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GitHub - whitfin/runiq: An efficient way to filter duplicate lines from input, à la uniq.
An efficient way to filter duplicate lines from input, à la uniq.  - GitHub - whitfin/runiq: An efficient way to filter duplicate lines from input, à la uniq.
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GitHub - whitfin/runiq: An efficient way to filter duplicate lines from input, à la uniq.

GitHub - whitfin/runiq: An efficient way to filter duplicate lines from input, à la uniq.

runiq

Build Status Crates.io

This project offers an efficient way (in both time and space) to filter duplicate entries (lines) from texual input. This project was born from neek, but optimized for both speed and memory. Several filtering options are supported depending on your data and tradeoffs you wish to make between speed and memory usage. For a more detailed explanation, see the relevant blog post.

Installation

Runiq will be available via Crates.io, so it can be installed from there directly. You can use Runiq either as a command line utility, or directly via the programmatic API.

If you wish to install Runiq as a command line utility, you can install it via an easy one-liner in your terminal:

$ cargo install runiq

If you wish to use it as a library, you can add it to your Cargo.toml as a dependency of your application:

[dependencies]
runiq = { version = "2.0", default-features = false }

You should disable the default features as it includes several dependencies which are required for the CLI use case. These dependencies are not included in your application when these features are disabled.

Examples

Below are a few examples of using the Runiq CLI to filter duplicates out of input text.

$ cat << EOF >> input.txt
this is a unique line
this is a duplicate line
this is another unique line
this is a duplicate line
this is a duplicate line
EOF

$ cat input.txt
this is a unique line
this is a duplicate line
this is another unique line
this is a duplicate line
this is a duplicate line

$ runiq input.txt
this is a unique line
this is a duplicate line
this is another unique line

For examples of the programmatic API, please see the examples.

Filters

Runiq comes with several "filters", which control exactly how uniqueness is verified. Each of these filters has different use cases, and excels in different ways.

  • quick
    • The quick filter works the same way as the simple filter, except values are pre-hashed.
    • This results in much lower memory overhead than simple, with comparably throughput.
    • Depending on your input lengths, throughput can actually be faster than simple.
  • simple
    • The simple filter uses basic Set implementations to determine uniqueness.
    • Offers a fairly good throughput, while still effectively guaranteeing accuracy.
    • As all inputs are stored, the memory requirement scales linearly to your input sizes.
  • sorted
    • The sorted filter acts much the same way as the standard uniq tool, by only detecting sequential duplicates.
    • This is naturally extremely low on resources, with very minimal memory overhead.
    • Obviously has a requirement that your input values be sorted.
  • compact
    • The compact filter uses a scaling Bloom Filter to determine uniqueness.
    • Performs very quickly due to small structures, with a minimal memory overhead.
    • Perfect accuracy is no longer guaranteed; there can be rare cases of false positives.
    • Best used for statistics on files, although will remain near perfect for millions of records.
    • See the comparisons below for some notes on accuracy of this filter.

Comparisons

To grab some rough comparisons of runiq against other methods of filtering uniques, we can use some sample data. This data is generated via Jen using the templates provided in the corresponding directory. You can create your own templates to more closely match your use case for a better comparison.

To start with, we'll generate a sample dataset of 25,000,000 JSON documents using the basic template. This template will result in an approximate 20% duplication rate (randomly dotted around the file) at this scale. Note that for longer inputs, you can tweak the rp value inside the template to cause repetition of fields.

$ jen templates/basic.tera -l 25000000 > 25000000.jsonl

File Size:     1,913,658,811 (~1.9 GB)
Total Count:      25,000,000
Unique Count:     19,832,571
Dup Offset:        5,167,429
Dup Rate:             20.67%

We can then run this sample dataset through the various filters of runiq, as well as some other tools to gauge how we're doing. These numbers are not meant to be a competition. They are simply a point of reference for myself when testing improvements. It is definitely possible that other tools might fit your data shape better.

Tool Flags Time (Unsorted) Memory (Unsorted) Time (Sorted) Memory (Sorted)
uniq N/A N/A N/A 24.9s 1.6MB
sort -u 380.2s 8.33GB 58.7s 8.15GB
uq N/A 22.6s 2.34GB 21.0s 2.34GB
huniq N/A 11.9s 298.5MB 11.6s 300.7MB
runiq -f quick 12.1s 298.7MB 11.8s 298.5MB
runiq -f simple 19.7s 2.33GB 18.2s 2.33GB
runiq -f sorted N/A N/A 10.3s 1.3MB
runiq -f compact 17.8s 162.2MB 16.2s 162.3MB

For another point of comparison, we'll repeat these tests with a sample of 100,000,000 JSON documents (so 4x the first test). In this case, the duplicate rate will rise to approximtely 55% using the same template:

$ jen templates/basic.tera -l 100000000 > 100000000.jsonl

File Size:     7,654,658,706 (~7.7 GB)
Total Count:     100,000,000
Unique Count:     44,305,712
Dup Offset:       55,694,288
Dup Rate:             55.69%
Tool Flags Time (Unsorted) Memory (Unsorted) Time (Sorted) Memory (Sorted)
uniq N/A N/A N/A 105.8s 1.6MB
sort -u 2529.9s 12.70GB 373.0s 12.42GB
uq N/A 76.4s 5.03GB 57.9s 5.03GB
huniq N/A 31.2s 586.3MB 28.4s 587.4MB
runiq -f quick 34.7s 586.8MB 30.5s 586.6MB
runiq -f simple 67.4s 5.00GB 49.0s 5.00GB
runiq -f sorted N/A N/A 24.9s 1.3MB
runiq -f compact 66.3s 338.3MB 49.0s 338.3M

All of these numbers are with the tool output being written to /dev/null. Some of these tools (runiq included) have flags to count/report rather than print the outputs; these use cases will always be much quicker than the numbers above.

It's also worth noting the accuracy given by the compact filter in these cases above; in both of my test sets the results were identical to those of the other filter types, showing that the compact filter is generally pretty accurate to some fairly large amounts of input (although not always!).

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