## ---- include=FALSE----------------------------------------------------------- knitr::opts_chunk$set(fig.width=7, fig.height=5, fig.retina=2) library(latex2exp) library(reactable) library(stringr) library(purrr) library(dplyr) library(ggplot2) library(tibble) ## ---- eval=FALSE-------------------------------------------------------------- # # Use raw strings, no need to escape backslashes. # TeX(r"(\textbf{Euler's identity} is $e^{i\pi} + 1 = 0$.)") ## ---- eval=FALSE-------------------------------------------------------------- # # Equivalent to the previous code fragment. # # Use regular strings, but escape the backslashes. # TeX("\\textbf{Euler's identity} is $e^{i\\pi} + 1 = 0$.") ## ----plot-formula, fig.height=2, fig.width=5---------------------------------- plot(TeX(r'(A $\LaTeX$ formula: $\frac{2hc^2}{\lambda^5}\frac{1}{e^{\frac{hc}{\lambda k_B T}} - 1}$)'), cex=2, main="") ## ----base-plot, warning=FALSE------------------------------------------------- x <- seq(0, 4, length.out=100) alpha <- 1:5 plot(x, xlim=c(0, 4), ylim=c(0, 10), xlab='x', ylab=TeX(r'($\alpha x^\alpha$, where $\alpha \in \{1 \ldots 5\}$)'), type='n', main=TeX(r'(Using $\LaTeX$ for plotting in base graphics!)', bold=TRUE)) for (a in alpha) { lines(x, a*x^a, col=a) } legend('topleft', legend=TeX(sprintf(r'($\alpha = %d$)', alpha)), lwd=1, col=alpha) ## ----ggplot, warning=FALSE---------------------------------------------------- x <- seq(0, 4, length.out=100) alpha <- 1:5 data <- map_df(alpha, ~ tibble(v=.*x^., x=x, alpha=.)) p <- ggplot(data, aes(x=x, y=v, color=as.factor(alpha))) + geom_line() + ylab(TeX(r'($\alpha x^\alpha$, where $\alpha \in 1\ldots 5$)')) + ggtitle(TeX(r'(Using $\LaTeX$ for plotting in ggplot2. I $\heartsuit$ ggplot!)')) + coord_cartesian(ylim=c(-1, 10)) + guides(color=guide_legend(title=NULL)) + scale_color_discrete(labels=lapply(sprintf(r'($\alpha = %d$)', alpha), TeX)) # Note that ggplot2 legend labels must be lists of expressions, not vectors of expressions print(p) ## ----examples, fig.width=7, fig.height=6-------------------------------------- latex2exp_examples(cex=0.9)