I have a 100GB XML file and parse it with SAX method in go with this code

    file, err := os.Open(filename)
    defer file.Close()
    buffer := bufio.NewReaderSize(file, 1024*1024*256) // 33554432
    decoder := xml.NewDecoder(buffer)
    for {
            t, _ := decoder.Token()
            if t == nil {
            switch se := t.(type) {
            case xml.StartElement:
                if se.Name.Local == "House" {
                    house := House{}
                    err := decoder.DecodeElement(&house, &se)

But golang working very slow, its seems by execution time and disk usage. My HDD capable to read data with speed around 100-120 MB/s, but golang uses only 10-13 MB/s.

For experiment I rewrite this code in C#:

    using (XmlReader reader = XmlReader.Create(filename)
                    while (reader.Read())
                        switch (reader.NodeType)
                            case XmlNodeType.Element:
                                if (reader.Name == "House")

And I got full HDD loaded, c# read data with 100-110 MB/s speed. And execution time around 10 times lower.

How can I improve XML parse performance using golang?

  • your implementation is probably the issue. You might want to unmarshal into defined data structures. See the example below. play.golang.org/p/m99B12RaLe Commented Sep 10, 2017 at 17:49
  • Indeed it's issue with go sax parser. I have tested it with 1GB xml file and came up with similar result as of OP.
    – Saleem
    Commented Dec 13, 2017 at 13:23

3 Answers 3


These 5 things can help increase speed using the encoding/xml library:
(Tested against XMB with 75k entries, 20MB, %s are applied to previous bullet)

  1. Use well defined structures
  2. Implement xml.Unmarshaller on all your structures
    • Lots of code
    • Saves 20% time and 15% allocs
  3. Replace d.DecodeElement(&foo, &token) with foo.UnmarshallXML(d, &token)
    • Almost 100% safe
    • Saves 10% time & allocs
  4. Use d.RawToken() instead of d.Token()
    • Needs manual handling of nested objects and namespaces
    • Saves 10% time & 20% allocs
  5. If use use d.Skip(), reimplement it using d.RawToken()

I reduced time and allocs by 40% on my specific usecase at the cost of more code, boileplate, and potentially worse handling of corner cases, but my inputs are fairly consistent, however it's not enough.

benchstat first.bench.txt parseraw.bench.txt 
name          old time/op    new time/op    delta
Unmarshal-16     1.06s ± 6%     0.66s ± 4%  -37.55%  (p=0.008 n=5+5)

name          old alloc/op   new alloc/op   delta
Unmarshal-16     461MB ± 0%     280MB ± 0%  -39.20%  (p=0.029 n=4+4)

name          old allocs/op  new allocs/op  delta
Unmarshal-16     8.42M ± 0%     5.03M ± 0%  -40.26%  (p=0.016 n=4+5)

On my experiments, the lack of memoizing issue is the reason for large time/allocs on the XML parser which slows down significantly, mostly because of Go copying by value.

  • 2
    Applied the same optimizations, can confirm the results on my end are around the 40% mark on time and 50% allocs. Commented Oct 22, 2021 at 17:58
  • Hey @Goodwine, can you please add a small example on how to go about implementing the above suggestions?
    – AvyChanna
    Commented Aug 1, 2023 at 15:08

To answer your question "How can i improve xml parse performance using golang?"

Using the common xml.NewDecoder / decoder.Token, I was seeing 50 MB/s locally. By using https://github.com/tamerh/xml-stream-parser I was able to double the parse speed.

To test I used Posts.xml (68 GB) from the https://archive.org/details/stackexchange archive torrent.

package main

import (

func main() {
    // Using `Posts.xml` (68 GB) from https://archive.org/details/stackexchange (in the torrent)
    f, err := os.Open("Posts.xml")
    if err != nil {
    defer f.Close()

    br := bufio.NewReaderSize(f, 1024*1024)
    parser := xmlparser.NewXmlParser(br, "row")

    started := time.Now()
    var previous int64 = 0

    for x := range *parser.Stream() {
        elapsed := int64(time.Since(started).Seconds())
        if elapsed > previous {
            kBytesPerSecond := int64(parser.TotalReadSize) / elapsed / 1024
            fmt.Printf("\r%ds elapsed, read %d kB/s (last post.Id %s)", elapsed, kBytesPerSecond, x.Attrs["Id"])
            previous = elapsed

This will output something along the line of:

...s elapsed, read ... kB/s (last post.Id ...)

Only caveat is that this does not give you the convenient unmarshal into struct.

As discussed in https://github.com/golang/go/issues/21823, speed seems to be general problem with the XML implementation in Golang and would require a rewrite / rethink of that part of the standard library.


I created an XML Tokenizer library that may help improving the parsing performance of an XML files in Go: https://github.com/muktihari/xmltokenizer. In my use case, I got around 4x faster speed when using the XML Tokenizer compared to the standard library's xml with manual implementation of xml.Unmarshaller:

goos: darwin; goarch: amd64; pkg: xmltokenizer
cpu: Intel(R) Core(TM) i5-5257U CPU @ 2.70GHz
Benchmark/stdlib.xml:"ride_sembalun.gpx"-4    2  605913816 ns/op  110562568 B/op  2806823 allocs/op
Benchmark/xmltokenizer:"ride_sembalun.gpx"-4  8  141616068 ns/op   17143609 B/op       85 allocs/op

Note: GPX is an XML-based file format.

This may not cover all XML files, but it can cover typical XML files and the implementation is similar to when we manually implement xml.Unmarshaller on our structs.

  • This is basically just advertising. Can you add some supporting information, such as usage examples? Also it seems OP wants to use standard components, so this doesn't really answer his question.
    – SimonC
    Commented 2 days ago

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