-- UnitTests now include combinational tiling of reads within and spanning shard boundaries
-- ART now properly handles shard transitions, and does so efficiently without requiring hash sets or other collections of reads
-- Updating HC and CountReadsInActiveRegions integration tests
Out of curiosity, why does Picard's IndexedFastaSequenceFile allow one to query for start position 0? When doing so, that base is a line feed (-1 offset to the first base in the contig) which is an illegal base (and which caused me no end of trouble)...
Refactored interval specific arguments out of GATKArgumentCollection into InvtervalArgumentCollection such that it can be used in other CommandLinePrograms.
Updated SelectHeaders to print out full interval arguments.
Added RemoteFile.createUrl(Date expiration) to enable creation of presigned URLs for download over http: or file:.
This way walkers won't see anything except the standard bases plus Ns in the reference.
Added option to turn off this feature (to maintain backwards compatibility).
As part of this commit I cleaned up the BaseUtils code by adding a Base enum and removing all of the static indexes for
each of the bases. This uncovered a bug in the way the DepthOfCoverage walker counts deletions (it was counting Ns instead!) that isn't covered by tests. Fortunately that walker is being deprecated soon...
Completed todo item: for sites like
(eval)
20 12345 A C
20 12345 A AC
(comp)
20 12345 A C
20 12345 A ACCC
the records will be matched by the presence of a non-empty intersection of alleles. Any leftover records are then paired with an empty variant context (as though the call was unique). This has one somewhat counterintuitive feature, which is that normally
(eval)
20 12345 A AC
(comp)
20 12345 A ACCC
would be classified as 'ALLELES_DO_NOT_MATCH' (and not counted in genotype tables), in the presence of the SNP, they're counted as EVAL_ONLY and TRUTH_ONLY respectively.
+ integration test
This way, we don't need to create a new Allele for every read/Haplotype pair to be placed in the PerReadAlleleLikelihoodMap (very inefficient). Also, now we can easily get the Haplotype associated with the best allele for a given read.
2. Framework is set up in the VariantAnnotator for the HaplotypeCaller to be able to call in to annotate dbSNP plus comp RODs. Until the HC uses meta data though, this won't work.
-- Resolved what was clearly a bug in UG (GGA mode was returning a neighboring, equivalent indel site that wasn't in input list. Not ideal)
-- Trivial read count differences in HC
-- function to create pileup elements in AlignmentStateMachine and LIBS
-- Cleanup pileup element constructors, directing users to LIBS.createPileupFromRead() that really does the right thing
-- Optimizations to AlignmentStateMachine
-- Properly count deletions. Added unit test for counting routines
-- AlignmentStateMachine.java is no longer recursive
-- Traversals now use new LIBS, not the old one
-- Added HCPerformance evaluation Qscript
-- Added some docs about one of the HC integration tests
-- HaplotypeCaller / ART performance evaluation script
Instead of the GATK Engine creating a new BaseRecalibrator (not clean), it just keeps track of the arguments (clean).
There are still some dependency issues, but it looks like they are related to Ami's code. Need to look into it further.
-- With the newer, faster BQSR, scaling was limited by the NestedIntegerArray. The solution to this is to make the entire table thread-local, so that each nct thread has its own data and doesn't have any collisions.
-- Removed the previous partial solution of having a thread-local quality score table
-- Added a new argument -lowMemory
-- AdvancedRecalibrationEngine now uses a thread-local table for the quality score table, and in finalizeData merges these thread-local tables into the final table. Radically reduces the contention for RecalDatum in this very highly used table
-- Refactored the utility function to combine two tables into RecalUtils, and created UnitTests for this function, as well as all of RecalibrationTables. Updated combine in RecalibrationReport to use this table combiner function
-- Made several core functions in RecalDatum into final methods for performance
-- Added RecalibrationTestUtils, a home for recalibration testing utilities
-- Created a ReadRecalibrationInfo class that holds all of the information (read, base quality vectors, error vectors) for a read for the call to updateDataForRead in RecalibrationEngine. This object has a restrictive interface to just get information about specific qual and error values at offset and for event type. This restrict allows us to avoid creating an vector of byte 45 for each read to represent BI and BD values not in the reads. Shaves 5% of the runtime off the entire code.
-- Cleaned up code and added lots more docs
-- With this commit we no longer have much in the way of low-hanging fruit left in the optimization of BQSR. 95% of the runtime is spent in BAQing the read, and updating the RecalData in the NestedIntegerArrays.
- Added an optional argument to BaseRecalibrator to produce sorted GATKReport Tables
- Modified BSQR Integration Tests to include the optional argument. Tests now produce sorted tables
The weird part is that the comments claimed it was doing what it was supposed to, but it didn't actually do it.
Now we maintain the last header element of the consensus (but without bases and quals) if it adjoins an element with an insertion.
Added the user's test file as an integration test.
This is an intermediate commit so that there is a record of these changes in our
commit history. Next step is to isolate the test classes as well, and then move
the entire package to the Picard repository and replace it with a jar in our repo.
-Removed all dependencies on org.broadinstitute.sting (still need to do the test classes,
though)
-Had to split some of the utility classes into "GATK-specific" vs generic methods
(eg., GATKVCFUtils vs. VCFUtils)
-Placement of some methods and choice of exception classes to replace the StingExceptions
and UserExceptions may need to be tweaked until everyone is happy, but this can be
done after the move.
-- Cleaned up code in updateDataForRead so that constant values where not computed in inner loops
-- BaseRecalibrator doesn't create it's own fasta index reader, it just piggy backs on the GATK one
-- ReadCovariates <init> now uses a thread local cache for it's int[][][] keys member variable. This stops us from recreating an expensive array over and over. In order to make this really work had to update recordValues in ContextCovariate so it writes 0s over base values its skipping because of low quality base clipping. Previously the values in the ReadCovariates keys were 0 because they were never modified by ContextCovariates. Now these values are actually zero'd out explicitly by the covariates.
-- No longer computes at each update the overall read group table. Now computes this derived table only at the end of the computation, using the ByQual table as input. Reduces BQSR runtime by 1/3 in my test
Reads that are soft-clipped off the contig (before the beginning of the contig) were being soft-clipped to position 0 instead of 1 because of an off-by-one issue. Fixed and included in the integration test.
Eric Banks
Chris Hartl
Mark DePristo
Khalid Shakir
Ryan Poplin
Mauricio Carneiro
Tad Jordan
Ami Levy-Moonshine
David Roazen