#' @import R6
library("R6")
#' @import deSolve
library("deSolve")
#' @import readxl
library("readxl")
#' Package to Facilitate ODE-Based Modeling
#'
#' This package provides methods to
#' \itemize{
#' \item{} import a conceptual ODE-based model stored in tabular form (i.e.
#' as text files or spreadsheets).
#' \item{} generate source code (either R or Fortran) to be passed to an
#' ODE-solver.
#' \item{} visualize and export basic information about a model, e.g. for
#' documentation purposes.
#' }
#'
#' Consult the package vignette for details. The concept of writing an ODE
#' system in tabular/matrix form is nicely introduced, e. g., in the book of
#' Reichert, P., Borchardt, D., Henze, M., Rauch, W., Shanahan, P.,
#' Somlyody, L., and Vanrolleghem, P. A. (2001): River water quality model
#' No. 1, IWA publishing, ISBN 9781900222822.
#'
#' The current source code repository is \url{https://github.com/dkneis/rodeo}.
#'
#' @section Class and class methods:
#'
#' See \code{\link{rodeo-class}} for the \code{rodeo} class
#' and the corresponding class methods.
#'
#' @section Non-class methods:
#'
#' Type \code{help(package="rodeo")} or see the links below to access the
#' documentation of non-class methods contained in the package.
#'
#' \itemize{
#' \item{\code{\link{buildFromWorkbook}}} Builds and compiles a model
#' fully specified in a workbook (supports .xlsx and .ods format).
#' \item{\code{\link{forcingFunctions}}} Generation of forcing functions
#' in Fortran.
#' \item{\code{\link{exportDF}}} Export of data frames as TEX or HTML code.
#' \item{\code{\link{stoiCreate}}} Creates a stoichiometry matrix from a set
#' of chemical reactions.
#' \item{\code{\link{stoiCheck}}} Validates a stoichiometry matrix by checking
#' for conservation of mass.
#' }
#'
#' @author \email{david.kneis@@tu-dresden.de}
"_PACKAGE"
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.