Format tables and graphs (Part 2)

vignettes/articles/descriptive-analysis-amount_of_companies.Rmd

@@ -46,7 +46,7 @@ transition_risk_product_example <- product_transition_risk |>
                              "subzero_whiteeye"))
 ```
 
-```{r}
+```{r, echo=FALSE}
 kable(transition_risk_product_example |> head(10))
 ```
 
@@ -58,7 +58,7 @@ cat("Number of distinct firms: ", n_distinct(transition_risk_product_example$com
 
 ### Number of companies that have atleast one product with `emission_profile`, with `sector_profile`, and with `transition_risk_category`
 
-```{r}
+```{r, echo=FALSE}
 companies_atleast_one_product_with_profile <- function(data, profile) {
   result <- data |>
     select(all_of(c("companies_id", profile))) |>
@@ -77,7 +77,7 @@ cat("Number of firms that have atleast one product with `transition_risk_categor
 
 ### Number of companies that have more than one tilt_sectors
 
-```{r}
+```{r, echo=FALSE}
 companies_with_multiple_tilt_sectors <- function(data) {
   result <- data |>
     select(all_of(c("companies_id", "tilt_sector"))) |>
@@ -95,7 +95,7 @@ cat("Number of firms that have more than one tilt_sectors: ", companies_with_mul
 
 ### Number of companies that have more than one tilt_subsectors
 
-```{r}
+```{r, echo=FALSE}
 companies_with_multiple_tilt_subsectors <- function(data) {
   result <- data |>
     select(all_of(c("companies_id", "tilt_subsector"))) |>
@@ -113,7 +113,7 @@ cat("Number of firms that have more than one tilt_subsectors: ", companies_with_
 
 ### Number of companies per tilt_sector
 
-```{r}
+```{r, echo=FALSE}
 companies_per_single_benchmark <- function(data, benchmark) {
   data |>
     select(all_of(c("companies_id", benchmark))) |>
@@ -126,6 +126,12 @@ companies_per_single_benchmark <- function(data, benchmark) {
 }
 ```
 
+```{r, warning=FALSE, echo=FALSE}
+# To create CSV files. Location: https://drive.google.com/drive/folders/1PSLn5nBtO-WK3-11_u857Q0yRtdoC6J9
+# result <- companies_per_single_benchmark(transition_risk_product_example, "tilt_sector")
+# readr::write_csv(result, file = "number_of_firms_per_tilt_sector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_single_benchmark(transition_risk_product_example, "tilt_sector"), align = "lc", caption = "# of firms per tilt_sector", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -134,6 +140,11 @@ kable(companies_per_single_benchmark(transition_risk_product_example, "tilt_sect
 
 ### Number of companies per tilt_subsector
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_single_benchmark(transition_risk_product_example, "tilt_subsector")
+# readr::write_csv(result, file = "number_of_firms_per_tilt_subsector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_single_benchmark(transition_risk_product_example, "tilt_subsector"), align = "lc", caption = "# of firms per tilt_subsector", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -142,6 +153,11 @@ kable(companies_per_single_benchmark(transition_risk_product_example, "tilt_subs
 
 ### Number of companies per country
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_single_benchmark(transition_risk_product_example, "country")
+# readr::write_csv(result, file = "number_of_firms_per_country.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_single_benchmark(transition_risk_product_example, "country"), align = "lc", caption = "# of firms per country", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -150,7 +166,7 @@ kable(companies_per_single_benchmark(transition_risk_product_example, "country")
 
 ### Number of companies per country and tilt_sector
 
-```{r}
+```{r, echo=FALSE}
 companies_per_double_benchmark <- function(data, benchmark_first, benchmark_second) {
   data |>
     select(all_of(c("companies_id", benchmark_first, benchmark_second))) |>
@@ -164,6 +180,11 @@ companies_per_double_benchmark <- function(data, benchmark_first, benchmark_seco
 }
 ```
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_double_benchmark(transition_risk_product_example, "country", "tilt_sector")
+# readr::write_csv(result, file = "number_of_firms_per_country_and_tilt_sector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_double_benchmark(transition_risk_product_example, "country", "tilt_sector"), align = "llc", caption = "# of firms per country and tilt_sector", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -173,6 +194,11 @@ kable(companies_per_double_benchmark(transition_risk_product_example, "country",
 
 ### Number of companies per country and tilt_subsector
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_double_benchmark(transition_risk_product_example, "country", "tilt_subsector")
+# readr::write_csv(result, file = "number_of_firms_per_country_and_tilt_subsector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_double_benchmark(transition_risk_product_example, "country", "tilt_subsector"), align = "llc", caption = "# of firms per country and tilt_subsector", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -182,6 +208,11 @@ kable(companies_per_double_benchmark(transition_risk_product_example, "country",
 
 ### Number of companies per main_activity
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_single_benchmark(transition_risk_product_example, "main_activity")
+# readr::write_csv(result, file = "number_of_firms_per_main_activity.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_single_benchmark(transition_risk_product_example, "main_activity"), align = "lc", caption = "# of firms per main_activity", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -190,6 +221,11 @@ kable(companies_per_single_benchmark(transition_risk_product_example, "main_acti
 
 ### Number of companies per main_activity and tilt_sector
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_double_benchmark(transition_risk_product_example, "main_activity", "tilt_sector")
+# readr::write_csv(result, file = "number_of_firms_per_main_activity_and_tilt_sector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 result <- companies_per_double_benchmark(transition_risk_product_example, "main_activity", "tilt_sector") |>
   filter(tilt_sector %in% c("construction", "industry", "land use"))
@@ -201,6 +237,11 @@ kable(result, align = "llc", caption = "# of firms per main_activity and tilt_se
 
 ### Number of companies per main_activity and tilt_subsector
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_double_benchmark(transition_risk_product_example, "main_activity", "tilt_subsector")
+# readr::write_csv(result, file = "number_of_firms_per_main_activity_and_tilt_subsector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_double_benchmark(transition_risk_product_example, "main_activity", "tilt_subsector"), align = "llc", caption = "# of firms per main_activity and tilt_subsector", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -210,6 +251,11 @@ kable(companies_per_double_benchmark(transition_risk_product_example, "main_acti
 
 ### Number of companies per main_activity and country
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_double_benchmark(transition_risk_product_example, "main_activity", "country")
+# readr::write_csv(result, file = "number_of_firms_per_main_activity_and_country.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_double_benchmark(transition_risk_product_example, "main_activity", "country"), align = "llc", caption = "# of firms per main_activity and country", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>
@@ -232,6 +278,11 @@ companies_per_main_activity_country_tilt_sector <- function(data) {
 }
 ```
 
+```{r, warning=FALSE, echo=FALSE}
+# result <- companies_per_main_activity_country_tilt_sector(transition_risk_product_example)
+# readr::write_csv(result, file = "number_of_firms_per_main_activity_country_tilt_sector.csv")
+```
+
 ```{r, warning=FALSE, echo=FALSE}
 kable(companies_per_main_activity_country_tilt_sector(transition_risk_product_example), align = "lllc",  caption = "# of firms per main_activity, country, and tilt_sector", escape = F) |>
   kable_classic(full_width = F, html_font = "Roboto Condensed") |>

vignettes/articles/descriptive-analysis-best_case_worst_case_emission_profile.Rmd

@@ -129,15 +129,15 @@ avg_emission_profile_equal_weight_per_benchmark_risk_category_spain <- avg_per_b
 
 ```{r, echo = FALSE, warning=FALSE}
 plot_bar_plot_profile(avg_emission_profile_equal_weight_per_benchmark_risk_category_france, "Average `emissions_profile_equal_weight`") +
-  labs(x = "Average emission category under equal weight assumption", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `france`", fill = " emission category")
+  labs(x = "Average emission category under \n equal weight assumption for France", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `france`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_equal_weight_per_benchmark_risk_category_austria, "Average `emissions_profile_equal_weight`") +
-  labs(x = "Average emission category under equal weight assumption", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `austria`", fill = " emission category")
+  labs(x = "Average emission category under \n equal weight assumption for Austria", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `austria`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_equal_weight_per_benchmark_risk_category_germany, "Average `emissions_profile_equal_weight`") +
-  labs(x = "Average emission category under equal weight assumption", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `germany`", fill = " emission category")
+  labs(x = "Average emission category under \n equal weight assumption for Germany", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `germany`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_equal_weight_per_benchmark_risk_category_netherlands, "Average `emissions_profile_equal_weight`") +
-  labs(x = "Average emission category under equal weight assumption", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `netherlands`", fill = " emission category")
+  labs(x = "Average emission category under \n equal weight assumption for Netherlands", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for `netherlands`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_equal_weight_per_benchmark_risk_category_spain, "Average `emissions_profile_equal_weight`") +
-  labs(x = "Average emission category under equal weight assumption", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for country `spain`", fill = " emission category")
+  labs(x = "Average emission category under \n equal weight assumption for Spain", y = "Group", title = "Average emission category under equal weight \n assumption per grouping_emission and \n emission_category for country `spain`", fill = " emission category")
 ```
 
 ### Average `emissions_profile_base_case` per grouping_emission and emission_category for a country
@@ -159,15 +159,15 @@ avg_emission_profile_best_case_per_benchmark_country_risk_spain <- avg_per_bench
 
 ```{r, echo = FALSE, warning=FALSE}
 plot_bar_plot_profile(avg_emission_profile_best_case_per_benchmark_country_risk_france, "Average `emissions_profile_best_case`") +
-  labs(x = "Average emission category under best case assumption", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `france`", fill = " emission category")
+  labs(x = "Average emission category under \n best case assumption for France", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `france`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_best_case_per_benchmark_country_risk_austria, "Average `emissions_profile_best_case`") +
-  labs(x = "Average emission category under best case assumption", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `austria`", fill = " emission category")
+  labs(x = "Average emission category under \n best case assumption for Austria", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `austria`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_best_case_per_benchmark_country_risk_germany, "Average `emissions_profile_best_case`") +
-  labs(x = "Average emission category under best case assumption", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `germany`", fill = " emission category")
+  labs(x = "Average emission category under \n best case assumption for Germany", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `germany`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_best_case_per_benchmark_country_risk_netherlands, "Average `emissions_profile_best_case`") +
-  labs(x = "Average emission category under best case assumption", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `netherlands`", fill = " emission category")
+  labs(x = "Average emission category under \n best case assumption for Netherlands", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `netherlands`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_best_case_per_benchmark_country_risk_spain, "Average `emissions_profile_best_case`") +
-  labs(x = "Average emission category under best case assumption", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `spain`", fill = " emission category")
+  labs(x = "Average emission category under \n best case assumption for Spain", y = "Group", title = "Average emission category under best case \n assumption per grouping_emission and \n emission_category for `spain`", fill = " emission category")
 ```
 
 ### Average `emissions_profile_worst_case` per grouping_emission and emission_category for a country
@@ -189,15 +189,15 @@ avg_emission_profile_worst_case_per_benchmark_country_risk_spain <- avg_per_benc
 
 ```{r, echo = FALSE, warning=FALSE}
 plot_bar_plot_profile(avg_emission_profile_worst_case_per_benchmark_country_risk_france, "Average `emissions_profile_worst_case`") +
-  labs(x = "Average emission category under worst case assumption", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `france`", fill = " emission category")
+  labs(x = "Average emission category under \n worst case assumption for France", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `france`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_worst_case_per_benchmark_country_risk_austria, "Average `emissions_profile_worst_case`") +
-  labs(x = "Average emission category under worst case assumption", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `austria`", fill = " emission category")
+  labs(x = "Average emission category under \n worst case assumption for Austria", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `austria`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_worst_case_per_benchmark_country_risk_germany, "Average `emissions_profile_worst_case`") +
-  labs(x = "Average emission category under worst case assumption", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `germany`", fill = " emission category")
+  labs(x = "Average emission category under \n worst case assumption for Germany", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `germany`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_worst_case_per_benchmark_country_risk_netherlands, "Average `emissions_profile_worst_case`") +
-  labs(x = "Average emission category under worst case assumption", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `netherlands`", fill = " emission category")
+  labs(x = "Average emission category under \n worst case assumption for Netherlands", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `netherlands`", fill = " emission category")
 plot_bar_plot_profile(avg_emission_profile_worst_case_per_benchmark_country_risk_spain, "Average `emissions_profile_worst_case`") +
-  labs(x = "Average emission category under worst case assumption", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `spain`", fill = " emission category")
+  labs(x = "Average emission category under \n worst case assumption for Spain", y = "Group", title = "Average emission category under worst case \n assumption per grouping_emission and \n emission_category for `spain`", fill = " emission category")
 ```
 
 ### Example company-level output of transition risk profile for best case and worst case