-- ReadGroupProperties: Emits a GATKReport containing read group, sample, library, platform, center, median insert size and median read length for each read group in every BAM file.
-- Median tool that collects up to a given maximum number of elements and returns the median of the elements.
-- Unit and integration tests for everything.
-- Making name of TestProvider protected so subclasses and override name more easily
* All contexts with 'N' bases are now collapsed as uninformative
* Context size is now represented internally as a BitSet but output as a dna string
* Temporarily disabled sorted outputs because of null objects
* Turns DNA sequences (for context covariates) into bit sets for maximum compression
* Allows variable context size representation guaranteeing uniqueness.
* Works with long precision, so it is limited to a context size of 31 bases (can be extended with BigNumber precision if necessary).
* Unit Tests added
-- As these represent the bulk of the StingExceptions coming from BAMSchedule and are caused by simple problems like the user providing bad input tmp directories, etc.
-- DoC now by default ignores bases with reference Ns, so these are not included in the coverage calculations at any stage.
-- Added option --includeRefNSites that will include them in the calculation
-- Added integration tests that ensures the per base tables (and so all subsequent calculations) work with and without reference N bases included
-- Reorganized command line options, tagging advanced options with @Advanced
* The tailSet generated every time we flush the reads stash is still being affected by subsequent clears because it is just a pointer to the parent element in the original TreeSet. This is dangerous, and there is a weird condition where the clear will affects it.
* Fix by creating a new set, given the tailSet instead of trying to do magic with just the pointer.
When aggregating raw BAM file spans into shards, the IntervalSharder tries to combine
file spans when it can. Unfortunately, the method that combines two BAM file
spans was seriously flawed, and would produce a truncated union if the file spans
overlapped in certain ways. This could cause entire regions of the BAM file containing
reads within the requested intervals to be dropped.
Modified GATKBAMFileSpan.union() to correct this problem, and added unit tests
to verify that the correct union is produced regardless of how the file spans
happen to overlap.
Thanks to Khalid, who did at least as much work on this bug as I did.
so Ryan can work on the recalibration on the fly without breaking the build. Supposedly all the secret sauce is in the BQSR walker, which sits in private.
* added support to base before deletion in the pileup
* refactored covariates to operate on mismatches, insertions and deletions at the same time
* all code is in private so original BQSR is still working as usual in public
* outputs a molten CSV with mismatches, insertions and deletions, time to play!
* barely tested, passes my very simple tests... haven't tested edge cases.
premature push from my part. Roger is still working on the new format and we need to update the other tools to operate correctly with the new GATKReport.
This reverts commit aea0de314220810c2666055dc75f04f9010436ad.
- Added the GATKReportGatherer
- Added private methods in GATKReport to combine Tables and Reports
- It is very conservative and it will only gather if the table columns, match.
- At the column level it uses the (redundant) row ids to add new rows. It will throw an exception if it is overwriting data.
Added the gatherer functions to CoverageByRG
Also added the scatterCount parameter in the Interval Coverage script
Made some more GATKReport methods public
The UnitTest included shows that the merging methods work
Added a getter for the PrimaryKeyName
Fixed bugs that prevented the gatherer form working
Working GATKReportGatherer
Has only the functional to addLines
The input file parser assumes that the first column is the primary key
Signed-off-by: Mauricio Carneiro <carneiro@broadinstitute.org>
* Adding the context covariate standard in both modes (including old CountCovariates) with parameters
* Updating all covariates and modules to use GATKSAMRecord throughout the code.
* BQSR now processes indels in the pileup (but doesn't do anything with them yet)
* calculates and interprets the coverage of a given interval track
* allows to expand intervals by specified number of bases
* classifies targets as CALLABLE, LOW_COVERAGE, EXCESSIVE_COVERAGE and POOR_QUALITY.
* outputs text file for now (testing purposes only), soon to be VCF.
* filters are overly aggressive for now.
-- This is a partial fix for the problem with uploading S3 logs reported by Mauricio. There the problem is that the java.io.tmpdir is not accessible (network just hangs). Because of that the s3 upload fails because the underlying system uses tmpdir for caching, etc. As far as I can tell there's no way around this bug -- you cannot overload the java.io.tmpdir programmatically and even if I could what value would we use? The only solution seems to me is to detect that tmpdir is hanging (how?!) and fail with a meaningful error.
per Mark's recommendation to reuse the Indel Realigner tag that made it to the SAM spec. The Alignment end tag is still "OE" as there is no official tag to reuse.
* Added annotations for reads that had been soft clipped prior to being reduced so that we can later recuperate their original alignments (start and end).
* Tags keep the alignment shifts, not real alignment, for better compression
* Tags are defined in the GATKSAMRecord
* GATKSAMRecord has new functionality to retrieve original alignment start of all reads (trimmed or not) -- getOriginalAlignmentStart() and getOriginalAligmentEnd()
* Updated ReduceReads MD5s accordingly
AllelePair is being mean and not telling me what genotype it sees when it finds a non-diploid genotype, but i suspect it's a no-call (".") rather than a no call ("./.").
Eric reported this bug due to the reduced reads failing with an index out of bounds on what we thought was a deletion, but turned out to be a read starting with insertion.
* Refactored PileupElement to distinguish clearly between deletions and read starting with insertion
* Modified ExtendedEventPileup to correctly distinguish elements with deletion when creating new pileups
* Refactored most of the lazyLoadNextAlignment() function of the LocusIteratorByState for clarity and to create clear separation between what is a pileup with a deletion and what's not one. Got rid of many useless if statements.
* Changed the way LocusIteratorByState creates extended event pileups to differentiate between insertions in the beginning of the read and deletions.
* Every deletion now has an offset (start of the event)
* Fixed bug when LocusITeratorByState found a read starting with insertion that happened to be a reduced read.
* Separated the definitions of deletion/insertion (in the beginning of the read) in all UG annotations (and the annotator engine).
* Pileup depth of coverage for a deleted base will now return the average coverage around the deletion.
* Indel ReadPositionRankSum test now uses the deletion true offset from the read, changed all appropriate md5's
* The extra pileup elements now properly read by the Indel mode of the UG made any subsequent call have a different random number and therefore all RankSum tests have slightly different values (in the 10^-3 range). Updated all appropriate md5s after extremely careful inspection -- Thanks Ryan!
phew!
reporting malformed BAMs was actually misreporting any error that happened in the Picard layer
as a BAM ERROR.
Specifically changing PicardException to report as a ReviewedStingException; we might want to
change it in the future. I'll followup with the Picard team to make sure they really, really
want PicardException to inherit from SAMException.
-- Disturbingly, fixing this bug doesn't actually cause an test failures.
-- Wrote a new QCRefWalker to actually check in detail that the reference bases coming into the RefWalker are all correct when comparing against a clean uncached load of the contig bases directly.
-- However, I cannot run this tool due to some kind of weird BAM error -- sending this on to Matt
-- Missing BAMs were appearing as StingExceptions
-- Missing VCFs were showing up as CommandLineErrors, but it's clearer for them to be CouldNotReadInputFile exceptions
-- Added integration tests to ensure missing BAMs, VCFs, and -L files are properly thrown as CouldNotReadInputFile exceptions
-- Added path to standard b37 BAM to BaseTest
-- Cleaned up code in SAMDataSource, removing my parallel loading code as this just didn't prove to be useful.
-- Instead issue a warning when a large (>1MB) record is encountered
-- Optimized ref.getBytes()[i] => (byte)ref.charAt(i), which avoids an implicit O(n) allocation each iteration through computeReverseClipping()
-- samtools can emit alleles where the ref is 42M Ns and this caused the GATK (via tribble) to hang in several places.
-- Tribble was updated so we actually could read the line properly (rev. to 51 here).
-- Still the parsing algorithms in the GATK aren't happy with such a long allele. Instead of optimizing the code around an improper use case I put in a limit of 2^16 bp for any allele, and throw a meaningful exception when encountered.
CalibrateGenotypeLikelihoods supports using an external VCF as input for genotype likelihoods. Currently can be a per-sample VCF, but has un-implemented methods for allowing a read-group VCF to be used.
Removed the old constrained genotyping code from UGE -- the trellis calculated is exactly the same as that done in the MLE AC estimate; so we should just re-use that one.
* using the filter() instead of map() makes for a cleaner walker.
* renaming the unit tests to make more sense with the other unit and integration tests
* if the adaptor boundary is more than MAXIMUM_ADAPTOR_SIZE bases away from the read, then let's not clip anything and consider the fragment to be undetermined for this read pair.
* updated md5's accordingly
QScript accessor to QSettings to specify a default runName and other default function settings.
Because log files are no longer pseudo-random their presense can be used to tell if a job without other file outputs is "done". For now still using the log's .done file in addition to original outputs.
Gathered log files concatenate all log files together into the stdout.
InProcessFunctions now have PrintStreams for stdout and stderr.
Updated ivy to use commons-io 2.1 for copying logs to the stdout PrintStream. Removed snakeyaml.
During graph tracking of outputs the Index files, and now BAM MD5s, are tracked with the gathering of the original file.
In Queue generated wrappers for the GATK the Index and MD5s used for tracking are switched to private scope.
Added more detailed output when running with -l DEBUG.
Simplified graphviz visualization for additional debugging.
Switched usage of the scala class 'List' to the trait 'Seq' (think java.util.ArrayList vs. using the interface java.util.List)
Minor cleanup to build including sending ant gsalib to R's default libloc.
To support this, refactored code that computes consensus alleles. To ease merging of mulitple alt alleles, we create a single vc for each alt alleles and then use VariantContextUtils.simpleMerge to carry out merging, which takes care of handling all corner conditions already. In order to use this, interface to GenotypeLikelihoodsCalculationModel changed to pass in a GenomeLocParser object (why are these objects to hard to handle??).
More testing is required and feature turned off my default.
-- Call sets with indels > 50 bp in length are tagged as CNVs in the tag (following the 1000 Genomes convention) and were unconditionally checking whether the CNV is already known, by looking at the known cnvs file, which is optional. Fixed. Has the annoying side effect that indels > 50bp in size are not counted as indels, and so are substrated from both the novel and known counts for indels. C'est la vie
-- Added integration test to check for this case, using Mauricio's most recent VCF file for NA12878 which has many large indels. Using this more recent and representative file probably a good idea for more future tests in VE and other tools. File is NA12878.HiSeq.WGS.b37_decoy.indel.recalibrated.vcf in Validation_Data
This error was due to the ReadClipper change of contract. Before the read utils would return null if a read was entirely clipped, now it returns an empty (safe) GATKSAMRecord.
* Downsampling is now a parameter to the walker with default value of 0 (no downsampling)
* Downsampling selects reads at random at the variant region window and strives to achieve uniform coverage if possible around the desired downsampling value.
* Added integration test
* Knuth-shuffle is a simple, yet effective array permutator (hope this is good english).
* added a simple randomSubset that returns a random subset without repeats of any given array with the same probability for every permutation.
* added unit tests to both functions
* Modified cleanCigarShift to allow insertions in the beginning and end of the read
* Allowed cigars starting/ending in insertions in the systematic ReadClipper tests
* Updated all ReadClipper unit tests
* ReduceReads does not hard clip leading insertions by default anymore
* SlidingWindow adjusts start location if read starts with insertion
* SlidingWindow creates an empty element with insertions to the right
* Fixed all potential divide by zero with totalCount() (from BaseCounts)
* Updated all Integration tests
* Added new integration test for multiple interval reducing
-- Automatic detection of most recent version of GATK release (just tell the script now to use 1.2, 1.3, and 1.4)
-- Uses 1.4 now
-- By default we do 9 runs of each non-parallel test
-- In PathUtils added convenience utility to find most recent release GATK jar with a specific release number
Turns out that because the RTC is the first walker to 'correctly' tree reduce according to functional programming
standards, the RTC has revealed a few problems with the tree reducer holding on to too much data. This is the first
and smaller of two commits to reduce memory consumption. The second commit will likely be pushed after GATK1.4 is
released.
* Creates an empty GATKSAMRecord with empty (not null) Cigar, bases and quals. Allows empty reads to be probed without breaking.
* All ReadClipper utilities now emit empty reads for fully clipped reads
* Described the ReadClipper contract in the top of the class
* Added contracts where applicable
* Added descriptive information to all tools in the read clipper
* Organized public members and static methods together with the same javadoc
These functions are methods of the read, and supplement getAlignmentStart() and getUnclippedStart() by calculating the unclipped start counting only soft clips.
* Removed from ReadUtils
* Added to GATKSAMRecord
* Changed name to getSoftStart() and getSoftEnd
* Updated third party code accordingly.
* Removed all clipping functionality from ReadUtils (it should all be done using the ReadClipper now)
* Cleaned up functionality that wasn't being used or had been superseded by other code (in an effort to reduce multiple unsupported implementations)
* Made all meaningful functions public and added better comments/explanation to the headers
Mauricio Carneiro
Mark DePristo
Eric Banks
Khalid Shakir
Guillermo del Angel
Ryan Poplin
Christopher Hartl
David Roazen
Matt Hanna
Roger Zurawicki
Menachem Fromer