Merge branch 'release/v0.2.5'

2024-11-14 22:33:14 +00:00 · 2020-06-22 10:48:03 +10:00 · 2020-06-22 10:48:03 +10:00 · dfa5a3217f
commit dfa5a3217f
parent 551a5906c5 bde477d54f
18 changed files with 562 additions and 609 deletions
--- a/.github/workflows/CompatHelper.yml
+++ b/.github/workflows/CompatHelper.yml
@ -2,37 +2,16 @@ name: CompatHelper
 on:
  schedule:
-    - cron: '00 * * * *'
+    - cron: '0 0 * * *'
 jobs:
  CompatHelper:
-    runs-on: ${{ matrix.os }}
+    runs-on: ubuntu-latest
    strategy:
      matrix:
        julia-version: [1.3.0]
        julia-arch: [x86]
        os: [ubuntu-latest]
    steps:
      - uses: julia-actions/setup-julia@latest
        with:
          version: ${{ matrix.julia-version }}
      - name: Add CompatHelper
-        run: julia -e 'using Pkg; Pkg.add("CompatHelper")'
+        run: julia --color=yes -e 'using Pkg; Pkg.add("CompatHelper")'
-      - name: CompatHelper.main
+      - name: Run CompatHelper
        env:
          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-        run: julia -e '
+          COMPATHELPER_PRIV: ${{ secrets.COMPATHELPER_PRIV }}
-                using CompatHelper, Pkg;
+        run: julia --color=yes -e 'using CompatHelper; CompatHelper.main(master_branch = "master")'
                my_registries = [
                    Pkg.RegistrySpec(
                        name = "BioJuliaRegistry",
                        uuid = "ccbd2cc2-2954-11e9-1ccf-f3e7900901ca",
                        url = "https://github.com/BioJulia/BioJuliaRegistry.git"
                    ),
                    Pkg.RegistrySpec(
                        name = "General",
                        uuid = "23338594-aafe-5451-b93e-139f81909106",
                        url = "https://github.com/JuliaRegistries/General.git"
                    )
                ];
                CompatHelper.main(; registries = my_registries, master_branch = "master");'
--- a/.github/workflows/Documentation.yml
+++ b/.github/workflows/Documentation.yml
@ -1,34 +1,26 @@
-name: Documentation
+name: Build Documentation
 on:
-    push:
+  push:
-        branches:
+    branches:
-            - 'master'
+      - master
-            - 'develop'
+      - develop
-            - 'release/.*'
+      - release/*
-        tags: '*'
+    tags: '*'
-    pull_request:
+  pull_request:
 jobs:
  build:
-    runs-on: ${{ matrix.os }}
+    runs-on: ubuntu-latest
    strategy:
      matrix:
        julia-version: [1.3.0]
        julia-arch: [x86]
        os: [ubuntu-latest]
    steps:
-      - uses: actions/checkout@v1.0.0
+      - uses: actions/checkout@v2
-      - uses: julia-actions/setup-julia@latest
+      - uses: julia-actions/setup-julia@v1
        with:
-          version: ${{ matrix.julia-version }}
+          version: '1'
-      - name: Install dependencies
+      - name: Install Dependencies
-        run: |
+        run: julia --color=yes --project=docs/ -e 'using Pkg; Pkg.develop(PackageSpec(path=pwd())); Pkg.instantiate()'
-          julia ci_prep.jl;
+      - name: Build and Deploy
          julia --project=docs/ -e 'using Pkg; Pkg.develop(PackageSpec(path=pwd())); Pkg.instantiate()'
      - name: Build and deploy
        env:
          # https://github.com/JuliaDocs/Documenter.jl/issues/1177
          # GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} # For authentication with GitHub Actions token
          DOCUMENTER_KEY: ${{ secrets.DOCUMENTER_KEY }} # For authentication with SSH deploy key
-        run: julia --project=docs/ --color=yes docs/make.jl
+        run: julia --color=yes --project=docs/ docs/make.jl
--- a/.github/workflows/TagBot.yml
+++ b/.github/workflows/TagBot.yml
@ -1,7 +1,7 @@
 name: TagBot
 on:
  schedule:
-    - cron: '0 * * * *'
+    - cron: '0 0 * * *'
 jobs:
  TagBot:
    runs-on: ubuntu-latest
@ -10,4 +10,3 @@ jobs:
        with:
          token: ${{ secrets.GITHUB_TOKEN }}
          ssh: ${{ secrets.TAGBOT_KEY }}
          registry: BioJulia/BioJuliaRegistry
--- a/.github/workflows/UnitTests.yml
+++ b/.github/workflows/UnitTests.yml
@ -1,22 +1,44 @@
-name: Unit tests
+name: Unit Tests
-on: [push, pull_request]
+on:
  - push
  - pull_request
 jobs:
  test:
    runs-on: ${{ matrix.os }}
    continue-on-error: ${{ matrix.experimental }}
    strategy:
      fail-fast: false
      matrix:
-        julia-version: ['1.1', '1.2', '1.3']
+        julia-version:
-        julia-arch: [x64]
+          - '1.0' # LTS
          - '1'
        julia-arch: [x64, x86]
        os: [ubuntu-latest, windows-latest, macOS-latest]
        experimental: [false]
        include:
          - julia-version: nightly
            julia-arch: x64
            os: ubuntu-latest
            experimental: true
    steps:
-      - uses: actions/checkout@v1.0.0
+      - name: Checkout Repository
-      - uses: julia-actions/setup-julia@v1
+        uses: actions/checkout@v2
      - name: Setup Julia
        uses: julia-actions/setup-julia@v1
        with:
          version: ${{ matrix.julia-version }}
-          arch: ${{ matrix.julia-arch }}
+      - name: Run Tests
-      - name: Install dependencies
+        uses: julia-actions/julia-runtest@latest
-        run: julia ci_prep.jl
+      - name: Create CodeCov
-      - uses: julia-actions/julia-runtest@master
+        uses: julia-actions/julia-processcoverage@v1
      - name: Upload CodeCov
        uses: codecov/codecov-action@v1
        with:
          file: ./lcov.info
          flags: unittests
          name: codecov-umbrella
          fail_ci_if_error: false
          token: ${{ secrets.CODECOV_TOKEN }}
--- a/Project.toml
+++ b/Project.toml
@ -1,7 +1,7 @@
 name = "XAM"
 uuid = "d759349c-bcba-11e9-07c2-5b90f8f05f7c"
 authors = ["Kenta Sato <bicycle1885@gmail.com>", "Ben J. Ward <ward9250@gmail.com>", "Ciarán O'Mara <Ciaran.OMara@utas.edu.au>"]
-version = "0.2.4"
+version = "0.2.5"
 [deps]
 Automa = "67c07d97-cdcb-5c2c-af73-a7f9c32a568b"
@ -19,11 +19,11 @@ Automa = "0.7, 0.8"
 BGZFStreams = "0.3"
 BioAlignments = "2"
 BioGenerics = "0.1"
-BioSequences = "2"
+BioSequences = "2.0.4"
 GenomicFeatures = "2"
 Indexes = "0.1"
 TranscodingStreams = "0.6, 0.7, 0.8, 0.9"
-julia = "1.1"
+julia = "1"
 [extras]
 FormatSpecimens = "3372ea36-2a1a-11e9-3eb7-996970b6ffbd"
--- a/README.md
+++ b/README.md
@ -11,18 +11,11 @@
 blog post").
 ## Description
-XAM provides I/O and utilities for manipulating SAM and BAM formatted alignment map files.
+The XAM package provides I/O and utilities for manipulating SAM and BAM formatted alignment map files.
 ## Installation
-The latest version of XAM is made available to install through BioJulia's package registry.
+You can install the XAM package from the [Julia REPL](https://docs.julialang.org/en/v1/manual/getting-started/).
-By default, Julia's package manager only includes the "General" package registry.
+Press `]` to enter [pkg mode](https://docs.julialang.org/en/v1/stdlib/Pkg/), then enter the following command:
 To add the BioJulia registry from the [Julia REPL](https://docs.julialang.org/en/v1/manual/getting-started/), press `]` to enter [pkg mode](https://docs.julialang.org/en/v1/stdlib/Pkg/), then enter the following command:
 ```julia
 registry add https://github.com/BioJulia/BioJuliaRegistry.git
 ```
 Once the registry is added to your configuration, you can install XAM while in [pkg mode](https://docs.julialang.org/en/v1/stdlib/Pkg/) with the following:
 ```julia
 add XAM
 ```
--- a/ci_prep.jl
+++ b/ci_prep.jl
@ -1,3 +0,0 @@
 using Pkg.Registry
 Registry.add(Registry.RegistrySpec(url = "https://github.com/BioJulia/BioJuliaRegistry.git"))
 Registry.add(Registry.RegistrySpec(url = "https://github.com/JuliaRegistries/General.git"))
--- a/coverage/Project.toml
+++ b/coverage/Project.toml
@ -1,2 +0,0 @@
 [deps]
 Coverage = "a2441757-f6aa-5fb2-8edb-039e3f45d037"
--- a/coverage/coverage.jl
+++ b/coverage/coverage.jl
@ -1,11 +0,0 @@
 get(ENV, "TRAVIS_OS_NAME", "") == "linux" || exit()
 get(ENV, "TRAVIS_JULIA_VERSION", "") == "1.3" || exit()
 using Pkg
 Pkg.instantiate()
 using Coverage
 cd(joinpath(@__DIR__, "..")) do
   Codecov.submit(Codecov.process_folder())
 end
--- a/docs/src/index.md
+++ b/docs/src/index.md
@ -10,20 +10,11 @@
 > This project follows the [semver](http://semver.org) pro forma and uses the [git-flow branching model](https://nvie.com/posts/a-successful-git-branching-model/).
 ## Description
-
+The XAM package provides I/O and utilities for manipulating SAM and BAM formatted alignment map files.
 XAM provides I/O and utilities for manipulating SAM and BAM formatted alignment map files.
 ## Installation
-The latest version of XAM is made available to install through BioJulia's package registry.
+You can install the XAM package from the [Julia REPL](https://docs.julialang.org/en/v1/manual/getting-started/).
-By default, Julia's package manager only includes the "General" package registry.
+Press `]` to enter [pkg mode](https://docs.julialang.org/en/v1/stdlib/Pkg/), then enter the following command:
 To add the BioJulia registry from the [Julia REPL](https://docs.julialang.org/en/v1/manual/getting-started/), press `]` to enter [pkg mode](https://docs.julialang.org/en/v1/stdlib/Pkg/), then enter the following command:
 ```julia
 registry add https://github.com/BioJulia/BioJuliaRegistry.git
 ```
 Once the registry is added to your configuration, you can install XAM while in [pkg mode](https://docs.julialang.org/en/v1/stdlib/Pkg/) with the following:
 ```julia
 add XAM
 ```
--- a/docs/src/man/hts-files.md
+++ b/docs/src/man/hts-files.md
@ -287,7 +287,7 @@ SAM.Writer(IOStream(<file my-data.sam>))
 ```
-To make a BAM Writer is slightly different, as you need to use a specific stream type from the (https://github.com/BioJulia/BGZFStreams.jl)[https://github.com/BioJulia/BGZFStreams.jl] package:
+To make a BAM Writer is slightly different, as you need to use a specific stream type from the [https://github.com/BioJulia/BGZFStreams.jl](https://github.com/BioJulia/BGZFStreams.jl) package:
 ```julia
 julia> using BGZFStreams
--- a/src/sam/metainfo.jl
+++ b/src/sam/metainfo.jl
@ -48,7 +48,7 @@ Create a SAM metainfo from `str`.
 """
 function MetaInfo(str::AbstractString)
-    return MetaInfo(Vector{UInt8}(str))
+    return MetaInfo(collect(UInt8, str))
 end
 """
@ -198,7 +198,7 @@ function keyvalues(metainfo::MetaInfo)::Vector{Pair{String,String}}
    if iscomment(metainfo)
        throw(ArgumentError("not a dictionary"))
    end
-    return Pair{String,String}[key => val for (key, val) in zip(keys(metainfo), values(metainfo))]
+    return Pair{String, String}.(keys(metainfo), values(metainfo))
 end
 function Base.keys(metainfo::MetaInfo)
--- a/src/sam/readrecord.jl
+++ b/src/sam/readrecord.jl
@ -1,12 +1,16 @@
 # Automa.jl generated readrecord! and readmetainfo! functions
 # ========================================
 import Automa
 import Automa.RegExp: @re_str
 import Automa.Stream: @mark, @markpos, @relpos, @abspos
 # file   = header . body
 # header = metainfo*
 # body   = record*
 const sam_machine_metainfo, sam_machine_record, sam_machine_header, sam_machine_body, sam_machine = (function ()
-    isinteractive() && info("compiling SAM")
+    isinteractive() && @info "compiling SAM"
    cat = Automa.RegExp.cat
    rep = Automa.RegExp.rep
@ -161,21 +165,15 @@ function appendfrom!(dst, dpos, src, spos, n)
    if length(dst) < dpos + n - 1
        resize!(dst, dpos + n - 1)
    end
-    copyto!(dst, dpos, src, spos, n)
+    unsafe_copyto!(dst, dpos, src, spos, n)
    return dst
 end
 const action_metainfo = quote
    appendfrom!(metainfo.data, 1, data, @markpos, p-@markpos)
    metainfo.filled = 1:(p-@markpos)
-    let markpos = @markpos()
+    found_metainfo = true
        appendfrom!(metainfo.data, 1, data, markpos, length(markpos:p-1))
        metainfo.filled = @relpos(markpos):@relpos(p-1)
        found_metainfo = true
    end
 end
 const sam_actions_metainfo = Dict(
@ -227,15 +225,11 @@ const sam_actions_record = Dict(
    :record_qual  => :(record.qual  = pos:@relpos(p-1)),
    :record_field => :(push!(record.fields, pos:@relpos(p-1))),
    :record       => quote
-        let markpos = @markpos()
+        appendfrom!(record.data, 1, data, @markpos, p-@markpos)
        record.filled = 1:(p-@markpos)
-            appendfrom!(record.data, 1, data, markpos, length(markpos:p-1))
+        found_record = true
-
+        @escape
            record.filled = @relpos(markpos):@relpos(p-1)
            found_record = true
            @escape
        end
    end
 )
--- a/src/sam/record.jl
+++ b/src/sam/record.jl
@ -71,7 +71,7 @@ function Record(str::AbstractString)
 end
 function Base.convert(::Type{Record}, str::AbstractString)
-    return Record(Vector{UInt8}(str))
+    return Record(collect(UInt8, str))
 end
 function Base.:(==)(a::Record, b::Record)
@ -399,7 +399,7 @@ function sequence(record::Record)::BioSequences.LongDNASeq
    end
    seqlen = length(record.seq)
    ret = BioSequences.LongDNASeq(seqlen)
-    BioSequences.encode_copy!(ret, 1, record.data, first(record.seq), seqlen)
+    copyto!(ret, 1, record.data, first(record.seq), seqlen)
    return ret
 end
--- a/src/sam/sam.jl
+++ b/src/sam/sam.jl
@ -5,9 +5,6 @@ module SAM
 using BioGenerics
 import Automa
 import Automa.RegExp: @re_str
 import Automa.Stream: @mark, @markpos, @relpos, @abspos
 import BioAlignments
 import BioGenerics: BioGenerics, isfilled, header
 import BioGenerics.Exceptions: missingerror
--- a/test/runtests.jl
+++ b/test/runtests.jl
@ -22,482 +22,6 @@ function randrange(range)
    end
 end
@testset "SAM" begin
    samdir = path_of_format("SAM")
-    @testset "MetaInfo" begin
+include("test_sam.jl")
-        metainfo = SAM.MetaInfo()
+include("test_bam.jl")
        @test !isfilled(metainfo)
        @test occursin("not filled", repr(metainfo))
        metainfo = SAM.MetaInfo("CO", "some comment (parens)")
        @test isfilled(metainfo)
        @test string(metainfo) == "@CO\tsome comment (parens)"
        @test occursin("CO", repr(metainfo))
        @test SAM.tag(metainfo) == "CO"
        @test SAM.value(metainfo) == "some comment (parens)"
        @test_throws ArgumentError keys(metainfo)
        @test_throws ArgumentError values(metainfo)
        metainfo = SAM.MetaInfo("HD", ["VN" => "1.0", "SO" => "coordinate"])
        @test isfilled(metainfo)
        @test string(metainfo) == "@HD\tVN:1.0\tSO:coordinate"
        @test occursin("HD", repr(metainfo))
        @test SAM.tag(metainfo) == "HD"
        @test SAM.value(metainfo) == "VN:1.0\tSO:coordinate"
        @test keys(metainfo) == ["VN", "SO"]
        @test values(metainfo) == ["1.0", "coordinate"]
        @test SAM.keyvalues(metainfo) == ["VN" => "1.0", "SO" => "coordinate"]
        @test haskey(metainfo, "VN")
        @test haskey(metainfo, "SO")
        @test !haskey(metainfo, "GO")
        @test metainfo["VN"] == "1.0"
        @test metainfo["SO"] == "coordinate"
        @test_throws KeyError metainfo["GO"]
    end
    @testset "Header" begin
        header = SAM.Header()
        @test isempty(header)
        push!(header, SAM.MetaInfo("@HD\tVN:1.0\tSO:coordinate"))
        @test !isempty(header)
        @test length(header) == 1
        push!(header, SAM.MetaInfo("@CO\tsome comment"))
        @test length(header) == 2
        @test isa(collect(header), Vector{SAM.MetaInfo})
    end
    @testset "Record" begin
        record = SAM.Record()
        @test !isfilled(record)
        @test !SAM.ismapped(record)
        @test repr(record) == "XAM.SAM.Record: <not filled>"
        @test_throws ArgumentError SAM.flag(record)
        record = SAM.Record("r001\t99\tchr1\t7\t30\t8M2I4M1D3M\t=\t37\t39\tTTAGATAAAGGATACTG\t*")
        @test isfilled(record)
        @test occursin(r"^XAM.SAM.Record:\n", repr(record))
        @test SAM.ismapped(record)
        @test SAM.isprimary(record)
        @test SAM.hastempname(record)
        @test SAM.tempname(record) == "r001"
        @test SAM.hasflag(record)
        @test SAM.flag(record) === UInt16(99)
        @test SAM.hasrefname(record)
        @test SAM.refname(record) == "chr1"
        @test SAM.hasposition(record)
        @test SAM.position(record) === 7
        @test SAM.hasmappingquality(record)
        @test SAM.mappingquality(record) === UInt8(30)
        @test SAM.hascigar(record)
        @test SAM.cigar(record) == "8M2I4M1D3M"
        @test SAM.hasnextrefname(record)
        @test SAM.nextrefname(record) == "="
        @test SAM.hasnextposition(record)
        @test SAM.nextposition(record) === 37
        @test SAM.hastemplength(record)
        @test SAM.templength(record) === 39
        @test SAM.hassequence(record)
        @test SAM.sequence(record) == dna"TTAGATAAAGGATACTG"
        @test !SAM.hasquality(record)
        @test_throws MissingFieldException SAM.quality(record)
    end
    @testset "Reader" begin
        reader = open(SAM.Reader, joinpath(samdir, "ce#1.sam"))
        @test isa(reader, SAM.Reader)
        @test eltype(reader) === SAM.Record
        # header
        h = header(reader)
        @test string.(findall(header(reader), "SQ")) == ["@SQ\tSN:CHROMOSOME_I\tLN:1009800"]
        # first record
        record = SAM.Record()
        read!(reader, record)
        @test SAM.ismapped(record)
        @test SAM.refname(record) == "CHROMOSOME_I"
        @test SAM.position(record) == leftposition(record) == 2
        @test SAM.rightposition(record) == rightposition(record) == 102
        @test SAM.tempname(record) == seqname(record) == "SRR065390.14978392"
        @test SAM.sequence(record) == sequence(record) == dna"CCTAGCCCTAACCCTAACCCTAACCCTAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAA"
        @test SAM.sequence(String, record)          ==    "CCTAGCCCTAACCCTAACCCTAACCCTAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAA"
        @test SAM.seqlength(record) == 100
        @test SAM.quality(record)         == (b"#############################@B?8B?BA@@DDBCDDCBC@CDCDCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC" .- 33)
        @test SAM.quality(String, record) ==   "#############################@B?8B?BA@@DDBCDDCBC@CDCDCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC"
        @test SAM.flag(record) == 16
        @test SAM.cigar(record) == "27M1D73M"
        @test SAM.alignment(record) == Alignment([
            AlignmentAnchor(  0,   1, OP_START),
            AlignmentAnchor( 27,  28, OP_MATCH),
            AlignmentAnchor( 27,  29, OP_DELETE),
            AlignmentAnchor(100, 102, OP_MATCH)])
        @test record["XG"] == 1
        @test record["XM"] == 5
        @test record["XN"] == 0
        @test record["XO"] == 1
        @test record["AS"] == -18
        @test record["XS"] == -18
        @test record["YT"] == "UU"
        @test eof(reader)
        close(reader)
        # rightposition (also implicitly alignlength)
        records = collect(open(SAM.Reader, joinpath(samdir, "ce#5b.sam")))
        @test SAM.rightposition(records[6]) == rightposition(records[6]) == 83
        # iterator
        @test length(collect(open(SAM.Reader, joinpath(samdir, "ce#1.sam")))) == 1
        @test length(collect(open(SAM.Reader, joinpath(samdir, "ce#2.sam")))) == 2
        # IOStream
        @test length(collect(SAM.Reader(open(joinpath(samdir, "ce#1.sam"))))) == 1
        @test length(collect(SAM.Reader(open(joinpath(samdir, "ce#2.sam"))))) == 2
    end
    @testset "Round trip" begin
        function compare_records(xs, ys)
            if length(xs) != length(ys)
                return false
            end
            for (x, y) in zip(xs, ys)
                if x.data[x.filled] != y.data[y.filled]
                    return false
                end
            end
            return true
        end
        for specimen in list_valid_specimens("SAM")
            filepath = joinpath(samdir, filename(specimen))
            mktemp() do path, io
                # copy
                reader = open(SAM.Reader, filepath)
                header_original = header(reader)
                writer = SAM.Writer(io, header_original)
                records = SAM.Record[]
                for record in reader
                    push!(records, record)
                    write(writer, record)
                end
                close(reader)
                close(writer)
                reader = open(SAM.Reader, path)
                @test header(reader) == header_original
                @test compare_records(collect(reader), records)
                close(reader)
            end
        end
    end
    @testset "In-Place-Reading Pattern" begin
        file_sam = joinpath(samdir, "ce#5b.sam")
        records = open(collect, SAM.Reader, file_sam)
        reader = open(SAM.Reader, file_sam)
        record = SAM.Record()
        i = 0
        while !eof(reader)
            empty!(record) # Reset the record.
            read!(reader, record)
            i = i + 1
            @test records[i] == record
        end
        close(reader)
    end
 end
@testset "BAM" begin
    bamdir = path_of_format("BAM")
    @testset "AuxData" begin
        auxdata = BAM.AuxData(UInt8[])
        @test isempty(auxdata)
        buf = IOBuffer()
        write(buf, "NM", UInt8('s'), Int16(1))
        auxdata = BAM.AuxData(take!(buf))
        @test length(auxdata) == 1
        @test auxdata["NM"] === Int16(1)
        @test collect(auxdata) == ["NM" => Int16(1)]
        buf = IOBuffer()
        write(buf, "AS", UInt8('c'), Int8(-18))
        write(buf, "NM", UInt8('s'), Int16(1))
        write(buf, "XA", UInt8('f'), Float32(3.14))
        write(buf, "XB", UInt8('Z'), "some text\0")
        write(buf, "XC", UInt8('B'), UInt8('i'), Int32(3), Int32[10, -5, 8])
        auxdata = BAM.AuxData(take!(buf))
        @test length(auxdata) == 5
        @test auxdata["AS"] === Int8(-18)
        @test auxdata["NM"] === Int16(1)
        @test auxdata["XA"] === Float32(3.14)
        @test auxdata["XB"] == "some text"
        @test auxdata["XC"] == Int32[10, -5, 8]
        @test convert(Dict{String,Any}, auxdata) == Dict(
            "AS" => Int8(-18),
            "NM" => Int16(1),
            "XA" => Float32(3.14),
            "XB" => "some text",
            "XC" => Int32[10, -5, 8])
    end
    @testset "Record" begin
        record = BAM.Record()
        @test !isfilled(record)
        @test repr(record) == "XAM.BAM.Record: <not filled>"
        @test_throws ArgumentError BAM.flag(record)
    end
    @testset "Reader" begin
        reader = open(BAM.Reader, joinpath(bamdir, "ce#1.bam"))
        @test isa(reader, BAM.Reader)
        @test eltype(reader) === BAM.Record
        @test startswith(repr(reader), "XAM.BAM.Reader{IOStream}:")
        # header
        h = header(reader)
        @test isa(h, SAM.Header)
        # first record
        record = BAM.Record()
        read!(reader, record)
        @test BAM.ismapped(record)
        @test BAM.isprimary(record)
        @test ! BAM.ispositivestrand(record)
        @test BAM.refname(record) == "CHROMOSOME_I"
        @test BAM.refid(record) === 1
        @test BAM.hasnextrefid(record)
        @test BAM.nextrefid(record) === 0
        @test BAM.hasposition(record) === hasleftposition(record) === true
        @test BAM.position(record) === leftposition(record) === 2
        @test BAM.hasnextposition(record)
        @test BAM.nextposition(record) === 0
        @test rightposition(record) == 102
        @test BAM.hastempname(record) === hasseqname(record) === true
        @test BAM.tempname(record) == seqname(record) == "SRR065390.14978392"
        @test BAM.hassequence(record) === hassequence(record) === true
        @test BAM.sequence(record) == sequence(record) == dna"""
        CCTAGCCCTAACCCTAACCCTAACCCTAGCCTAAGCCTAAGCCTAAGCCT
        AAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAA
        """
        @test BAM.seqlength(record) === 100
        @test BAM.hasquality(record)
        @test eltype(BAM.quality(record)) == UInt8
        @test BAM.quality(record) == [Int(x) - 33 for x in "#############################@B?8B?BA@@DDBCDDCBC@CDCDCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC"]
        @test BAM.flag(record) === UInt16(16)
        @test BAM.cigar(record) == "27M1D73M"
        @test BAM.alignment(record) == Alignment([
            AlignmentAnchor(  0,   1, OP_START),
            AlignmentAnchor( 27,  28, OP_MATCH),
            AlignmentAnchor( 27,  29, OP_DELETE),
            AlignmentAnchor(100, 102, OP_MATCH)])
        @test record["XG"] == 1
        @test record["XM"] == 5
        @test record["XN"] == 0
        @test record["XO"] == 1
        @test record["AS"] == -18
        @test record["XS"] == -18
        @test record["YT"] == "UU"
        @test keys(record) == ["XG","XM","XN","XO","AS","XS","YT"]
        @test values(record) == [1, 5, 0, 1, -18, -18, "UU"]
        @test eof(reader)
        close(reader)
        # Test conversion from byte array to record
        dsize = BAM.data_size(record)
        array = Vector{UInt8}(undef, BAM.FIXED_FIELDS_BYTES + dsize)
        GC.@preserve array record begin
            ptr = Ptr{UInt8}(pointer_from_objref(record))
            unsafe_copyto!(pointer(array), ptr, BAM.FIXED_FIELDS_BYTES)
            unsafe_copyto!(array, BAM.FIXED_FIELDS_BYTES + 1, record.data, 1, dsize)
        end
        new_record = convert(BAM.Record, array)
        @test record.bin_mq_nl == new_record.bin_mq_nl
        @test record.block_size == new_record.block_size
        @test record.flag_nc == new_record.flag_nc
        @test record.l_seq == new_record.l_seq
        @test record.next_refid == new_record.next_refid
        @test record.next_pos == new_record.next_pos
        @test record.refid == new_record.refid
        @test record.pos == new_record.pos
        @test record.tlen == new_record.tlen
        @test record.data == new_record.data
        # rightposition (also implicitly alignlength)
        records = collect(open(BAM.Reader, joinpath(bamdir, "ce#5b.bam")))
        @test BAM.rightposition(records[6]) == rightposition(records[6]) == 83
        # iterator
        @test length(collect(open(BAM.Reader, joinpath(bamdir, "ce#1.bam")))) == 1
        @test length(collect(open(BAM.Reader, joinpath(bamdir, "ce#2.bam")))) == 2
        # IOStream
        @test length(collect(BAM.Reader(open(joinpath(bamdir, "ce#1.bam"))))) == 1
        @test length(collect(BAM.Reader(open(joinpath(bamdir, "ce#2.bam"))))) == 2
    end
    @testset "Read long CIGARs" begin
        function get_cigar_lens(rec::BAM.Record)
            cigar_ops, cigar_n = BAM.cigar_rle(rec)
            field_ops, field_n = BAM.cigar_rle(rec, false)
            cigar_l = length(cigar_ops)
            field_l = length(field_ops)
            return cigar_l, field_l
        end
        function check_cigar_vs_field(rec::BAM.Record)
            cigar = BAM.cigar(rec)
            field = BAM.cigar(rec, false)
            cigar_l, field_l = get_cigar_lens(rec)
            return cigar != field && cigar_l != field_l
        end
        function check_cigar_lens(rec::BAM.Record, field_len, cigar_len)
            cigar_l, field_l = get_cigar_lens(rec)
            return cigar_l == cigar_len && field_l == field_len
        end
        reader = open(BAM.Reader, joinpath(bamdir, "cigar-64k.bam"))
        rec = BAM.Record()
        read!(reader, rec)
        @test !check_cigar_vs_field(rec)
        read!(reader, rec)
        @test check_cigar_vs_field(rec)
        @test check_cigar_lens(rec, 2, 72091)
    end
    function compare_records(xs, ys)
        if length(xs) != length(ys)
            return false
        end
        for (x, y) in zip(xs, ys)
            if !(
                x.block_size == y.block_size &&
                x.refid      == y.refid &&
                x.pos        == y.pos &&
                x.bin_mq_nl  == y.bin_mq_nl &&
                x.flag_nc    == y.flag_nc &&
                x.l_seq      == y.l_seq &&
                x.next_refid == y.next_refid &&
                x.next_pos   == y.next_pos &&
                x.tlen       == y.tlen &&
                x.data[1:BAM.data_size(x)] == y.data[1:BAM.data_size(y)])
                return false
            end
        end
        return true
    end
    @testset "Round trip" begin
        for specimen in list_valid_specimens("BAM")
            filepath = joinpath(bamdir, filename(specimen))
            mktemp() do path, _
                # copy
                if hastags(specimen) && in("bai", tags(specimen))
                    reader = open(BAM.Reader, filepath, index=filepath * ".bai")
                else
                    reader = open(BAM.Reader, filepath)
                end
                header_original = header(reader)
                writer = BAM.Writer(BGZFStream(path, "w"), BAM.header(reader, fillSQ=isempty(findall(header(reader), "SQ"))))
                records = BAM.Record[]
                for record in reader
                    push!(records, record)
                    write(writer, record)
                end
                close(reader)
                close(writer)
                reader = open(BAM.Reader, path)
                @test header(reader) == header_original
                @test compare_records(collect(reader), records)
                close(reader)
            end
        end
    end
    @testset "In-Place-Reading Pattern" begin
        file_bam = joinpath(bamdir, "ce#5b.bam")
        records = open(collect, BAM.Reader, file_bam)
        reader = open(BAM.Reader, file_bam)
        record = BAM.Record()
        i = 0
        while !eof(reader)
            empty!(record) # Reset the record.
            read!(reader, record)
            i = i + 1
            @test records[i] == record
        end
        close(reader)
    end
    @testset "Random access" begin
        filepath = joinpath(bamdir, "GSE25840_GSM424320_GM06985_gencode_spliced.head.bam")
        reader = open(BAM.Reader, filepath, index=filepath * ".bai")
        @test isa(eachoverlap(reader, "chr1", 1:100), BAM.OverlapIterator)
        @test isa(eachoverlap(reader, GenomicFeatures.Interval("chr1", 1, 100)), BAM.OverlapIterator)
        # expected values are counted using samtools
        for (refname, interval, expected) in [
                ("chr1", 1_000:10000,      21),
                ("chr1", 8_000:10000,      20),
                ("chr1", 766_000:800_000, 142),
                ("chr1", 786_000:800_000, 1),
                ("chr1", 796_000:800_000, 0)]
            intsect = eachoverlap(reader, refname, interval)
            @test eltype(intsect) == BAM.Record
            @test count(_ -> true, intsect) == expected
            # check that the intersection iterator is stateless
            @test count(_ -> true, intsect) == expected
        end
        # randomized tests
        for n in 1:50
            refindex = 1
            refname = "chr1"
            range = randrange(1:1_000_000)
            seekstart(reader)
            # linear scan
            expected = filter(collect(reader)) do record
                BAM.compare_intervals(record, (refindex, range)) == 0
            end
            # indexed scan
            actual = collect(eachoverlap(reader, refname, range))
            @test compare_records(actual, expected)
        end
        close(reader)
        filepath = joinpath(bamdir, "R_12h_D06.uniq.q40.bam")
        reader = open(BAM.Reader, filepath, index=filepath * ".bai")
        @test isempty(collect(eachoverlap(reader, "chr19", 5823708:5846478)))
        close(reader)
    end
 end
--- a/test/test_bam.jl
+++ b/test/test_bam.jl
@ -0,0 +1,280 @@
@testset "BAM" begin
    bamdir = path_of_format("BAM")
    @testset "AuxData" begin
        auxdata = BAM.AuxData(UInt8[])
        @test isempty(auxdata)
        buf = IOBuffer()
        write(buf, "NM", UInt8('s'), Int16(1))
        auxdata = BAM.AuxData(take!(buf))
        @test length(auxdata) == 1
        @test auxdata["NM"] === Int16(1)
        @test collect(auxdata) == ["NM" => Int16(1)]
        buf = IOBuffer()
        write(buf, "AS", UInt8('c'), Int8(-18))
        write(buf, "NM", UInt8('s'), Int16(1))
        write(buf, "XA", UInt8('f'), Float32(3.14))
        write(buf, "XB", UInt8('Z'), "some text\0")
        write(buf, "XC", UInt8('B'), UInt8('i'), Int32(3), Int32[10, -5, 8])
        auxdata = BAM.AuxData(take!(buf))
        @test length(auxdata) == 5
        @test auxdata["AS"] === Int8(-18)
        @test auxdata["NM"] === Int16(1)
        @test auxdata["XA"] === Float32(3.14)
        @test auxdata["XB"] == "some text"
        @test auxdata["XC"] == Int32[10, -5, 8]
        @test convert(Dict{String,Any}, auxdata) == Dict(
            "AS" => Int8(-18),
            "NM" => Int16(1),
            "XA" => Float32(3.14),
            "XB" => "some text",
            "XC" => Int32[10, -5, 8])
    end
    @testset "Record" begin
        record = BAM.Record()
        @test !isfilled(record)
        @test repr(record) == "XAM.BAM.Record: <not filled>"
        @test_throws ArgumentError BAM.flag(record)
    end
    @testset "Reader" begin
        reader = open(BAM.Reader, joinpath(bamdir, "ce#1.bam"))
        @test isa(reader, BAM.Reader)
        @test eltype(reader) === BAM.Record
        @test startswith(repr(reader), "XAM.BAM.Reader{IOStream}:")
        # header
        h = header(reader)
        @test isa(h, SAM.Header)
        # first record
        record = BAM.Record()
        read!(reader, record)
        @test BAM.ismapped(record)
        @test BAM.isprimary(record)
        @test ! BAM.ispositivestrand(record)
        @test BAM.refname(record) == "CHROMOSOME_I"
        @test BAM.refid(record) === 1
        @test BAM.hasnextrefid(record)
        @test BAM.nextrefid(record) === 0
        @test BAM.hasposition(record) === hasleftposition(record) === true
        @test BAM.position(record) === leftposition(record) === 2
        @test BAM.hasnextposition(record)
        @test BAM.nextposition(record) === 0
        @test rightposition(record) == 102
        @test BAM.hastempname(record) === hasseqname(record) === true
        @test BAM.tempname(record) == seqname(record) == "SRR065390.14978392"
        @test BAM.hassequence(record) === hassequence(record) === true
        @test BAM.sequence(record) == sequence(record) == dna"""
        CCTAGCCCTAACCCTAACCCTAACCCTAGCCTAAGCCTAAGCCTAAGCCT
        AAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAA
        """
        @test BAM.seqlength(record) === 100
        @test BAM.hasquality(record)
        @test eltype(BAM.quality(record)) == UInt8
        @test BAM.quality(record) == [Int(x) - 33 for x in "#############################@B?8B?BA@@DDBCDDCBC@CDCDCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC"]
        @test BAM.flag(record) === UInt16(16)
        @test BAM.cigar(record) == "27M1D73M"
        @test BAM.alignment(record) == Alignment([
            AlignmentAnchor(  0,   1, OP_START),
            AlignmentAnchor( 27,  28, OP_MATCH),
            AlignmentAnchor( 27,  29, OP_DELETE),
            AlignmentAnchor(100, 102, OP_MATCH)])
        @test record["XG"] == 1
        @test record["XM"] == 5
        @test record["XN"] == 0
        @test record["XO"] == 1
        @test record["AS"] == -18
        @test record["XS"] == -18
        @test record["YT"] == "UU"
        @test keys(record) == ["XG","XM","XN","XO","AS","XS","YT"]
        @test values(record) == [1, 5, 0, 1, -18, -18, "UU"]
        @test eof(reader)
        close(reader)
        # Test conversion from byte array to record
        dsize = BAM.data_size(record)
        array = Vector{UInt8}(undef, BAM.FIXED_FIELDS_BYTES + dsize)
        GC.@preserve array record begin
            ptr = Ptr{UInt8}(pointer_from_objref(record))
            unsafe_copyto!(pointer(array), ptr, BAM.FIXED_FIELDS_BYTES)
            unsafe_copyto!(array, BAM.FIXED_FIELDS_BYTES + 1, record.data, 1, dsize)
        end
        new_record = convert(BAM.Record, array)
        @test record.bin_mq_nl == new_record.bin_mq_nl
        @test record.block_size == new_record.block_size
        @test record.flag_nc == new_record.flag_nc
        @test record.l_seq == new_record.l_seq
        @test record.next_refid == new_record.next_refid
        @test record.next_pos == new_record.next_pos
        @test record.refid == new_record.refid
        @test record.pos == new_record.pos
        @test record.tlen == new_record.tlen
        @test record.data == new_record.data
        # rightposition (also implicitly alignlength)
        records = collect(open(BAM.Reader, joinpath(bamdir, "ce#5b.bam")))
        @test BAM.rightposition(records[6]) == rightposition(records[6]) == 83
        # iterator
        @test length(collect(open(BAM.Reader, joinpath(bamdir, "ce#1.bam")))) == 1
        @test length(collect(open(BAM.Reader, joinpath(bamdir, "ce#2.bam")))) == 2
        # IOStream
        @test length(collect(BAM.Reader(open(joinpath(bamdir, "ce#1.bam"))))) == 1
        @test length(collect(BAM.Reader(open(joinpath(bamdir, "ce#2.bam"))))) == 2
    end
    @testset "Read long CIGARs" begin
        function get_cigar_lens(rec::BAM.Record)
            cigar_ops, cigar_n = BAM.cigar_rle(rec)
            field_ops, field_n = BAM.cigar_rle(rec, false)
            cigar_l = length(cigar_ops)
            field_l = length(field_ops)
            return cigar_l, field_l
        end
        function check_cigar_vs_field(rec::BAM.Record)
            cigar = BAM.cigar(rec)
            field = BAM.cigar(rec, false)
            cigar_l, field_l = get_cigar_lens(rec)
            return cigar != field && cigar_l != field_l
        end
        function check_cigar_lens(rec::BAM.Record, field_len, cigar_len)
            cigar_l, field_l = get_cigar_lens(rec)
            return cigar_l == cigar_len && field_l == field_len
        end
        reader = open(BAM.Reader, joinpath(bamdir, "cigar-64k.bam"))
        rec = BAM.Record()
        read!(reader, rec)
        @test !check_cigar_vs_field(rec)
        read!(reader, rec)
        @test check_cigar_vs_field(rec)
        @test check_cigar_lens(rec, 2, 72091)
    end
    function compare_records(xs, ys)
        if length(xs) != length(ys)
            return false
        end
        for (x, y) in zip(xs, ys)
            if !(
                x.block_size == y.block_size &&
                x.refid      == y.refid &&
                x.pos        == y.pos &&
                x.bin_mq_nl  == y.bin_mq_nl &&
                x.flag_nc    == y.flag_nc &&
                x.l_seq      == y.l_seq &&
                x.next_refid == y.next_refid &&
                x.next_pos   == y.next_pos &&
                x.tlen       == y.tlen &&
                x.data[1:BAM.data_size(x)] == y.data[1:BAM.data_size(y)])
                return false
            end
        end
        return true
    end
    @testset "Round trip" begin
        for specimen in list_valid_specimens("BAM")
            filepath = joinpath(bamdir, filename(specimen))
            mktemp() do path, _
                # copy
                if hastags(specimen) && in("bai", tags(specimen))
                    reader = open(BAM.Reader, filepath, index=filepath * ".bai")
                else
                    reader = open(BAM.Reader, filepath)
                end
                header_original = header(reader)
                writer = BAM.Writer(BGZFStream(path, "w"), BAM.header(reader, fillSQ=isempty(findall(header(reader), "SQ"))))
                records = BAM.Record[]
                for record in reader
                    push!(records, record)
                    write(writer, record)
                end
                close(reader)
                close(writer)
                reader = open(BAM.Reader, path)
                @test header(reader) == header_original
                @test compare_records(collect(reader), records)
                close(reader)
            end
        end
    end
    @testset "In-Place-Reading Pattern" begin
        file_bam = joinpath(bamdir, "ce#5b.bam")
        records = open(collect, BAM.Reader, file_bam)
        reader = open(BAM.Reader, file_bam)
        record = BAM.Record()
        i = 0
        while !eof(reader)
            empty!(record) # Reset the record.
            read!(reader, record)
            i = i + 1
            @test records[i] == record
        end
        close(reader)
    end
    @testset "Random access" begin
        filepath = joinpath(bamdir, "GSE25840_GSM424320_GM06985_gencode_spliced.head.bam")
        reader = open(BAM.Reader, filepath, index=filepath * ".bai")
        @test isa(eachoverlap(reader, "chr1", 1:100), BAM.OverlapIterator)
        @test isa(eachoverlap(reader, GenomicFeatures.Interval("chr1", 1, 100)), BAM.OverlapIterator)
        # expected values are counted using samtools
        for (refname, interval, expected) in [
                ("chr1", 1_000:10000,      21),
                ("chr1", 8_000:10000,      20),
                ("chr1", 766_000:800_000, 142),
                ("chr1", 786_000:800_000, 1),
                ("chr1", 796_000:800_000, 0)]
            intsect = eachoverlap(reader, refname, interval)
            @test eltype(intsect) == BAM.Record
            @test count(_ -> true, intsect) == expected
            # check that the intersection iterator is stateless
            @test count(_ -> true, intsect) == expected
        end
        # randomized tests
        for n in 1:50
            refindex = 1
            refname = "chr1"
            range = randrange(1:1_000_000)
            seekstart(reader)
            # linear scan
            expected = filter(collect(reader)) do record
                BAM.compare_intervals(record, (refindex, range)) == 0
            end
            # indexed scan
            actual = collect(eachoverlap(reader, refname, range))
            @test compare_records(actual, expected)
        end
        close(reader)
        filepath = joinpath(bamdir, "R_12h_D06.uniq.q40.bam")
        reader = open(BAM.Reader, filepath, index=filepath * ".bai")
        @test isempty(collect(eachoverlap(reader, "chr19", 5823708:5846478)))
        close(reader)
    end
 end
--- a/test/test_sam.jl
+++ b/test/test_sam.jl
@ -0,0 +1,198 @@
@testset "SAM" begin
    samdir = path_of_format("SAM")
    @testset "MetaInfo" begin
        metainfo = SAM.MetaInfo()
        @test !isfilled(metainfo)
        @test occursin("not filled", repr(metainfo))
        metainfo = SAM.MetaInfo("CO", "some comment (parens)")
        @test isfilled(metainfo)
        @test string(metainfo) == "@CO\tsome comment (parens)"
        @test occursin("CO", repr(metainfo))
        @test SAM.tag(metainfo) == "CO"
        @test SAM.value(metainfo) == "some comment (parens)"
        @test_throws ArgumentError keys(metainfo)
        @test_throws ArgumentError values(metainfo)
        metainfo = SAM.MetaInfo("HD", ["VN" => "1.0", "SO" => "coordinate"])
        @test isfilled(metainfo)
        @test string(metainfo) == "@HD\tVN:1.0\tSO:coordinate"
        @test occursin("HD", repr(metainfo))
        @test SAM.tag(metainfo) == "HD"
        @test SAM.value(metainfo) == "VN:1.0\tSO:coordinate"
        @test keys(metainfo) == ["VN", "SO"]
        @test values(metainfo) == ["1.0", "coordinate"]
        @test SAM.keyvalues(metainfo) == ["VN" => "1.0", "SO" => "coordinate"]
        @test haskey(metainfo, "VN")
        @test haskey(metainfo, "SO")
        @test !haskey(metainfo, "GO")
        @test metainfo["VN"] == "1.0"
        @test metainfo["SO"] == "coordinate"
        @test_throws KeyError metainfo["GO"]
    end
    @testset "Header" begin
        header = SAM.Header()
        @test isempty(header)
        push!(header, SAM.MetaInfo("@HD\tVN:1.0\tSO:coordinate"))
        @test !isempty(header)
        @test length(header) == 1
        push!(header, SAM.MetaInfo("@CO\tsome comment"))
        @test length(header) == 2
        @test isa(collect(header), Vector{SAM.MetaInfo})
    end
    @testset "Record" begin
        record = SAM.Record()
        @test !isfilled(record)
        @test !SAM.ismapped(record)
        @test repr(record) == "XAM.SAM.Record: <not filled>"
        @test_throws ArgumentError SAM.flag(record)
        record = SAM.Record("r001\t99\tchr1\t7\t30\t8M2I4M1D3M\t=\t37\t39\tTTAGATAAAGGATACTG\t*")
        @test isfilled(record)
        @test occursin(r"^XAM.SAM.Record:\n", repr(record))
        @test SAM.ismapped(record)
        @test SAM.isprimary(record)
        @test SAM.hastempname(record)
        @test SAM.tempname(record) == "r001"
        @test SAM.hasflag(record)
        @test SAM.flag(record) === UInt16(99)
        @test SAM.hasrefname(record)
        @test SAM.refname(record) == "chr1"
        @test SAM.hasposition(record)
        @test SAM.position(record) === 7
        @test SAM.hasmappingquality(record)
        @test SAM.mappingquality(record) === UInt8(30)
        @test SAM.hascigar(record)
        @test SAM.cigar(record) == "8M2I4M1D3M"
        @test SAM.hasnextrefname(record)
        @test SAM.nextrefname(record) == "="
        @test SAM.hasnextposition(record)
        @test SAM.nextposition(record) === 37
        @test SAM.hastemplength(record)
        @test SAM.templength(record) === 39
        @test SAM.hassequence(record)
        @test SAM.sequence(record) == dna"TTAGATAAAGGATACTG"
        @test !SAM.hasquality(record)
        @test_throws MissingFieldException SAM.quality(record)
    end
    @testset "Reader" begin
        reader = open(SAM.Reader, joinpath(samdir, "ce#1.sam"))
        @test isa(reader, SAM.Reader)
        @test eltype(reader) === SAM.Record
        # header
        h = header(reader)
        @test string.(findall(header(reader), "SQ")) == ["@SQ\tSN:CHROMOSOME_I\tLN:1009800"]
        # first record
        record = SAM.Record()
        read!(reader, record)
        @test SAM.ismapped(record)
        @test SAM.refname(record) == "CHROMOSOME_I"
        @test SAM.position(record) == leftposition(record) == 2
        @test SAM.rightposition(record) == rightposition(record) == 102
        @test SAM.tempname(record) == seqname(record) == "SRR065390.14978392"
        @test SAM.sequence(record) == sequence(record) == dna"CCTAGCCCTAACCCTAACCCTAACCCTAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAA"
        @test SAM.sequence(String, record)          ==    "CCTAGCCCTAACCCTAACCCTAACCCTAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAAGCCTAA"
        @test SAM.seqlength(record) == 100
        @test SAM.quality(record)         == (b"#############################@B?8B?BA@@DDBCDDCBC@CDCDCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC" .- 33)
        @test SAM.quality(String, record) ==   "#############################@B?8B?BA@@DDBCDDCBC@CDCDCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC"
        @test SAM.flag(record) == 16
        @test SAM.cigar(record) == "27M1D73M"
        @test SAM.alignment(record) == Alignment([
            AlignmentAnchor(  0,   1, OP_START),
            AlignmentAnchor( 27,  28, OP_MATCH),
            AlignmentAnchor( 27,  29, OP_DELETE),
            AlignmentAnchor(100, 102, OP_MATCH)])
        @test record["XG"] == 1
        @test record["XM"] == 5
        @test record["XN"] == 0
        @test record["XO"] == 1
        @test record["AS"] == -18
        @test record["XS"] == -18
        @test record["YT"] == "UU"
        @test eof(reader)
        close(reader)
        # rightposition (also implicitly alignlength)
        records = collect(open(SAM.Reader, joinpath(samdir, "ce#5b.sam")))
        @test SAM.rightposition(records[6]) == rightposition(records[6]) == 83
        # iterator
        @test length(collect(open(SAM.Reader, joinpath(samdir, "ce#1.sam")))) == 1
        @test length(collect(open(SAM.Reader, joinpath(samdir, "ce#2.sam")))) == 2
        # IOStream
        @test length(collect(SAM.Reader(open(joinpath(samdir, "ce#1.sam"))))) == 1
        @test length(collect(SAM.Reader(open(joinpath(samdir, "ce#2.sam"))))) == 2
    end
    @testset "Round trip" begin
        function compare_records(xs, ys)
            if length(xs) != length(ys)
                return false
            end
            for (x, y) in zip(xs, ys)
                if x.data[x.filled] != y.data[y.filled]
                    return false
                end
            end
            return true
        end
        for specimen in list_valid_specimens("SAM")
            filepath = joinpath(samdir, filename(specimen))
            mktemp() do path, io
                # copy
                reader = open(SAM.Reader, filepath)
                header_original = header(reader)
                writer = SAM.Writer(io, header_original)
                records = SAM.Record[]
                for record in reader
                    push!(records, record)
                    write(writer, record)
                end
                close(reader)
                close(writer)
                reader = open(SAM.Reader, path)
                @test header(reader) == header_original
                @test compare_records(collect(reader), records)
                close(reader)
            end
        end
    end
    @testset "In-Place-Reading Pattern" begin
        file_sam = joinpath(samdir, "ce#5b.sam")
        records = open(collect, SAM.Reader, file_sam)
        reader = open(SAM.Reader, file_sam)
        record = SAM.Record()
        i = 0
        while !eof(reader)
            empty!(record) # Reset the record.
            read!(reader, record)
            i = i + 1
            @test records[i] == record
        end
        close(reader)
    end
 end
		`@ -1,2 +0,0 @@`
			`[deps]`
			`Coverage = "a2441757-f6aa-5fb2-8edb-039e3f45d037"`