## Table of Contents

- [Installation](#install)
- [Mapping Genomic Reads](#map-reads)
  * [Mapping long reads](#map-pb)
  * [Mapping Illumina paired-end reads](#map-sr)
  * [Evaluating mapping accuracy with simulated reads (for developers)](#mapeval)
- [Read Overlap](#read-overlap)
  * [Long-read overlap](#long-read-overlap)
  * [Evaluating overlap sensitivity (for developers)](#ov-eval)

## <a name="install"></a>Installation

```sh
# install minimap2 executables
curl -L https://github.com/lh3/minimap2/releases/download/v2.9/minimap2-2.9_x64-linux.tar.bz2 | tar jxf -
cp minimap2-2.9_x64-linux/{minimap2,k8,paftools.js} .  # copy executables
export PATH="$PATH:"`pwd`                              # put the current directory on PATH
# download example datasets
curl -L https://github.com/lh3/minimap2/releases/download/v2.0/cookbook-data.tgz | tar zxf -
```

## <a name="map-reads"></a>Mapping Genomic Reads

### <a name="map-pb"></a>Mapping long reads
```sh
minimap2 -ax map-pb -t4 ecoli_ref.fa ecoli_p6_25x_canu.fa > mapped.sam
```
Alternatively, you can create a minimap2 index first and then map:
```sh
minimap2 -x map-pb -d ecoli-pb.mmi ecoli_ref.fa                      # create an index
minimap2 -ax map-pb ecoli-pb.mmi ecoli_p6_25x_canu.fa > mapped.sam
```
This will save you a couple of minutes when you map against the human genome.
**HOWEVER**, key algorithm parameters such as the k-mer length and window
size can't be changed after indexing. Minimap2 will give you a warning if
parameters used in a pre-built index doesn't match parameters on the command
line. **Please always make sure you are using an intended pre-built index.**

### <a name="map-sr"></a>Mapping Illumina paired-end reads:
```sh
minimap2 -ax sr ecoli_ref.fa ecoli_mason_1.fq ecoli_mason_2.fq > mapped-sr.sam
```

### <a name="mapeval"></a>Evaluating mapping accuracy with simulated reads (for developers)
```sh
minimap2 -ax sr ecoli_ref.fa ecoli_mason_1.fq ecoli_mason_2.fq | paftools.js mapeval -
```
The output is:
```
Q       60      19712   0       0.000000000     19712
Q       0       282     219     0.010953286     19994
U       6
```
where a `U`-line gives the number of unmapped reads (for SAM input only); a
`Q`-line gives:

1. Mapping quality (mapQ) threshold
2. Number of mapped reads between this threshold and the previous mapQ threshold.
3. Number of wrong mappings in the same mapQ interval
4. Accumulative mapping error rate
5. Accumulative number of mappings

For `paftools.js mapeval` to work, you need to encode the true read positions
in read names in the right format. For [PBSIM][pbsim] and [mason2][mason2], we
provide scripts to generate the right format. Simulated reads in this cookbook
were created with the following command lines:
```sh
# in PBSIM source code directory:
src/pbsim ../ecoli_ref.fa --depth 1 --sample-fastq sample/sample.fastq
paftools.js pbsim2fq ../ecoli_ref.fa.fai sd_0001.maf > ../ecoli_pbsim.fa

# mason2 simulation
mason_simulator --illumina-prob-mismatch-scale 2.5 -ir ecoli_ref.fa -n 10000 -o tmp-l.fq -or tmp-r.fq -oa tmp.sam
paftools.js mason2fq tmp.sam | seqtk seq -1 > ecoli_mason_1.fq
paftools.js mason2fq tmp.sam | seqtk seq -1 > ecoli_mason_2.fq
```



## <a name="read-overlap"></a>Read Overlap

### <a name="long-read-overlap"></a>Long read overlap
```sh
# For pacbio reads:
minimap2 -x ava-pb ecoli_p6_25x_canu.fa ecoli_p6_25x_canu.fa > overlap.paf
# For Nanopore reads (ava-ont also works with PacBio but not as good):
minimap2 -x ava-ont -r 10000 ecoli_p6_25x_canu.fa ecoli_p6_25x_canu.fa > overlap.paf
```
Here we explicitly applied `-r 10000`. We are considering to set this as the
default for the `ava-ont` mode as this seems to improve the contiguity for
nanopore read assembly (Loman, personal communication).

*Minimap2 doesn't work well with short-read overlap.*

### <a name="ov-eval"></a>Evaluating overlap sensitivity (for developers)

```sh
# read to reference mapping
minimap2 -cx map-pb ecoli_ref.fa ecoli_p6_25x_canu.fa > to-ref.paf
# evaluate overlap sensitivity
sort -k6,6 -k8,8n to-ref.paf | paftools.js ov-eval - overlap.paf
```
You can see that for PacBio reads, minimap2 achieves higher overlap sensitivity
with `-x ava-pb` (99% vs 93% with `-x ava-ont`).



## <a name="map-rna"></a>Mapping Long RNA-seq Reads

(Unfinished section. Data to come later...)

### <a name="map-direct-rna"></a>Mapping Nanopore direct-RNA reads

```sh
minimap2 -ax splice -k14 -uf ref.fa reads.fa > aln.sam
```



[pbsim]: https://github.com/pfaucon/PBSIM-PacBio-Simulator
[mason2]: https://github.com/seqan/seqan/tree/master/apps/mason2