blob: ac8d0bbad8096c1b10a1542b5abdfcb36139de2b (
plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
|
with import <bionix> {};
with lib; let
fetchlocal = path:
pkgs.stdenv.mkDerivation {
name = baseNameOf path;
buildCommand = "ln -s ${path} $out";
};
fetchfq = attrs: types.tagFiletype (types.filetype.fq {}) (fetchlocal attrs);
fetchfa = attrs: types.tagFiletype (types.filetype.fa {}) (fetchlocal attrs);
ref = fetchfa ./examples/ref.fa;
alignWithRG = aligner: rg: x:
nameSort (aligner {
inherit ref;
RG = {
ID = rg;
SM = rg;
};
}
x);
sort = sambamba.sort {};
nameSort = sambamba.sort {nameSort = true;};
flagstat = samtools.flagstat {};
check-fastqc = fastqc.check {};
check-fastp = fastp.check {};
callVariants = strelka.callSomatic {};
markdup = samtools.markdup {};
fixmate = samtools.fixmate {};
tnpair = {
tumour = {
name = "mysample1";
files = {
input1 = fetchfq ./examples/sample1-1.fq;
input2 = fetchfq ./examples/sample1-2.fq;
};
};
normal = {
name = "mysample2";
files = {
input1 = fetchfq ./examples/sample2-1.fq;
input2 = fetchfq ./examples/sample2-2.fq;
};
};
};
processPair = {
tumour,
normal,
}: rec {
alignments = mapAttrs (_: x: markdup (sort (fixmate (alignWithRG bwa.align x.name x.files)))) {inherit normal tumour;};
bowtie-alignments = mapAttrs (_: x: markdup (sort (fixmate (alignWithRG bowtie.align x.name x.files)))) {inherit normal tumour;};
bwa2-alignments = mapAttrs (_: x: markdup (sort (fixmate (alignWithRG bwa.mem2 x.name x.files)))) {inherit normal tumour;};
variants = callVariants alignments;
octopusSomatic = octopus.callSomatic {} {
inherit (alignments) normal;
tumours = [alignments.tumour];
};
glvariants = strelka.call {} (builtins.attrValues alignments);
platypusVars = platypus.call {} (builtins.attrValues alignments);
octopusVars = octopus.call {} (builtins.attrValues alignments);
shards = map (x: nameSort (bwa.align {inherit ref;} x)) (shard.fastQPair 2 normal.files);
};
tnpairResult = processPair tnpair;
cnvkitResults = rec {
cnvs = cnvkit.callCNV {} (with tnpairResult.alignments; {
normals = [normal];
tumours = [tumour];
});
plot = cnvkit.scatterPlot {} cnvs.out1;
};
alignments = {
"bowtie-normal.bam" = bowtie.align {inherit ref;} tnpair.normal.files;
"subread.bam" = subread.align {inherit ref;} tnpair.normal.files;
"last.maf" = lastal.align {inherit ref;} tnpair.normal.files.input1;
"whisper.bam" = whisper.align {inherit ref;} tnpair.normal.files;
"bwa-mem.bam" = bwa.mem {inherit ref;} tnpair.normal.files;
"bwa-mem2.bam" = bwa.mem2 {inherit ref;} tnpair.normal.files;
"minimap2-normal.bam" =
minimap2.align {
inherit ref;
preset = "sr";
}
tnpair.normal.files;
"snap-normal.bam" = snap.align {inherit ref;} tnpair.normal.files;
"${tnpair.tumour.name}.flagstat" = flagstat tnpairResult.alignments.tumour;
"hisat2-normal.bam" = hisat2.align {inherit ref;} tnpair.normal.files;
};
testNaming = linkOutputs {
crai = samtools.index {} (samtools.view {outfmt = types.toCram;} tnpairResult.alignments.tumour);
kallisto = kallisto.quant {inherit ref;} (attrValues tnpair.tumour.files);
facets = facets.callCNV {vcf = tnpairResult.platypusVars;} (with tnpairResult.alignments; [normal tumour]);
cnvkit = cnvkitResults.cnvs;
"cnvkit.pdf" = cnvkitResults.plot;
"octopus.vcf" = tnpairResult.octopusVars;
"octopus-somatic.vcf" = tnpairResult.octopusSomatic;
strelka-indels = tnpairResult.variants.indels;
"strelka.snvs.vcf" = tnpairResult.variants.snvs;
"strelka.gl.vcf" = tnpairResult.glvariants;
delly = delly.call {} (with tnpairResult.alignments; [normal tumour]);
manta = manta.call {} (with tnpairResult.alignments; {normals = [normal tumour];});
mantaTN = manta.call {} (with tnpairResult.alignments; {
normals = [normal];
inherit tumour;
});
mantaT = manta.call {} (with tnpairResult.alignments; {inherit tumour;});
gridss = gridss.callVariants {} (with tnpairResult.alignments; [normal tumour]);
gridss2 = gridss.call (with tnpairResult.alignments; [normal tumour]);
gridss3 = gridss.callAndAssemble (with tnpairResult.alignments; [normal tumour]);
gridssSomatic = gridss.filterSomatic {normalName = "mysample2";} (gridss.call (with tnpairResult.alignments; [normal tumour]));
"merged-shards.bam" = samtools.merge {} tnpairResult.shards;
"merged.bam" = samtools.merge {} [tnpairResult.alignments.tumour tnpairResult.alignments.normal];
"merged-namesorted.bam" = samtools.merge {} [(nameSort tnpairResult.alignments.tumour) (nameSort tnpairResult.alignments.normal)];
"${tnpair.tumour.name}.cram" = samtools.view {outfmt = types.toCram;} tnpairResult.alignments.tumour;
"${tnpair.tumour.name}-targeted.cram" =
samtools.view {
outfmt = types.toCram;
targets = "abcd\t10\t100";
}
tnpairResult.alignments.tumour;
"${tnpair.tumour.name}.fastqc.1" = check-fastqc tnpair.tumour.files.input1;
"${tnpair.tumour.name}.fastp" = check-fastp tnpair.tumour.files;
snver = snver.call {ploidy = 1;} tnpairResult.alignments;
mosdepth = mosdepth.plot {} {
inputs = mapAttrsToList (_: mosdepth.depth {}) tnpairResult.alignments;
names = ["seq1" "seq2"];
};
mosdepth-targeted = mosdepth.plot {} {
inputs = mapAttrsToList (_: mosdepth.depth {targets = ["abc\t10\t100"];}) tnpairResult.alignments;
names = ["seq1" "seq2"];
};
xenomapper = xenomapper.allocate {} {
primary = nameSort tnpairResult.alignments.tumour;
secondary = nameSort tnpairResult.alignments.tumour;
};
quip = with quip; unquip {} (quip {} tnpairResult.alignments.tumour);
genmap = genmap.calcmap {} ref;
inherit alignments;
};
in
testNaming
|