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<!-- README.md is generated from README.Rmd. Please edit that file -->emld
The goal of emld is to provide a way to work with EML metadata in the JSON-LD format. At it’s heart, the package is simply a way to translate an EML XML document into JSON-LD and be able to reverse this so that any semantically equivalent JSON-LD file can be serialized into EML-schema valid XML. The package has only three core functions:
as_emld()
Convert EML’sxml
files (or thejson
version created by this package) into a native R object (an S3 class calledemld
, essentially just alist
).as_xml()
Convert the native R format,emld
, back into XML-schema valid EML.as_json()
Convert the native R format,emld
, intojson
(LD).
Installation
You can install emld from github with:
# install.packages("devtools")
devtools::install_github("ropensci/emld")
Motivation
In contrast to the existing EML
package, this package aims to a very
light-weight implementation that seeks to provide both an intuitive data
format and make maximum use of existing technology to work with that
format. In particular, this package emphasizes tools for working with
linked data through the JSON-LD format. This package is not meant to
replace EML
, as it does not support the more complex operations found
in that package. Rather, it provides a minimalist but powerful way of
working with EML documents that can be used by itself or as a backend
for those complex operations. Version 2.0 of the EML R package uses
emld
under the hood.
Note that the JSON-LD format is considerably less rigid than the EML schema. This means that there are many valid, semantically equivalent representations on the JSON-LD side that must all map into the same or nearly the same XML format. At the extreme end, the JSON-LD format can be serialized into RDF, where everything is flat set of triples (e.g. essentially a tabular representation), which we can query directly with semantic tools like SPARQL, and also automatically coerce back into the rigid nesting and ordering structure required by EML. This ability to “flatten” EML files can be particularly convenient for applications consuming and parsing large numbers of EML files. This package may also make it easier for other developers to build on the EML, since the S3/list and JSON formats used here have proven more appealing to many R developers than S4 and XML serializations.
library(emld)
library(jsonlite)
library(magrittr) # for pipes
library(jqr) # for JQ examples only
library(rdflib) # for RDf examples only
Reading EML
The EML
package can get particularly cumbersome when it comes to
extracting and manipulating existing metadata in highly nested EML
files. The emld
approach can leverage a rich array of tools for
reading, extracting, and manipulating existing EML files.
We can parse a simple example and manipulate is as a familiar list object (S3 object):
f <- system.file("extdata/example.xml", package="emld")
eml <- as_emld(f)
eml$dataset$title
#> [1] "Data from Cedar Creek LTER on productivity and species richness\n for use in a workshop titled \"An Analysis of the Relationship between\n Productivity and Diversity using Experimental Results from the Long-Term\n Ecological Research Network\" held at NCEAS in September 1996."
Writing EML
Because emld
objects are just nested lists, we can create EML just by
writing lists:
me <- list(individualName = list(givenName = "Carl", surName = "Boettiger"))
eml <- list(dataset = list(
title = "dataset title",
contact = me,
creator = me),
system = "doi",
packageId = "10.xxx")
ex.xml <- tempfile("ex", fileext = ".xml") # use your preferred file path
as_xml(eml, ex.xml)
#> NULL
eml_validate(ex.xml)
#> [1] TRUE
#> attr(,"errors")
#> character(0)
Note that we don’t have to worry about the order of the elements here,
as_xml
will re-order if necessary to validate. (For instance, in valid
EML the creator
becomes listed before contact
.) Of course this is a
very low-level interface that does not help the user know what an EML
looks like. Creating EML from scratch without knowledge of the schema is
a job for the EML
package and beyond the scope of the lightweight
emld
.
Working with EML as JSON-LD
For many applications, it is useful to merely treat EML as a list
object, as seen above, allowing the R user to leverage a standard tools
and intuition in working with these files. However, emld
also opens
the door to new possible directions by thinking of EML data in terms of
a JSON-LD serialization rather than an XML serialization. First, owing
to it’s comparative simplicity and native data typing (e.g. of
Boolean/string/numeric data), JSON is often easier for many developers
to work with than EML’s native XML format.
As JSON: Query with JQ
For example, JSON can be queried with with JQ, a simple and powerful
query language that also gives
us a lot of flexibility over the return structure of our results. JQ
syntax is both intuitive and well documented, and often easier than the
typical munging of JSON/list data using purrr
. Here’s an example query
that turns EML to JSON and then extracts the north and south bounding
coordinates:
hf205 <- system.file("extdata/hf205.xml", package="emld")
as_emld(hf205) %>%
as_json() %>%
jq('.dataset.coverage.geographicCoverage.boundingCoordinates |
{ northLat: .northBoundingCoordinate,
southLat: .southBoundingCoordinate }') %>%
fromJSON()
#> $northLat
#> [1] "+42.55"
#>
#> $southLat
#> [1] "+42.42"
Nice features of JQ include the ability to do recursive descent (common
to XPATH but not possible in purrr
) and specify the shape of the
return object. Some prototype examples of how we can use this to
translate between EML and https://schema.org/Dataset representations
of the same metadata can be found in
https://github.com/ropensci/emld/blob/master/notebook/jq_maps.md
As semantic data: SPARQL queries
Another side-effect of the JSON-LD representation is that we can treat
EML as “semantic” data. This can provide a way to integrate EML records
with other data sources, and means we can query the EML using semantic
SPARQL queries. One nice thing about SPARQL queries is that, in contrast
to XPATH, JQ, or other graph queries, SPARQL always returns a
data.frame
which is a particularly convenient format. SPARQL queries
look like SQL queries in that we name the columns we want with a
SELECT
command. Unlike SQL, these names act as variables. We then use
a WHERE block to define how these variables relate to each other.
f <- system.file("extdata/hf205.xml", package="emld")
hf205.json <- tempfile("hf205", fileext = ".json") # Use your preferred filepath
as_emld(f) %>%
as_json(hf205.json)
prefix <- paste0("PREFIX eml: <eml://ecoinformatics.org/", eml_version(), "/>\n")
sparql <- paste0(prefix, '
SELECT ?genus ?species ?northLat ?southLat ?eastLong ?westLong
WHERE {
?y eml:taxonRankName "genus" .
?y eml:taxonRankValue ?genus .
?y eml:taxonomicClassification ?s .
?s eml:taxonRankName "species" .
?s eml:taxonRankValue ?species .
?x eml:northBoundingCoordinate ?northLat .
?x eml:southBoundingCoordinate ?southLat .
?x eml:eastBoundingCoordinate ?eastLong .
?x eml:westBoundingCoordinate ?westLong .
}
')
rdf <- rdf_parse(hf205.json, "jsonld")
df <- rdf_query(rdf, sparql)
df
#> # A tibble: 0 x 0
Please note that the emld
project is released with a Contributor Code
of Conduct. By
contributing to this project, you agree to abide by its terms.