useDynLib(circular)

#Import directive
importFrom(graphics, axis)
importFrom(stats, density)
importFrom(stats, quantile)
importFrom(stats, median)
importFrom(stats, weights)
importFrom(stats, runif)
importFrom(utils, packageDescription)
importFrom(boot, boot)

#Export directive

# functions
export(
# file A1.R
 A1,
# file A1FirstDerivative.R
 A1FirstDerivative,
# file A1SecondDerivative.R
 A1SecondDerivative,
# file A1inv.R
 A1inv,
# file I.0.R
 I.0,
# file I.1.R
 I.1,
# file I.p.R
 I.p,
# file angular.deviation.R
 angular.deviation,
# file angular.variance.R
 angular.variance,       
# file aov.circular.R
 aov.circular,
# file arrows.circular.R
 arrows.circular,
# file as.circular.R
 as.circular,
# file as.data.frame.circular.R
 as.data.frame.circular,
# asytriangular.R
 dasytriangular,
# file axialvonmises.R
 daxialvonmises,
# file bw.circular.R
 bw.cv.mse.circular,
 bw.cv.ml.circular,
 bw.nrd.circular,
# file cardioid.R
 rcardioid, dcardioid,
# file change.point.R
 change.point,
# file circular.R
 circular, conversion.circular, circularp, "circularp<-", is.circular,
# file circular.colors.R
 circular.colors,
## # file clm.R,
##  clm,
##  clm.fit,
##  summary.clm,
##  model.frame.clm,
##  clm.control,
  
# file coord2rad.R
 coord2rad,
# file cor.circular.R
 cor.circular,
# file curve.circular.R
 curve.circular, plot.function.circular,
# file deg.R
 deg,
# file dist.circular.R
 dist.circular,
# file equal.kappa.test.R
 equal.kappa.test,
## # file family.circular.R
##  vonMises,      
# file heatmap.circular.R
 heatmap.circular,
# file kuiper.test.R
 kuiper.test,
# file lm.circular.R
 lm.circular,
# file lsfit.circle.R
 lsfit.circle,
## # file make.circular.link.R
##  make.circular.link,
# file meandeviation.R
 meandeviation,
# file minuspipluspi.R
 minusPiPlusPi,
# file mle.vonmises.R
 mle.vonmises,
# file mle.vonmises.bootstrap.ci.R
 mle.vonmises.bootstrap.ci,
# file mle.wrappedcauchy.R
 mle.wrappedcauchy,
# file mle.wrappednormal.R
 mle.wrappednormal,
# file modal.region.R
 modal.region,
 modal.region.default,
 modal.region.circular,
# file plot.edf.R
 plot.edf, lines.edf,
# file pp.plot.R
 pp.plot,
# file quantile.circular.R
 quantile.circular,
# file rad.R
 rad,
# file rao.spacing.test.R
 rao.spacing.test,
# file rao.test.R
 rao.test,
# file rayleigh.test.R
 rayleigh.test,
# file rho.circular.R
 rho.circular,
# file rose.diag.R
 rose.diag,
# file rstable.R
 rstable,
# file triangular.R
 rtriangular, dtriangular,
# file ticks.circular.R
 ticks.circular,
# file trigonometric.moment.R
 trigonometric.moment,
# file totalvariation.R
 totalvariation.circular,      
# file uniform.R
 rcircularuniform, dcircularuniform,      
# file vonmises.R
 rvonmises, dvonmises, pvonmises, qvonmises, rmixedvonmises, dmixedvonmises, pmixedvonmises,
# file var.circular.R 
### var,
# file watson.test.R
 watson.test,
# file watson.two.test.R
 watson.two.test,
# file windrose.R
 windrose,
# file wrappedcauchy.R
 rwrappedcauchy, dwrappedcauchy,
# file wrappednormal.R
 rwrappednormal, dwrappednormal, pwrappednormal, qwrappednormal,
# file wrappedstable.R
 rwrappedstable 
)

## unexported functions
#export(
## file lm.circular.cc.R
# lm.circular.cc,
## file lm.circular.cl.R
# lm.circular.cl
#)

# methods
export(
# file circular.R
 c.circular,
# file density.circular.R
 density.circular,
# file mean.circular.R
 mean.circular,
# file median.circular.R
 median.circular,
 medianCircular,
# file medianHL.circular.R
 medianHL.circular,
# file axis.circular.R
 axis.circular,
# file lines.circular.R
 lines.circular,
# file plot.circular.R
 plot.circular, circle.control,
# file points.circular.R
 points.circular,
# file plot.lsfit.circle.R
 plot.lsfit.circle,
# file range.circular.R
 range.circular,
# file unique.circular.R
 unique.circular,       
# fiel sd.circular.R
 sd, sd.default, sd.data.frame, sd.circular,
# file var.circular.R
 var, var.default, var.data.frame, var.circular,
# file carthwrite.R
 dcarthwrite,
# file genvonmises.R
 dgenvonmises,
# file jonespewsey.R
 djonespewsey,
# file katojones.R
 dkatojones, rkatojones,
# file watson.williams.test.R
 watson.williams.test, watson.williams.test.default, watson.williams.test.list, watson.williams.test.formula,
# file watson.wheeler.test.R
 watson.wheeler.test, watson.wheeler.test.default, watson.wheeler.test.list, watson.wheeler.test.formula,
# file wallraff.test.R
 wallraff.test, wallraff.test.default, wallraff.test.list, wallraff.test.formula
)


## unexported methods
#export(
## file aov.circular.R
# print.aov.circular,
## file circular.R
# print.circular,
## file equal.kappa.test.R
# print.equal.kappa.test,
## file kuiper.test.R
# print.kuiper.test,
## file lm.circular.cl.R
# print.lm.circular.cl,
## file lsfit.circle.R
# print.lsfit.circle,
## file mle.vonmises.R
# print.mle.vonmises,
## file mle.vonmises.bootstrap.ci.R
# print.mle.vonmises.bootstrap.ci,
## file mle.wrappedcauchy.R
# print.mle.wrappedcauchy,
## file mle.wrappednormal.R
# print.mle.wrappednormal,
## file rao.spacing.test.R
# print.rao.spacing.test,
## file rao.test.R
# print.rao.test,
## file rayleigh.test.R
# print.rayleigh.test,
## file summary.circular.R
# summary.circular,
## file watson.test.R
# print.watson.test,
## file watson.two.test.R
# print.watson.two.test
#)

#S3methods directive

#[
S3method("[", circular)

#axis
S3method(axis, circular)

#c
S3method(c, circular)

#density
S3method(density, circular)

## #formula
## S3method(formula, clm)

#lines
S3method(lines, circular)
S3method(lines, density.circular)
S3method(lines, modal.region.circular)

###S3method(lines, edf)

#mean
S3method(mean, circular)

#median
S3method(median, circular)

#print
S3method(print, aov.circular)
S3method(print, circular)
S3method(print, density.circular)
S3method(print, equal.kappa.test)
S3method(print, kuiper.test)
S3method(print, lm.circular.cl)
S3method(print, lsfit.circle)
S3method(print, mle.vonmises)
S3method(print, mle.vonmises.bootstrap.ci)
S3method(print, mle.wrappedcauchy)
S3method(print, mle.wrappednormal)
S3method(print, rao.spacing.test)
S3method(print, rao.test)
S3method(print, rayleigh.test)
S3method(print, summary.clm)
S3method(print, watson.test)
S3method(print, watson.two.test)
#plot
S3method(plot, density.circular)
S3method(plot, circular)
###S3method(plot, edf)
S3method(plot, lsfit.circle)
S3method(plot, modal.region.circular)
S3method(plot, totalvariation.circular)
#points
S3method(points, circular)

#quantile
S3method(quantile, circular)

#range
S3method(range, circular)

S3method(sd, default)
#S3method(sd, matrix)
S3method(sd, data.frame)
S3method(sd, circular)

#summary
S3method(summary, circular)

#unique
S3method(unique, circular)

#var
S3method(var, default)
#S3method(var, matrix)
S3method(var, data.frame)
S3method(var, circular)

#weights
S3method(weights, clm)

# tests
S3method(watson.williams.test, default)
S3method(watson.williams.test, list)
S3method(watson.williams.test, formula)
S3method(watson.wheeler.test, default)
S3method(watson.wheeler.test, list)
S3method(watson.wheeler.test, formula)
S3method(wallraff.test, default)
S3method(wallraff.test, list)
S3method(wallraff.test, formula)
