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All branches in this repository are development branches. The latest stable release can be found in the releases section.

Savvy Library

Savvy is the official C++ interface for the SAV file format and offers seamless support for BCF and VCF files.

Since the release of version 2.0, Savvy no longer supports writing of SAV 1.x files but will continue to support reading of existing 1.x files.

Installing

The easiest way to install Savvy and its dependencies from source is to use cget.

cget install --prefix <install_prefix> statgen/savvy # default <install_prefix> is ./cget/

Installing binaries of Savvy and its dependencies can be done with conda.

conda install -c conda-forge -c bioconda savvy

Including in Projects

CMakeLists.txt:

# Configure with cmake option: -DCMAKE_TOOLCHAIN_FILE=<install_prefix>/cget/cget.cmake
find_package(savvy REQUIRED)
add_executable(prog main.cpp)
target_link_libraries(prog savvy)

Reading Variants from File

#include <savvy/reader.hpp>

savvy::reader f("chr1.sav");
savvy::variant var;
std::vector<int> geno;
  
while (f >> var)
{
  var.position();
  var.chromosome();
  var.ref();
  var.alts();

  int ac;
  var.get_info("AC", ac);
  
  var.get_format("GT", geno);
  for (int allele : geno)
  {
    ...
  }
}

Random Access

In addition to the genomic region queries that CSI indices enable for VCF/BCF files, S1R indices also enable SAV files to be queried by record offset.

Genomic Queries

#include <savvy/reader.hpp>

savvy::reader f("chrX.sav");
savvy::variant var;

f.reset_bounds(savvy::genomic_region("X", 60001, 2699520));
while (f >> var)
{
  ...
}

// Shorthand
f.reset_bounds({"X", 154931044, 155260560});
while (f >> var)
{
  ...
}

Slice Queries

#include <savvy/reader.hpp>
savvy::reader f("chr1.sav");

// Get the 10,000th record through the 19,999th record (0-based amd non-inclusive)
f.reset_bounds(savvy::slice_bounds(10000, 20000));

// Shorthand
f.reset_bounds({20000, 30000});

Subsetting Samples

#include <savvy/reader.hpp>
savvy::reader f("chr1.sav");
std::vector<std::string> requested = {"ID001","ID002","ID003"};
std::vector<std::string> intersect = f.subset_samples({requested.begin(), requested.end()});

savvy::variant var;
while (f.read(var))
{
  ...
}

Copying Files

#include <savvy/reader.hpp>
#include <savvy/writer.hpp>

savvy::reader in("in.sav");
savvy::writer out("out.bcf", savvy::file::format::bcf, in.headers(), in.samples());
savvy::variant var;
while (in >> var)
  out << var;

Creating New Files

#include <savvy/writer.hpp>

std::vector<std::string> sample_ids = {"ID1", "ID2", "ID3"};

std::vector<std::pair<std::string, std::string>> headers = {
  {"fileformat", "VCFv4.2"},
  {"FILTER", "<ID=PASS,Description=\"All filters passed\">"},
  {"contig", "<ID=chr1,length=248956422>"},
  {"INFO",   "<ID=AC,Number=A,Type=Integer,Description=\"Alternate Allele Counts\">"},
  {"INFO",   "<ID=AN,Number=1,Type=Integer,Description=\"Total Number Allele Counts\">"},
  {"FORMAT", "<ID=GT,Type=Integer,Description=\"Genotype\">"} 
};

savvy::writer out("out.sav", savvy::file::format::sav2, headers, sample_ids);

std::vector<std::int8_t> geno = {0,0,1,0,0,1};

savvy::variant var("chr1", 10000000, "A", {"AC"}); // chrom, pos, ref, alts
var.set_info("AC", std::count(geno.begin(), geno.end(), 1));
var.set_info("AN", geno.size());
var.set_format("GT", geno);

out.write(var);

SAV Command Line Interface

File manipulation for SAV format.

Import

The import sub-command generates a SAV file from a BCF or VCF file. An S1R index is automatically generated and appended to the end of the resulting SAV file.

sav import file.bcf file.sav

Export

The export sub-command can be used to manipulate SAV files and/or convert between file formats.

sav export --regions chr1,chr2:10000-20000 --sample-ids ID1,ID2,ID3 file.sav > file.vcf

Concatenate

Fast concatenation of SAV files (similar to bcftools concat --naive) can be achieved with the concat sub-command. This command avoids deserialization of variant data by performing a byte-for-byte copy of compressed variant blocks. The S1R index is also quickly concatenated without having to parse records in the SAV file.

sav concat file1.sav file2.sav > concat.sav

Slice Queries

In addition to querying genomic regions, S1R indices can be used to quickly subset records by their offset within a file.

# export first 1,000 records
sav export --slice 0:1000 file.sav > file.vcf

# export second 1,000 records (1,000-1,999)
sav export --slice 1000:2000 file.sav > file.vcf

Statistics

There are two sub-commands for gathering statistics on sav files. The stat command parses the entire file to calculate statistics. The stat-index sub-command only parsed the S1R index, making it a faster alternative for some statistics (e.g., number of variant records, chromosomes, etc.).

sav stat file.sav
sav stat-index file.sav

Sort

The sort sub-command sorts variant records by chromosome and position. It can also be used to sort in descending order, which is supported by S1R indices.

sav sort unsorted.sav > sorted.sav
sav sort --direction desc unsorted.sav > reversed.sav

Header

The head and rehead sub-commands are used for retrieving and manipulating header information.

sav head file.sav > header.txt
sav head --sample-ids file.sav > sample_ids.txt
sav rehead --sample-ids new_ids_file.txt old.sav new.sav

Parameter Trade-offs

Action Pro Con
Increasing block size Smaller file size (especially with PBWT) Reduces precision of random access
Increasing compression level Smaller file size Slower compression speed (decompression not affected)
Enabling PBWT Smaller file size when used with some fields Slower compression and decompression

Packaging

docker build -t savvy-packaging - < packaging-dockerfile-ubuntu20
mkdir -p packages
docker run -v $(pwd):/savvy-src -v $(pwd)/packages:/out savvy-packaging /savvy-src/package-linux.sh /savvy-src /out

Optional Build Targets

  • -DBUILD_TESTS=ON allows running of tests with make test
  • -DBUILD_EVAL=ON enables building of sav-eval executable used to evaluate deserialization performance
  • -DBUILD_SPARSE_REGRESSION=ON enables building of sav-at executable