## ----include = FALSE, eval = FALSE-------------------------------------------- # knitr::opts_chunk$set( # collapse = TRUE, # comment = "#>", # warning = FALSE, # message = FALSE, # eval = requireNamespace("GTAPViz", quietly = TRUE) # ) ## ----Dev Period, include = FALSE, eval = TRUE--------------------------------- try(devtools::load_all(".."), silent = TRUE) # go up one level from /vignettes/ input_path <- system.file("extdata/in", package = "GTAPViz") sl4.plot.data <- readRDS(file.path(input_path, "sl4.plot.data.rds")) bilateral_data <- readRDS(file.path(input_path, "bilateral_data.rds")) har.plot.data <- readRDS(file.path(input_path, "har.plot.data.rds")) macro.data <- readRDS(file.path(input_path, "macro.data.rds")) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- reg_data = sl4.plot.data[["REG"]] plotA <- comparison_plot( # === Input Data === data = reg_data, filter_var = NULL, x_axis_from = "Region", split_by = "Variable", panel_var = "Experiment", variable_col = "Variable", unit_col = "Unit", desc_col = "Description", # === Plot Behavior === invert_axis = FALSE, separate_figure = FALSE, # === Variable Display === var_name_by_description = FALSE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 20, height = 12 ), # === Styling === plot_style_config = create_plot_style( color_tone = "purdue", add_unit_to_title = TRUE, title_format = create_title_format( type = "prefix", text = "Impact on" ), panel_rows = 2 ) ) ## ----echo=FALSE, fig.align='center', fig.width=12, fig.height=10-------------- print(plotA[[1]]) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- macro.plot <- comparison_plot( # === Input Data === data = macro.data[["macros"]], filter_var = c("pgdpwld", "qgdpwld", "vgdpwld"), x_axis_from = "Variable", split_by = FALSE, # THIS IS THE MOST IMPORTANT PART FOR THIS PLOT # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 20, height = 15 ), # === Styling === plot_style_config = create_plot_style( color_tone = "gtap", title_format = create_title_format( type = "full", text = "Global Economic Impacts" ) ) ) ## ----echo=FALSE, fig.align='center', fig.width=12, fig.height=10-------------- print(macro.plot[[1]]) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- sector_data <- sl4.plot.data[["COMM*REG"]] plotB <- detail_plot( # === Input Data === data = sector_data, filter_var = list(Region = c("Oceania")), x_axis_from = "Commodity", split_by = "Region", panel_var = "Experiment", variable_col = "Variable", unit_col = "Unit", desc_col = "Description", # === Plot Behavior === invert_axis = TRUE, separate_figure = FALSE, top_impact = NULL, # === Variable Display === var_name_by_description = TRUE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 45, height = 20 ), # === Styling === plot_style_config = create_plot_style( positive_color = "#2E8B57", negative_color = "#CD5C5C", panel_rows = 1, panel_cols = NULL, show_axis_titles_on_all_facets = FALSE, y_axis_text_size = 25, bar_width = 0.6, all_font_size = 1.1 ) ) ## ----echo=FALSE, fig.align='center', fig.width=12, fig.height=10-------------- print(plotB[[1]]) ## ----echo=FALSE, message = FALSE, warning = FALSE, fig.align='center', fig.width=12, fig.height=10---- plotB2 <- detail_plot( # === Input Data === data = sector_data, filter_var = list(Region = c("Oceania")), x_axis_from = "Commodity", split_by = "Region", panel_var = "Experiment", variable_col = "Variable", unit_col = "Unit", desc_col = "Description", # === Plot Behavior === invert_axis = TRUE, separate_figure = FALSE, top_impact = 10, # === Variable Display === var_name_by_description = FALSE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 25, height = 12 ), # === Styling === plot_style_config = create_plot_style( positive_color = "#2E8B57", negative_color = "#CD5C5C", panel_rows = 1, panel_cols = NULL, show_axis_titles_on_all_facets = FALSE, y_axis_text_size = 25, bar_width = 0.6, all_font_size = 1.1 ) ) print(plotB2[[1]]) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- bilateral_data <- bilateral_data[["qxs"]] plotB3 <- detail_plot( # === Input Data === data = bilateral_data, filter_var = list(Source = c("Oceania"), Destination = c("SEAsia", "EastAsia")), x_axis_from = "Commodity", split_by = c("Source", "Destination"), # The most important part! # === Plot Behavior === invert_axis = TRUE, separate_figure = FALSE, top_impact = NULL, # === Variable Display === var_name_by_description = FALSE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 45, height = 20 ), # === Styling === plot_style_config = create_plot_style( positive_color = "#2E8B57", negative_color = "#CD5C5C", panel_rows = 1, panel_cols = NULL, show_axis_titles_on_all_facets = FALSE, y_axis_text_size = 25, bar_width = 0.6, all_font_size = 1.1 ) ) ## ----echo=FALSE, fig.align='center', fig.width=12, fig.height=10-------------- print(plotB3[[1]]) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- # Rename Value if needed wefare.decomp.rename <- data.frame( ColumnName = "COLUMN", OldName = c("alloc_A1", "ENDWB1", "tech_C1", "pop_D1", "pref_G1", "tot_E1", "IS_F1"), NewName = c("Alloc Eff.", "Endwb", "Tech Chg.", "Pop", "Perf", "ToT", "I-S"), stringsAsFactors = FALSE ) har.plot.data <- rename_value(har.plot.data, mapping.file = wefare.decomp.rename) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- plotC <- stack_plot( # === Input Data === data = har.plot.data[["A"]], filter_var = NULL, x_axis_from = "Region", stack_value_from = "COLUMN", split_by = FALSE, panel_var = "Experiment", variable_col = "Variable", unit_col = "Unit", desc_col = "Description", # === Plot Behavior === invert_axis = FALSE, separate_figure = FALSE, show_total = TRUE, unstack_plot = FALSE, top_impact = NULL, # === Variable Display === var_name_by_description = TRUE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 28, height = 15 ), # === Styling === plot_style_config = create_plot_style( color_tone = "gtap", panel_rows = 1, panel_cols = NULL, show_legend = TRUE, show_axis_titles_on_all_facets = FALSE ) ) ## ----echo=FALSE, fig.align='center', fig.width=12, fig.height=10-------------- print(plotC[[1]]) ## ----echo=FALSE, message = FALSE, warning = FALSE, fig.align='center', fig.width=12, fig.height=10---- plotD <- stack_plot( # === Input Data === data = har.plot.data[["A"]], filter_var = NULL, x_axis_from = "Region", stack_value_from = "COLUMN", split_by = FALSE, # === Plot Behavior === invert_axis = TRUE, separate_figure = FALSE, show_total = TRUE, unstack_plot = TRUE, top_impact = NULL, # === Variable Display === var_name_by_description = TRUE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 28, height = 15 ), # === Styling === plot_style_config = create_plot_style( color_tone = "gtap", panel_rows = 1, panel_cols = NULL, show_legend = TRUE, show_axis_titles_on_all_facets = FALSE ) ) print(plotD[[1]]) ## ----eval = TRUE, message = FALSE, warning = FALSE, results = 'hide'---------- plotE <- stack_plot( # === Input Data === data = har.plot.data[["E1"]], filter_var = list(Region = c("Oceania", "SEAsia")), x_axis_from = "Commodity", stack_value_from = "PRICES", split_by = "Region", panel_var = "Experiment", variable_col = "Variable", unit_col = "Unit", desc_col = "Description", # === Plot Behavior === invert_axis = TRUE, separate_figure = FALSE, show_total = TRUE, unstack_plot = FALSE, top_impact = NULL, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 50, height = 30 ), # === Styling === plot_style_config = create_plot_style( title_format = create_title_format( type = "prefix", text = "Terms of Trade Decomposition", sep = ": " ), color_tone = "winter", panel_rows = 1, show_axis_titles_on_all_facets = FALSE, bar_width = 0.5, show_legend = TRUE ) ) ## ----echo=FALSE, fig.align='center', fig.width=12, fig.height=10-------------- print(plotE[[1]]) ## ----eval=FALSE--------------------------------------------------------------- # get_all_config() ## ----eval=FALSE--------------------------------------------------------------- # comparison_plot <- (..., # export_config = my_export_config, # plot_style_config = my_style_config # ) ## ----Sorting Data Function, eval = TRUE--------------------------------------- # Using the function sort_sl4_plot <- sort_plot_data( sl4.plot.data, sort_columns = list( Experiment = c("EXP2", "EXP1"), # Column Name = Sorting Order Region = c("SEAsia", "Oceania") ), sort_by_value_desc = NULL ) ## ----echo=FALSE, message = FALSE, warning = FALSE, fig.align='center', fig.width=12, fig.height=10---- sort_sl4_plot = sort_sl4_plot[["REG"]] plotE <- comparison_plot( # === Input Data === data = sort_sl4_plot, filter_var = NULL, x_axis_from = "Region", split_by = "Variable", panel_var = "Experiment", variable_col = "Variable", unit_col = "Unit", desc_col = "Description", # === Plot Behavior === invert_axis = FALSE, separate_figure = FALSE, # === Variable Display === var_name_by_description = FALSE, add_var_info = FALSE, # === Export Settings === output_path = NULL, export_picture = FALSE, export_as_pdf = FALSE, export_config = create_export_config( width = 20, height = 12 ), # === Styling === plot_style_config = create_plot_style( color_tone = "purdue", add_unit_to_title = TRUE, title_format = create_title_format( type = "prefix", text = "Impact on" ), panel_rows = 2 ) ) print(plotE[[1]]) ## ----Rename Value, eval = FALSE----------------------------------------------- # # Creating Mapping File # rename.region <- data.frame( # ColumnName = "REG", # OldName = c("USA", "CHN"), # NewName = c("United States", "China"), # stringsAsFactors = FALSE # ) # # sl4.plot.data_rename <- rename_value(sl4.plot.data, mapping.file = rename.region) ## ----eval = FALSE------------------------------------------------------------- # # Rename Value if needed # wefare.decomp.rename <- data.frame( # ColumnName = "COLUMN", # OldName = c("alloc_A1", "ENDWB1", "tech_C1", "pop_D1", "pref_G1", "tot_E1", "IS_F1"), # NewName = c("Alloc Eff.", "Endwb", "Tech Chg.", "Pop", "Perf", "ToT", "I-S"), # stringsAsFactors = FALSE # ) # # welfare_decomp <- rename_value(har.plot.data, mapping.file = wefare.decomp.rename)