A tool for performing various IntervalList manipulations
Summary
This tool offers multiple interval list file manipulation capabilities, including: sorting, merging, subtracting, padding, and other set-theoretic operations. The default action is to merge and sort the intervals provided in the INPUTs. Other options, e.g. interval subtraction, are controlled by the arguments.Both IntervalList and VCF files are accepted as input. IntervalList should be denoted with the extension .interval_list, while a VCF must have one of .vcf, .vcf.gz, .bcf When VCF file is used as input, each variant is translated into an using its reference allele or the END INFO annotation (if present) to determine the extent of the interval. IntervalListTools can also "scatter" the resulting interval-list into many interval-files. This can be useful for creating multiple interval lists for scattering an analysis over.
Details
The IntervalList file format is designed to help the users avoid mixing references when supplying intervals and other genomic data to a single tool. A SAM style header must be present at the top of the file. After the header, the file then contains records, one per line in text format with the followingvalues tab-separated: - Sequence name (SN) - Start position (1-based) - End position (1-based, inclusive) - Strand (either + or -) - Interval name (ideally unique names for intervals) The coordinate system is 1-based, closed-ended so that the first base in a sequence has position 1, and both the start and the end positions are included in an interval. Example interval list file@HD VN:1.0 @SQ SN:chr1 LN:501 @SQ SN:chr2 LN:401 chr1 1 100 + starts at the first base of the contig and covers 100 bases chr2 100 100 + interval with exactly one base
Usage Examples
1. Combine the intervals from two interval lists:
java -jar picard.jar IntervalListTools \ ACTION=CONCAT \ I=input.interval_list \ I=input_2.interval_list \ O=new.interval_list
2. Combine the intervals from two interval lists, sorting the resulting in list and merging overlapping and abutting intervals:
java -jar picard.jar IntervalListTools \ ACTION=CONCAT \ SORT=true \ UNIQUE=true \ I=input.interval_list \ I=input_2.interval_list \ O=new.interval_list
3. Subtract the intervals in SECOND_INPUT from those in INPUT
java -jar picard.jar IntervalListTools \ ACTION=SUBTRACT \ I=input.interval_list \ SI=input_2.interval_list \ O=new.interval_list
4. Find bases that are in either input1.interval_list or input2.interval_list, and also in input3.interval_list:
java -jar picard.jar IntervalListTools \ ACTION=INTERSECT \ I=input1.interval_list \ I=input2.interval_list \ SI=input3.interval_list \ O=new.interval_list
Category Intervals Manipulation
Overview
Performs various IntervalList manipulations.
Summary
This tool offers multiple interval list file manipulation capabilities, including: sorting, merging, subtracting, padding, and other set-theoretic operations. The default action is to merge and sort the intervals provided in the #INPUTs. Other options, e.g. interval subtraction, are controlled by the arguments.Both IntervalList and VCF files are accepted as input. IntervalList should be denoted with the extension htsjdk.samtools.util.IOUtil#INTERVAL_LIST_FILE_EXTENSION, while a VCF must have one of htsjdk.samtools.util.IOUtil#VCF_FILE_EXTENSION, htsjdk.samtools.util.IOUtil#COMPRESSED_VCF_FILE_EXTENSION, htsjdk.samtools.util.IOUtil#BCF_FILE_EXTENSION. When VCF file is used as input, each variant is translated into an using its reference allele or the END INFO annotation (if present) to determine the extent of the interval.
IntervalListTools can also "scatter" the resulting interval-list into many interval-files. This can be useful for creating multiple interval lists for scattering an analysis over.
Details
The IntervalList file format is designed to help the users avoid mixing references when supplying intervals and other genomic data to a single tool. A SAM style header must be present at the top of the file. After the header, the file then contains records, one per line in text format with the following values tab-separated:- Sequence name (SN)
- Start position (1-based)
- End position (1-based, end inclusive)
- Strand (either + or -)
- Interval name (ideally unique names for intervals)
For Example:
\@HD VN:1.0 \@SQ SN:chr1 LN:501 \@SQ SN:chr2 LN:401 chr1 1 100 + starts at the first base of the contig and covers 100 bases chr2 100 100 + interval with exactly one base
Usage examples
1. Combine the intervals from two interval lists:
java -jar picard.jar IntervalListTools \\ ACTION=CONCAT \\ I=input.interval_list \\ I=input_2.interval_list \\ O=new.interval_list
2. Combine the intervals from two interval lists, sorting the resulting in list and merging overlapping and abutting intervals:
java -jar picard.jar IntervalListTools \\ ACTION=CONCAT \\ SORT=true \\ UNIQUE=true \\ I=input.interval_list \\ I=input_2.interval_list \\ O=new.interval_list
3. Subtract the intervals in SECOND_INPUT from those in INPUT:
java -jar picard.jar IntervalListTools \\ ACTION=SUBTRACT \\ I=input.interval_list \\ SI=input_2.interval_list \\ O=new.interval_list
4. Find bases that are in either input1.interval_list or input2.interval_list, and also in input3.interval_list:
java -jar picard.jar IntervalListTools \\ ACTION=INTERSECT \\ I=input1.interval_list \\ I=input2.interval_list \\ SI=input3.interval_list \\ O=new.interval_list
IntervalListTools (Picard) specific arguments
This table summarizes the command-line arguments that are specific to this tool. For more details on each argument, see the list further down below the table or click on an argument name to jump directly to that entry in the list.
Argument name(s) | Default value | Summary | |
---|---|---|---|
Required Arguments | |||
--INPUT -I |
[] | One or more interval lists. If multiple interval lists are provided the output is theresult of merging the inputs. Supported formats are interval_list and VCF. | |
Optional Tool Arguments | |||
--ACTION |
CONCAT | Action to take on inputs. | |
--arguments_file |
[] | read one or more arguments files and add them to the command line | |
--BREAK_BANDS_AT_MULTIPLES_OF -BRK |
0 | If set to a positive value will create a new interval list with the original intervals broken up at integer multiples of this value. Set to 0 to NOT break up intervals. | |
--COMMENT |
[] | One or more lines of comment to add to the header of the output file (as @CO lines in the SAM header). | |
--help -h |
false | display the help message | |
--INCLUDE_FILTERED |
false | Whether to include filtered variants in the vcf when generating an interval list from vcf. | |
--INVERT |
false | Produce the inverse list of intervals, that is, the regions in the genome that are not covered by any of the input intervals. Will merge abutting intervals first. Output will be sorted. |
|
--OUTPUT -O |
null | The output interval list file to write (if SCATTER_COUNT == 1) or the directory into which to write the scattered interval sub-directories (if SCATTER_COUNT > 1). | |
--OUTPUT_VALUE |
NONE | What value (if anything) to output to stdout (for scripting) | |
--PADDING |
0 | The amount to pad each end of the intervals by before other operations are undertaken. Negative numbers are allowed and indicate intervals should be shrunk. Resulting intervals < 0 bases long will be removed. Padding is applied to the interval lists (both INPUT and SECOND_INPUT, if provided) before the ACTION is performed. | |
--SCATTER_CONTENT |
null | When scattering with this argument, each of the resultant files will (ideally) have this amount of 'content', which means either base-counts or interval-counts depending on SUBDIVISION_MODE. When provided, overrides SCATTER_COUNT | |
--SCATTER_COUNT |
1 | The number of files into which to scatter the resulting list by locus; in some situations, fewer intervals may be emitted. | |
--SECOND_INPUT -SI |
[] | Second set of intervals for SUBTRACT and DIFFERENCE operations. | |
--SORT |
true | If true, sort the resulting interval list by coordinate. | |
--SUBDIVISION_MODE -M |
INTERVAL_SUBDIVISION | The mode used to scatter the interval list. | |
--UNIQUE |
false | If true, merge overlapping and adjacent intervals to create a list of unique intervals. Implies SORT=true. | |
--version |
false | display the version number for this tool | |
Optional Common Arguments | |||
--COMPRESSION_LEVEL |
5 | Compression level for all compressed files created (e.g. BAM and VCF). | |
--CREATE_INDEX |
false | Whether to create a BAM index when writing a coordinate-sorted BAM file. | |
--CREATE_MD5_FILE |
false | Whether to create an MD5 digest for any BAM or FASTQ files created. | |
--GA4GH_CLIENT_SECRETS |
client_secrets.json | Google Genomics API client_secrets.json file path. | |
--MAX_RECORDS_IN_RAM |
500000 | When writing files that need to be sorted, this will specify the number of records stored in RAM before spilling to disk. Increasing this number reduces the number of file handles needed to sort the file, and increases the amount of RAM needed. | |
--QUIET |
false | Whether to suppress job-summary info on System.err. | |
--REFERENCE_SEQUENCE -R |
null | Reference sequence file. | |
--TMP_DIR |
[] | One or more directories with space available to be used by this program for temporary storage of working files | |
--USE_JDK_DEFLATER -use_jdk_deflater |
false | Use the JDK Deflater instead of the Intel Deflater for writing compressed output | |
--USE_JDK_INFLATER -use_jdk_inflater |
false | Use the JDK Inflater instead of the Intel Inflater for reading compressed input | |
--VALIDATION_STRINGENCY |
STRICT | Validation stringency for all SAM files read by this program. Setting stringency to SILENT can improve performance when processing a BAM file in which variable-length data (read, qualities, tags) do not otherwise need to be decoded. | |
--VERBOSITY |
INFO | Control verbosity of logging. | |
Advanced Arguments | |||
--showHidden |
false | display hidden arguments |
Argument details
Arguments in this list are specific to this tool. Keep in mind that other arguments are available that are shared with other tools (e.g. command-line GATK arguments); see Inherited arguments above.
--ACTION / NA
Action to take on inputs.
The --ACTION argument is an enumerated type (Action), which can have one of the following values:
- CONCAT
- UNION
- INTERSECT
- SUBTRACT
- SYMDIFF
- OVERLAPS
Action CONCAT
--arguments_file / NA
read one or more arguments files and add them to the command line
List[File] []
--BREAK_BANDS_AT_MULTIPLES_OF / -BRK
If set to a positive value will create a new interval list with the original intervals broken up at integer multiples of this value. Set to 0 to NOT break up intervals.
int 0 [ [ -∞ ∞ ] ]
--COMMENT / NA
One or more lines of comment to add to the header of the output file (as @CO lines in the SAM header).
List[String] []
--COMPRESSION_LEVEL / NA
Compression level for all compressed files created (e.g. BAM and VCF).
int 5 [ [ -∞ ∞ ] ]
--CREATE_INDEX / NA
Whether to create a BAM index when writing a coordinate-sorted BAM file.
Boolean false
--CREATE_MD5_FILE / NA
Whether to create an MD5 digest for any BAM or FASTQ files created.
boolean false
--GA4GH_CLIENT_SECRETS / NA
Google Genomics API client_secrets.json file path.
String client_secrets.json
--help / -h
display the help message
boolean false
--INCLUDE_FILTERED / NA
Whether to include filtered variants in the vcf when generating an interval list from vcf.
boolean false
--INPUT / -I
One or more interval lists. If multiple interval lists are provided the output is theresult of merging the inputs. Supported formats are interval_list and VCF.
R List[File] []
--INVERT / NA
Produce the inverse list of intervals, that is, the regions in the genome that are
not
covered by any of the input intervals. Will merge abutting intervals first. Output will be sorted.
boolean false
--MAX_RECORDS_IN_RAM / NA
When writing files that need to be sorted, this will specify the number of records stored in RAM before spilling to disk. Increasing this number reduces the number of file handles needed to sort the file, and increases the amount of RAM needed.
Integer 500000 [ [ -∞ ∞ ] ]
--OUTPUT / -O
The output interval list file to write (if SCATTER_COUNT == 1) or the directory into which to write the scattered interval sub-directories (if SCATTER_COUNT > 1).
File null
--OUTPUT_VALUE / NA
What value (if anything) to output to stdout (for scripting)
The --OUTPUT_VALUE argument is an enumerated type (Output), which can have one of the following values:
- NONE
- BASES
- INTERVALS
Output NONE
--PADDING / NA
The amount to pad each end of the intervals by before other operations are undertaken. Negative numbers are allowed and indicate intervals should be shrunk. Resulting intervals < 0 bases long will be removed. Padding is applied to the interval lists (both INPUT and SECOND_INPUT, if provided) before the ACTION is performed.
int 0 [ [ -∞ ∞ ] ]
--QUIET / NA
Whether to suppress job-summary info on System.err.
Boolean false
--REFERENCE_SEQUENCE / -R
Reference sequence file.
File null
--SCATTER_CONTENT / NA
When scattering with this argument, each of the resultant files will (ideally) have this amount of 'content', which means either base-counts or interval-counts depending on SUBDIVISION_MODE. When provided, overrides SCATTER_COUNT
Integer null
--SCATTER_COUNT / NA
The number of files into which to scatter the resulting list by locus; in some situations, fewer intervals may be emitted.
int 1 [ [ -∞ ∞ ] ]
--SECOND_INPUT / -SI
Second set of intervals for SUBTRACT and DIFFERENCE operations.
List[File] []
--showHidden / -showHidden
display hidden arguments
boolean false
--SORT / NA
If true, sort the resulting interval list by coordinate.
boolean true
--SUBDIVISION_MODE / -M
The mode used to scatter the interval list.
The --SUBDIVISION_MODE argument is an enumerated type (IntervalListScatterMode), which can have one of the following values:
- INTERVAL_SUBDIVISION
- A simple scatter approach in which all output intervals have size equal to the total base count of the source list divide by the scatter count (except for possible variance in the final interval list).
- BALANCING_WITHOUT_INTERVAL_SUBDIVISION
- A scatter approach that differs from {@link #INTERVAL_SUBDIVISION} in a few ways.
- No interval will be subdivided, and consequently, the requested scatter count is an upper bound of scatter count, not a guarantee as to how many {@link IntervalList}s will be produced (e.g., if scatterCount = 10 but there is only one input interval, only 1 interval list will be emitted).
- When an interval would otherwise be split, it is instead deferred to the next scatter list.
- The "target width" of each scatter list may be wider than what is computed for INTERVAL_SUBDIVISION.
Specifically, if the widest interval in the source interval list is larger than what would otherwise be the target width, that
interval's width is used.
The reasoning for this is that this approach produces more consistently-sized interval lists, which is one of the objectives of scattering.
- BALANCING_WITHOUT_INTERVAL_SUBDIVISION_WITH_OVERFLOW
- A scatter approach that differs from {@link IntervalListScatterMode#BALANCING_WITHOUT_INTERVAL_SUBDIVISION}.
- We try to balance the number of unique bases in each interval list by estimating the remaining interval lists sizes. This is computed from the total number of unique bases and the bases we have consumed. This means that the interval list with the most number of unique bases is at most the ideal split length larger than the smallest interval list (unique # of bases).
- INTERVAL_COUNT
- A scatter by interval **count** which attempts to fill each resulting interval list with the same number of intervals, disregarding the base count. This approach can be useful for tools that operate on the interval level rather than the base level, for example CNV calling.
IntervalListScatterMode INTERVAL_SUBDIVISION
--TMP_DIR / NA
One or more directories with space available to be used by this program for temporary storage of working files
List[File] []
--UNIQUE / NA
If true, merge overlapping and adjacent intervals to create a list of unique intervals. Implies SORT=true.
boolean false
--USE_JDK_DEFLATER / -use_jdk_deflater
Use the JDK Deflater instead of the Intel Deflater for writing compressed output
Boolean false
--USE_JDK_INFLATER / -use_jdk_inflater
Use the JDK Inflater instead of the Intel Inflater for reading compressed input
Boolean false
--VALIDATION_STRINGENCY / NA
Validation stringency for all SAM files read by this program. Setting stringency to SILENT can improve performance when processing a BAM file in which variable-length data (read, qualities, tags) do not otherwise need to be decoded.
The --VALIDATION_STRINGENCY argument is an enumerated type (ValidationStringency), which can have one of the following values:
- STRICT
- LENIENT
- SILENT
ValidationStringency STRICT
--VERBOSITY / NA
Control verbosity of logging.
The --VERBOSITY argument is an enumerated type (LogLevel), which can have one of the following values:
- ERROR
- WARNING
- INFO
- DEBUG
LogLevel INFO
--version / NA
display the version number for this tool
boolean false
GATK version 4.0.12.0 built at 25-04-2019 03:04:01.
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