81 lines
6.2 KiB
R
81 lines
6.2 KiB
R
library(tidyverse)
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library(gt) #For nice color coded capacity limits table.
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source("Scripts/Load_Custom_Functions/Fan_Chart_Creation_Functions.r") #Functions created to make nice graphs
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if(!exists("SAVE_RES_LOC")){SAVE_RES_LOC <- "./Results/Primary_Simulation_Results/Main_Results/"}
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dir.create(SAVE_RES_LOC, recursive = TRUE, showWarnings = FALSE)
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###Process the simulations and save the main percentile results by year
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RES <- read_csv("Results/Simulations/Kemmerer_2024_With_Data_Center_Simulation.csv")
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RES[,"Year"] <- RES[,"Year"]
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RES<- RES %>% filter(!is.na(Year))
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RES <- RES %>% filter(!is.na(Population))
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HIST <- readRDS("Data/Cleaned_Data/Population_Data/RDS/Kemmerer_Diamondville_Population_Data.Rds") %>% filter(County=='Lincoln') %>% mutate(Percentile="Actual Population") %>% filter(Year>=1940)
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######Population
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####Fan New
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POP_DATA <- GET_DATA(RES,3)
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POP_PLOT <- MAKE_GRAPH(POP_DATA)
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POP_PLOT <- POP_PLOT+geom_line(data=HIST,aes(x=Year,y=Population),color='black',linewidth=0.75)+ scale_x_continuous(breaks = c(seq(1940, 2060, by = 10),2065))+ scale_y_continuous(breaks = seq(0, 35000, by = 500))+ggtitle("Kemmerer & Diamondville, Population Forecast")+ expand_limits( y = 0)+labs(color = "Prediction Interval",linetype="Prediction Interval",y="Population")+ theme_bw()+ theme(legend.position = "top",panel.grid.minor = element_blank())
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png(paste0(SAVE_RES_LOC,"Population_Fan_Chart_Main_Results.png"), width = 12, height = 8, units = "in", res = 600)
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POP_PLOT
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dev.off()
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#Population Summary table for the key years
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KEY_YEARS <- c(2029,2030,2035,2045,2055,2065)
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KEY_YEAR_SUMMARY <- POP_DATA %>% filter(Year %in% KEY_YEARS,Group==5) %>% select(-Group) %>% rename(CI_95_Lower=MIN,CI_95_Upper=MAX) %>% left_join(POP_DATA %>% filter(Year %in% KEY_YEARS,Group==0) %>% select(-Group) %>% select(Year,Median=MIN)) %>% select(Year,CI_95_Lower,Median,CI_95_Upper)
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KEY_YEAR_SUMMARY <- round(KEY_YEAR_SUMMARY )
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KEY_YEAR_SUMMARY <- t(KEY_YEAR_SUMMARY )
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write.table(KEY_YEAR_SUMMARY,paste0(SAVE_RES_LOC,"Key_Year_Summary_Main_Results.csv"), sep=",",col.names=FALSE)
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BIRTH_DATA <- GET_DATA(RES,4)
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BIRTH_PLOT <- MAKE_GRAPH(BIRTH_DATA)
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BIRTH_PLOT <- BIRTH_PLOT+geom_line(data=HIST,aes(x=Year,y=Births),color='black',linewidth=0.75)+ scale_x_continuous(breaks = c(seq(2010, 2060, by = 5),2065),limits=c(2009,2065))+ scale_y_continuous(breaks = seq(0, 35000, by = 10))+ggtitle("Kemmerer & Diamondville, Birth Forecast")+ expand_limits( y = 0)+labs(color = "Prediction Interval",linetype="Prediction Interval",y="Births")+ theme_bw()+ theme(legend.position = "top",panel.grid.minor = element_blank())
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png(paste0(SAVE_RES_LOC,"Birth_Fan_Chart_Main_Results.png"), width = 12, height = 8, units = "in", res = 600)
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BIRTH_PLOT
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dev.off()
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DEATH_DATA <- GET_DATA(RES,5) %>% filter(!is.na(MIN))
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DEATH_PLOT <- MAKE_GRAPH(DEATH_DATA)
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DEATH_PLOT <- DEATH_PLOT+geom_line(data=HIST,aes(x=Year,y=Deaths),color='black',linewidth=0.75)+ scale_x_continuous(breaks = c(seq(2010, 2060, by = 5),2065),limits=c(2009,2065))+ scale_y_continuous(breaks = seq(0, 35000, by = 10))+ggtitle("Kemmerer & Diamondville, Mortality Forecast")+ expand_limits( y = 0)+labs(color = "Prediction Interval",linetype="Prediction Interval",y="Deaths")+ theme_bw()+ theme(legend.position = "top",panel.grid.minor = element_blank())
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png(paste0(SAVE_RES_LOC,"Mortality_Fan_Chart_Main_Results.png"), width = 12, height = 8, units = "in", res = 600)
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DEATH_PLOT
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dev.off()
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MIGRATION_DATA <- GET_DATA(RES,6) %>% filter(!is.na(MIN))
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MIGRATION_PLOT <- MAKE_GRAPH(MIGRATION_DATA)
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MIGRATION_PLOT <- MIGRATION_PLOT+geom_line(data=HIST,aes(x=Year,y=Migration),color='black',linewidth=0.75)+ scale_x_continuous(breaks = c(seq(2010, 2060, by = 5),2065),limits=c(2009,2065))+ scale_y_continuous(breaks = seq(-1000, 1000, by = 50))+ggtitle("Kemmerer & Diamondville, Net Migration Forecast")+ expand_limits( y = 0)+labs(color = "Prediction Interval",linetype="Prediction Interval",y="Migration")+ theme_bw()+ theme(legend.position = "top",panel.grid.minor = element_blank())
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png(paste0(SAVE_RES_LOC,"Migration_Fan_Chart_Main_Results.png"), width = 12, height = 8, units = "in", res = 600)
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MIGRATION_PLOT
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dev.off()
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#####Key year table
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KEY <- RES %>% filter(Year %in% c(2029,2030,2035,2045,2055,2065))
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AVG_VALUES <- KEY %>% group_by(Year) %>% summarize(MED=median(Population),MEAN=mean(Population))
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AVG_VALUES <- rbind(AVG_VALUES[,1:2]%>% rename(Value=MED) %>% mutate('Summary Stat.'="Median"),AVG_VALUES[,c(1,3)] %>% rename(Value=MEAN) %>% mutate('Summary Stat.'="Mean"))
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HISTOGRAM <- ggplot(KEY, aes(x = Population,group=-Year,Color=Year,fill=Year)) + geom_histogram(alpha=0.3,bins=800)+geom_vline(data = AVG_VALUES, aes(xintercept = Value,group=`Summary Stat.`,color = `Summary Stat.`), size = 0.75)+scale_color_manual(values=c("red","black","black"))+ facet_grid(rows=vars(Year))+ scale_x_continuous(breaks = c(seq(0, 10000, by = 500)))+ theme_bw()+ theme(legend.position = "top",panel.grid.minor = element_blank())+ylab("Number of Simulation")+guides(fill= guide_legend(nrow = 1))
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png(paste0(SAVE_RES_LOC,"Population_Histogram_Main_Results.png"), width = 8, height = 12, units = "in", res = 600)
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HISTOGRAM
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dev.off()
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#rm(KEY_YEARS)
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POP_LEVELS <- seq(2000,6000,100)
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YEARS <- c(2030,2035,2045,2055,2065)
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for(i in YEARS ){
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KEY <- RES %>% filter(Year==i ) %>% pull(Population)
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ECDF <- ecdf(KEY)
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ECDF_VALUES <- ECDF(POP_LEVELS)
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if(!exists("KEY_YEARS")){KEY_YEARS<- ECDF_VALUES} else{KEY_YEARS<- cbind(KEY_YEARS,ECDF_VALUES)}
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}
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colnames(KEY_YEARS) <- YEARS
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rownames(KEY_YEARS) <- POP_LEVELS
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PLOT_GREEN <- "forestgreen"
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PLOT_YELLOW <- "yellow"
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PLOT_RED <- "red"
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KEY_YEARS <- KEY_YEARS%>% as.data.frame
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Capacity_Risk <- KEY_YEARS%>% gt(rownames_to_stub = TRUE,caption="Year") %>% data_color( fn = scales::col_numeric( palette = c(PLOT_RED, PLOT_YELLOW, PLOT_GREEN), domain = c(0, 1) ) ) %>% fmt_percent( decimals = 1, drop_trailing_zeros = FALSE) %>% tab_stubhead(label =c("Capacity"))
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gtsave( data = Capacity_Risk , filename = "./Results/Primary_Simulation_Results/Main_Results/Capacity_Table_Main_Results.html")
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system("wkhtmltopdf --disable-smart-shrinking --no-stop-slow-scripts --enable-local-file-access --page-width 85mm --page-height 328mm ./Results/Primary_Simulation_Results/Main_Results/Capacity_Table_Main_Results.html ./Results/Primary_Simulation_Results/Main_Results/Capacity_Table_Main_Results.pdf")
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