This is an example of plotting a "parametric equation", i.e. a pairing of two separate equations for x and y that share a common parameter. You can find many common curves and shapes that can be written within such a framework.

```
dat<- data.frame(t=seq(0, 2*pi, by=0.1) )
xhrt <- function(t) 16*sin(t)^3
yhrt <- function(t) 13*cos(t)-5*cos(2*t)-2*cos(3*t)-cos(4*t)
dat$y=yhrt(dat$t)
dat$x=xhrt(dat$t)
with(dat, plot(x,y, type="l"))
```

Other Parametric (and implicit and polar) Heart Eqns

You also could "heat it up" with using the "fill" capability of the `polygon`

function:

```
with(dat, polygon(x,y, col="hotpink"))
```

And if you just want little hearts to sprinkle around at various places, you could use the Symbol font version of "heart" after looking at the `help(points)`

page and using the `TestChars`

function:

```
points(c(10,-10, -15, 15), c(-10, -10, 10, 10), pch=169, font=5)
```

Windows users may want to see if adding the Cairo package helps gain access to card symbols including "hearts".( When I tested the TestChars function on the WinXP "side" of my MacPro I did not get hearts, and paging through the "special symbols" in MS-Word did not uncover anything. So I did a search of Rhelp and found a recent posting by Ivo Welch. He was reporting a bug, but they look OK on my machine.) Further note... I think the hearts and diamonds codes in his were reversed.

```
library(Cairo)
clubs <- expression(symbol('\247'))
hearts <- expression(symbol('\251'))
diamonds <- expression(symbol('\250'))
spades <- expression(symbol('\252'))
csymbols <- c(clubs, hearts, diamonds, spades)
plot( 0, xlim=c(0,5), ylim=c(0,2), type="n" )
clr <- c("black", "red", "red", "black")
for (i in 1:4) {
hline <- function( yloc, ... )
for (i in 1:length(yloc))
lines( c(-1,6), c(yloc[i],yloc[i]), col="gray")
hline(0.9);
hline(1.0);
hline(1.1);
hline(1.2)
text( i, 1, csymbols[i], col=clr[i], cex=5 )
text( i, 0.5, csymbols[i], col=clr[i] ) }
# Also try this
plot(1,1)
text(x=1+0.2*cos(seq(0, 2*pi, by=.5)),
y=1+0.2*sin(seq(0, 2*pi, by=.5)),
expression(symbol('\251') ) )
```

`r`

, but you'll likely be interested in cardiod polar equation, and / or other routes.1more comment