-- As values in VCs are becoming their native Java types the VCFWriter needs to own proper float formating.
-- Created a smart float formatter in VCFWriter, with unit tests
-- Removed makePrecisionFormatStringFromDenominatorValue and its uses
-- Fix broken contracted
-- Refactored some code from the encoder to utils in BCF2
-- HaplotypeCaller's GenotypingEngine was using old version of subset to context. Replaced with a faster call that I think is correct. Ryan, please confirm.
-- FastGenotypes are the default in the engine. Use --useSlowGenotypes engine argument to return to old representation
-- Cleanup of BCF2Codec. Good error handling. Added contracts and docs.
-- Added a few more contacts and docs to BCF2Decoder
-- Optimized encodePrimitive in BCF2Encoder
-- Removed genotype filter field exceptions
-- Docs and cleanup of BCF2GenotypeFieldDecoders
-- Deleted unused BCF2TestWalker
-- Docs and cleanup of BCF2Types
-- Faster version of decodeInts in VCFCodec
-- BCF2Writer
-- Support for writing a sites only file
-- Lots of TODOs for future optimizations
-- Removed lack of filter field support
-- No longer uses the alleleMap from VCFWriter, which was a Allele -> String, now uses Allele -> Integer which is faster and more natural
-- Lots of docs and contracts
-- Docs for GenotypeBuilder. More filter creation routines (unfiltered, for example)
-- More extensive tests in VariantContextTestProfiler, including variable length strings in genotypes and genotype filters. Better genotype comparisons
-- decodeIntArray in BCF2 decoder allows us to more efficiently read ints and int[] from stream directly into Genotype object
-- Code cleanup / contracts added were appropriate
-- V2 will have a yet more optimized path...
-- Eliminated the large intermediate map from field name to list of list<Integer> values needed to create genotypes without the GenotypeBuilder. The new code is cleaner and simply fills in an array of GenotypeBuilders as it moves through the column layout in BCF2
-- Now we create once decoders specialized for each GT field (GT, AD, etc) that can be optimized for putting data into the GenotypeBuilder. In a subsequent commit these will actually use lower level BCF2 decoders to create the low-level ints and int[], avoiding the intermediate List<Integer> form
-- Reduced the amount of data further to be computed in the DiffEngine. The DiffEngine algorithm needs to be rethought to be efficient...
-- Builder now provides a depreciated log10pError function to make a new GQ value
-- Genotype is an abstract class, with most of the associated functions implemented here and not in the derived Fast and Slow versions
-- Lots of contracts
-- Bugfixes throughout
-- The way I was handling the contig offset ordering wasn't correct. Now the contigs are always indexed in the order in which their corresponding populate() functions are called, so that the order of the contigs is given by the order in which they are in the file, or in our refDict. It has nothing to do with the contig index itself.
-- SelectVariants no longers prints all samples to the screen if you aren't selecting any explicitly
-- Created a new Genotype interface with a more limited set of operations
-- Old genotype object is now SlowGenotype. New genotype object is FastGenotype. They can be used interchangable
-- There's no way to create Genotypes directly any longer. You have to use GenotypeBuilder just like VariantContextBuilder
-- Modified lots and lots of code to use GenotypeBuilder
-- Added a temporary hidden argument to engine to use FastGenotype by default. Current default is SlowGenotype
-- Lots of bug fixes to BCF2 codec and encoder.
-- Feature additions
-- Now properly handles BCF2 -> BCF2 without decoding or encoding from scratch the BCF2 genotype bytes
-- Cleaned up semantics of subContextFromSamples. There's one function that either rederives or not the alleles from the subsetted genotypes
-- MASSIVE BUGFIX in SelectVariants. The code has been decoding genotypes always, even if you were not subsetting down samples. Fixed!
-- Created new clean FastGenotype and GenotypeBuilder classes with contracts to enforce expected behavior and correctness. Tested utility of this approach by rewritting -- and then commenting out -- a path in BCF2Codec that could use this new code. Much cleaner interface now, but not yet hooked up to anything
-- Disabled SHADOW_BCF generation and generating contigs in the output VCFs automatically to ensure that the current code bases integration tests, before switching the code to new Genotype class
-- Code cleanup. Moved "AD" to VCFConstants under GENOTYPE_ALLELIC_DEPTHS. Uses in code replaced with constant
-- Refactored BCF2Codec into a LazyGenotypesDecoder object that provides on-demand genotype decoding of BCF2 data blocks a la VCFCodec.
-- VCFHeader has getters for sampleNamesInOrder and sampleNameToOffset instead of protected variables directly accessed by vcfcodec
This is in response to a request from Mauricio to make it easier
to use the downsamplers with GATKSAMRecords (as opposed to SAMRecords)
without having to do any cumbersome typecasting. Sadly, Java
language limitations make this sort of solution the best choice.
Thanks to Khalid for his feedback on this issue.
Also:
-added a unit test to verify GATKSAMRecord support with no typecasting required
-added some unit tests for the FractionalDownsampler that Mauricio will/might be using
-moved classes from private to public to better sync up with my local development
branch for engine integration
Moved some stuff in the DiagnoseTargets walker to the more general ThresHolder class
Minor tweaks
FindCoveredIntervals supports Gathering
FindCoveredIntervals outputs an interval list instead of GATKReport
Signed-off-by: Mauricio Carneiro <carneiro@broadinstitute.org>
* Re-wrote the sliding window approach to allow the variant region not to clip the reads that overlap it.
* Updated consensus to include only reads that were not passed on by the variant region, header counts are updated on the fly to avoid recompute
* Added soft clipped bases to ReduceReads analysis by unclipping high quality soft-clips then re-clipping after reduce reads
* Updated all integration tests
Instead of creating a supposed network temporary directory locally which then fails when remote nodes try to access the non-existant dir, now checking to see if they network directory is available and throwing a SkipException to bypass the test when it cannot be run.
TODO: Throw similar SkipExceptions when fastas are not available. Right now instead of skipping the test or failing fast the REQUIRE_NETWORK_CONNECTION=false means that the errors popup later when the networked fastas aren't found.
- Merged Roger's metrics with Mauricio's optimizations
- Added Stats for DiagnoseTargets
- now has functions to find the median depth, and upper/lower quartile
- the REF_N callable status is implemented
- The walker now runs efficiently
- Diagnose Targets accepts overlapping intervals
- Diagnose Targets now checks for bad mates
- The read mates are checked in a memory efficient manner
- The statistics thresholds have been consolidated and moved outside of the statistics classes and into the walker.
- Fixed some bugs
- Removed rod binding
Added more Unit tests
- Test callable statuses on the locus level
- Test bad mates
- Changed NO_COVERAGE -> COVERAGE_GAPS to avoid confusion
Signed-off-by: Mauricio Carneiro <carneiro@broadinstitute.org>
-- VCFWriter / codec now passes the same rigorous UnitTest as the BCF2 writer / codec. As part of this we now can only test doubles for equivalence in VCFs to 1e-2 (not exactly impressive)
-- This version of BCF should actually work properly for most files, assuming headers are properly defined.
-- Lots of bug fixes to BCF2 codec
-- Genotype getPhredScaledQual is now an int, returning -1 if there's no QUAL. NOTE THIS SEMANTICS change
-- Equals() method for GenotypeLikelihoods, using PLs.
-- VCFCodec now longer adds empty bindings to missing input field values. NOTE THIS CHANGE
-- VCs can be marked as fully decoded, so that when fullyDecode() is called it returns itself, instead of doing the decoding work. The BCF2 codec now makes VCs marked as fully decoded
-- stringToBytes returns empty list for null or "" string in BCF2Encoder
-- Proper handling of genotype ordering in BCF2 reader / writer
-- Removed the crazy slow noDups and sameSamples tests that were slowing down unit and integration tests totally unnecessarily
-- Many failing MD5s now due to double -> int change in GQ, will update later
-- Added a new parameter to control the maximum number of pairwise differences to generate, which previously could expand to a very large number when there were lots of differences among genotypes, resulting in a n^2 algorithm running with n > 1,000,000
haplotypes were being clipped to the reference window when their unclipped ends went beyond the reference window. The unclipped ends include the hard clipped bases, therefore, if the reference window ended inside the hard clipped bases of a read, the boundaries would be wrong (and the read clipper was throwing an exception).
* updated code to use SoftEnd/SoftStart instead of UnclippedEnd/UnclippedStart where appropriate.
* removed unnecessary code to remove hard clips after processing.
* reorganized the logic to use the assigned read boundaries throughout the code (allowing it to be final).
-- Cut down the size of a few large files in public/testdata that were only used in part
-- Refactor vcf Filename => shadow BCF filename to BCF2Utils. Fix bug in WalkerTest due to the way this was handled previously
-- Fully working version
-- Use -generateShadowBCF to write out foo.bcf as well as foo.vcf anywhere you use -o foo.vcf
-- Moved MedianUnitTest to its proper home in Utils
-- Added reportng to ivy and testng, so build/report/X/html/ is a nicely formatted output for Unit and Integration tests. From this website it's easy to see md5 diffs, etc. This is a vastly better way to manage unit and integration test output
--handle entirely missing GT in a sample in decodeGenotypeAlleles
--Create MAX_ALLELES_IN_GENOTYPES constant in BCF2Utils, and extracted its use inline from the code
-- Generalized genotype writing code to handle ploidy != 2 and variable ploidy among samples
-- Remove special case inline treatment of case where all samples have no GT field values, and moved this into calcVCFGenotypeKeys
-- Removed restriction on getPloidy requiring ploidy > 1. It's logically find to return 0 for a no called sample
-- getMaxPloidy() in VC that does what it says
-- Support for padding / depadding of generic genotype fields
-- fixed final bugs with PL encoding / decoding
-- Ready for testing by other members of the group
-- Current performance numbers aren't so great, but they will improve in the next phase of BCF2 optimizations
-- Fixed a nasty bug in the filter field
-- Not that some (many?) GATK tools won't work with BCF because they internally assume values are Strings not their true types
Read 1500 genotypes file in VCF -> VCF : 11 seconds
Read 1500 genotypes file in VCF -> BCF : 9.5 seconds
VariantEval 1500 genotypes file in VCF : 3 seconds
VariantEval 1500 genotypes file in BCF : 3 seconds
-- Trivial import changes in some walkers
-- SelectVariants has a new hidden mode to fully decode a VCF file
-- DepthPerAlleleBySample (AD) changed to have not UNBOUNDED by A type, which is actually the right type
-- GenotypeLikelihoods now implements List<Double> for convenience. The PL duality here is going to be removed in a subsequent commit
-- BugFixes in BCF2Writer. Proper handling of padding. Bugfix for nFields for a field
-- padAllele function in VariantContextUtils
-- Much better tests for VariantContextTestProvider, including loading parts of dbSNP 135 and the Phase II 1000G call set with genotypes to test encoding / decoding of fields.
-- List<String> is converted inside of the codec to a collapsed string, and exploded in the decoder.
-- Unified the type conversion code in BCFWriter to simply the mapping from VCF type => BCF type and special value recoding
-- Code cleanup and renaming
-- Convenience routine for creating alleles from strings of bases
-- Convenience constructor for VCFFilterHeader line whose description is the same as name
-- VariantContextTestProvider creates all sorts of types of VariantContexts for testing purposes. Can be reused throughtout code for BCF, VCF, etc.
-- Created basic BCF2WriterCodec tests that consumes VariantContextTestProvider contexts, writes them to disk with BCF2 writer, and checks that they come back equals to the original VariantContexts. Actually worked for some complex tests in the first go
-- Added VCFHeader() constructor that makes an empty header, and updated VariantRecalibrator to use it
-- Update build.xml to build vcf.jar with updated paths and bcf2 support.
-- Moved VCF and BCF writers to variantcontext.writers
-- Updated vcf.jar build path
-- Refactored VCFWriter and other code. Now the best (and soon to be only) way to create these files is through a factory method called VariantContextWriterFactory. Renamed the general VCFWriter interface to VariantContextWriter which is implemented by VCFWriter and BCF2Writer.
-- Refactored VCF writers into vcf.writers package
-- Moved BCF2Writer to bcf2.writer
-- Updates to all of the walkers using VCFWriter to reflect new packages
-- A large number of files had their headers cleaned up because of this as well
-- Restructured code to separate the MISSING value in java (currently everywhere a null) from the byte representation on disk (an int).
-- Now handles correctly MISSING qual fields
-- Refactored setting of contigs from VCFWriterStub to VCFUtils. Necessary for proper BCF working
-- Added VCFContigHeaderLine that manages the order for sorting, so we now emit contigs in the proper order.
-- Cleaned up VCFHeader operations
-- BCF now uses the right header files correctly when encoding / decoding contigs
-- Clean up unused tools
-- Refactored header parsing routines to make them more accessible
-- More minor header changes from Intellij
This bug will happen in all adapter/wrapper classes that are passed a resource, and then in their close method they ignore requests to close the wrapped resource, causing a leak when the adapter is the only one left with a reference to the resource.
Ex:
public Wrapper getNewWrapper(File path) {
FileStream myStream = new FileStream(path); // This stream must be eventually closed.
return new Wrapper(myStream);
}
public void close(Wrapper wrapper) {
wrapper.close(); // If wrapper.close() does nothing, NO ONE else has a reference to close myStream.
}
* For some reason, the original implementor decided to use Booleans instead of booleans and didn't always check for null so we'd occasionally get a NPE. Switched over to booleans.
* We'd also generate a NPE if SAMRecord writing specific arguments (e.g. --simplifyBAM) were used while writing to sdout.
The practical differences between version 1.0 and this one (v1.1) are:
* the underlying data structure now uses arrays instead of hashes, which should drastically reduce the memory overhead required to create large tables.
* no more primary keys; you can still create arbitrary IDs to index into rows, but there is no special cased primary key column in the table.
* no more dangerous/ugly table operations supported except to increment a cell's value (if an int) or to concatenate 2 tables.
Integration tests change because table headers are different.
Old classes are still lying around. Will clean those up in a subsequent commit.
* writer mostly implemented
* walkers to convert BCF2 <-> VCF
* almost working for sites-only files; genotypes still need work
* initial performance tests this afternoon will be on sites-only files
From tribble logs:
Binary feature support in tribble
-- Massive refactoring and cleanup
-- Many bug fixes throughout
-- FeatureCodec is now general, with decode etc. taking a PositionBufferedStream
as an argument not a String
-- See ExampleBinaryCodec for an example binary codec
-- AbstractAsciiFeatureCodec provides to its subclass the same String decode,
readHeader functionality before. Old ASCII codecs should inherit from this base
class, and will work without additional modifications
-- Split AsciiLineReader into a position tracking stream
(PositionalBufferedStream). The new AsciiLineReader takes as an argument a
PositionalBufferedStream and provides the readLine() functionality of before.
Could potentially use optimizations (its a TODO in the code)
-- The Positional interface includes some more functionality that's now
necessary to support the more general decoding of binary features
-- FeatureReaders now work using the general FeatureCodec interface, so they can
index binary features
-- Bugfixes to LinearIndexCreator off by 1 error in setting the end block
position
-- Deleted VariantType, since this wasn't used anywhere and it's a particularly
clean why of thinking about the problem
-- Moved DiploidGenotype, which is specific to Gelitext, to the gelitext package
-- TabixReader requires an AsciiFeatureCodec as it's currently only implemented
to handle line oriented records
-- Renamed AsciiFeatureReader to TribbleIndexedFeatureReader now that it handles
Ascii and binary features
-- Removed unused functions here and there as encountered
-- Fixed build.xml to be truly headless
-- FeatureCodec readHeader returns a FeatureCodecHeader obtain that contains a
value and the position in the file where the header ends (not inclusive).
TribbleReaders now skip the header if the position is set, so its no longer
necessary, if one implements the general readHeader(PositionalBufferedStream)
version to see header lines in the decode functions. Necessary for binary
codecs but a nice side benefit for ascii codecs as well
-- Cleaned up the IndexFactory interface so there's a truly general createIndex
function that takes the enumerated index type. Added a writeIndex() function
that writes an index to disk.
-- Vastly expanded the index unit tests and reader tests to really test linear,
interval, and tabix indexed files. Updated test.bed, and created a tabix
version of it as well.
-- Significant BinaryFeaturesTest suite.
-- Some test files have indent changes
-- Other tribble contributors did major refactoring / simplification of tribble, which required some changes to GATK code
-- Integrationtests pass without modification, though some very old index files (callable loci beds) were apparently corrupt and no longer tolerated by the newer tribble codebase
Updated ReadFilter abstract class to implement (via UnsupportedOperationException) the new SamRecordFilter.filterOut().
In IndelRealignerIntegrationTest updates for Picard fixes to SAMRecord.getInferredInsertSize() in svn r1115 & r1124.
- Ran FixMates to create new input BAM since running IR with variable maxReadsInMemory means all reads weren't realigned leading to different outputs.
- Updated md5s to match new expectations after looking at TLEN diff engine output.
* Not working yet, still very much a work-in-progress with lots of placeholders
* Needed to check this in to enable possible collaboration, since it's
going slower than anticipated and the conference deadline looms.
Mark DePristo
Mauricio Carneiro
Eric Banks
Guillermo del Angel
David Roazen
Roger Zurawicki
Ryan Poplin
Khalid Shakir
Laurent Francioli
Joel Thibault
Christopher Hartl