Autoplotter Tutorial Now

Her final discovery plot:

auto_notes(data) <- "Temperature above 29°C drives bleaching, mitigated by shading treatment." Those notes appeared in the report’s appendix. Alia had to re-run the same plots weekly as new data arrived. autoplotter worked inside dplyr pipelines:

Alia whispered: “This would have taken me 3 hours.” But defaults weren’t perfect. The site names were long, and points overlapped. autoplotter tutorial

I’ve structured it like a data analyst’s journey from confusion to insight. Dr. Alia Khan, a marine biologist, stared at a CSV file named coral_bleaching_2025.csv . It had 14 columns: site , temperature , salinity , light_intensity , bleaching_score , date , depth_m , turbidity , nitrates , ph , algae_cover , fish_diversity , treatment , and recovery_days .

She needed to explore relationships fast. But making 50+ plots in ggplot2 manually? No time. “There has to be a function that just… plots everything smartly.” That’s when she found autoplotter . # install.packages("autoplotter") # hypothetical library(autoplotter) library(ggplot2) # autoplotter builds on it data <- read.csv("coral_bleaching_2025.csv") The magic function auto_plot(data) The site names were long, and points overlapped

She never wrote a ggplot from scratch for exploration again.

Alia ran:

auto_shiny(data) # launches a Shiny app with dropdowns for x/y/facet Using auto_plot() , Alia noticed something unexpected: In sites with fish_diversity > 6 , the temperature ~ bleaching_score slope was nearly flat. She never would have thought to facet by that without the automated exploration.

autoplotter allowed :