_report MalawiHivProgramReports::Moh::CumulativeCohort.new(definition:, start_date:, end_date:, locations: [location], rebuild: 'true').find_report end def check_if_table_exists(table_name) result = ActiveRecord::Base.connection.select_one <<~SQL SELECT COUNT(*) AS count FROM information_schema.tables WHERE table_schema = DATABASE() AND table_name = '#{table_name}' SQL result['count'].to_i.positive? end end # rubocop:enable Metrics/ClassLength end end