Package ‘**ggpmisc**’ (Miscellaneous Extensions to ‘ggplot2’) is a set of extensions to R package ‘ggplot2’ (>= 3.0.0) with emphasis on annotations and plotting related to fitted models. Estimates from model fit objects can be displayed in ggplots as text, tables or equations. Predicted values, residuals, deviations and weights can be plotted for various model fit functions. Linear models, quantile regression and major axis regression as well as those functions with accessors following the syntax of package ‘broom’ are supported. Package ‘**ggpmisc**’ continues to give access to extensions moved as of version 0.4.0 to package ‘**ggpp**’.

Package ‘**ggpmisc**’ is consistent with the grammar of graphics, and opens new possibilities retaining the flexibility inherent to this grammar. Its aim is not to automate plotting or annotations in a way suitable for fast data exploration by use of a “fits-all-sizes” predefined design. Package ‘**ggpmisc**’ together with package ‘**ggpp**’, provide new layer functions, position functions and scales. In fact, these packages follow the tenets of the grammar even more strictly than ‘**ggplot2**’ in the distinction between geometries and statistics. The new statistics in ‘**ggpmisc**’ focus mainly on model fitting, including multiple comparisons among groups. The default annotations are those most broadly valid and of easiest interpretation. We follow R’s approach of expecting that users know what they need or want, and will usually want to adjust how results from model fits are presented both graphically and textually. The approach and mechanics of plot construction and rendering remain unchanged from those implemented in package ‘**ggplot2**’.

Statistics that help with reporting the results of model fits are:

Statistic | Returned values (default geometry) |
Methods |
---|---|---|

`stat_poly_eq()` |
equation, R^{2}, P, etc. (`text_npc` ) |
lm, rlm (1, 2, 7) |

`stat_ma_eq()` |
equation, R^{2}, P, etc. (`text_npc` ) |
lmodel2 (6, 7) |

`stat_quant_eq()` |
equation, P, etc. (`text_npc` ) |
rq (1, 3, 4, 7) |

`stat_correlation()` |
correlation, P-value, CI (`text_npc` ) |
Pearson (t), Kendall (z), Spearman (S) |

`stat_poly_line()` |
line + conf. (`smooth` ) |
lm, rlm (1, 2, 7) |

`stat_ma_line()` |
line + conf. (`smooth` ) |
lmodel2 (6, 7) |

`stat_quant_line()` |
line + conf. (`smooth` ) |
rq, rqss (1, 3, 4, 7) |

`stat_quant_band()` |
median + quartiles (`smooth` ) |
rq, rqss (1, 4, 5, 7) |

`stat_fit_residuals()` |
residuals (`point` ) |
lm, rlm, rq (1, 2, 4, 7, 8) |

`stat_fit_deviations()` |
deviations from observations (`segment` ) |
lm, rlm, lqs, rq (1, 2, 4, 7, 9) |

`stat_fit_fitted()` |
fitted values (`point` ) |
lm, rlm, lqs, rq (1, 2, 4, 7, 9) |

`stat_fit_glance()` |
equation, R^{2}, P, etc. (`text_npc` ) |
those supported by ‘broom’ |

`stat_fit_augment()` |
predicted and other values (`smooth` ) |
those supported by ‘broom’ |

`stat_fit_tidy()` |
fit results, e.g., for equation (`text_npc` ) |
those supported by ‘broom’ |

`stat_fit_tb()` |
ANOVA and summary tables (`table_npc` ) |
those supported by ‘broom’ |

`stat_multcomp()` |
Multiple comparisons (`label_pairwise` or `text` ) |
those supported by `glht` (1, 2, 7) |

Notes: (1) *weight* aesthetic supported; (2) user defined fit functions that return an object of a class derived from `lm`

are supported even if they override the statistic’s *formula* argument; (3) unlimited quantiles supported; (4) user defined fit functions that return an object of a class derived from `rq`

or `rqs`

are supported even if they override the statistic’s *formula* and/or *quantiles* argument; (5) two and three quantiles supported; (6) user defined fit functions that return an object of a class derived from `lmodel2`

are supported; (7) `method`

arguments support colon based notation; (8) various functions if method `residuals()`

defined for returned value; (9) various functions if method `fitted()`

defined for returned value.

Statistics `stat_peaks()`

and `stat_valleys()`

can be used to highlight and/or label maxima and minima in a plot.

Scales `scale_x_logFC()`

, `scale_y_logFC()`

, `scale_colour_logFC()`

and `scale_fill_logFC()`

easy the plotting of log fold change data. Scales `scale_x_Pvalue()`

, `scale_y_Pvalue()`

, `scale_x_FDR()`

and `scale_y_FDR()`

are suitable for plotting *p*-values and adjusted *p*-values or false discovery rate (FDR). Default arguments are suitable for volcano and quadrant plots as used for transcriptomics, metabolomics and similar data.

Scales `scale_colour_outcome()`

, `scale_fill_outcome()`

and `scale_shape_outcome()`

and functions `outome2factor()`

, `threshold2factor()`

, `xy_outcomes2factor()`

and `xy_thresholds2factor()`

used together make it easy to map ternary numeric outputs and logical binary outcomes to color, fill and shape aesthetics. Default arguments are suitable for volcano, quadrant and other plots as used for genomics, metabolomics and similar data.

Several geoms and other extensions formerly included in package ‘ggpmisc’ until version 0.3.9 were migrated to package ‘ggpp’. They are still available when ‘ggpmisc’ is loaded, but the documentation now resides in the new package ‘**ggpp**’.

Functions for the manipulation of layers in ggplot objects, together with statistics and geometries useful for debugging extensions to package ‘ggplot2’, included in package ‘ggpmisc’ until version 0.2.17 are now in package ‘**gginnards**’.

In the first two examples we plot data such that we map a factor to the *x* aesthetic and label it with the adjusted *P*-values for multitle comparision using “Tukey” contrasts.

```
ggplot(mpg, aes(factor(cyl), cty)) +
geom_boxplot(width = 0.33) +
stat_multcomp(label.type = "letters") +
expand_limits(y = 0)
```

Using “Dunnet” contrasts and “bars” to annotate individual contrasts with the adjusted *P*-value, here using Holm’s method.

```
ggplot(mpg, aes(factor(cyl), cty)) +
geom_boxplot(width = 0.33) +
stat_multcomp(contrasts = "Dunnet",
p.adjust.method = "holm",
size = 2.75) +
expand_limits(y = 0)
```

In the third example we add the equation for a linear regression, the adjusted coefficient of determination and *P*-value to a plot showing the observations plus the fitted curve, deviations and confidence band. We use `stat_poly_eq()`

together with `use_label()`

to assemble and map the desired annotations.

```
formula <- y ~ x + I(x^2)
ggplot(cars, aes(speed, dist)) +
geom_point() +
stat_fit_deviations(formula = formula, colour = "red") +
stat_poly_line(formula = formula) +
stat_poly_eq(use_label(c("eq", "adj.R2", "P")), formula = formula)
```

The same figure as in the third example but this time annotated with the ANOVA table for the model fit. We use `stat_fit_tb()`

which can be used to add ANOVA or summary tables.

```
formula <- y ~ x + I(x^2)
ggplot(cars, aes(speed, dist)) +
geom_point() +
geom_smooth(method = "lm", formula = formula) +
stat_fit_tb(method = "lm",
method.args = list(formula = formula),
tb.type = "fit.anova",
tb.vars = c(Effect = "term",
"df",
"M.S." = "meansq",
"italic(F)" = "statistic",
"italic(P)" = "p.value"),
tb.params = c(x = 1, "x^2" = 2),
label.y.npc = "top", label.x.npc = "left",
size = 2.5,
parse = TRUE)
#> Dropping params/terms (rows) from table!
```

The same figure as in the third example but this time using quantile regression, median in this example.

```
formula <- y ~ x + I(x^2)
ggplot(cars, aes(speed, dist)) +
geom_point() +
stat_quant_line(formula = formula, quantiles = 0.5) +
stat_quant_eq(formula = formula, quantiles = 0.5)
```

Band highlighting the region between both quartile regressions and a line for the median regression.

```
formula <- y ~ x + I(x^2)
ggplot(cars, aes(speed, dist)) +
geom_point() +
stat_quant_band(formula = formula)
```

A quadrant plot with counts and labels, using `geom_text_repel()`

from package ‘ggrepel’.

```
ggplot(quadrant_example.df, aes(logFC.x, logFC.y)) +
geom_point(alpha = 0.3) +
geom_quadrant_lines() +
stat_quadrant_counts() +
stat_dens2d_filter(color = "red", keep.fraction = 0.02) +
stat_dens2d_labels(aes(label = gene), keep.fraction = 0.02,
geom = "text_repel", size = 2, colour = "red") +
scale_x_logFC(name = "Transcript abundance after A%unit") +
scale_y_logFC(name = "Transcript abundance after B%unit",
expand = expansion(mult = 0.2))
#> Warning: ggrepel: 1 unlabeled data points (too many overlaps). Consider
#> increasing max.overlaps
```

A time series using the specialized version of `ggplot()`

that converts the time series into a tibble and maps the `x`

and `y`

aesthetics automatically. We also highlight and label the peaks using `stat_peaks()`

.

```
ggplot(lynx, as.numeric = FALSE) + geom_line() +
stat_peaks(colour = "red") +
stat_peaks(geom = "text", colour = "red", angle = 66,
hjust = -0.1, x.label.fmt = "%Y") +
stat_peaks(geom = "rug", colour = "red", sides = "b") +
expand_limits(y = 8000)
```

Installation of the most recent stable version from CRAN (sources, Mac and Win binaries):

Installation of the current unstable version from R-Universe CRAN-like repository (binaries for Mac, Win, Webassembly, and Linux, as well as sources available):

```
install.packages('ggpmisc',
repos = c('https://aphalo.r-universe.dev',
'https://cloud.r-project.org'))
```

Installation of the current unstable version from GitHub (from sources):

HTML documentation for the package, including help pages and the *User Guide*, is available at https://docs.r4photobiology.info/ggpmisc/.

News about updates are regularly posted at https://www.r4photobiology.info/.

Chapter 7 in Aphalo (2020) and Chapter 9 in Aphalo (2024) explain basic concepts of the grammar of graphics as implemented in ‘ggplot2’ as well as extensions to this grammar including several of those made available by packages ‘ggpp’ and ‘ggpmisc’. Information related to the book is available at https://www.learnr-book.info/.

Please report bugs and request new features at https://github.com/aphalo/ggpmisc/issues. Pull requests are welcome at https://github.com/aphalo/ggpmisc.

If you use this package to produce scientific or commercial publications, please cite according to:

```
citation("ggpmisc")
#> To cite package 'ggpmisc' in publications use:
#>
#> Aphalo P (2024). _ggpmisc: Miscellaneous Extensions to 'ggplot2'_. R
#> package version 0.5.5.9002, https://github.com/aphalo/ggpmisc,
#> <https://docs.r4photobiology.info/ggpmisc/>.
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Manual{,
#> title = {ggpmisc: Miscellaneous Extensions to 'ggplot2'},
#> author = {Pedro J. Aphalo},
#> year = {2024},
#> note = {R package version 0.5.5.9002,
#> https://github.com/aphalo/ggpmisc},
#> url = {https://docs.r4photobiology.info/ggpmisc/},
#> }
```

Being an extension to package ‘ggplot2’, some of the code in package ‘ggpmisc’ has been created by using as a template that from layer functions and scales in ‘ggplot2’. The user interface of ‘ggpmisc’ aims at being as consistent as possible with ‘ggplot2’ and the layered grammar of graphics (Wickham 2010). New features added in ‘ggplot2’ are added when relevant to ‘ggpmisc’, such as support for `orientation`

for flipping of layers. This package does consequently indirectly include significant contributions from several of the authors and maintainers of ‘ggplot2’, listed at (https://ggplot2.tidyverse.org/).

Aphalo, Pedro J. (2024) *Learn R: As a Language.* 2ed. The R Series. Boca Raton and London: Chapman and Hall/CRC Press. ISBN: 9781032516998. 466 pp.

Aphalo, Pedro J. (2020) *Learn R: As a Language.* 1ed. The R Series. Boca Raton and London: Chapman and Hall/CRC Press. ISBN: 9780367182533. 350 pp.

Wickham, Hadley. 2010. “A Layered Grammar of Graphics.” Journal of Computational and Graphical Statistics 19 (1): 3–28. https://doi.org/10.1198/jcgs.2009.07098.

© 2016-2024 Pedro J. Aphalo (pedro.aphalo@helsinki.fi). Released under the GPL, version 2 or greater. This software carries no warranty of any kind.