Streaming Transformations for XML

Streaming Transformations for XML (STX) is an XML transformation language intended as a high-speed, low memory consumption alternative to XSLT version 1.0 and 2.0. Current work on XSLT 3.0 includes Streaming capabilities.

Overview

STX is an XML standard for efficient processing of stream-based XML. Basic XSLT is not well suited to stream based processing, and STX fills this niche.

Conventional XML processing involves loading the entire XML document into memory for use. In contrast, SAX streams XML events such as "open element," "close element," and "text node" so that other software can begin interpreting information immediately, before the end of the file is reached. Unfortunately some software can't effectively use XML fragments this way and must build up the whole document to begin processing. So is the case with XSLT. Because XSLT's XPath can select any node throughout the document it must have the entire document available in memory.

STX only allows queries immediately surrounding the current node so it can quickly start transforming and outputting SAX event nodes as they arrive. As it can discard nodes immediately after processing, memory use is significantly lower than that of XSLT. Having a limited query scope is a defining characteristic of STX.

This architectural decision intentionally marginalises STX as a niche language. Indeed, it would be wrong to say that STX is a general purpose transformation language; however, if your transformation needs can be met by STX then it's an efficient and smart choice.

Specifications

STX's query language is called STXPath and is based on XPath 2.0.

Implementations of STX are available in Java and Perl.

Similar projects

Unlike STX which is declared using an XML syntax, these two projects associate SAX events with callback functions:

  • Xineo OAX
  • SAX Adapter
gollark: It's not like it has *every* possible feature.
gollark: It seems like an obvious idea, so it probably doesn't, unless the programmers doing the filtering are lazy/deliberately inattentive.
gollark: I would be interested to know if that works.
gollark: https://en.wikipedia.org/wiki/Cognitive_reflection_test
gollark: Near/far mode or whatever; people apply different reasoning to abstract problems than concrete ones.
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