view test-data/summary_mate_two_samples.txt @ 22:8c191acde702 draft default tip

planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/tools/bismark commit 3005cec91ca52f9d28aa2fe0bd4190555abafc35
author bgruening
date Tue, 01 Aug 2023 11:42:10 +0000
parents 120b7b35e442
children
line wrap: on
line source

Create a temporary index with the offered files from the user. Utilizing the script: bismark_genome_preparation
Generating index with: 'bismark_genome_preparation --bowtie2 /tmp/tmpfw7btd9x'
Writing bisulfite genomes out into a single MFA (multi FastA) file

Bisulfite Genome Indexer version v0.22.1 (last modified: 14 April 2019)

Step I - Prepare genome folders - completed



Total number of conversions performed:
C->T:	146875
G->A:	150504

Step II - Genome bisulfite conversions - completed


Bismark Genome Preparation - Step III: Launching the Bowtie 2 indexer
Please be aware that this process can - depending on genome size - take several hours!
Settings:
  Output files: "BS_CT.*.bt2"
  Line rate: 6 (line is 64 bytes)
  Lines per side: 1 (side is 64 bytes)
  Offset rate: 4 (one in 16)
  FTable chars: 10
  Strings: unpacked
  Max bucket size: default
  Max bucket size, sqrt multiplier: default
  Max bucket size, len divisor: 4
  Difference-cover sample period: 1024
  Endianness: little
  Actual local endianness: little
  Sanity checking: disabled
  Assertions: disabled
  Random seed: 0
  Sizeofs: void*:8, int:4, long:8, size_t:8
Input files DNA, FASTA:
  genome_mfa.CT_conversion.fa
Building a SMALL index
Reading reference sizes
  Time reading reference sizes: 00:00:00
Calculating joined length
Writing header
Reserving space for joined string
Joining reference sequences
  Time to join reference sequences: 00:00:00
bmax according to bmaxDivN setting: 189039
Using parameters --bmax 141780 --dcv 1024
  Doing ahead-of-time memory usage test
  Passed!  Constructing with these parameters: --bmax 141780 --dcv 1024
Constructing suffix-array element generator
Building DifferenceCoverSample
  Building sPrime
  Building sPrimeOrder
  V-Sorting samples
  V-Sorting samples time: 00:00:00
  Allocating rank array
  Ranking v-sort output
  Ranking v-sort output time: 00:00:00
  Invoking Larsson-Sadakane on ranks
  Invoking Larsson-Sadakane on ranks time: 00:00:00
  Sanity-checking and returning
Building samples
Reserving space for 12 sample suffixes
Generating random suffixes
QSorting 12 sample offsets, eliminating duplicates
QSorting sample offsets, eliminating duplicates time: 00:00:00
Multikey QSorting 12 samples
  (Using difference cover)
  Multikey QSorting samples time: 00:00:00
Calculating bucket sizes
Splitting and merging
  Splitting and merging time: 00:00:00
Avg bucket size: 756159 (target: 141779)
Converting suffix-array elements to index image
Allocating ftab, absorbFtab
Entering Ebwt loop
Getting block 1 of 1
  No samples; assembling all-inclusive block
  Sorting block of length 756159 for bucket 1
  (Using difference cover)
  Sorting block time: 00:00:00
Returning block of 756160 for bucket 1
Exited Ebwt loop
fchr[A]: 0
fchr[C]: 235897
fchr[G]: 235897
fchr[T]: 386401
fchr[$]: 756159
Exiting Ebwt::buildToDisk()
Returning from initFromVector
Wrote 4446745 bytes to primary EBWT file: BS_CT.1.bt2
Wrote 189044 bytes to secondary EBWT file: BS_CT.2.bt2
Re-opening _in1 and _in2 as input streams
Returning from Ebwt constructor
Headers:
    len: 756159
    bwtLen: 756160
    sz: 189040
    bwtSz: 189040
    lineRate: 6
    offRate: 4
    offMask: 0xfffffff0
    ftabChars: 10
    eftabLen: 20
    eftabSz: 80
    ftabLen: 1048577
    ftabSz: 4194308
    offsLen: 47260
    offsSz: 189040
    lineSz: 64
    sideSz: 64
    sideBwtSz: 48
    sideBwtLen: 192
    numSides: 3939
    numLines: 3939
    ebwtTotLen: 252096
    ebwtTotSz: 252096
    color: 0
    reverse: 0
Total time for call to driver() for forward index: 00:00:00
Reading reference sizes
  Time reading reference sizes: 00:00:00
Calculating joined length
Writing header
Reserving space for joined string
Joining reference sequences
  Time to join reference sequences: 00:00:00
  Time to reverse reference sequence: 00:00:00
bmax according to bmaxDivN setting: 189039
Using parameters --bmax 141780 --dcv 1024
  Doing ahead-of-time memory usage test
  Passed!  Constructing with these parameters: --bmax 141780 --dcv 1024
Constructing suffix-array element generator
Building DifferenceCoverSample
  Building sPrime
  Building sPrimeOrder
  V-Sorting samples
  V-Sorting samples time: 00:00:00
  Allocating rank array
  Ranking v-sort output
  Ranking v-sort output time: 00:00:00
  Invoking Larsson-Sadakane on ranks
  Invoking Larsson-Sadakane on ranks time: 00:00:00
  Sanity-checking and returning
Building samples
Reserving space for 12 sample suffixes
Generating random suffixes
QSorting 12 sample offsets, eliminating duplicates
QSorting sample offsets, eliminating duplicates time: 00:00:00
Multikey QSorting 12 samples
  (Using difference cover)
  Multikey QSorting samples time: 00:00:00
Calculating bucket sizes
Splitting and merging
  Splitting and merging time: 00:00:00
Avg bucket size: 756159 (target: 141779)
Converting suffix-array elements to index image
Allocating ftab, absorbFtab
Entering Ebwt loop
Getting block 1 of 1
  No samples; assembling all-inclusive block
  Sorting block of length 756159 for bucket 1
  (Using difference cover)
  Sorting block time: 00:00:00
Returning block of 756160 for bucket 1
Exited Ebwt loop
fchr[A]: 0
fchr[C]: 235897
fchr[G]: 235897
fchr[T]: 386401
fchr[$]: 756159
Exiting Ebwt::buildToDisk()
Returning from initFromVector
Wrote 4446745 bytes to primary EBWT file: BS_CT.rev.1.bt2
Wrote 189044 bytes to secondary EBWT file: BS_CT.rev.2.bt2
Re-opening _in1 and _in2 as input streams
Returning from Ebwt constructor
Headers:
    len: 756159
    bwtLen: 756160
    sz: 189040
    bwtSz: 189040
    lineRate: 6
    offRate: 4
    offMask: 0xfffffff0
    ftabChars: 10
    eftabLen: 20
    eftabSz: 80
    ftabLen: 1048577
    ftabSz: 4194308
    offsLen: 47260
    offsSz: 189040
    lineSz: 64
    sideSz: 64
    sideBwtSz: 48
    sideBwtLen: 192
    numSides: 3939
    numLines: 3939
    ebwtTotLen: 252096
    ebwtTotSz: 252096
    color: 0
    reverse: 1
Total time for backward call to driver() for mirror index: 00:00:01
Settings:
  Output files: "BS_GA.*.bt2"
  Line rate: 6 (line is 64 bytes)
  Lines per side: 1 (side is 64 bytes)
  Offset rate: 4 (one in 16)
  FTable chars: 10
  Strings: unpacked
  Max bucket size: default
  Max bucket size, sqrt multiplier: default
  Max bucket size, len divisor: 4
  Difference-cover sample period: 1024
  Endianness: little
  Actual local endianness: little
  Sanity checking: disabled
  Assertions: disabled
  Random seed: 0
  Sizeofs: void*:8, int:4, long:8, size_t:8
Input files DNA, FASTA:
  genome_mfa.GA_conversion.fa
Building a SMALL index
Reading reference sizes
  Time reading reference sizes: 00:00:00
Calculating joined length
Writing header
Reserving space for joined string
Joining reference sequences
  Time to join reference sequences: 00:00:00
bmax according to bmaxDivN setting: 189039
Using parameters --bmax 141780 --dcv 1024
  Doing ahead-of-time memory usage test
  Passed!  Constructing with these parameters: --bmax 141780 --dcv 1024
Constructing suffix-array element generator
Building DifferenceCoverSample
  Building sPrime
  Building sPrimeOrder
  V-Sorting samples
  V-Sorting samples time: 00:00:00
  Allocating rank array
  Ranking v-sort output
  Ranking v-sort output time: 00:00:00
  Invoking Larsson-Sadakane on ranks
  Invoking Larsson-Sadakane on ranks time: 00:00:00
  Sanity-checking and returning
Building samples
Reserving space for 12 sample suffixes
Generating random suffixes
QSorting 12 sample offsets, eliminating duplicates
QSorting sample offsets, eliminating duplicates time: 00:00:00
Multikey QSorting 12 samples
  (Using difference cover)
  Multikey QSorting samples time: 00:00:00
Calculating bucket sizes
Splitting and merging
  Splitting and merging time: 00:00:00
Avg bucket size: 756159 (target: 141779)
Converting suffix-array elements to index image
Allocating ftab, absorbFtab
Entering Ebwt loop
Getting block 1 of 1
  No samples; assembling all-inclusive block
  Sorting block of length 756159 for bucket 1
  (Using difference cover)
  Sorting block time: 00:00:00
Returning block of 756160 for bucket 1
Exited Ebwt loop
fchr[A]: 0
fchr[C]: 386401
fchr[G]: 533276
fchr[T]: 533276
fchr[$]: 756159
Exiting Ebwt::buildToDisk()
Returning from initFromVector
Wrote 4446745 bytes to primary EBWT file: BS_GA.1.bt2
Wrote 189044 bytes to secondary EBWT file: BS_GA.2.bt2
Re-opening _in1 and _in2 as input streams
Returning from Ebwt constructor
Headers:
    len: 756159
    bwtLen: 756160
    sz: 189040
    bwtSz: 189040
    lineRate: 6
    offRate: 4
    offMask: 0xfffffff0
    ftabChars: 10
    eftabLen: 20
    eftabSz: 80
    ftabLen: 1048577
    ftabSz: 4194308
    offsLen: 47260
    offsSz: 189040
    lineSz: 64
    sideSz: 64
    sideBwtSz: 48
    sideBwtLen: 192
    numSides: 3939
    numLines: 3939
    ebwtTotLen: 252096
    ebwtTotSz: 252096
    color: 0
    reverse: 0
Total time for call to driver() for forward index: 00:00:00
Reading reference sizes
  Time reading reference sizes: 00:00:00
Calculating joined length
Writing header
Reserving space for joined string
Joining reference sequences
  Time to join reference sequences: 00:00:00
  Time to reverse reference sequence: 00:00:00
bmax according to bmaxDivN setting: 189039
Using parameters --bmax 141780 --dcv 1024
  Doing ahead-of-time memory usage test
  Passed!  Constructing with these parameters: --bmax 141780 --dcv 1024
Constructing suffix-array element generator
Building DifferenceCoverSample
  Building sPrime
  Building sPrimeOrder
  V-Sorting samples
  V-Sorting samples time: 00:00:00
  Allocating rank array
  Ranking v-sort output
  Ranking v-sort output time: 00:00:00
  Invoking Larsson-Sadakane on ranks
  Invoking Larsson-Sadakane on ranks time: 00:00:00
  Sanity-checking and returning
Building samples
Reserving space for 12 sample suffixes
Generating random suffixes
QSorting 12 sample offsets, eliminating duplicates
QSorting sample offsets, eliminating duplicates time: 00:00:00
Multikey QSorting 12 samples
  (Using difference cover)
  Multikey QSorting samples time: 00:00:00
Calculating bucket sizes
Splitting and merging
  Splitting and merging time: 00:00:00
Avg bucket size: 756159 (target: 141779)
Converting suffix-array elements to index image
Allocating ftab, absorbFtab
Entering Ebwt loop
Getting block 1 of 1
  No samples; assembling all-inclusive block
  Sorting block of length 756159 for bucket 1
  (Using difference cover)
  Sorting block time: 00:00:00
Returning block of 756160 for bucket 1
Exited Ebwt loop
fchr[A]: 0
fchr[C]: 386401
fchr[G]: 533276
fchr[T]: 533276
fchr[$]: 756159
Exiting Ebwt::buildToDisk()
Returning from initFromVector
Wrote 4446745 bytes to primary EBWT file: BS_GA.rev.1.bt2
Wrote 189044 bytes to secondary EBWT file: BS_GA.rev.2.bt2
Re-opening _in1 and _in2 as input streams
Returning from Ebwt constructor
Headers:
    len: 756159
    bwtLen: 756160
    sz: 189040
    bwtSz: 189040
    lineRate: 6
    offRate: 4
    offMask: 0xfffffff0
    ftabChars: 10
    eftabLen: 20
    eftabSz: 80
    ftabLen: 1048577
    ftabSz: 4194308
    offsLen: 47260
    offsSz: 189040
    lineSz: 64
    sideSz: 64
    sideBwtSz: 48
    sideBwtLen: 192
    numSides: 3939
    numLines: 3939
    ebwtTotLen: 252096
    ebwtTotSz: 252096
    color: 0
    reverse: 1
Total time for backward call to driver() for mirror index: 00:00:01
Running bismark with: 'bismark --bam --temp_dir /tmp/tmp0n2gudqm -o /tmp/tmp0n2gudqm/results --quiet --gzip --fastq -L 20 -D 15 -R 2 --un --ambiguous /tmp/tmpfw7btd9x -1 input1.fq_1.fq,input2.fq_1.fq -2 input1.fq_2.fq,input2.fq_2.fq -I 0 -X 500'
Bowtie 2 seems to be working fine (tested command 'bowtie2 --version' [2.3.5])
Output format is BAM (default)
Alignments will be written out in BAM format. Samtools found here: '/usr/local/bin/samtools'
Reference genome folder provided is /tmp/tmpfw7btd9x/	(absolute path is '/tmp/tmpfw7btd9x/)'
FastQ format specified

Input files to be analysed (in current folder '/tmp/tmpfl_1r4y7/job_working_directory/000/17/working'):
input1.fq_1.fq
input1.fq_2.fq
input2.fq_1.fq
input2.fq_2.fq
Library is assumed to be strand-specific (directional), alignments to strands complementary to the original top or bottom strands will be ignored (i.e. not performed!)
Created output directory /tmp/tmp0n2gudqm/results/!

Output will be written into the directory: /tmp/tmp0n2gudqm/results/

Using temp directory: /tmp/tmp0n2gudqm
Temporary files will be written into the directory: /tmp/tmp0n2gudqm/
Setting parallelization to single-threaded (default)

Summary of all aligner options:	-q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet
Current working directory is: /tmp/tmpfl_1r4y7/job_working_directory/000/17/working

Now reading in and storing sequence information of the genome specified in: /tmp/tmpfw7btd9x/

chr chrY_JH584300_random (182347 bp)
chr chrY_JH584301_random (259875 bp)
chr chrY_JH584302_random (155838 bp)
chr chrY_JH584303_random (158099 bp)

Single-core mode: setting pid to 1

Paired-end alignments will be performed
=======================================

The provided filenames for paired-end alignments are input1.fq_1.fq and input1.fq_2.fq
Input files are in FastQ format
Writing a C -> T converted version of the input file input1.fq_1.fq to /tmp/tmp0n2gudqm/input1.fq_1.fq_C_to_T.fastq.gz

Created C -> T converted version of the FastQ file input1.fq_1.fq (1000 sequences in total)

Writing a G -> A converted version of the input file input1.fq_2.fq to /tmp/tmp0n2gudqm/input1.fq_2.fq_G_to_A.fastq.gz

Created G -> A converted version of the FastQ file input1.fq_2.fq (1000 sequences in total)

Input files are input1.fq_1.fq_C_to_T.fastq.gz and input1.fq_2.fq_G_to_A.fastq.gz (FastQ)
Now running 2 instances of Bowtie 2 against the bisulfite genome of /tmp/tmpfw7btd9x/ with the specified options: -q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet

Now starting a Bowtie 2 paired-end alignment for CTread1GAread2CTgenome (reading in sequences from /tmp/tmp0n2gudqm/input1.fq_1.fq_C_to_T.fastq.gz and /tmp/tmp0n2gudqm/input1.fq_2.fq_G_to_A.fastq.gz, with the options: -q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet --norc))
Found first alignment:
1_1/1	77	*	0	0	*	*	0	0	TTGTATATATTAGATAAATTAATTTTTTTTGTTTGTATGTTAAATTTTTTAATTAATTTATTAATATTTTGTGAATTTTTAGATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP
1_1/2	141	*	0	0	*	*	0	0	TTATATATATTAAATAAATTAATTTTTTTTATTTATATATTAAATTTTTTAATTAATTTATTAATATTTTATAAATTTTTAAATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP
Now starting a Bowtie 2 paired-end alignment for CTread1GAread2GAgenome (reading in sequences from /tmp/tmp0n2gudqm/input1.fq_1.fq_C_to_T.fastq.gz and /tmp/tmp0n2gudqm/input1.fq_2.fq_G_to_A.fastq.gz, with the options: -q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet --nofw))
Found first alignment:
1_1/1	77	*	0	0	*	*	0	0	TTGTATATATTAGATAAATTAATTTTTTTTGTTTGTATGTTAAATTTTTTAATTAATTTATTAATATTTTGTGAATTTTTAGATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP
1_1/2	141	*	0	0	*	*	0	0	TTATATATATTAAATAAATTAATTTTTTTTATTTATATATTAAATTTTTTAATTAATTTATTAATATTTTATAAATTTTTAAATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP

>>> Writing bisulfite mapping results to input1.fq_1_bismark_bt2_pe.bam <<<

Unmapped sequences will be written to input1.fq_1.fq_unmapped_reads_1.fq.gz and input1.fq_2.fq_unmapped_reads_2.fq.gz
Ambiguously mapping sequences will be written to input1.fq_1.fq_ambiguous_reads_1.fq.gz and input1.fq_2.fq_ambiguous_reads_2.fq.gz

Reading in the sequence files input1.fq_1.fq and input1.fq_2.fq
Processed 1000 sequences in total


Successfully deleted the temporary files /tmp/tmp0n2gudqm/input1.fq_1.fq_C_to_T.fastq.gz and /tmp/tmp0n2gudqm/input1.fq_2.fq_G_to_A.fastq.gz

Final Alignment report
======================
Sequence pairs analysed in total:	1000
Number of paired-end alignments with a unique best hit:	0
Mapping efficiency:	0.0%

Sequence pairs with no alignments under any condition:	1000
Sequence pairs did not map uniquely:	0
Sequence pairs which were discarded because genomic sequence could not be extracted:	0

Number of sequence pairs with unique best (first) alignment came from the bowtie output:
CT/GA/CT:	0	((converted) top strand)
GA/CT/CT:	0	(complementary to (converted) top strand)
GA/CT/GA:	0	(complementary to (converted) bottom strand)
CT/GA/GA:	0	((converted) bottom strand)

Number of alignments to (merely theoretical) complementary strands being rejected in total:	0

Final Cytosine Methylation Report
=================================
Total number of C's analysed:	0

Total methylated C's in CpG context:	0
Total methylated C's in CHG context:	0
Total methylated C's in CHH context:	0
Total methylated C's in Unknown context:	0

Total unmethylated C's in CpG context:	0
Total unmethylated C's in CHG context:	0
Total unmethylated C's in CHH context:	0
Total unmethylated C's in Unknown context:	0

Can't determine percentage of methylated Cs in CpG context if value was 0
Can't determine percentage of methylated Cs in CHG context if value was 0
Can't determine percentage of methylated Cs in CHH context if value was 0
Can't determine percentage of methylated Cs in unknown context (CN or CHN) if value was 0


Bismark completed in 0d 0h 0m 6s

====================
Bismark run complete
====================

Single-core mode: setting pid to 1

Paired-end alignments will be performed
=======================================

The provided filenames for paired-end alignments are input2.fq_1.fq and input2.fq_2.fq
Input files are in FastQ format
Writing a C -> T converted version of the input file input2.fq_1.fq to /tmp/tmp0n2gudqm/input2.fq_1.fq_C_to_T.fastq.gz

Created C -> T converted version of the FastQ file input2.fq_1.fq (1000 sequences in total)

Writing a G -> A converted version of the input file input2.fq_2.fq to /tmp/tmp0n2gudqm/input2.fq_2.fq_G_to_A.fastq.gz

Created G -> A converted version of the FastQ file input2.fq_2.fq (1000 sequences in total)

Input files are input2.fq_1.fq_C_to_T.fastq.gz and input2.fq_2.fq_G_to_A.fastq.gz (FastQ)
Now running 2 instances of Bowtie 2 against the bisulfite genome of /tmp/tmpfw7btd9x/ with the specified options: -q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet

Now starting a Bowtie 2 paired-end alignment for CTread1GAread2CTgenome (reading in sequences from /tmp/tmp0n2gudqm/input2.fq_1.fq_C_to_T.fastq.gz and /tmp/tmp0n2gudqm/input2.fq_2.fq_G_to_A.fastq.gz, with the options: -q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet --norc))
Found first alignment:
1_1/1	77	*	0	0	*	*	0	0	TTGTATATATTAGATAAATTAATTTTTTTTGTTTGTATGTTAAATTTTTTAATTAATTTATTAATATTTTGTGAATTTTTAGATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP
1_1/2	141	*	0	0	*	*	0	0	TTATATATATTAAATAAATTAATTTTTTTTATTTATATATTAAATTTTTTAATTAATTTATTAATATTTTATAAATTTTTAAATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP
Now starting a Bowtie 2 paired-end alignment for CTread1GAread2GAgenome (reading in sequences from /tmp/tmp0n2gudqm/input2.fq_1.fq_C_to_T.fastq.gz and /tmp/tmp0n2gudqm/input2.fq_2.fq_G_to_A.fastq.gz, with the options: -q -L 20 -D 15 -R 2 --score-min L,0,-0.2 --ignore-quals --no-mixed --no-discordant --dovetail --minins 0 --maxins 500 --quiet --nofw))
Found first alignment:
1_1/1	77	*	0	0	*	*	0	0	TTGTATATATTAGATAAATTAATTTTTTTTGTTTGTATGTTAAATTTTTTAATTAATTTATTAATATTTTGTGAATTTTTAGATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP
1_1/2	141	*	0	0	*	*	0	0	TTATATATATTAAATAAATTAATTTTTTTTATTTATATATTAAATTTTTTAATTAATTTATTAATATTTTATAAATTTTTAAATA	AAAAAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEAEEAEEEEEE	YT:Z:UP

>>> Writing bisulfite mapping results to input2.fq_1_bismark_bt2_pe.bam <<<

Unmapped sequences will be written to input2.fq_1.fq_unmapped_reads_1.fq.gz and input2.fq_2.fq_unmapped_reads_2.fq.gz
Ambiguously mapping sequences will be written to input2.fq_1.fq_ambiguous_reads_1.fq.gz and input2.fq_2.fq_ambiguous_reads_2.fq.gz

Reading in the sequence files input2.fq_1.fq and input2.fq_2.fq
Processed 1000 sequences in total


Successfully deleted the temporary files /tmp/tmp0n2gudqm/input2.fq_1.fq_C_to_T.fastq.gz and /tmp/tmp0n2gudqm/input2.fq_2.fq_G_to_A.fastq.gz

Final Alignment report
======================
Sequence pairs analysed in total:	1000
Number of paired-end alignments with a unique best hit:	0
Mapping efficiency:	0.0%

Sequence pairs with no alignments under any condition:	1000
Sequence pairs did not map uniquely:	0
Sequence pairs which were discarded because genomic sequence could not be extracted:	0

Number of sequence pairs with unique best (first) alignment came from the bowtie output:
CT/GA/CT:	0	((converted) top strand)
GA/CT/CT:	0	(complementary to (converted) top strand)
GA/CT/GA:	0	(complementary to (converted) bottom strand)
CT/GA/GA:	0	((converted) bottom strand)

Number of alignments to (merely theoretical) complementary strands being rejected in total:	0

Final Cytosine Methylation Report
=================================
Total number of C's analysed:	0

Total methylated C's in CpG context:	0
Total methylated C's in CHG context:	0
Total methylated C's in CHH context:	0
Total methylated C's in Unknown context:	0

Total unmethylated C's in CpG context:	0
Total unmethylated C's in CHG context:	0
Total unmethylated C's in CHH context:	0
Total unmethylated C's in Unknown context:	0

Can't determine percentage of methylated Cs in CpG context if value was 0
Can't determine percentage of methylated Cs in CHG context if value was 0
Can't determine percentage of methylated Cs in CHH context if value was 0
Can't determine percentage of methylated Cs in unknown context (CN or CHN) if value was 0


Bismark completed in 0d 0h 0m 8s

====================
Bismark run complete
====================

Merging bams with: '['samtools', 'merge', '-@', '1', '-f', '/tmp/tmp0n2gudqm/results/tmpnqe_dadr', '/tmp/tmp0n2gudqm/results/input1.fq_1_bismark_bt2_pe.bam', '/tmp/tmp0n2gudqm/results/input2.fq_1_bismark_bt2_pe.bam']'