

   AAdddd TTeexxtt ttoo aa PPlloott

        text(x, y = NULL, labels = seq(along = x), ...)

   AArrgguummeennttss::

       x, y: numeric vectors of coordinates where the text
             `labels' should be written.

     labels: character or expression with the text to be writ-
             ten.

        ...: further graphical parameters (from `par'), such as
             `adj', `cex', etc.

   DDeessccrriippttiioonn::

        `text' draws the strings given in the vector `labels'
        at the coordinates given by `x' and `y'.  `y' may be
        missing since `xy.coords(x,y)' is used for construction
        of the coordinates.

        `labels' must be of type `character' or `expression'.
        In the latter case, quite a bit of mathematical nota-
        tion is available such as sub- and superscripts, greek
        letters, fractions, etc.

   SSeeee AAllssoo::

        `mtext', `title'.

   EExxaammpplleess::

        plot(-1:1,-1:1, type = "n", xlab = "Re", ylab = "Im")
        K <- 16; text(exp(1i * 2 * pi * (1:K) / K), col = 2)

        plot(1:10, 1:10, main = "text(..) examples")
        points(c(6,2), c(2,1), pch = 3, cex = 4, col = "red")
        text(6, 2, "the text is CENTERED around (x,y) = (6,2) by default",
             cex = .8)
        text(2, 1, "or Left/Bottom - JUSTIFIED at (2,1) by `adj = c(0,0)'",
             adj = c(0,0))
        text(4, 9, expression(hat(beta) == (X^t * X)^{-1} * X^t * y))
        text(4, 8.4, "expression(hat(beta) == (X^t * X)^{-1} * X^t * y)", cex = .6)
        text(4, 7, expression(bar(x) == sum(frac(x[i], n), i==1, n)))
        text(4, 6.4, "expression(bar(x) == sum(frac(x[i], n), i==1, n))", cex = .6)
        text(8, 5, expression(paste(frac(1, sigma*sqrt(2*pi)), " ",
                                    plain(e)^{frac(-(x-mu)^2, 2*sigma^2)})))

