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#' Mortality Reporting System
#'
#' Selection of data from the 122 Cities Mortality Reporting System, for the
#' first 11 weeks of 1962.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs"
#' Mortality Reporting System by Age
#'
#' Selection of data from the 122 Cities Mortality Reporting System by age
#' group, for the first 9 weeks of 1962.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_age"
#' Mortality Reporting System by Age Test
#'
#' Selection of data from the 2 Cities Mortality Reporting System by age
#' group, for the first 3 weeks of 1962.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_age_test"
#' Mortality Reporting System by Age for Week Test
#'
#' Selection of data from the 3 Cities Mortality Reporting System by age
#' group, for week 4 of 1962. It also includes some isolated data from previous
#' weeks that is supposed to be corrections for data errors.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_age_w_test"
#' Mortality Reporting System by Age for Week 10
#'
#' Selection of data from the 122 Cities Mortality Reporting System by age
#' group, for week 10 of 1962. It also includes some isolated data from previous
#' weeks that is supposed to be corrections for data errors.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_age_w10"
#' Mortality Reporting System by Age for Week 11
#'
#' Selection of data from the 122 Cities Mortality Reporting System by age
#' group, for week 11 of 1962. It also includes some isolated data from previous
#' weeks that is supposed to be corrections for data errors.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_age_w11"
#' Mortality Reporting System by Cause
#'
#' Selection of data from the 122 Cities Mortality Reporting System by cause,
#' for the first 9 weeks of 1962.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_cause"
#' Mortality Reporting System by Cause Test
#'
#' Selection of data from the 2 Cities Mortality Reporting System by cause,
#' for the first 3 weeks of 1962.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_cause_test"
#' Mortality Reporting System by Cause for Week Test
#'
#' Selection of data from the 3 Cities Mortality Reporting System by cause,
#' for week 4 of 1962. It also includes some isolated data from previous weeks
#' that is supposed to be additional data not considered before.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_cause_w_test"
#' Mortality Reporting System by Cause for Week 10
#'
#' Selection of data from the 122 Cities Mortality Reporting System by cause,
#' for week 10 of 1962. It also includes some isolated data from previous weeks
#' that is supposed to be additional data not considered before.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_cause_w10"
#' Mortality Reporting System by Cause for Week 11
#'
#' Selection of data from the 122 Cities Mortality Reporting System by cause,
#' for week 11 of 1962. It also includes some isolated data from previous weeks
#' that is supposed to be additional data not considered before.
#'
#' The original dataset begins in 1962. For each week, in 122 US cities,
#' mortality figures by age group and cause, considered separately, are included
#' (i.e., the combination of age group and cause is not included). In the cause,
#' only a distinction is made between pneumonia or influenza and others.
#'
#' Two additional dates have been generated, which were not present in the
#' original dataset.
#'
#' @format A `tibble`.
#' @source \url{https://catalog.data.gov/dataset/deaths-in-122-u-s-cities-1962-2016-122-cities-mortality-reporting-system}
"mrs_cause_w11"
#' Star Definition for Mortality Reporting System by Age
#'
#' Definition of facts and dimensions for the Mortality Reporting System
#' considering the age classification.
#'
#' @examples
#' # Defined by:
#'
#' dm_mrs_age <- dimensional_model() |>
#' define_fact(
#' name = "mrs_age",
#' measures = c(
#' "Deaths"
#' ),
#' agg_functions = c(
#' "SUM"
#' ),
#' nrow_agg = "nrow_agg"
#' ) |>
#' define_dimension(
#' name = "when",
#' attributes = c(
#' "Week Ending Date",
#' "WEEK",
#' "Year"
#' )
#' ) |>
#' define_dimension(
#' name = "when_available",
#' attributes = c(
#' "Data Availability Date",
#' "Data Availability Week",
#' "Data Availability Year"
#' )
#' ) |>
#' define_dimension(
#' name = "where",
#' attributes = c(
#' "REGION",
#' "State",
#' "City"
#' )
#' ) |>
#' define_dimension(
#' name = "who",
#' attributes = c(
#' "Age Range"
#' )
#' )
#'
#' @format A `dimensional_model` object.
"dm_mrs_age"
#' Star Definition for Mortality Reporting System by Cause
#'
#' Definition of facts and dimensions for the Mortality Reporting System
#' considering the cause classification.
#'
#' @examples
#' # Defined by:
#'
#' dm_mrs_cause <- dimensional_model() |>
#' define_fact(
#' name = "mrs_cause",
#' measures = c(
#' "Pneumonia and Influenza Deaths",
#' "Other Deaths"
#' ),
#' ) |>
#' define_dimension(
#' name = "when",
#' attributes = c(
#' "Week Ending Date",
#' "WEEK",
#' "Year"
#' )
#' ) |>
#' define_dimension(
#' name = "when_received",
#' attributes = c(
#' "Reception Date",
#' "Reception Week",
#' "Reception Year"
#' )
#' ) |>
#' define_dimension(
#' name = "when_available",
#' attributes = c(
#' "Data Availability Date",
#' "Data Availability Week",
#' "Data Availability Year"
#' )
#' ) |>
#' define_dimension(
#' name = "where",
#' attributes = c(
#' "REGION",
#' "State",
#' "City"
#' )
#' )
#'
#' @format A `dimensional_model` object.
"dm_mrs_cause"
#' Star Schema for Mortality Reporting System by Age
#'
#' Star Schema for the Mortality Reporting System considering the age
#' classification.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_age <- star_schema(mrs_age, dm_mrs_age) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_available"),
#' name = "When Common",
#' attributes = c("date", "week", "year")
#' ) |>
#' snake_case() |>
#' character_dimensions(NA_replacement_value = "Unknown",
#' length_integers = list(week = 2))
#'
#' @format A `star_schema` object.
"st_mrs_age"
#' Star Schema for Mortality Reporting System by Age Test
#'
#' Star Schema for the Mortality Reporting System considering the age
#' classification data test.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_age_test <- star_schema(mrs_age_test, dm_mrs_age) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_available"),
#' name = "When Common",
#' attributes = c("date", "week", "year")
#' ) |>
#' snake_case() |>
#' character_dimensions(NA_replacement_value = "Unknown",
#' length_integers = list(week = 2))
#'
#' @format A `star_schema` object.
"st_mrs_age_test"
#' Star Schema for Mortality Reporting System by Age for Week Test
#'
#' Star Schema for the Mortality Reporting System considering the age
#' classification data test, for week 4 of 1962. It also includes some isolated
#' data from previous weeks that is supposed to be corrections for data errors.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_age_w_test <- star_schema(mrs_age_w_test, dm_mrs_age) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_available"),
#' name = "When Common",
#' attributes = c("date", "week", "year")
#' ) |>
#' snake_case() |>
#' character_dimensions(NA_replacement_value = "Unknown",
#' length_integers = list(week = 2))
#'
#' @format A `star_schema` object.
"st_mrs_age_w_test"
#' Star Schema for Mortality Reporting System by Age for Week 10
#'
#' Star Schema for the Mortality Reporting System considering the age
#' classification data, for week 10 of 1962. It also includes some isolated data
#' from previous weeks that is supposed to be corrections for data errors.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_age_w10 <- star_schema(mrs_age_w10, dm_mrs_age) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_available"),
#' name = "When Common",
#' attributes = c("date", "week", "year")
#' ) |>
#' snake_case() |>
#' character_dimensions(NA_replacement_value = "Unknown",
#' length_integers = list(week = 2))
#'
#' @format A `star_schema` object.
"st_mrs_age_w10"
#' Star Schema for Mortality Reporting System by Age for Week 11
#'
#' Star Schema for the Mortality Reporting System considering the age
#' classification data, for week 11 of 1962. It also includes some isolated data
#' from previous weeks that is supposed to be corrections for data errors.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_age_w11 <- star_schema(mrs_age_w11, dm_mrs_age) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_available"),
#' name = "When Common",
#' attributes = c("date", "week", "year")
#' ) |>
#' snake_case() |>
#' character_dimensions(NA_replacement_value = "Unknown",
#' length_integers = list(week = 2))
#'
#' @format A `star_schema` object.
"st_mrs_age_w11"
#' Star Schema for Mortality Reporting System by Cause
#'
#' Star Schema for the Mortality Reporting System considering the cause
#' classification.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_cause <- star_schema(mrs_cause, dm_mrs_cause) |>
#' snake_case() |>
#' character_dimensions(
#' NA_replacement_value = "Unknown",
#' length_integers = list(
#' week = 2,
#' data_availability_week = 2,
#' reception_week = 2
#' )
#' ) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_received", "when_available"),
#' name = "when_common",
#' attributes = c("date", "week", "year")
#' )
#'
#' @format A `star_schema` object.
"st_mrs_cause"
#' Star Schema for Mortality Reporting System by Cause Test
#'
#' Star Schema for the Mortality Reporting System considering the cause
#' classification data test.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_cause_test <- star_schema(mrs_cause_test, dm_mrs_cause) |>
#' snake_case() |>
#' character_dimensions(
#' NA_replacement_value = "Unknown",
#' length_integers = list(
#' week = 2,
#' data_availability_week = 2,
#' reception_week = 2
#' )
#' ) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_received", "when_available"),
#' name = "when_common",
#' attributes = c("date", "week", "year")
#' )
#'
#' @format A `star_schema` object.
"st_mrs_cause_test"
#' Star Schema for Mortality Reporting System by Cause for Week Test
#'
#' Star Schema for the Mortality Reporting System considering the cause
#' classification data test, for week 4 of 1962. It also includes some isolated
#' data from previous weeks that is supposed to be additional data not
#' considered before.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_cause_w_test <- star_schema(mrs_cause_w_test, dm_mrs_cause) |>
#' snake_case() |>
#' character_dimensions(
#' NA_replacement_value = "Unknown",
#' length_integers = list(
#' week = 2,
#' data_availability_week = 2,
#' reception_week = 2
#' )
#' ) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_received", "when_available"),
#' name = "when_common",
#' attributes = c("date", "week", "year")
#' )
#'
#' @format A `star_schema` object.
"st_mrs_cause_w_test"
#' Star Schema for Mortality Reporting System by Cause for Week 10
#'
#' Star Schema for the Mortality Reporting System considering the cause
#' classification data, for week 10 of 1962. It also includes some isolated data
#' from previous weeks that is supposed to be additional data not considered
#' before.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_cause_w10 <- star_schema(mrs_cause_w10, dm_mrs_cause) |>
#' snake_case() |>
#' character_dimensions(
#' NA_replacement_value = "Unknown",
#' length_integers = list(
#' week = 2,
#' data_availability_week = 2,
#' reception_week = 2
#' )
#' ) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_received", "when_available"),
#' name = "when_common",
#' attributes = c("date", "week", "year")
#' )
#'
#' @format A `star_schema` object.
"st_mrs_cause_w10"
#' Star Schema for Mortality Reporting System by Cause for Week 11
#'
#' Star Schema for the Mortality Reporting System considering the cause
#' classification data, for week 11 of 1962. It also includes some isolated data
#' from previous weeks that is supposed to be additional data not considered
#' before.
#'
#' @examples
#' # Defined by:
#'
#' st_mrs_cause_w11 <- star_schema(mrs_cause_w11, dm_mrs_cause) |>
#' snake_case() |>
#' character_dimensions(
#' NA_replacement_value = "Unknown",
#' length_integers = list(
#' week = 2,
#' data_availability_week = 2,
#' reception_week = 2
#' )
#' ) |>
#' role_playing_dimension(
#' dim_names = c("when", "when_received", "when_available"),
#' name = "when_common",
#' attributes = c("date", "week", "year")
#' )
#'
#' @format A `star_schema` object.
"st_mrs_cause_w11"
#' Constellation for Mortality Reporting System
#'
#' Constellation for the Mortality Reporting System considering age and cause
#' classification.
#'
#' @examples
#' # Defined by:
#'
#' ct_mrs <- constellation(list(st_mrs_age, st_mrs_cause), name = "mrs")
#'
#' @format A `constellation` object.
"ct_mrs"
#' Constellation for Mortality Reporting System Test
#'
#' Constellation for the Mortality Reporting System considering age and cause
#' classification data test.
#'
#' @examples
#' # Defined by:
#'
#' ct_mrs_test <-
#' constellation(list(st_mrs_age_test, st_mrs_cause_test), name = "mrs_test")
#'
#' @format A `constellation` object.
"ct_mrs_test"
#' Updates for the Star Schema for Mortality Reporting System by Age
#'
#' Example of updates on some dimensions of the star schema for Mortality Reporting
#' System by age.
#'
#' @examples
#' # Defined by:
#'
#' (dim_names <- st_mrs_age |>
#' get_dimension_names())
#'
#' where <- st_mrs_age |>
#' get_dimension("where")
#'
#' when <- st_mrs_age |>
#' get_dimension("when")
#'
#' who <- st_mrs_age |>
#' get_dimension("who")
#'
#' updates_st_mrs_age <- record_update_set() |>
#' update_selection_general(
#' dimension = where,
#' columns_old = c("state", "city"),
#' old_values = c("CT", "Bridgepor"),
#' columns_new = c("city"),
#' new_values = c("Bridgeport")
#' ) |>
#' match_records(dimension = when,
#' old = 37,
#' new = 36) |>
#' update_record(
#' dimension = when,
#' old = 73,
#' values = c("1962-02-17", "07", "1962")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("<1 year"),
#' new_values = c("1: <1 year")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("1-24 years"),
#' new_values = c("2: 1-24 years")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("25-44 years"),
#' new_values = c("3: 25-44 years")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("45-64 years"),
#' new_values = c("4: 45-64 years")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("65+ years"),
#' new_values = c("5: 65+ years")
#' )
#'
#' @format A `record_update_set` object.
"updates_st_mrs_age"
#' Updates for the Star Schema for Mortality Reporting System by Age Test
#'
#' Example of updates on some dimensions of the star schema for Mortality Reporting
#' System by age test.
#'
#' @examples
#' # Defined by:
#'
#' (dim_names <- st_mrs_age_test |>
#' get_dimension_names())
#'
#' where <- st_mrs_age_test |>
#' get_dimension("where")
#'
#' when <- st_mrs_age_test |>
#' get_dimension("when")
#'
#' who <- st_mrs_age_test |>
#' get_dimension("who")
#'
#' updates_st_mrs_age_test <- record_update_set() |>
#' update_selection_general(
#' dimension = where,
#' columns_old = c("state", "city"),
#' old_values = c("CT", "Bridgepor"),
#' columns_new = c("city"),
#' new_values = c("Bridgeport")
#' ) |>
#' match_records(dimension = when,
#' old = 4,
#' new = 3) |>
#' update_record(
#' dimension = when,
#' old = 9,
#' values = c("1962-01-20", "03", "1962")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("<1 year"),
#' new_values = c("1: <1 year")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("1-24 years"),
#' new_values = c("2: 1-24 years")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("25-44 years"),
#' new_values = c("3: 25-44 years")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("45-64 years"),
#' new_values = c("4: 45-64 years")
#' ) |>
#' update_selection(
#' dimension = who,
#' columns = c("age_range"),
#' old_values = c("65+ years"),
#' new_values = c("5: 65+ years")
#' )
#'
#' @format A `record_update_set` object.
"updates_st_mrs_age_test"
#' Multistar for Mortality Reporting System
#'
#' Multistar for the Mortality Reporting System considering age and cause
#' classification. It is the result obtained in the vignette.
#'
#' @examples
#' # Defined by:
#'
#' ms_mrs <- ct_mrs |>
#' constellation_as_multistar()
#'
#' @format A `multistar` object.
"ms_mrs"
#' Multistar for Mortality Reporting System Test
#'
#' Multistar for the Mortality Reporting System considering age and cause
#' classification data test.
#'
#' @examples
#' # Defined by:
#'
#' ms_mrs_test <- ct_mrs_test |>
#' constellation_as_multistar()
#'
#' @format A `multistar` object.
"ms_mrs_test"
#' Modelling the long-term health impacts of air pollution in London
#'
#' Estimation of the long-term health impacts of exposure to air pollution in
#' London from 2016 to 2050.
#'
#' The original dataset contains 68 files, corresponding to 34 London areas and
#' 2 pollutants: pollutant and zone are indicated in the name of each file. Each
#' file has several sheets with different variables. It has been transformed
#' into a flat table considering a single variable and defining the area and the
#' pollutant as columns.
#'
#' @format A `tibble`.
#' @source
#' \url{https://data.world/datagov-uk/fd864906-8456-46a8-9a01-0dcb2dbd87b9}
"ft_datagov_uk"
#' London Boroughs
#'
#' Classification of London's boroughs into zones and sub-regions.
#'
#' @format A `tibble`.
#' @source \url{https://en.wikipedia.org/wiki/List_of_sub-regions_used_in_the_London_Plan}
"ft_london_boroughs"
#' USA States
#'
#' Name and abbreviation of US states.
#'
#' @format A `tibble`.
#' @source \url{https://www.census.gov/geographies/mapping-files/time-series/geo/carto-boundary-file.html}
"ft_usa_states"
#' USA City and County
#'
#' City, state and county for US cities. It only includes those that appear in
#' the Mortality Reporting System.
#'
#' @format A `tibble`.
#' @source \url{https://www.census.gov/geographies/mapping-files/time-series/geo/carto-boundary-file.html}
"ft_usa_city_county"
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