# Adding Regression Line Equation and R2 on graph

I wonder how to add regression line equation and R^2 on the ggplot. My code is

library(ggplot2)
df <- data.frame(x = c(1:100))
df$y <- 2 + 3 * df$x + rnorm(100, sd = 40)
p <- ggplot(data = df, aes(x = x, y = y)) +
geom_smooth(method = "lm", se=FALSE, color="black", formula = y ~ x) +
geom_point()
p


Any help will be highly appreciated.

• For lattice graphics, see latticeExtra::lmlineq(). – Josh O'Brien Oct 13 '13 at 2:23

Here is one solution

# GET EQUATION AND R-SQUARED AS STRING

lm_eqn <- function(df){
m <- lm(y ~ x, df);
eq <- substitute(italic(y) == a + b %.% italic(x)*","~~italic(r)^2~"="~r2,
list(a = format(coef(m)[1], digits = 2),
b = format(coef(m)[2], digits = 2),
r2 = format(summary(m)$r.squared, digits = 3))) as.character(as.expression(eq)); } p1 <- p + geom_text(x = 25, y = 300, label = lm_eqn(df), parse = TRUE)  EDIT. I figured out the source from where I picked this code. Here is the link to the original post in the ggplot2 google groups • @JonasRaedle's comment about getting better looking texts with annotate was correct on my machine. – 42- Aug 16 '13 at 23:23 • This doesn't look anything like the posted output on my machine, where the label is overwritten as many times as the data is called, resulting in a thick and blurry label text. Passing the labels to a data.frame first works (see my suggestion in a comment below. – PatrickT Apr 29 '14 at 10:52 • @PatrickT: remove the aes( and the corresponding ). aes is for mapping dataframe variables to visual variables - that's not needed here, since there's just one instance, so you can put it all in the main geom_text call. I'll edit this in to the answer. – naught101 Jun 18 '15 at 18:56 • Problem with this solution seems to be, that if the dataset is bigger (mine was 370000 observations) the function seems to fail. I would recommend the solution from @kdauria which does the same, but much much faster. – Benjamin Sep 3 '15 at 19:27 • for those who wants r and p values instead of R2 and equation: eq <- substitute(italic(r)~"="~rvalue*","~italic(p)~"="~pvalue, list(rvalue = sprintf("%.2f",sign(coef(m)[2])*sqrt(summary(m)$r.squared)), pvalue = format(summary(m)$coefficients[2,4], digits = 2))) – Jerry T Apr 1 '17 at 2:29 I changed a few lines of the source of stat_smooth and related functions to make a new function that adds the fit equation and R squared value. This will work on facet plots too! library(devtools) source_gist("524eade46135f6348140") df = data.frame(x = c(1:100)) df$y = 2 + 5 * df$x + rnorm(100, sd = 40) df$class = rep(1:2,50)
ggplot(data = df, aes(x = x, y = y, label=y)) +
stat_smooth_func(geom="text",method="lm",hjust=0,parse=TRUE) +
geom_smooth(method="lm",se=FALSE) +
geom_point() + facet_wrap(~class)


I used the code in @Ramnath's answer to format the equation. The stat_smooth_func function isn't very robust, but it shouldn't be hard to play around with it.

https://gist.github.com/kdauria/524eade46135f6348140. Try updating ggplot2 if you get an error.

• Many Thanks. This one doesn't only work for facets, but even for groups. I find it very useful for piecewise regressions, e.g. stat_smooth_func(mapping=aes(group=cut(x.val,c(-70,-20,0,20,50,130))),geom="text",method="lm",hjust=0,parse=TRUE), in combination with EvaluateSmooths from stackoverflow.com/questions/19735149/… – Julian Jan 27 '15 at 17:05
• I get 'Error in eval(expr, envir, enclos) : could not find function "eval"' when I try to source the function – Jan Stanstrup Nov 15 '15 at 15:22
• @aelwan, change these lines: gist.github.com/kdauria/… as you like. Then source the entire file in your script. – kdauria Mar 29 '16 at 6:51
• @aelwan, the position of the equation is determined by these lines: gist.github.com/kdauria/…. I made xpos and ypos arguments of the function in the Gist. So if you wanted all the equations to overlap, just set xpos and ypos. Otherwise, xpos and ypos are calculated from the data. If you want something fancier, it shouldn't be too hard to add some logic inside the function. For example, maybe you could write a function to determine what part of the graph has the most empty space and put the function there. – kdauria Apr 10 '16 at 19:38
• I ran into an error with source_gist: Error in r_files[[which]] : invalid subscript type 'closure'. See this post for the solution: stackoverflow.com/questions/38345894/r-source-gist-not-working – Matifou Jun 7 '17 at 0:42

I included a statistics stat_poly_eq() in my package ggpmisc that allows this answer:

library(ggplot2)
library(ggpmisc)
df <- data.frame(x = c(1:100))
df$y <- 2 + 3 * df$x + rnorm(100, sd = 40)
my.formula <- y ~ x
p <- ggplot(data = df, aes(x = x, y = y)) +
geom_smooth(method = "lm", se=FALSE, color="black", formula = my.formula) +
stat_poly_eq(formula = my.formula,
aes(label = paste(..eq.label.., ..rr.label.., sep = "~~~")),
parse = TRUE) +
geom_point()
p


This statistic works with any polynomial with no missing terms, and hopefully has enough flexibility to be generally useful. The R^2 or adjusted R^2 labels can be used with any model formula fitted with lm(). Being a ggplot statistic it behaves as expected both with groups and facets.

The 'ggpmisc' package is available through CRAN.

Version 0.2.6 was just accepted to CRAN.

@MYaseen208 this shows how to add a hat.

library(ggplot2)
library(ggpmisc)
df <- data.frame(x = c(1:100))
df$y <- 2 + 3 * df$x + rnorm(100, sd = 40)
my.formula <- y ~ x
p <- ggplot(data = df, aes(x = x, y = y)) +
geom_smooth(method = "lm", se=FALSE, color="black", formula = my.formula) +
stat_poly_eq(formula = my.formula,
eq.with.lhs = "italic(hat(y))~=~",
aes(label = paste(..eq.label.., ..rr.label.., sep = "~~~")),
parse = TRUE) +
geom_point()
p


@shabbychef Now it is possible to match the variables in the equation to those used for the axis-labels. To replace the x with say z and y with h one would use:

p <- ggplot(data = df, aes(x = x, y = y)) +
geom_smooth(method = "lm", se=FALSE, color="black", formula = my.formula) +
stat_poly_eq(formula = my.formula,
eq.with.lhs = "italic(h)~=~",
eq.x.rhs = "~italic(z)",
aes(label = ..eq.label..),
parse = TRUE) +
labs(x = expression(italic(z)), y = expression(italic(h))) +
geom_point()
p


Being these normal R parsed expressions greek letters can now also be used both in the lhs and rhs of the equation.

[2017-03-08] @elarry Edit to more precisely address the original question, showing how to add a comma between the equation- and R2-labels.

p <- ggplot(data = df, aes(x = x, y = y)) +
geom_smooth(method = "lm", se=FALSE, color="black", formula = my.formula) +
stat_poly_eq(formula = my.formula,
eq.with.lhs = "italic(hat(y))~=~",
aes(label = paste(..eq.label.., ..rr.label.., sep = "*plain(\",\")~")),
parse = TRUE) +
geom_point()
p


• It should be noted that the x and y in the formula refer to the x and y data in the layers of the plot, and not necessarily to those in scope at the time my.formula is constructed. Thus the formula should always use x and y variables? – shabbychef Feb 5 '16 at 23:59
• It is very true that x and y refer to the whatever variables are mapped to these aesthetics. That is the expectation also for geom_smooth() and how the grammar of graphics works. It could have been clearer to use different names within the data frame but I just kept them as in the original question. – Pedro Aphalo Feb 6 '16 at 9:25
• Excellent @PedroAphalo. Would appreciate if you guide how to put hat on y. Thanks – MYaseen208 Feb 23 '16 at 18:45
• Will be possible in the next version of ggpmisc. Thanks for the suggestion! – Pedro Aphalo Feb 25 '16 at 17:01
• Good point @elarry! This is related to how R's parse() function works. Through trial and error I found that aes(label = paste(..eq.label.., ..rr.label.., sep = "*plain(\",\")~")) does the job. – Pedro Aphalo Apr 8 '17 at 10:09

I've modified Ramnath's post to a) make more generic so it accepts a linear model as a parameter rather than the data frame and b) displays negatives more appropriately.

lm_eqn = function(m) {

l <- list(a = format(coef(m)[1], digits = 2),
b = format(abs(coef(m)[2]), digits = 2),
r2 = format(summary(m)$r.squared, digits = 3)); if (coef(m)[2] >= 0) { eq <- substitute(italic(y) == a + b %.% italic(x)*","~~italic(r)^2~"="~r2,l) } else { eq <- substitute(italic(y) == a - b %.% italic(x)*","~~italic(r)^2~"="~r2,l) } as.character(as.expression(eq)); }  Usage would change to: p1 = p + geom_text(aes(x = 25, y = 300, label = lm_eqn(lm(y ~ x, df))), parse = TRUE)  • This looks great! But I'm plotting geom_points on multiple facets, where the df differs based on the facet variable. How do I do that? – bshor Dec 12 '12 at 20:01 • Jayden's solution works quite well, but the typeface looks very ugly. I would recommend changing the usage to this: p1 = p + annotate("text", x = 25, y = 300, label = lm_eqn(lm(y ~ x, df)), colour="black", size = 5, parse=TRUE) edit: this also resolves any issues you might have with letters showing up in your legend. – Jonas Raedle Jul 5 '13 at 15:04 • @ Jonas, for some reason I'm getting "cannot coerce class "lm" to a data.frame". This alternative works: df.labs <- data.frame(x = 25, y = 300, label = lm_eqn(df)) and p <- p + geom_text(data = df.labs, aes(x = x, y = y, label = label), parse = TRUE) – PatrickT Apr 29 '14 at 10:50 • @PatrickT - That's the error message you would get if you called lm_eqn(lm(...)) with Ramnath's solution. You probably tried this one after trying that one but forgot to ensure that you had redefined lm_eqn – Hamy Oct 5 '14 at 23:01 • @PatrickT: could you make your answer a separate answer? I would be happy to vote it up! – JelenaČuklina Nov 2 '15 at 14:10 really love @Ramnath solution. To allow use to customize the regression formula (instead of fixed as y and x as literal variable names), and added the p-value into the printout as well (as @Jerry T commented), here is the mod: lm_eqn <- function(df, y, x){ formula = as.formula(sprintf('%s ~ %s', y, x)) m <- lm(formula, data=df); # formating the values into a summary string to print out # ~ give some space, but equal size and comma need to be quoted eq <- substitute(italic(target) == a + b %.% italic(input)*","~~italic(r)^2~"="~r2*","~~p~"="~italic(pvalue), list(target = y, input = x, a = format(as.vector(coef(m)[1]), digits = 2), b = format(as.vector(coef(m)[2]), digits = 2), r2 = format(summary(m)$r.squared, digits = 3),
# getting the pvalue is painful
pvalue = format(summary(m)$coefficients[2,'Pr(>|t|)'], digits=1) ) ) as.character(as.expression(eq)); } geom_point() + ggrepel::geom_text_repel(label=rownames(mtcars)) + geom_text(x=3,y=300,label=lm_eqn(mtcars, 'hp','wt'),color='red',parse=T) + geom_smooth(method='lm')  Unfortunately, this doesn't work with facet_wrap or facet_grid. Inspired by the equation style provided in this answer, a more generic approach (more than one predictor + latex output as option) can be: print_equation= function(model, latex= FALSE, ...){ dots <- list(...) cc= model$coefficients
var_sign= as.character(sign(cc[-1]))%>%gsub("1","",.)%>%gsub("-"," - ",.)
var_sign[var_sign==""]= ' + '

f_args_abs= f_args= dots
f_args$x= cc f_args_abs$x= abs(cc)
cc_= do.call(format, args= f_args)
cc_abs= do.call(format, args= f_args_abs)
pred_vars=
cc_abs%>%
paste(., x_vars, sep= star)%>%
paste(var_sign,.)%>%paste(., collapse= "")

if(latex){
star= " \\cdot "
y_var= strsplit(as.character(model$call$formula), "~")[[2]]%>%
paste0("\\hat{",.,"_{i}}")
x_vars= names(cc_)[-1]%>%paste0(.,"_{i}")
}else{
star= " * "
y_var= strsplit(as.character(model$call$formula), "~")[[2]]
x_vars= names(cc_)[-1]
}

equ= paste(y_var,"=",cc_[1],pred_vars)
if(latex){
summary(MetamodelKdifEryth)$sigma,")")%>%paste0("$",.,"$") } cat(equ) }  The model argument expects an lm object, the latex argument is a boolean to ask for a simple character or a latex-formated equation, and the ... argument pass its values to the format function. I also added an option to output it as latex so you can use this function in a rmarkdown like this:  {r echo=FALSE, results='asis'} print_equation(model = lm_mod, latex = TRUE)   Now using it: df <- data.frame(x = c(1:100)) df$y <- 2 + 3 * df$x + rnorm(100, sd = 40) df$z <- 8 + 3 * df\$x + rnorm(100, sd = 40)
lm_mod= lm(y~x+z, data = df)

print_equation(model = lm_mod, latex = FALSE)


This code yields: y = 11.3382963933174 + 2.5893419 * x + 0.1002227 * z

And if we ask for a latex equation, rounding the parameters to 3 digits:

print_equation(model = lm_mod, latex = TRUE, digits= 3)


This yields:

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