This is a tricky problem because typesetting is tricky. Rmarkdown does a good job at hiding a lot of thorny details, but if you want to typeset, you need to typeset. It's even hard in Latex, as you'll see. There are so many moving parts, e.g. caption and legends, rendering an image which is then included in an intermediate .tex file so pandoc can make your .pdf. A fully generalizable solution is not possible without demanding a lot of input (which is what you are trying to avoid in the first place).
I don't think creating Beamer presentations in itself is incompatible with reproducible research, but is a legitimate output, likely along with other reports.
But before launching into the Latex, you should consider the very simple workaround of only putting a graphic and no text on each slide. This reliably fits the image on the slide. You can then use annotations in ggplot2 to add additional text. This is what I would do.
The following Rmarkdown uses a complicated bit of embedded Latex to do more-or-less what you want. It does limit the image to the bottom half of the screen (but this can be changed if you learn more about tikz...), but does scale the image to the remaining page size as the upper text block increases. It does also, of course, scale all your legends, but you can potentially tweak these in ggplot2.
---
title: "Some beamer slides with figures"
author: Somebody
date: November 06, 2015
output:
beamer_presentation:
keep_tex: yes
header-includes:
- \usepackage{graphicx}
- \usepackage{tikzpagenodes}
- \usetikzlibrary{calc}
- \usepackage{caption}
---
```{r setup, include=FALSE}
knitr::opts_chunk$set(echo = FALSE, fig.path="figures/beamer-example/")
library(ggplot2)
```
```{r}
mtcars$gear <- factor(mtcars$gear,levels=c(3,4,5),
labels=c("3gears","4gears","5gears"))
mtcars$am <- factor(mtcars$am,levels=c(0,1),
labels=c("Automatic","Manual"))
mtcars$cyl <- factor(mtcars$cyl,levels=c(4,6,8),
labels=c("4cyl","6cyl","8cyl"))
```
## A default plot
```{r mpg-plot}
qplot(mpg, data=mtcars, geom="density", fill=gear, alpha=I(.5),
main="Distribution of Gas Milage", xlab="Miles Per Gallon",
ylab="Density")
```
## test
- some text which
- fills vertical
- space
\begin{tikzpicture}[overlay,remember picture]
% Caption
\node [anchor=south west,outer sep=0pt,inner sep=0pt,text width=\textwidth] (caption) at (current page text area.south west) {%
};
% Image
\path let \p0 = (0,0), \p1 = (caption.north) in
node [inner sep=0pt,outer sep=0pt,anchor=south] at (\x1,\y1) {%
\pgfmathsetmacro\imgheight{\y0-\y1-\abovecaptionskip}%
\includegraphics[height=\imgheight pt,width=\textwidth,keepaspectratio]{figures/beamer-example/mpg-plot-1}%
};
\end{tikzpicture}
## test2
- some text which
- fills vertical
- space
- but squashes
- the image badly
\begin{tikzpicture}[overlay,remember picture]
% Caption
\node [anchor=south west,outer sep=0pt,inner sep=0pt,text width=\textwidth] (caption) at (current page text area.south west) {%
};
% Image
\path let \p0 = (0,0), \p1 = (caption.north) in
node [inner sep=0pt,outer sep=0pt,anchor=south] at (\x1,\y1) {%
\pgfmathsetmacro\imgheight{\y0-\y1-\abovecaptionskip}%
\includegraphics[height=\imgheight pt,width=\textwidth,keepaspectratio]{figures/beamer-example/mpg-plot-1}%
};
\end{tikzpicture}
## test3
\begin{tikzpicture}[overlay,remember picture]
% Caption
\node [anchor=south west,outer sep=0pt,inner sep=0pt,text width=\textwidth] (caption) at (current page text area.south west) {%
};
% Image
\path let \p0 = (0,0), \p1 = (caption.north) in
node [inner sep=0pt,outer sep=0pt,anchor=south] at (\x1,\y1) {%
\pgfmathsetmacro\imgheight{\y0-\y1-\abovecaptionskip}%
\includegraphics[height=\imgheight pt,width=\textwidth,keepaspectratio]{figures/beamer-example/mpg-plot-1}%
};
\end{tikzpicture}
You can read some gory details in:
https://tex.stackexchange.com/questions/14512/how-to-define-a-figure-size-so-that-it-consumes-the-rest-of-a-page
