WDL学习笔记
2019-12-16 本文已影响0人
生信摆渡
官网是用来学习的最好的地方(然而我也没怎么看...)!
WDL是什么?
- WDL是由
Broad Institute开发的一种流程开发语言,全称workflow description language。
WDL编辑器
使用Sublime Txet就可以,安装WDL插件就可以漂亮地显示WDL代码了。
一个WDL代码示例
这是一个我老板用来跑RRBS的pipeline,以此来学习。
workflow bismarkRRBS {
String file_basename
String masterFolder
File Fastq_R1
File? Fastq_R2
Boolean paired
Boolean MspI
Int clip_R1
Int? clip_R2
Int three_prime_clip_R1
Int? three_prime_clip_R2
String genome_folder
Int threadN
String targetFolder = masterFolder + "/" + file_basename + "/"
call makeDir as md1 {
input:
targetFolder = targetFolder
}
call makeDir as md2 {
input:
targetFolder = md1.outFolder + "report"
}
call trim_galore {
input:
Fastq_R1 = Fastq_R1,
Fastq_R2 = Fastq_R2,
clip_R1 = clip_R1,
clip_R2 = clip_R2,
three_prime_clip_R1 = three_prime_clip_R1,
three_prime_clip_R2 = three_prime_clip_R2,
paired = paired,
MspI = MspI,
targetFolder = md1.outFolder,
reportFolder = md2.outFolder,
file_basename = file_basename
}
call bismark {
input:
R1_trimmed = trim_galore.R1_trimmed,
R2_trimmed = trim_galore.R2_trimmed,
paired = paired,
threadN = threadN,
file_basename = file_basename,
genome_folder = genome_folder,
targetFolder = md1.outFolder,
reportFolder = md2.outFolder
}
call processBam {
input:
file_basename = file_basename,
alignedBam = bismark.alignedBam,
genome_folder = genome_folder,
alignedReport = bismark.alignedReport,
paired = paired,
threadN = threadN,
targetFolder = md1.outFolder,
reportFolder = md2.outFolder
}
output {
File DedupBam = processBam.DedupBam
File DedupBam_index = processBam.DedupBam_index
}
}
task trim_galore {
File Fastq_R1
File? Fastq_R2
Boolean paired
Boolean MspI
Int clip_R1
Int? clip_R2
Int three_prime_clip_R1
Int? three_prime_clip_R2
String targetFolder
String reportFolder
String file_basename
String s1 = if paired then "--paired" else ""
String s2 = s1 + if (clip_R1 > 0) then " --clip_R1 " + clip_R1 else ""
String s3 = s2 + if (three_prime_clip_R1 > 0) then " --three_prime_clip_R1 " + three_prime_clip_R1 else ""
String s4 = s3 + if(paired && clip_R2 > 0) then " --clip_R2 " + clip_R2 else ""
String s5 = s4 + if(MspI) then " --rrbs " else ""
String commandText = s5 + if(paired && three_prime_clip_R2 > 0) then " --three_prime_clip_R2 " + three_prime_clip_R2 else ""
command {
mkdir trimmed
trim_galore ${commandText} -o trimmed --basename ${file_basename} ${Fastq_R1} ${Fastq_R2}
cp trimmed/*report.txt ${reportFolder}
}
output{
File R1_trimmed = if paired then "trimmed/${file_basename}_R1_val_1.fq.gz" else "trimmed/${file_basename}_trimmed.fq.gz"
File R2_trimmed = if paired then "trimmed/${file_basename}_R2_val_2.fq.gz" else "/dev/null"
}
}
task bismark {
File R1_trimmed
File? R2_trimmed
Boolean paired
Int threadN
String file_basename
String genome_folder
String targetFolder
String reportFolder
String commandText = if paired then " -1 " + R1_trimmed + " -2 " + R2_trimmed else R1_trimmed
command {
bismark --genome_folder ${genome_folder} \
${commandText} \
-p ${threadN} \
--rg_id ${file_basename} \
--rg_sample ${file_basename} \
--basename ${file_basename} \
--temp_dir temp_dir \
-o aligned
cp aligned/*report.txt ${reportFolder}
}
output {
File alignedBam = glob("aligned/*.bam")[0]
File alignedReport = glob("aligned/*report.txt")[0]
}
}
task processBam {
File alignedBam
File alignedReport
File genome_folder
String file_basename
Boolean paired
Int threadN
String targetFolder
String reportFolder
String commandText = if paired then "-p" else "-s"
command {
mkdir Dedup
mkdir Call
sambamba sort --natural-sort -m 8GB --tmpdir temp_dir -t ${threadN} -o ${file_basename}_nSorted.bam ${alignedBam}
bismark_methylation_extractor ${commandText} --comprehensive --bedGraph --gzip --genome_folder ${genome_folder} \
--multicore ${threadN} \
-o Call ${file_basename}_nSorted.bam
mv Call/*splitting_report.txt ${file_basename}_splitting_report.txt
mv Call/*M-bias.txt ${file_basename}_M-bias.txt
bismark2report --alignment_report ${alignedReport} \
--mbias_report ${file_basename}_M-bias.txt \
--splitting_report ${file_basename}_splitting_report.txt \
-o ${file_basename}_report.html
sambamba sort -m 8GB --tmpdir temp_dir -t ${threadN} -o ${file_basename}.bam ${file_basename}_nSorted.bam
cp ${file_basename}.bam ${targetFolder}
cp ${file_basename}.bam.bai ${targetFolder}
cp ${file_basename}*.txt ${reportFolder}
cp ${file_basename}_report.html ${targetFolder}
cp -R Call ${targetFolder}
}
output {
File DedupBam = "${file_basename}.bam"
File DedupBam_index = "${file_basename}.bam.bai"
}
}
task makeDir {
String targetFolder
command {
if [ ! -d $targetFolder ] ; then
mkdir ${targetFolder}
else
rm -rf ${targetFolder}
mkdir ${targetFolder}
fi
}
output {
String outFolder = "${targetFolder}"
}
}
WDL使用流程
WDL 脚本核心结构包括 5 个基本组件:workflow, task, call, command 以及 output。workflow 即是描述整个流程的框架,其中调用( call )了不同的 task 。每一个 task 中又定义了各自的命令 command 和输出结果 output,位于workflow 外部。通过json文件传入参数。
结构概览:
# workflow部分
workflow your_workflow_name {
String var1
Int var2
File var3
...
call task_name1 {
input:
var1 = ...
...
}
...
output {
...
}
}
# task部分
task task_name1 {
String var1
Int var2
File var3
...
command {
...
}
output{
...
{
{
...
编写workflow部分
这一部分就是编写你的整个流程,包括声明变量、调用(call)任务(task),定义输出等部分。
语法结构为:
workflow workflow_name {
var_type1 var1
var_type2 var2
...
call task1 {
input:
...
}
call task1 {
input:
...
}
output {
File ...
# 其实不太理解workflow部分的output有什么作用
}
在 WDL 中共有五种基本变量类型:
-
String表示字符串 -
Float为浮点数 -
Int为整数 -
Boolean为布尔型 -
File表示文件
创建变量时,必须声明变量类型:
String str1 = "hello"
另外,WDL 还支持复合类型:
-
Array为数组 -
Map为字典 -
Object为对象
有些声明加上了一个 ? ,这表示该变量为可选变量。
使用变量:
${var_name}字符可以使用
+直接相加,合并后的字符之间无空格,相对应R语言的paste0()函数if语句:
if xxx then xxx else,可读性很高
按照示例代码解释一遍:
# 创建名为bismarkRRBS的workflow
workflow bismarkRRBS {
# 声明所有要使用的变量
String file_basename
String masterFolder
File Fastq_R1
File? Fastq_R2
Boolean paired
Boolean MspI
Int clip_R1
Int? clip_R2
Int three_prime_clip_R1
Int? three_prime_clip_R2
String genome_folder
Int threadN
String targetFolder = masterFolder + "/" + file_basename + "/"
# 调用任务。要读懂call部分,还是要先看定义的task部分
call makeDir as md1 {
input:
targetFolder = targetFolder
}
call makeDir as md2 {
input:
targetFolder = md1.outFolder + "report"
}
call trim_galore {
input:
Fastq_R1 = Fastq_R1,
Fastq_R2 = Fastq_R2,
clip_R1 = clip_R1,
clip_R2 = clip_R2,
three_prime_clip_R1 = three_prime_clip_R1,
three_prime_clip_R2 = three_prime_clip_R2,
paired = paired,
MspI = MspI,
targetFolder = md1.outFolder,
reportFolder = md2.outFolder,
file_basename = file_basename
}
call bismark {
input:
R1_trimmed = trim_galore.R1_trimmed,
R2_trimmed = trim_galore.R2_trimmed,
paired = paired,
threadN = threadN,
file_basename = file_basename,
genome_folder = genome_folder,
targetFolder = md1.outFolder,
reportFolder = md2.outFolder
}
call processBam {
input:
file_basename = file_basename,
alignedBam = bismark.alignedBam,
genome_folder = genome_folder,
alignedReport = bismark.alignedReport,
paired = paired,
threadN = threadN,
targetFolder = md1.outFolder,
reportFolder = md2.outFolder
}
output {
File DedupBam = processBam.DedupBam
File DedupBam_index = processBam.DedupBam_index
}
}
编写task部分
task部分语法:
task task_name {
var_type1 var1
...
command {
...
}
output {
...
}
}
task的output部分可以被后面的task所调用,不用output声明则不能被调用。
以结构最简单的创建目录task为例:
# 创建名为makeDir的task
task makeDir {
# 声明该task中要使用的变量
String targetFolder
# 编写该task的命令
command {
if [ ! -d $targetFolder ] ; then
mkdir ${targetFolder}
else
rm -rf ${targetFolder}
mkdir ${targetFolder}
fi
}
# 该task的定义了名为outFolder内容为"${targetFolder}"的一个变量
output {
String outFolder = "${targetFolder}"
}
}
创建json文件
编写好的wdl脚本只是一个pipeline,没有具体(specific)的参数。所用使用json文件进行传参。json文件以.json为后缀,其格式为:
{
“workflow_name.var1":"specific_var1",
“workflow_name.var1":"specific_var2",
...
}
需要注意的是,除了最后一行不需要加逗号,其余行必须加逗号。
创建json文件的代码:
# 创建包含配置信息的list
xList = list(var1 = ...,
var2 = ...,
var3 = ...,
...)
# 编写writeJSON函数
writeJSON <- function(xList, mainTag, fileOut){
names(xList) = paste0(mainTag, ".", names(xList))
NM = names(xList)
OUT = file(fileOut, "w")
cat("{\n", file = OUT, append = FALSE, sep = "")
for(i in 1:length(xList)){
value = xList[[i]]
if(i < length(xList))
cat("\t\"", NM[i], "\":\"", value, "\",\n", file=OUT, append = TRUE, sep = "")
else
cat("\t\"", NM[i], "\":\"", value, "\"\n", file=OUT, append = TRUE, sep = "")
}
cat("}\n", file = OUT, append = TRUE, sep = "")
close(OUT)
}
JSON = paste0("JSON/", Tag, ".json")
writeJSON(xList, "workflow_name", JSON)
Tag指的是数据样本的Tag。
writeJSON函数可以写到另外一个文件中,然后再source调用比较方便。
运行WDL脚本
不需要安装,只需要用调用java包即可。
wget https://github.com/broadinstitute/cromwell/releases/download/47/cromwell-47.jar
java -jar cromwell-47.jar run test.wdl --inputs test.json
递交任务
通过使用qsub命令来对资源使用限量进行设置,并重定向stderr和stdout。
cmd = "java -jar cromwell-47.jar run test.wdl --inputs test.json"
cmd = paste0("echo ", "\"", cmd, "\"")
cmd = paste(cmd, "| qsub -N", jobName)
cmd = paste(cmd, "-l h_cpu=720:00:00 -V -m n -cwd -pe smp", Ncpu)
cmd = paste0(cmd, " -l h_vmem=", Memory, "G")
cmd = paste(cmd, "-o", outFile, "-e", errFile)
systerm(cmd)
同样可以写成一个函数,source调用。
多样本处理
以上讲的是单个或单组样本的workflow,但一般情况下,会得到多个raw_data,这样就需要循环上面的workflow。写个for循环即可,从1到样本的数量循环,提取每个样本的Tag,并以此作为jobName和要保存的文件的文件夹名。
