## ---- include = FALSE--------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----eval=FALSE--------------------------------------------------------------- # install.packages("wcde") ## ----eval=FALSE--------------------------------------------------------------- # library(devtools) # install_github("guyabel/wcde", ref = "main") ## ---- messages = FALSE, message=FALSE----------------------------------------- library(wcde) # download education specific tfr data get_wcde(indicator = "etfr", country_name = c("Brazil", "Albania")) # download education specific survivorship rates get_wcde(indicator = "eassr", country_name = c("Niger", "Korea")) ## ----------------------------------------------------------------------------- find_indicator(x = "tfr") ## ---- message=FALSE, warning=FALSE-------------------------------------------- library(tidyverse) get_wcde(indicator = "e0", country_name = c("Japan", "Australia")) %>% filter(period == "2015-2020") get_wcde(indicator = "sexratio", country_name = c("China", "South Korea")) %>% filter(year == 2020) ## ----------------------------------------------------------------------------- wic_indicators %>% filter(`wcde-v2` == "past-available") %>% select(1:2) ## ---- messages = FALSE, message=FALSE----------------------------------------- get_wcde(indicator = "sexratio", country_name = c("China", "South Korea")) %>% filter(year == 2020, age == "All") ## ---- messages = FALSE, message=FALSE----------------------------------------- get_wcde(indicator = "tfr", country_name = c("U.A.E", "Espania", "Österreich")) ## ---- messages = FALSE, message=FALSE----------------------------------------- get_wcde(indicator = "etfr", country_code = c(44, 100)) ## ----------------------------------------------------------------------------- wic_locations ## ---- messages = FALSE, message=FALSE----------------------------------------- get_wcde(indicator = "growth", country_name = c("India", "China"), scenario = c(1:3, 22, 23)) %>% filter(period == "2095-2100") ## ---- messages = FALSE, message=FALSE----------------------------------------- get_wcde(indicator = "tfr", country_name = c("Kenya", "Nigeria", "Algeria"), scenario = 1:3, include_scenario_names = TRUE) %>% filter(period == "2045-2050") ## ----------------------------------------------------------------------------- wic_scenarios ## ---- messages = FALSE, message=FALSE----------------------------------------- get_wcde(indicator = "mage") ## ---- messages = FALSE, message=FALSE----------------------------------------- mi <- tibble(ind = c("odr", "nirate", "ggapedu25")) %>% mutate(d = map(.x = ind, .f = ~get_wcde(indicator = .x))) mi mi %>% filter(ind == "odr") %>% select(-ind) %>% unnest(cols = d) mi %>% filter(ind == "nirate") %>% select(-ind) %>% unnest(cols = d) mi %>% filter(ind == "ggapedu25") %>% select(-ind) %>% unnest(cols = d) ## ----------------------------------------------------------------------------- get_wcde(indicator = "etfr", country_name = c("Brazil", "Albania"), version = "wcde-v2") ## ----------------------------------------------------------------------------- get_wcde(indicator = "etfr", country_name = c("Brazil", "Albania"), version = "wcde-v2", server = "github") ## ----------------------------------------------------------------------------- get_wcde(indicator = "pop", country_name = "India") ## ----------------------------------------------------------------------------- get_wcde(indicator = "pop", country_code = 900, pop_edu = "four") ## ----------------------------------------------------------------------------- get_wcde(indicator = "pop", country_code = 900, pop_edu = "six", pop_sex = "both") ## ----------------------------------------------------------------------------- w <- get_wcde(indicator = "pop", country_code = 900, pop_age = "all", pop_sex = "both", pop_edu = "four", version = "wcde-v2") w w <- w %>% mutate(pop_pm = ifelse(test = sex == "Male", yes = -pop, no = pop), pop_pm = pop_pm/1e3) w ## ---- message=FALSE, warning=FALSE-------------------------------------------- library(lemon) w %>% filter(year == 2020) %>% ggplot(mapping = aes(x = pop_pm, y = age, fill = fct_rev(education))) + geom_col() + geom_vline(xintercept = 0, colour = "black") + scale_x_symmetric(labels = abs) + scale_fill_manual(values = wic_col4, name = "Education") + labs(x = "Population (millions)", y = "Age") + theme_bw() ## ----------------------------------------------------------------------------- w <- w %>% mutate(pop_max = ifelse(sex == "Male", -max(pop/1e3), max(pop/1e3))) w %>% filter(year == 2020) %>% ggplot(mapping = aes(x = pop_pm, y = age, fill = fct_rev(education))) + geom_col() + geom_vline(xintercept = 0, colour = "black") + scale_x_continuous(labels = abs, expand = c(0, 0)) + scale_fill_manual(values = wic_col4, name = "Education") + labs(x = "Population (millions)", y = "Age") + facet_wrap(facets = "sex", scales = "free_x", strip.position = "bottom") + geom_blank(mapping = aes(x = pop_max * 1.1)) + theme(panel.spacing.x = unit(0, "pt"), strip.placement = "outside", strip.background = element_rect(fill = "transparent"), strip.text.x = element_text(margin = margin( b = 0, t = 0))) ## ---- echo=FALSE, eval=FALSE-------------------------------------------------- # library(gganimate) # # g <- ggplot(data = w, # mapping = aes(x = pop_pm, y = age, fill = fct_rev(education))) + # geom_col() + # geom_vline(xintercept = 0, colour = "black") + # scale_x_continuous(labels = abs, expand = c(0, 0)) + # scale_fill_manual(values = wic_col4, name = "Education") + # facet_wrap(facets = "sex", scales = "free_x", strip.position = "bottom") + # geom_blank(mapping = aes(x = pop_max * 1.1)) + # theme(panel.spacing.x = unit(0, "pt"), # strip.placement = "outside", # strip.background = element_rect(fill = "transparent"), # strip.text.x = element_text(margin = margin(b = 0, t = 0))) + # transition_time(time = year) + # labs(x = "Population (millions)", y = "Age", # title = 'SSP2 World Population {round(frame_time)}') # # animate(g, width = 672, height = 520, units = "px", res = 100, # renderer = gifski_renderer()) # # anim_save(filename = "../man/figures/world4_ssp2.gif") ## ---- eval =FALSE------------------------------------------------------------- # library(gganimate) # # ggplot(data = w, # mapping = aes(x = pop_pm, y = age, fill = fct_rev(education))) + # geom_col() + # geom_vline(xintercept = 0, colour = "black") + # scale_x_continuous(labels = abs, expand = c(0, 0)) + # scale_fill_manual(values = wic_col4, name = "Education") + # facet_wrap(facets = "sex", scales = "free_x", strip.position = "bottom") + # geom_blank(mapping = aes(x = pop_max * 1.1)) + # theme(panel.spacing.x = unit(0, "pt"), # strip.placement = "outside", # strip.background = element_rect(fill = "transparent"), # strip.text.x = element_text(margin = margin(b = 0, t = 0))) + # transition_time(time = year) + # labs(x = "Population (millions)", y = "Age", # title = 'SSP2 World Population {round(frame_time)}')