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Represent an XML document as a read-only tree.

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RazrFalcon/roxmltree

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roxmltree

Build Status Crates.io Documentation Rust 1.60+

Represents an XML document as a read-only tree.

// Find element by id.
let doc = roxmltree::Document::parse("<rect id='rect1'/>")?;
let elem = doc.descendants().find(|n| n.attribute("id") == Some("rect1"))?;
assert!(elem.has_tag_name("rect"));

Why read-only?

Because in some cases all you need is to retrieve some data from an XML document. And for such cases, we can make a lot of optimizations.

Parsing behavior

Sadly, XML can be parsed in many different ways. roxmltree tries to mimic the behavior of Python's lxml. For more details see docs/parsing.md.

Alternatives

Feature/Crate roxmltree libxml2 xmltree sxd-document
Element namespace resolving ~1
Attribute namespace resolving
Entity references × ×
Character references
Attribute-Value normalization
Comments
Processing instructions
UTF-8 BOM × ×
Non UTF-8 input
Complete DTD support
Position preserving2
HTML support
Tree modification
Writing
No unsafe
Language Rust C Rust Rust
Dependencies 0 - 2 2
Tested version 0.20.0 Apple-provided 0.10.3 0.3.2
License MIT / Apache-2.0 MIT MIT MIT

Legend:

  • ✓ - supported
  • × - parsing error
  • ~ - partial
  • nothing - not supported

Notes:

  1. No default namespace propagation.
  2. roxmltree keeps all node and attribute positions in the original document, so you can easily retrieve it if you need it. See examples/print_pos.rs for details.

There is also elementtree and treexml crates, but they are abandoned for a long time.

Performance

Here are some benchmarks comparing roxmltree to other XML tree libraries.

test huge_roxmltree      ... bench:   2,997,887 ns/iter (+/- 48,976)
test huge_libxml2        ... bench:   6,850,666 ns/iter (+/- 306,180)
test huge_sdx_document   ... bench:   9,440,412 ns/iter (+/- 117,106)
test huge_xmltree        ... bench:  41,662,316 ns/iter (+/- 850,360)

test large_roxmltree     ... bench:   1,494,886 ns/iter (+/- 30,384)
test large_libxml2       ... bench:   3,250,606 ns/iter (+/- 140,201)
test large_sdx_document  ... bench:   4,242,162 ns/iter (+/- 99,740)
test large_xmltree       ... bench:  13,980,228 ns/iter (+/- 229,363)

test medium_roxmltree    ... bench:     421,137 ns/iter (+/- 13,855)
test medium_libxml2      ... bench:     950,984 ns/iter (+/- 34,099)
test medium_sdx_document ... bench:   1,618,270 ns/iter (+/- 23,466)
test medium_xmltree      ... bench:   4,315,974 ns/iter (+/- 31,849)

test tiny_roxmltree      ... bench:       2,522 ns/iter (+/- 31)
test tiny_libxml2        ... bench:       8,931 ns/iter (+/- 235)
test tiny_sdx_document   ... bench:      11,658 ns/iter (+/- 82)
test tiny_xmltree        ... bench:      20,215 ns/iter (+/- 303)

When comparing to streaming XML parsers roxmltree is slightly slower than quick-xml, but still way faster than xmlrs. Note that streaming parsers usually do not provide a proper string unescaping, DTD resolving and namespaces support.

test huge_quick_xml      ... bench:   2,997,887 ns/iter (+/- 48,976)
test huge_roxmltree      ... bench:   3,147,424 ns/iter (+/- 49,153)
test huge_xmlrs          ... bench:  36,258,312 ns/iter (+/- 180,438)

test large_quick_xml     ... bench:   1,250,053 ns/iter (+/- 21,943)
test large_roxmltree     ... bench:   1,494,886 ns/iter (+/- 30,384)
test large_xmlrs         ... bench:  11,239,516 ns/iter (+/- 76,937)

test medium_quick_xml    ... bench:     206,232 ns/iter (+/- 2,157)
test medium_roxmltree    ... bench:     421,137 ns/iter (+/- 13,855)
test medium_xmlrs        ... bench:   3,975,916 ns/iter (+/- 44,967)

test tiny_quick_xml      ... bench:       2,233 ns/iter (+/- 70)
test tiny_roxmltree      ... bench:       2,522 ns/iter (+/- 31)
test tiny_xmlrs          ... bench:      17,155 ns/iter (+/- 429)

Notes

The benchmarks were taken on a Apple M1 Pro. You can try running the benchmarks yourself by running cargo bench in the benches dir.

  • Since all libraries have a different XML support, benchmarking is a bit pointless.
  • We bench libxml2 using the rust-libxml wrapper crate

Memory overhead

roxmltree tries to use as little memory as possible to allow parsing very large (multi-GB) XML files.

The peak memory usage doesn't directly correlate with the file size but rather with the amount of nodes and attributes a file has. How many attributes had to be normalized (i.e. allocated). And how many text nodes had to be preprocessed (i.e. allocated).

roxmltree never allocates element and attribute names, processing instructions and comments.

By disabling the positions feature, you can shave 8 bytes from each node and attribute.

On average, the overhead is around 6-8x the file size. For example, our 1.1GB sample XML will peak at 7.6GB RAM with default features enabled and at 6.8GB RAM when positions is disabled.

Safety

  • This library must not panic. Any panic should be considered a critical bug and reported.
  • This library forbids unsafe code.

API

This library uses Rust's idiomatic API based on iterators. In case you are more familiar with browser/JS DOM APIs - you can check out tests/dom-api.rs to see how it can be mapped onto the Rust one.

Built on top of this API, a mapping to the Serde data model is available via the serde-roxmltree crate.

License

Licensed under either of

at your option.

Contribution

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.