## ----eval=FALSE---------------------------------------------------------------
#  install.packages("monographaR", dependencies=T)

## ----eval=FALSE---------------------------------------------------------------
#  setwd("C:/My_working_directory")

## ----message=FALSE, warning=FALSE---------------------------------------------
library(monographaR)

## ----eval=FALSE---------------------------------------------------------------
#  data("monographaR_examples")
#  head(monographaR_examples$collectorList)
#  head(monographaR_examples$examinedSpecimens)
#  head(monographaR_examples$phenoHist)
#  head(monographaR_examples$tableToDescription)
#  head(monographaR_examples$map_data)
#  head(monographaR_examples$taxonomic_headings)
#  head(monographaR_examples$mapPhenology)

## ----eval=FALSE, tidy=FALSE---------------------------------------------------
#  data("monographaR_examples")
#  write.csv(monographaR_examples$collectorList, file="collector_list_model.csv", row.names=F)
#  write.csv(monographaR_examples$examinedSpecimens, file="examined_specimens_model.csv",
#    row.names=F)
#  write.csv(monographaR_examples$phenoHist, file="phenology_model.csv", row.names=F)
#  write.csv(monographaR_examples$tableToDescription, file="table_to_description_model.csv",
#    row.names=F)
#  write.csv(monographaR_examples$map_data, file="map_functions_model.csv", row.names=F)
#  write.csv(monographaR_examples$taxonomic_headings, file="headings_model.csv", row.names=F)
#  write.csv(monographaR_examples$mapPhenology file="mapPhenology_model.csv", row.names=F)

## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$collectorList -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$collectorList -> data
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, message=FALSE, eval=FALSE-------------------------------------
#  
#  collectorList(data, filename = "", paragraphs = FALSE)
#  

## ----echo=FALSE, message=FALSE, results='asis'--------------------------------

collectorList(data, filename = "", paragraphs = FALSE)


## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$examinedSpecimens -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$examinedSpecimens -> data
colnames(data)[2:3] <- c("Collector", "Number")
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, message=FALSE, eval=FALSE-------------------------------------
#  
#  examinedSpecimens(data, filename = "")
#  

## ----echo=FALSE, message=FALSE, results='asis'--------------------------------

examinedSpecimens(data, filename = "")


## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$tableToDescription -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$tableToDescription -> data
knitr::kable(head(data[,1:5], 5), align="l")

## ----eval=FALSE---------------------------------------------------------------
#  
#  data[,-1] -> data  ## removing first column
#  tableToDescription(data, filename = "")
#  

## ----echo=FALSE, message=FALSE, results='asis'--------------------------------

data[,-c(1,8)] -> data
tableToDescription(data, filename = "")


## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$taxonomic_headings -> taxonomic.headings
monographaR_examples$collectorList -> col.d
monographaR_examples$examinedSpecimens -> exam.d
monographaR_examples$tableToDescription -> desc.d
desc.d[,-1] -> desc.d


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$taxonomic_headings -> headings
knitr::kable(headings, align="l")

## ----tidy=FALSE, eval=FALSE---------------------------------------------------
#  
#  buildMonograph(headings=taxonomic.headings,collectorList.data = col.d, examinedSpecimens.data =
#    exam.d, tableToDescription.data = desc.d, output = "Word", title="Monograph skeleton")
#  
#  

## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$phenoHist -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$phenoHist -> data
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, eval=FALSE----------------------------------------------------
#  
#  phenoHist(data, shrink=1.1, axis.cex=0.8, title.cex=1, pdf=FALSE)
#  
#  

## ----echo=FALSE,  message=FALSE, fig.width=3.45-------------------------------

par(mar=c(2,2,2,2)) ## this is just to adjust the margins of the figures

phenoHist(data, shrink=1.1, axis.cex=0.8, title.cex=1, pdf=FALSE)



## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$mapPhenology -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$mapPhenology -> data
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, eval=FALSE----------------------------------------------------
#  
#  mapPhenology(data, binary=F, by_species=F, legend=F)
#  
#  

## ----echo=FALSE, message=FALSE, fig.width=7, fig.height=9---------------------

par(mar=c(2,2,2,2))

mapPhenology(data, binary=F, by_species=F, legend=F)



## ----tidy=TRUE, eval=FALSE----------------------------------------------------
#  
#  require(animation)
#  
#  saveGIF(
#    {mapPhenology(data, binary=F, resolution=0.5, by_species=F, legend=F, mfrow=c(1,1))},
#    movie.name="phenology.gif", interval=0.5, ani.width=600, ani.height=600
#  )
#  
#  

## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$map_data -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$map_data -> data
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, eval=FALSE----------------------------------------------------
#  
#  mapBatch(data , zoom=T, margin=2, points.col="black", points.border="white", shape.col="gray90", points.cex=1.5, shape.border = "gray90", export="pdf")
#  

## ----echo=FALSE, warning=FALSE, message=FALSE, fig.width=3.45-----------------
library(rnaturalearth)
library(sf)
library(sp)
library(raster)
ne_countries(type="countries", returnclass = "sv") -> wrld_simpl
st_as_sf(wrld_simpl) -> wrld_simpl
as_Spatial(wrld_simpl) -> wrld_simpl
data(monographaR_examples)
monographaR_examples$map_data -> data
data("wrld_simpl")
colnames(data) <- c("sp", "x", "y")
geo <- data
coordinates(geo) <- ~x + y
spp <- as.character(unique(data[, 1]))
spp <- sort(spp)
margin = 0.1; shape.border = "black"; shape.col = "white"; points.col = "black"; points.border = "gray50"; points.cex = 1

par(mar=c(0,0,1,0))
par(cex.main=0.7)

for (i in 1:4) {
  sp <- spp[i]
  spRows <- which(data$sp == sp)
  spData <- data[spRows, ]
  xy <- spData
  coordinates(xy) <- ~x + y
  ext <- extent(xy) * (margin + +1)
  xlim <- c(ext[1], ext[2])
  ylim <- c(ext[3], ext[4])
  plot(wrld_simpl, xlim = xlim, ylim = ylim, axes = T, 
         col = shape.col, border = shape.border, add = F, 
         asp = 1)
  plot(xy, pch = 21, col = points.border, bg = points.col, 
       cex = points.cex, add = T)
  box()
  title(sp)
}


## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$map_data -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$map_data -> data
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, eval=FALSE----------------------------------------------------
#  
#  mapDiversity(data , resolution=1, plot=TRUE, plot.with.grid=TRUE, legend = T, export = F)
#  

## ----fig.align='center',  warning=FALSE, message=FALSE, echo=328, fig.width=7, fig.height=3.8----

par(mar=c(0,0,0,0)) ## this is just to adjust the margins of the figures

mapDiversity(data , resolution=1, plot=TRUE, plot.with.grid=TRUE, legend = T)



## ----tidy=TRUE, results='asis'------------------------------------------------

data(monographaR_examples)
monographaR_examples$map_data -> data


## ----echo=FALSE, results='asis'-----------------------------------------------
data(monographaR_examples)
monographaR_examples$map_data -> data
knitr::kable(head(data, 5), align="l")

## ----tidy=TRUE, eval=FALSE----------------------------------------------------
#  
#  map.table <- mapTable(data, type="grid", resolution=3, write.output=FALSE)
#  
#  map.table$table
#  

## ----fig.align='center',  message=FALSE, echo=380, fig.width=7, fig.height=3.8----

par(mar=c(0,0,0,0)) ## this is just to adjust the margins of the figures

map.table <- mapTable(data, type="grid", resolution=3, write.output=FALSE)
knitr::kable(head(map.table$table[,1:26], 5), align="l")