In SawickiBartosz/tidycharts: Generate Tidy Charts Inspired by 'IBCS'
library(palmerpenguins)
library(tidyverse)
library(tidycharts)
penguins <- as.data.frame(penguins)
Data set description
The goal of palmerpenguins is to provide a great dataset for data
exploration & visualization, as an alternative to iris
Scatter plots - relationship between the variables
# --- bill length on the x axis ---
p <- penguins %>%
drop_na(bill_length_mm, bill_depth_mm)
scatter_plot(p, p$bill_length_mm, p$bill_depth_mm, p$species, 10, 5, c("bill length", "in mm"), c("bill depht", "in mm"), "Legend") %>%
add_title("Relationship between bill length and bill depth","","")
#---
p <- penguins %>%
drop_na(bill_length_mm, flipper_length_mm)
scatter_plot(p, p$bill_length_mm, p$flipper_length_mm, p$species, 10, 50, c("bill length", "in mm"), c("flipper length", "in mm"), "Legend") %>%
add_title("Relationship between bill length and flipper length","","")
#---
p <- penguins %>%
drop_na(bill_length_mm, body_mass_g)
scatter_plot(p, p$bill_length_mm, p$body_mass_g, p$species, 10, 1000, c("bill length", "in mm"), c("body mass", "in g"), "Legend") %>%
add_title("Relationship between bill length and body mass","","")
#--- bill depht on the x -axis ---
p <- penguins %>%
drop_na(bill_depth_mm, bill_length_mm)
scatter_plot(p, p$bill_depth_mm, p$bill_length_mm, p$species, 5, 10, c("bill depht", "in mm"), c("bill length", "in mm"), "Legend") %>% add_title("Relationship between bill depth and bill length","","")
#----
p <- penguins %>%
drop_na(bill_depth_mm, flipper_length_mm)
scatter_plot(p, p$bill_depth_mm, p$flipper_length_mm, p$species, 5, 50, c("bill depht", "in mm"), c("flipper length", "in mm"), "Legend") %>% add_title("Relationship between bill depth and flipper length","","")
#----
p <- penguins %>%
drop_na(bill_depth_mm, body_mass_g)
scatter_plot(p, p$bill_depth_mm, p$body_mass_g, p$species, 5, 1000, c("bill depht", "in mm"), c("body mass", "in g"), "Legend") %>% add_title("Relationship between bill length and body mass","","")
#---flipper length on the x axis ----
p <- penguins %>%
drop_na(flipper_length_mm, bill_length_mm)
scatter_plot(p, p$flipper_length_mm, p$bill_length_mm, p$species, 50, 10, c("flipper length", "in mm"), c("bill length", "in mm"), "Legend") %>% add_title("Relationship between flipper length and bill length","","")
#----
p <- penguins %>%
drop_na(flipper_length_mm, bill_depth_mm)
scatter_plot(p, p$flipper_length_mm,p$bill_depth_mm, p$species, 50, 5, c("flipper length", "in mm"), c("bill depth", "in mm"), "Legend") %>%add_title("Relationship between flipper length and bill depth","","")
#----
p <- penguins %>%
drop_na(flipper_length_mm, body_mass_g)
scatter_plot(p, p$flipper_length_mm, p$body_mass_g, p$species, 50, 1000, c("flipper length", "in mm"), c("body mass", "in g"), "Legend") %>% add_title("Relationship between flipper length and body_mass","","")
#---body mass on the x axis ----
p <- penguins %>%
drop_na(body_mass_g, bill_length_mm)
scatter_plot(p, p$body_mass_g, p$bill_length_mm, p$species, 1000, 10, c("body mass", "in g"), c("bill length", "in mm"), "Legend") %>% add_title("Relationship between body mass and bill length","","")
#----
p <- penguins %>%
drop_na(body_mass_g, bill_depth_mm)
scatter_plot(p, p$body_mass_g, p$bill_depth_mm, p$species, 1000, 5, c("body mass", "in g"), c("bill depths", "in mm"), "Legend") %>% add_title("Relationship between body mass and bill depth","","")
#----
p <- penguins %>%
drop_na(body_mass_g, flipper_length_mm)
scatter_plot(p, p$body_mass_g, p$flipper_length_mm, p$species, 1000, 50, c("body mass", "in g"), c("flipper length", "in mm"), "Legend") %>%add_title("Relationship between body mass and flipper length","","")
Histograms - distribution of the variables
p<- penguins %>% count(species)
bar_chart(p, p$species, series=c("n"), c("")) %>%
add_title("Histogram of penguin species", "","")
p<- penguins %>% count(island)
bar_chart(p, p$island, series=c("n"), c("")) %>%
add_title("Histogram of islands","", "")
p<- penguins %>%
drop_na(sex) %>%
count(sex)
bar_chart(p, p$sex, series=c("n"), c("")) %>%
add_title("Histogram of penguin sex", "","")
p<- penguins %>% count(year)
column_chart(p, "year", series=c("n")) %>%
add_title("Histogram of number of studied penguin during the years", "","")
#--- bill length_histogram ---
h <- hist(penguins$bill_length_mm, plot=FALSE)
breaks <- paste(seq(32,58,2), '-', seq(34,60,2), sep="")
df <- cbind(h$counts)
df <- as.data.frame(df)
colnames(df) <- c("counts")
column_chart(df, breaks, series=c("counts")) %>%
add_title("Histogram of bill length", "length","in mm")
#--- bill depth histogram ---
h <- hist(penguins$bill_depth_mm, plot=FALSE)
breaks <- paste(seq(13,21,1), '-', seq(14,22,1), sep="")
df <- cbind(h$counts)
df <- as.data.frame(df)
colnames(df) <- c("counts")
column_chart(df, breaks, series=c("counts")) %>%
add_title("Histogram of bill depth", "depth","in mm")
#--- flipper length histogram ---
h <- hist(penguins$flipper_length_mm, plot=FALSE)
breaks <- paste(seq(170, 230,5), '-', seq(175,235,5), sep="")
df <- cbind(h$counts)
df <- as.data.frame(df)
colnames(df) <- c("counts")
column_chart(df, breaks, series=c("counts")) %>%
add_title("Histogram of flipper length", "length","in mm")
#--- body mass histogram ---
h <- hist(penguins$body_mass_g, plot=FALSE)
breaks <- paste(seq(2.5, 6.0, 0.5), '-', seq(3.0,6.5,0.5), sep="")
df <- cbind(h$counts)
df <- as.data.frame(df)
colnames(df) <- c("counts")
column_chart(df, breaks, series=c("counts")) %>%
add_title("Histogram of body mass", "mass","in kg")
Closer look at species distribution
#---normalized barchart ---
# species in island
#p<- penguins %>% count(species, island)
#Adelie <- p %>% filter(species=="Adelie")
#Chinstrap <- p %>% filter(species== "Chinstrap")
#Chinstrap <- rbind(c("Chinstrap", "Biscoe", 0), Chinstrap, c("Chinstrap", "Torgersen", 0))
#Gentoo <- p %>% filter(species== "Gentoo")
#Gentoo <- rbind( Gentoo,c("Gentoo", "Dream", 0), c("Gentoo", "Torgersen", 0))
#df <- cbind(Adelie$n, Chinstrap$n, Gentoo$n)
#df <- as.data.frame(df)
#colnames(df) <- c("Adelie", "Chinstrap", "Gentoo")
#df$Adelie <- as.numeric(df$Adelie)
#df$Chinstrap <- as.numeric(df$Chinstrap)
#df$Gentoo <- as.numeric(df$Gentoo)
#tu wycodzi niestety brzydki wykres
#bar_chart_normalized(df, unique(p$island), c("Adelie", "Chinstrap", "Gentoo"), c("Adelie", "Chinstrap", "Gentoo" )) %>% #SVGrenderer()
#island columns normalized
p<- penguins %>% count(island, year)
Biscoe <- p %>% filter(island =="Biscoe")
Dream <- p %>% filter(island == "Dream")
Torgersen <- p %>% filter(island == "Torgersen")
df <- cbind.data.frame(Biscoe$n, Dream$n, Torgersen$n, unique(p$year))
df <- as.data.frame(df)
colnames(df) <- c("Biscoe", "Dream", "Torgersen", "Year")
df$Biscoe <- as.numeric(df$Biscoe)
df$Dream <- as.numeric(df$Dream)
df$Torgersen <- as.numeric(df$Torgersen)
column_chart_normalized(df, df$Year, c("Biscoe", "Dream", "Torgersen")) %>%
add_title('Penguin distribution', 'in %', 'by island', '2007...2009')
#species column
p<- penguins %>% count(species, year)
Adelie <- p %>% filter(species=="Adelie")
Chinstrap <- p %>% filter(species== "Chinstrap")
#Chinstrap <- rbind(c("Chinstrap", "Biscoe", 0), Chinstrap, c("Chinstrap", "Torgersen", 0))
Gentoo <- p %>% filter(species== "Gentoo")
#Gentoo <- rbind( Gentoo,c("Gentoo", "Dream", 0), c("Gentoo", "Torgersen", 0))
df <- cbind(Adelie$n, Chinstrap$n, Gentoo$n, unique(p$year))
df <- as.data.frame(df)
colnames(df) <- c("Adelie", "Chinstrap", "Gentoo", "Year")
df$Adelie <- as.numeric(df$Adelie)
df$Chinstrap <- as.numeric(df$Chinstrap)
df$Gentoo <- as.numeric(df$Gentoo)
column_chart(df, df$Year, c("Adelie", "Chinstrap", "Gentoo"))
SawickiBartosz/tidycharts documentation built on Jan. 20, 2022, 8:25 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
library(palmerpenguins) library(tidyverse) library(tidycharts) penguins <- as.data.frame(penguins)
Data set description
The goal of palmerpenguins is to provide a great dataset for data
exploration & visualization, as an alternative to iris
Scatter plots - relationship between the variables
# --- bill length on the x axis --- p <- penguins %>% drop_na(bill_length_mm, bill_depth_mm) scatter_plot(p, p$bill_length_mm, p$bill_depth_mm, p$species, 10, 5, c("bill length", "in mm"), c("bill depht", "in mm"), "Legend") %>% add_title("Relationship between bill length and bill depth","","") #--- p <- penguins %>% drop_na(bill_length_mm, flipper_length_mm) scatter_plot(p, p$bill_length_mm, p$flipper_length_mm, p$species, 10, 50, c("bill length", "in mm"), c("flipper length", "in mm"), "Legend") %>% add_title("Relationship between bill length and flipper length","","") #--- p <- penguins %>% drop_na(bill_length_mm, body_mass_g) scatter_plot(p, p$bill_length_mm, p$body_mass_g, p$species, 10, 1000, c("bill length", "in mm"), c("body mass", "in g"), "Legend") %>% add_title("Relationship between bill length and body mass","","") #--- bill depht on the x -axis --- p <- penguins %>% drop_na(bill_depth_mm, bill_length_mm) scatter_plot(p, p$bill_depth_mm, p$bill_length_mm, p$species, 5, 10, c("bill depht", "in mm"), c("bill length", "in mm"), "Legend") %>% add_title("Relationship between bill depth and bill length","","") #---- p <- penguins %>% drop_na(bill_depth_mm, flipper_length_mm) scatter_plot(p, p$bill_depth_mm, p$flipper_length_mm, p$species, 5, 50, c("bill depht", "in mm"), c("flipper length", "in mm"), "Legend") %>% add_title("Relationship between bill depth and flipper length","","") #---- p <- penguins %>% drop_na(bill_depth_mm, body_mass_g) scatter_plot(p, p$bill_depth_mm, p$body_mass_g, p$species, 5, 1000, c("bill depht", "in mm"), c("body mass", "in g"), "Legend") %>% add_title("Relationship between bill length and body mass","","") #---flipper length on the x axis ---- p <- penguins %>% drop_na(flipper_length_mm, bill_length_mm) scatter_plot(p, p$flipper_length_mm, p$bill_length_mm, p$species, 50, 10, c("flipper length", "in mm"), c("bill length", "in mm"), "Legend") %>% add_title("Relationship between flipper length and bill length","","") #---- p <- penguins %>% drop_na(flipper_length_mm, bill_depth_mm) scatter_plot(p, p$flipper_length_mm,p$bill_depth_mm, p$species, 50, 5, c("flipper length", "in mm"), c("bill depth", "in mm"), "Legend") %>%add_title("Relationship between flipper length and bill depth","","") #---- p <- penguins %>% drop_na(flipper_length_mm, body_mass_g) scatter_plot(p, p$flipper_length_mm, p$body_mass_g, p$species, 50, 1000, c("flipper length", "in mm"), c("body mass", "in g"), "Legend") %>% add_title("Relationship between flipper length and body_mass","","") #---body mass on the x axis ---- p <- penguins %>% drop_na(body_mass_g, bill_length_mm) scatter_plot(p, p$body_mass_g, p$bill_length_mm, p$species, 1000, 10, c("body mass", "in g"), c("bill length", "in mm"), "Legend") %>% add_title("Relationship between body mass and bill length","","") #---- p <- penguins %>% drop_na(body_mass_g, bill_depth_mm) scatter_plot(p, p$body_mass_g, p$bill_depth_mm, p$species, 1000, 5, c("body mass", "in g"), c("bill depths", "in mm"), "Legend") %>% add_title("Relationship between body mass and bill depth","","") #---- p <- penguins %>% drop_na(body_mass_g, flipper_length_mm) scatter_plot(p, p$body_mass_g, p$flipper_length_mm, p$species, 1000, 50, c("body mass", "in g"), c("flipper length", "in mm"), "Legend") %>%add_title("Relationship between body mass and flipper length","","")
Histograms - distribution of the variables
p<- penguins %>% count(species) bar_chart(p, p$species, series=c("n"), c("")) %>% add_title("Histogram of penguin species", "","") p<- penguins %>% count(island) bar_chart(p, p$island, series=c("n"), c("")) %>% add_title("Histogram of islands","", "") p<- penguins %>% drop_na(sex) %>% count(sex) bar_chart(p, p$sex, series=c("n"), c("")) %>% add_title("Histogram of penguin sex", "","") p<- penguins %>% count(year) column_chart(p, "year", series=c("n")) %>% add_title("Histogram of number of studied penguin during the years", "","") #--- bill length_histogram --- h <- hist(penguins$bill_length_mm, plot=FALSE) breaks <- paste(seq(32,58,2), '-', seq(34,60,2), sep="") df <- cbind(h$counts) df <- as.data.frame(df) colnames(df) <- c("counts") column_chart(df, breaks, series=c("counts")) %>% add_title("Histogram of bill length", "length","in mm") #--- bill depth histogram --- h <- hist(penguins$bill_depth_mm, plot=FALSE) breaks <- paste(seq(13,21,1), '-', seq(14,22,1), sep="") df <- cbind(h$counts) df <- as.data.frame(df) colnames(df) <- c("counts") column_chart(df, breaks, series=c("counts")) %>% add_title("Histogram of bill depth", "depth","in mm") #--- flipper length histogram --- h <- hist(penguins$flipper_length_mm, plot=FALSE) breaks <- paste(seq(170, 230,5), '-', seq(175,235,5), sep="") df <- cbind(h$counts) df <- as.data.frame(df) colnames(df) <- c("counts") column_chart(df, breaks, series=c("counts")) %>% add_title("Histogram of flipper length", "length","in mm") #--- body mass histogram --- h <- hist(penguins$body_mass_g, plot=FALSE) breaks <- paste(seq(2.5, 6.0, 0.5), '-', seq(3.0,6.5,0.5), sep="") df <- cbind(h$counts) df <- as.data.frame(df) colnames(df) <- c("counts") column_chart(df, breaks, series=c("counts")) %>% add_title("Histogram of body mass", "mass","in kg")
Closer look at species distribution
#---normalized barchart --- # species in island #p<- penguins %>% count(species, island) #Adelie <- p %>% filter(species=="Adelie") #Chinstrap <- p %>% filter(species== "Chinstrap") #Chinstrap <- rbind(c("Chinstrap", "Biscoe", 0), Chinstrap, c("Chinstrap", "Torgersen", 0)) #Gentoo <- p %>% filter(species== "Gentoo") #Gentoo <- rbind( Gentoo,c("Gentoo", "Dream", 0), c("Gentoo", "Torgersen", 0)) #df <- cbind(Adelie$n, Chinstrap$n, Gentoo$n) #df <- as.data.frame(df) #colnames(df) <- c("Adelie", "Chinstrap", "Gentoo") #df$Adelie <- as.numeric(df$Adelie) #df$Chinstrap <- as.numeric(df$Chinstrap) #df$Gentoo <- as.numeric(df$Gentoo) #tu wycodzi niestety brzydki wykres #bar_chart_normalized(df, unique(p$island), c("Adelie", "Chinstrap", "Gentoo"), c("Adelie", "Chinstrap", "Gentoo" )) %>% #SVGrenderer() #island columns normalized p<- penguins %>% count(island, year) Biscoe <- p %>% filter(island =="Biscoe") Dream <- p %>% filter(island == "Dream") Torgersen <- p %>% filter(island == "Torgersen") df <- cbind.data.frame(Biscoe$n, Dream$n, Torgersen$n, unique(p$year)) df <- as.data.frame(df) colnames(df) <- c("Biscoe", "Dream", "Torgersen", "Year") df$Biscoe <- as.numeric(df$Biscoe) df$Dream <- as.numeric(df$Dream) df$Torgersen <- as.numeric(df$Torgersen) column_chart_normalized(df, df$Year, c("Biscoe", "Dream", "Torgersen")) %>% add_title('Penguin distribution', 'in %', 'by island', '2007...2009') #species column p<- penguins %>% count(species, year) Adelie <- p %>% filter(species=="Adelie") Chinstrap <- p %>% filter(species== "Chinstrap") #Chinstrap <- rbind(c("Chinstrap", "Biscoe", 0), Chinstrap, c("Chinstrap", "Torgersen", 0)) Gentoo <- p %>% filter(species== "Gentoo") #Gentoo <- rbind( Gentoo,c("Gentoo", "Dream", 0), c("Gentoo", "Torgersen", 0)) df <- cbind(Adelie$n, Chinstrap$n, Gentoo$n, unique(p$year)) df <- as.data.frame(df) colnames(df) <- c("Adelie", "Chinstrap", "Gentoo", "Year") df$Adelie <- as.numeric(df$Adelie) df$Chinstrap <- as.numeric(df$Chinstrap) df$Gentoo <- as.numeric(df$Gentoo) column_chart(df, df$Year, c("Adelie", "Chinstrap", "Gentoo"))
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.