--- title: "glow" output: html_vignette: keep_md: no rmarkdown::github_document: default vignette: > %\VignetteIndexEntry{glow} \usepackage[utf8]{inputenc} %\VignetteEngine{knitr::rmarkdown} --- ```{r, setup, echo=FALSE} IS_GITHUB <- Sys.getenv("IS_GITHUB") != "" ``` ```{r results='asis', echo=FALSE, eval=IS_GITHUB} cat(' [![R-CMD-check](https://github.com/traversc/glow/workflows/R-CMD-check/badge.svg)](https://github.com/traversc/glow/actions) [![CRAN-Status-Badge](http://www.r-pkg.org/badges/version/glow)](https://cran.r-project.org/package=glow) [![CRAN-Downloads-Badge](https://cranlogs.r-pkg.org/badges/glow)](https://cran.r-project.org/package=glow) [![CRAN-Downloads-Total-Badge](https://cranlogs.r-pkg.org/badges/grand-total/glow)](https://cran.r-project.org/package=glow) ') ``` ### A package for making glow-y plots The `glow` package is a framework for creating plots with glowing points as an alternative way of plotting large point clouds. ## Gallery ```{r results='asis', echo=FALSE} output <- ' |Methylation 450K Volcano Plot |Diamonds | |-|-| |![](vignettes/volcano_white_bg.png "volcano_white_bg.png"){height=240px} |![](vignettes/diamonds.png "diamonds.png"){height=240px} | | Milky Way Galaxy (6.1 million stars) | |-| | ![](vignettes/GAIA_galaxy_pseudocolor.png "GAIA_galaxy_pseudocolor.png"){height=300px} | | OpenStreetMap GPS traces (2.8 billion points) | |-| | ![](vignettes/gps_trace_8K.png "gps_trace_8K.png"){height=300px} | | Clifford strange attractor (1 billion points) | |-| | ![](vignettes/clifford_distance_inverse_viridis_50.png "clifford_distance_inverse_viridis_50.png"){height=300px} | | Airline Dataset (145 million points) | Glow-y Spiral | |-|-| | ![](vignettes/airline_mt.png "airline_mt.png"){height=240px} | ![](vignettes/glow_spiral2.png "glow_spiral2.png"){height=240px} | | U.S. Coronavirus Cases (2021) | |-| | ![](vignettes/US_coronavirus_2021.png "US_coronavirus_2021.png"){height=300px} | ' if(IS_GITHUB) { cat(output) } else { cat(gsub("vignettes/", "", output)) } ``` ## Installation ```{r eval=FALSE} remotes::install_github("traversc/glow") ``` ### Some advantages over traditional techniques * Naturally displays point density * `glow` plots don't depend on the order of points in the data (points are commutative and associative) * Multi-threaded, can be faster than geom_point depending on settings * No loss of individual points compared to binning procedures * Naturally works with larger-than-memory datasets (See "Airline" dataset in `inst/examples/examples.r`) ## Usage Creating a glow plot is done through the `GlowMapper` or `GlowMapper4` classes, which utilize the `R6` class framework. The class function `$map` creates a raster that can be plotted with `ggplot`'s `geom_raster` or output directly using the `EBImage` library. See the help files and `inst/examples/notes.txt` for more information on each example. ### ggplot example using the diamonds dataset ```{r eval=FALSE} library(glow) library(ggplot2) library(viridisLite) # Magma color scale # Number of threads nt <- 4 data(diamonds) gm <- GlowMapper$new(xdim=800, ydim = 640, blend_mode = "screen", nthreads=nt) # relx(0.002) makes point size relative to x-axis, e.g. each point radius is 0.2% of the y-axis gm$map(x=diamonds$carat, y=diamonds$price, intensity=1, radius = rely(0.002)) pd <- gm$output_dataframe(saturation = 1) # Dark color theme ggplot() + geom_raster(data = pd, aes(x = pd$x, y = pd$y, fill = pd$value), show.legend = FALSE) + scale_fill_gradientn(colors = additive_alpha(magma(12))) + coord_fixed(gm$aspect(), xlim = gm$xlim(), ylim = gm$ylim()) + labs(x = "carat", y = "price") + theme_night(bgcolor = magma(12)[1]) ``` ```{r results='asis', echo=FALSE} if(IS_GITHUB) { cat('![](vignettes/diamonds_vignette_dark.png "diamonds_vignette_dark.png"){height=240px}') } else { cat('![](diamonds_vignette_dark.png "diamonds_vignette_dark.png"){height=240px}') } ``` ```{r eval=FALSE} # light "heat" color theme light_colors <- light_heat_colors(144) ggplot() + geom_raster(data = pd, aes(x = pd$x, y = pd$y, fill = pd$value), show.legend = FALSE) + scale_fill_gradientn(colors = additive_alpha(light_colors)) + coord_fixed(gm$aspect(), xlim = gm$xlim(), ylim = gm$ylim()) + labs(x = "carat", y = "price") + theme_bw(base_size = 14) ``` ```{r results='asis', echo=FALSE} if(IS_GITHUB) { cat('![](vignettes/diamonds_vignette_light.png "diamonds_vignette_light.png"){height=240px}') } else { cat('![](diamonds_vignette_light.png "diamonds_vignette_light.png"){height=240px}') } ``` ```{r eval=FALSE} # light "cool" color theme light_colors <- light_cool_colors(144) ggplot() + geom_raster(data = pd, aes(x = pd$x, y = pd$y, fill = pd$value), show.legend = FALSE) + scale_fill_gradientn(colors = additive_alpha(light_colors)) + coord_fixed(gm$aspect(), xlim = gm$xlim(), ylim = gm$ylim()) + labs(x = "carat", y = "price") + theme_bw(base_size = 14) ``` ```{r results='asis', echo=FALSE} if(IS_GITHUB) { cat('![](vignettes/diamonds_vignette_cool.png "diamonds_vignette_cool.png"){height=240px}') } else { cat('![](diamonds_vignette_cool.png "diamonds_vignette_cool.png"){height=240px}') } ``` ### Writing a raster image directly Instead of using ggplot, you can also output a raster image directly using the `EBImage` Bioconductor library. ```{r eval=FALSE} library(EBImage) # Generate data cliff_points <- clifford_attractor(1e6, 1.886,-2.357,-0.328, 0.918, 0.1, 0) color_pal <- circular_palette(n=144, pal_function=rainbow) cliff_points$color <- map_colors(color_pal, cliff_points$angle, min_limit=-pi, max_limit=pi) # Create raster gm <- GlowMapper4$new(xdim=480, ydim = 270, blend_mode = "additive", nthreads=4) gm$map(x=cliff_points$x, y=cliff_points$y, radius=1e-3, color=cliff_points$color) pd <- gm$output_raw(saturation = 1) # Output raster with EBImage image_array <- array(1, dim=c(480, 270, 3)) image_array[,,1] <- pd[[1]]*pd[[4]] image_array[,,2] <- pd[[2]]*pd[[4]] image_array[,,3] <- pd[[3]]*pd[[4]] img <- EBImage::Image(image_array, colormode='Color') plot(img) writeImage(img, "plots/clifford_vignette.png") ``` ```{r results='asis', echo=FALSE} if(IS_GITHUB) { cat('![](vignettes/clifford_vignette.png "clifford_vignette.png"){height=240px}') } else { cat('![](clifford_vignette.png "clifford_vignette.png"){height=240px}') } ```