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All Projects → refresh-bio → GTC

refresh-bio / GTC

Licence: GPL-3.0 License
GenoTypes Compressor

Programming Languages

C++
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GTC - GenoTypes Compressor

Requirements

GTC requires:

  • A modern, C++11 ready compiler such as g++ version 4.9 or higher or clang version 3.2 or higher.
  • The CMake build system.
  • A 64-bit operating system. Either Mac OS X or Linux are currently supported.
  • For best performance the processor of the system should support fast bit operations available in SSE4.2

Installation

To download, build and install GTC use the following commands.

git clone https://github.com/refresh-bio/GTC.git
cd GTC
./install.sh 
make
make install

The install.sh script downloads and installs the SDSL and HTSlib libraries into the include and lib directories in the GTC directory.

By default GTC is installed in the bin directory of the /usr/local/ directory. A different location prefix can be specified with prefix parameter:

make prefix=/usr/local install

To uninstall GTC:

make uninstall

This uninstalls GTC from the /usr/local directory. To uninstall from different location use the prefix parameter:

make prefix=/usr/local uninstall

To uninstall the SDSL and HTSlib libraries use the provided uninstall script:

./uninstall.sh

To clean the GTC build use:

make clean

Usage

  • Compress the input VCF/BCF file
Input: [file_name] VCF/BCF file. 
Output: [archive_name].ind file with samples names, [archive_name].bcf file with variant sites description, [archive_name].gtc file with the archive. By default [archive_name] is set to "archive".

Usage: gtc compress <options> [file_name] 
[file_name]		- input file (a VCF or VCF.GZ file by default)

Available options (optional): 
Input: 
	-b    	- input is a BCF file (input is a VCF or VCF.GZ file by default)	
	-p [x]	- set ploidy of samples in input VCF to [x] (number >= 1; 2 by default)
Output: 
	-o [name]	- set archive name to [name]("archive" by default)	
Parameters: 
	-t [x]	- set number of threads to [x] (number >= 1; 8 by default)
	-d [x]	- set maximum depth to [x] (number >= 0; 0 means no matches; 100 by default)
	-g [x]   	- [DEV] set number of vector groups [percentage of 1s] to [x] (max: 32; 32 by default)	
	-hm [x]   	- [DEV] set n_vec_history for matches to pow(2, [x]) (9 by default, min: 8)	
	-hc [x]   	- [DEV] set n_vec_history for copies to pow(2, [x]) (17 by default, min: 8)
  • Decompress / Query the archive.
Input [archive_name] archive ([archive_name].ind, [archive_name].bcf and [archive_name].gtc). 
Output: a VCF/BCF file.

Usage: gtc view <options> [archive_name]
Available options: 
Output: 
   -o [name]	- output to a file and set output name to [name] (stdout by default)	
   -b	- output a BCF file (output is a VCF file by default)	
   -C 	- write AC/AN to the INFO field (always set when using -minAC, -maxAC, -minAF or -maxAF)
   -G 	- don't output sample genotypes (only #CHROM, POS, ID, REF, ALT, QUAL, FILTER and INFO columns)
   -c [0-9]   set level of compression of the output bcf (number from 0 to 9; 1 by default; 0 means no compression)	
Query: 
   -r	- range in format [chr]:[start]-[end] (for example: -r 14:19000000-19500000). By default all variants are decompressed.
   -s	- sample name(s), separated by comms (for example: -s HG00096,HG00097) OR '@' sign followed by the name of a file with sample name(s) separated by whitespaces (for exaple: -s @file_with_IDs.txt). By default all samples/individuals are decompressed
   -n X 	- process at most X records (by default: all from the selected range)
Settings: 
   -minAC X 	- report only sites with count of alternate alleles among selected samples smaller than or equal to X (default: no limit)
   -maxAC X 	- report only sites with count of alternate alleles among selected samples greater than or equal to X
   -minAF X 	- report only sites with allele frequency among selected samples greather than or equal to X (X - number between 0 and 1; default: 0)
   -maxAF X 	- report only sites with allele frequency among selected samples smaller than or equal to X (X - number between 0 and 1; default: 1)
   -m X	- limit maximum memory usage to remember previous vectors to X MB (no limit by default)

Toy example

There is an example VCF file, toy.vcf, in the toy_ex folder, which can be used to test GTC

To compress the example VCF file and store the archive called toy_arch in the toy_ex folder:

./gtc compress -o toy_ex/toy_arch toy_ex/toy.vcf

This will create an archive consisting of four files:

  • toy_arch.bcf - BCF file with all variant sites description,
  • toy_arch.bcf.csi - BCF index file,
  • toy_arch.gtc - main archive with all genotypes compressed,
  • toy_arch.ind - list of all individuals.

To view the compressed archive (to decompress it) in VCF format:

./gtc view toy_ex/toy_arch

For more options see Usage section.

Dockerfile

Dockerfile can be used to build a Docker image with all necessary dependencies and GTC compressor. The image is based on Ubuntu 16.04. To build a Docker image and run a Docker container, you need Docker Desktop (https://www.docker.com). Example commands (run it within a directory with Dockerfile):

docker build -t ubuntu-gtc .
docker run -it ubuntu-gtc

Note: The Docker image is not intended as a way of using GTC. It can be used to test the instalation process and basic operation of the GTC tool.

Developers

The GTC algorithm was invented by Agnieszka Danek and Sebastian Deorowicz. The implementation is by Agnieszka Danek (mainly) and Sebastian Deorowicz.

Publication

Danek, A., Deorowicz, S., GTC: how to maintain huge genotype collections in a compressed form, Bioinformatics, 2018, 34(11):1834-1840.

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