Parsing Large XML files w/ Ruby & Nokogiri
Here's an example comparing a SAX parser count with a DOM-based count, counting 500,000 <item>s with one of seven categories. First, the output:
Create XML file: 1.7s
Count via SAX: 12.9s
Create DOM: 1.6s
Count via DOM: 2.5s
Both techniques produce the same hash counting the number of each category seen:
{"Cats"=>71423, "Llamas"=>71290, "Pigs"=>71730, "Sheep"=>71491, "Dogs"=>71331, "Cows"=>71536, "Hogs"=>71199}
The SAX version takes 12.9s to count and categorize, while the DOM version takes only 1.6s to create the DOM elements and 2.5s more to find and categorize all the <cat> values. The DOM version is around 3x as fast!
…but that's not the entire story. We have to look at RAM usage as well.
- For 500,000 items SAX (12.9s) peaks at 238MB of RAM; DOM (4.1s) peaks at 1.0GB.
- For 1,000,000 items SAX (25.5s) peaks at 243MB of RAM; DOM (8.1s) peaks at 2.0GB.
- For 2,000,000 items SAX (55.1s) peaks at 250MB of RAM; DOM (???) peaks at 3.2GB.
I had enough memory on my machine to handle 1,000,000 items, but at 2,000,000 I ran out of RAM and had to start using virtual memory. Even with an SSD and a fast machine I let the DOM code run for almost ten minutes before finally killing it.
It is very likely that the long times you are reporting are because you are running out of RAM and hitting the disk continuously as part of virtual memory. If you can fit the DOM into memory, use it, as it is FAST. If you can't, however, you really have to use the SAX version.
Here's the test code:
require 'nokogiri'
CATEGORIES = %w[ Cats Dogs Hogs Cows Sheep Pigs Llamas ]
ITEM_COUNT = 500_000
def test!
create_xml
sleep 2; GC.start # Time to read memory before cleaning the slate
test_sax
sleep 2; GC.start # Time to read memory before cleaning the slate
test_dom
end
def time(label)
t1 = Time.now
yield.tap{ puts "%s: %.1fs" % [ label, Time.now-t1 ] }
end
def test_sax
item_counts = time("Count via SAX") do
counter = CategoryCounter.new
# Use parse_file so we can stream data from disk instead of flooding RAM
Nokogiri::HTML::SAX::Parser.new(counter).parse_file('tmp.xml')
counter.category_counts
end
# p item_counts
end
def test_dom
doc = time("Create DOM"){ File.open('tmp.xml','r'){ |f| Nokogiri.XML(f) } }
counts = time("Count via DOM") do
counts = Hash.new(0)
doc.xpath('//cat').each do |cat|
counts[cat.children[0].content] += 1
end
counts
end
# p counts
end
class CategoryCounter < Nokogiri::XML::SAX::Document
attr_reader :category_counts
def initialize
@category_counts = Hash.new(0)
end
def start_element(name,att=nil)
@count = name=='cat'
end
def characters(str)
if @count
@category_counts[str] += 1
@count = false
end
end
end
def create_xml
time("Create XML file") do
File.open('tmp.xml','w') do |f|
f << "<root>
<summarysection><totalcount>10000</totalcount></summarysection>
<items>
#{
ITEM_COUNT.times.map{ |i|
"<item>
<cat>#{CATEGORIES.sample}</cat>
<name>Name #{i}</name>
<name>Value #{i}</name>
</item>"
}.join("\n")
}
</items>
</root>"
end
end
end
test! if __FILE__ == $0
How does the DOM Counting Work?
If we strip away some of the test structure, the DOM-based counter looks like this:
# Open the file on disk and pass it to Nokogiri so that it can stream read;
# Better than doc = Nokogiri.XML(IO.read('tmp.xml'))
# which requires us to load a huge string into memory just to parse it
doc = File.open('tmp.xml','r'){ |f| Nokogiri.XML(f) }
# Create a hash with default '0' values for any 'missing' keys
counts = Hash.new(0)
# Find every `<cat>` element in the document (assumes one per <item>)
doc.xpath('//cat').each do |cat|
# Get the child text node's content and use it as the key to the hash
counts[cat.children[0].content] += 1
end
How does the SAX counting Work?
First, let's focus on this code:
class CategoryCounter < Nokogiri::XML::SAX::Document
attr_reader :category_counts
def initialize
@category_counts = Hash.new(0)
end
def start_element(name,att=nil)
@count = name=='cat'
end
def characters(str)
if @count
@category_counts[str] += 1
@count = false
end
end
end
When we create a new instance of this class we get an object that has a Hash that defaults to 0 for all values, and a couple of methods that can be called on it. The SAX Parser will call these methods as it runs through the document.
Each time the SAX parser sees a new element it will call the
start_elementmethod on this class. When that happens, we set a flag based on whether this element is named "cat" or not (so that we can find the name of it later).Each time the SAX parser slurps up a chunk of text it calls the
charactersmethod of our object. When that happens, we check to see if the last element we saw was a category (i.e. if@countwas set totrue); if so, we use the value of this text node as the category name and add one to our counter.
To use our custom object with Nokogiri's SAX parser we do this:
# Create a new instance, with its empty hash
counter = CategoryCounter.new
# Create a new parser that will call methods on our object, and then
# use `parse_file` so that it streams data from disk instead of flooding RAM
Nokogiri::HTML::SAX::Parser.new(counter).parse_file('tmp.xml')
# Once that's done, we can get the hash of category counts back from our object
counts = counter.category_counts
p counts["Pigs"]
I'd recommend using a SAX parser rather than a DOM parser for a file this large. Nokogiri has a nice SAX parser built in: http://nokogiri.org/Nokogiri/XML/SAX.html
The SAX way of doing things is nice for large files simply because it doesn't build a giant DOM tree, which in your case is overkill; you can build up your own structures when events fire (for counting nodes, for example).