R: convert XML data to data frame
It may not be as verbose as the XML package but xml2 doesn't have the memory leaks and is laser-focused on data extraction. I use trimws which is a really recent addition to R core.
library(xml2)pg <- read_xml("http://www.ggobi.org/book/data/olive.xml")# get all the <record>srecs <- xml_find_all(pg, "//record")# extract and clean all the columnsvals <- trimws(xml_text(recs))# extract and clean (if needed) the area nameslabs <- trimws(xml_attr(recs, "label"))# mine the column names from the two variable descriptions# this XPath construct lets us grab either the <categ…> or <real…> tags# and then grabs the 'name' attribute of themcols <- xml_attr(xml_find_all(pg, "//data/variables/*[self::categoricalvariable or self::realvariable]"), "name")# this converts each set of <record> columns to a data frame# after first converting each row to numeric and assigning# names to each column (making it easier to do the matrix to data frame conv)dat <- do.call(rbind, lapply(strsplit(vals, "\ +"), function(x) { data.frame(rbind(setNames(as.numeric(x),cols))) }))# then assign the area name column to the data framedat$area_name <- labshead(dat)## region area palmitic palmitoleic stearic oleic linoleic linolenic## 1 1 1 1075 75 226 7823 672 NA## 2 1 1 1088 73 224 7709 781 31## 3 1 1 911 54 246 8113 549 31## 4 1 1 966 57 240 7952 619 50## 5 1 1 1051 67 259 7771 672 50## 6 1 1 911 49 268 7924 678 51## arachidic eicosenoic area_name## 1 60 29 North-Apulia## 2 61 29 North-Apulia## 3 63 29 North-Apulia## 4 78 35 North-Apulia## 5 80 46 North-Apulia## 6 70 44 North-ApuliaUPDATE
I'd prbly do the last bit this way now:
library(tidyverse)strsplit(vals, "[[:space:]]+") %>% map_df(~as_data_frame(as.list(setNames(., cols)))) %>% mutate(area_name=labs)
Great answers above! For future readers, anytime you face a complex XML needing R import, consider re-structuring the XML document using XSLT (a special-purpose declarative programming language that manipulates XML content into various end-use needs). Then simply use R's xmlToDataFrame() function from XML package.
Unfortunately, R does not have a dedicated XSLT package available on CRAN-R across all operating systems. The listed SXLT seems to be a Linux package and not able to be used on Windows. See unanswered SO questions here and here. I understand @hrbrmstr (above) maintains a GitHub XSLT project. Nonetheless, nearly all general-purpose languages maintain XSLT processors including Java, C#, Python, PHP, Perl, and VB.
Below is the open-source Python route and because the XML document is pretty nuanced, two XSLTs are being used (of course XSLT gurus can combine them into one but tried as I might couldn't get it to work.
FIRST XSLT (using a recursive template)
<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform"><xsl:output omit-xml-declaration="yes" indent="yes"/><xsl:strip-space elements="*"/><!-- Identity Transform --> <xsl:template match="node()|@*"> <xsl:copy> <xsl:apply-templates select="node()|@*"/> </xsl:copy></xsl:template><xsl:template match="record/text()" name="tokenize"> <xsl:param name="text" select="."/> <xsl:param name="separator" select="' '"/> <xsl:choose> <xsl:when test="not(contains($text, $separator))"> <data> <xsl:value-of select="normalize-space($text)"/> </data> </xsl:when> <xsl:otherwise> <data> <xsl:value-of select="normalize-space(substring-before($text, $separator))"/> </data> <xsl:call-template name="tokenize"> <xsl:with-param name="text" select="substring-after($text, $separator)"/> </xsl:call-template> </xsl:otherwise> </xsl:choose> </xsl:template> <xsl:template match="description|variables|categoricalvariable|realvariable"> </xsl:template> SECOND XSLT
<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform"> <!-- Identity Transform --> <xsl:template match="records"> <xsl:copy> <xsl:apply-templates select="node()|@*"/> </xsl:copy> </xsl:template> <xsl:template match="record"> <record> <area_name><xsl:value-of select="@label"/></area_name> <area><xsl:value-of select="data[1]"/></area> <region><xsl:value-of select="data[2]"/></region> <palmitic><xsl:value-of select="data[3]"/></palmitic> <palmitoleic><xsl:value-of select="data[4]"/></palmitoleic> <stearic><xsl:value-of select="data[5]"/></stearic> <oleic><xsl:value-of select="data[6]"/></oleic> <linoleic><xsl:value-of select="data[7]"/></linoleic> <linolenic><xsl:value-of select="data[8]"/></linolenic> <arachidic><xsl:value-of select="data[9]"/></arachidic> <eicosenoic><xsl:value-of select="data[10]"/></eicosenoic> </record> </xsl:template> </xsl:stylesheet>Python (using lxml module)
import lxml.etree as ETcd = os.path.dirname(os.path.abspath(__file__))# FIRST TRANSFORMATIONdom = ET.parse('http://www.ggobi.org/book/data/olive.xml')xslt = ET.parse(os.path.join(cd, 'Olive.xsl'))transform = ET.XSLT(xslt)newdom = transform(dom)tree_out = ET.tostring(newdom, encoding='UTF-8', pretty_print=True, xml_declaration=True)xmlfile = open(os.path.join(cd, 'Olive_py.xml'),'wb')xmlfile.write(tree_out)xmlfile.close() # SECOND TRANSFORMATIONdom = ET.parse(os.path.join(cd, 'Olive_py.xml'))xslt = ET.parse(os.path.join(cd, 'Olive2.xsl'))transform = ET.XSLT(xslt)newdom = transform(dom)tree_out = ET.tostring(newdom, encoding='UTF-8', pretty_print=True, xml_declaration=True) xmlfile = open(os.path.join(cd, 'Olive_py.xml'),'wb')xmlfile.write(tree_out)xmlfile.close()R
library(XML)# LOADING TRANSFORMED XML INTO R DATA FRAMEdoc<-xmlParse("Olive_py.xml")xmldf <- xmlToDataFrame(nodes = getNodeSet(doc, "//record"))View(xmldf)Output
area_name area region palmitic palmitoleic stearic oleic linoleic linolenic arachidic eicosenoicNorth-Apulia 1 1 1075 75 226 7823 672 na 60North-Apulia 1 1 1088 73 224 7709 781 31 61 29North-Apulia 1 1 911 54 246 8113 549 31 63 29North-Apulia 1 1 966 57 240 7952 619 50 78 35North-Apulia 1 1 1051 67 259 7771 672 50 80 46 ...(slight cleanup on very first record is needed as an extra space was added after "na" in xml doc, so arachidic and eicosenoic were shifted forward)
Here's what I came up with. It matches the olive oil csv file that is also available on the same page. They show X as the first column name, but I don't see it in the xml so I just added it manually.
It will probably be best to break it up into sections, then assemble the final data frame once we've got all the parts. We can also use the [.XML* shortcuts for XPath, and the other [[ convenience accessor functions.
library(XML)url <- "http://www.ggobi.org/book/data/olive.xml"## parse the xml document and get the top-level XML nodedoc <- xmlParse(url)top <- xmlRoot(doc)## create the data framedf <- cbind( ## get all the labels for the first column (groups) X = unlist(doc["//record//@label"], use.names = FALSE), read.table( ## get all the records as a character vector text = xmlValue(top[["data"]][["records"]]), ## get the column names from 'variables' col.names = xmlSApply(top[["data"]][["variables"]], xmlGetAttr, "name"), ## assign the NA values to 'na' in the records na.strings = "na" ))## resulthead(df)# X region area palmitic palmitoleic stearic oleic linoleic linolenic arachidic eicosenoic# 1 North-Apulia 1 1 1075 75 226 7823 672 NA 60 29# 2 North-Apulia 1 1 1088 73 224 7709 781 31 61 29# 3 North-Apulia 1 1 911 54 246 8113 549 31 63 29# 4 North-Apulia 1 1 966 57 240 7952 619 50 78 35# 5 North-Apulia 1 1 1051 67 259 7771 672 50 80 46# 6 North-Apulia 1 1 911 49 268 7924 678 51 70 44## clean upfree(doc); rm(doc, top); gc()