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Well a lot of questions have been made about parsing XML in C++ and so on... But, instead of a generic problem, mine is very specific.

I am asking for a very efficient XML parser for C++. In particular I have a VERY VERY BIG XML file to parse. My application must open this file and retrieve data. It must also insert new nodes and save the final result in the file again.

To do this I used, at the beginning, rapidxml, but it requires me to open the file, parse it all (all the content because this lib has no functions to access the file directly without loading the entire tree first), then edit the tree, modify it and store the final tree on the file by overwriting it... It consumes too much resources.

Is there an XML parser that does not require me to load the entire file, but that I can use to insert, quickly, new nodes and retrieve data? Can you please indicate solutions for this problem of mine?

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"High perfomance xml" - isn't that an oxymoron? – Matthieu N. Jan 12 '11 at 21:21
:) well it might be... – Andry Jan 12 '11 at 22:17
From one of the creators of this site, why XML is not a database: – MSalters Jan 13 '11 at 9:17
up vote 9 down vote accepted

You want a streaming XML parser rather than what is called a DOM parser.

There are two types of streaming parsers: pull and push. A pull parser is good for quickly writing XML parsers that load data into program memory. A push parser is good for writing a program to translate one document to another (which is what you are trying to accomplish). I think, therefore, that a push parser would be best for your problem.

In order to use a push parser, you need to write what is essentially an event handler for parsing events. By "parsing event", I mean events like "start tag reached", "end tag reached", "text found", "attribute parsed", etc.

I suggest that as you read in the document, you write out the transformed document to a separate, temporary file. Thus, your XML parsing event handlers will need to be written so that they are stateful and write out the XML of the translated document incrementally.

Three excellent push parser libraries for C++ include Expat, Xerces-C++, and libxml2.

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Whether you use a pull or push SAX parser, the end result is the same. Both require event handlers be used while the XML data is being parsed in chunks. The only difference between them is that a pull parser automatically retreives data from a source you specify (like a file), whereas a push parser lets you obtain the data yourself and pass it to the parser (in this regard, a pull parser uses a push model internally). Both parsers have the same kind of internal logic though - given a chunk of data, parse it and fire events as needed, then pull/wait for the next chunk and repeat... – Remy Lebeau Jan 12 '11 at 21:18
... so, your SAX event handlers can extract the data as needed in real-time while the XML is being parsed in chunks, and then you can write the supplied data to a temp file, writing new data where needed, then replace the original file with the temp file when finished. – Remy Lebeau Jan 12 '11 at 21:20
Also, I use libxml2 in my C++ code, works great. It supports both DOM and SAX (pull and push) models. – Remy Lebeau Jan 12 '11 at 21:21
@Remy: While it is true that pull and push parsers are very similar, I am mainly pointing out two scenarios where I think that a pull parser or a push parser should be used because of convenience. In my experience, either parser type can be used for the two scenarios, but I have found it easier to use a pull parser instead of a push parser in certain cases. – Daniel Trebbien Jan 12 '11 at 21:22
@Everyone: Well Thank you, they are wounderful suggestions... I just have a question, here: if you slide down a bit you can see a table stating performances for RapidXml vs the world... well it says that RapidXml is the fastst, even 100x than Xerces... where is the trick??????? how's that possible... is it really Xerces that bad? Can Xerces parse my file faster than RapidXml? – Andry Jan 12 '11 at 21:23

Search for "SAX parser". They are mostly tokenizers, i.e. they emit tag by tag without building a tree.

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There is the well known Xerces, is it good for my rerquirements???? – Andry Jan 12 '11 at 21:06
@Andry they say Xerces has/supports SAX, so probably this will work for you. – Eugene Mayevski 'EldoS Corp Jan 12 '11 at 21:09

SAX parsers are faster than DOM parsers because DOM parsers read the entire file into memory before building an in-memory representation of the XML document, whereas a SAX parser behaves like an event listener and builds the document as it reads in the file. Go here for an explanation.

As you mentioned Xerces is a good C++ SAX parser.

I would recommend looking into ways of breaking the XML document into smaller XML documents as that seems to be part of your problem.

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I’m convinced that no XML library exists that allows you to modify a file without loading it first. This simply isn’t possible because files don’t work that way: you cannot insert (or remove) in the middle of a file. You can only overwrite a block of identical size, or append at the end. But your request would require to append or remove in the middle of the file.

Reading only parts of an XML file may be possible. But writing … no way.

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Well no... it is possible Ordering is not needed, it is performed later, by tokenizing file, you can locate a node and wherever inside it insert the new node... no need to get the entire file... no? – Andry Jan 12 '11 at 21:05
@Andry: wrong. Ordering is needed in an XML file. It’s possible that you don’t need it but the XML standard mandates that the ordering of the nodes is fixed. Furthermore, tokenizing (in particular finding the matching end token) pretty much involves reading the whole file. – Konrad Rudolph Jan 12 '11 at 21:09
Thank you... yes you're right... then things get much harder... I wonder how libraries in c# or high level languages can parse very big xml files in few milliseconds.... – Andry Jan 12 '11 at 21:21
@Andry: interesting question. Perhaps they can’t … i.e. they just “pretend” to parse the whole file but in reality wait until you actually access a given node, and only then parse the node fully. But once again, as soon as you try to modify (and write back to disk) any node, the whole file has to be parsed. – Konrad Rudolph Jan 12 '11 at 21:44
Well it's crystal clear... Thank you Konrad :) – Andry Jan 12 '11 at 21:56

Okay, here is one off the beaten track, I looked at this, but haven't really used it myself, it's called asmxml. These boys claim performance bar none, downside, you need x86 assembler.

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@downvoter, please explain? I was just highlighting an unusual parser that claims better performance than most major parsers out there, what's wrong with what I've said? – Nim Jan 12 '11 at 22:57
I think the downvote was because the OP specified a parser in C++. – Chris D. Jan 13 '11 at 2:55
@Chris, hmm, the parser is written in assembler yes, but it's meant to be used in C++ applications! I would not have bothered posting it otherwise! :( – Nim Jan 13 '11 at 9:45
I actually agree with you. Was just giving an educated guess as to why the downvote. I put it back to 0 for ya too. :-) – Chris D. Jan 13 '11 at 20:47
One good reason for downvoting might be that this is a 32-bit only parser and cannot be linked to 64-bit applications. See the FAQ. It also implements a subset of xml. – Amit Naidu Jun 8 '13 at 21:17

If you really seek high performance XML stream parser then libhpxml is likely the right thing for you.

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