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R语言源代码
####################################
Arg<-commandArgs(TRUE)
###########input###############################################
individual_analysis<- c(Arg[1])
reprication<-c(Arg[2])
filter_value<-c(Arg[3])
population_structure<-c(Arg[4]) #RIL or F2
depth_analysis<-c(1:300)
###########input###############################################
###########genotype#############################
genotype<-function(){
count<-0
if (population_structure=="RIL"){
x<-runif(1)
if (x<=0.5){
count<-1
}else{
count<-0
}
}else{
for(i in 1:2){
x<-runif(1)
if (x<=0.5){
number<-0.5
}else{
number<-0
}
if(number == 0.5){
count<- count+0.5
}
}
}
return(count)
}
############################################################
###########caluclate of genotype ratio#########################
individuals_genotype<-function(number_of_total_individuals){
ratio_of_genotype<-c()
for(i in 1:number_of_total_individuals){
ratio_of_genotype<-c(ratio_of_genotype,genotype())
}
return(mean(ratio_of_genotype))
}
############################################################
###########SNP_index_caluclation#########################
snp_index<-function(read_depth,ratio_of_genotype_in_the_population_in_A){
x1<-rbinom(1,read_depth,ratio_of_genotype_in_the_population_in_A)
return(x1/read_depth)
}
############################################################
####################################
for (key_individual in individual_analysis){
individual_number<-key_individual
depth_data<-c()
p_l_data_95<-c()
p_h_data_95<-c()
p_l_data_99<-c()
p_h_data_99<-c()
for (key_depth in depth_analysis){
depth_data<-c(depth_data,key_depth)
depth<-key_depth
data_of_delta_snp_index<-c()
for(i in 1:reprication){
##########gene_frequency######################
ratio_of_genotype_in_the_population_in_A<-individuals_genotype(key_individual)
Snp_index_of_A<-snp_index(key_depth,ratio_of_genotype_in_the_population_in_A)
ratio_of_genotype_in_the_population_in_B<-individuals_genotype(key_individual)
Snp_index_of_B<-snp_index(key_depth,ratio_of_genotype_in_the_population_in_B)
if(Snp_index_of_A >= filter_value | Snp_index_of_B >=filter_value){
delta_snp_index<-Snp_index_of_A-Snp_index_of_B
data_of_delta_snp_index<-c(data_of_delta_snp_index,delta_snp_index)
}
##########gene_frequency######################
}
order_data_of_delta_snp_index<-sort(data_of_delta_snp_index)
length_data_of_delta_snp_index<-length(data_of_delta_snp_index)
##########snp_index_probabirity_0.05######################
snp_cutoff_low_0.025<-order_data_of_delta_snp_index[floor(0.025*length_data_of_delta_snp_index)]
snp_cutoff_up_0.975<-order_data_of_delta_snp_index[ceiling(0.975*length_data_of_delta_snp_index)]
p_l_data_95<-c(p_l_data_95,snp_cutoff_low_0.025)
p_h_data_95<-c(p_h_data_95,snp_cutoff_up_0.975)
##########snp_index_probabirity_0.05######################
##########snp_index_probabirity_0.01######################
if (floor(0.005*length_data_of_delta_snp_index)>0){
snp_cutoff_low_0.005<-order_data_of_delta_snp_index[floor(0.005*length_data_of_delta_snp_index)]
}else{
snp_cutoff_low_0.005<-order_data_of_delta_snp_index[1]
}
if (ceiling(0.995*length_data_of_delta_snp_index)<length_data_of_delta_snp_index){
snp_cutoff_up_0.995<-order_data_of_delta_snp_index[ceiling(0.995*length_data_of_delta_snp_index)]
}else{
snp_cutoff_up_0.995<-order_data_of_delta_snp_index[length_data_of_delta_snp_index]
}
p_l_data_99<-c(p_l_data_99,snp_cutoff_low_0.005)
p_h_data_99<-c(p_h_data_99,snp_cutoff_up_0.995)
##########snp_index_probabirity_0.01######################
}
FINAL_DATA<-data.frame(DEPTH=depth_data,P_L_95=p_l_data_95,P_H_95=p_h_data_95,P_L_99=p_l_data_99,P_H_99=p_h_data_99)
table_name<-paste("./",population_structure,"_",individual_number,"_individuals.txt",sep="")
write.table(FINAL_DATA,table_name,sep="\t", quote=F, append=F,row.name=F)
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