#parser.add_argument('-o', default="Data/RNA-Seq/sue1-mRNA-Seq/set3/Thalyrata/sue_mRNA_set3_sw_aln_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="Data/RNA-Seq/Col_RNA-Seq/Thalyrata/SRR493036_aln_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_01nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_02nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_03nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_04nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_05nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_06nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_07nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_08nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
#parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_09nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
parser.add_argument('-o', default="/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_10nc_gene_count.tsv", type=str, help='Output file for gene-mapped read counts', metavar='OutputFile')
args = parser.parse_args()
i_file = args.i
gff_file = args.gff
o_file = args.o
return(i_file, gff_file, o_file)
i_file, gff_file, o_file = command_line()
#gff_obj = GFF.Parse_Genes(gff_file, "AtChr1;AtChr2;AtChr3;AtChr4;AtChr5")
gff_obj = GFF.parse_genes(gff_file, "Chr1;Chr2;Chr3;Chr4;Chr5")
gene_counts = SAM.reads_per_gene(i_file, gff_obj)
with open(o_file, 'w') as outfile:
outline = "Gene\tReads_mapped\n"
outfile.write(outline)
for gene, count in sorted(gene_counts.items(), key = lambda gene_counts: gene_counts[1], reverse=True):
outline = str(gene) + "\t" + str(count) + "\n"
outfile.write(outline)
dup_file = args.d
gff_file = args.gff
adj_value = args.adj
use_random = args.r
sun_genes_filename = args.o
return(pileup_file, dup_file, gff_file, adj_value, use_random, sun_genes_filename)
pileup_file, dup_file, gff_file, adj_value, use_random, sun_genes_filename = command_line()
dup_list = []
with open(dup_file) as infile:
for line in infile:
line = line.strip()
dup_list.append(line)
gff_genes_dict = GFF.parse_genes(gff_file)
if adj_value > 0:
for gene_name, [chr, start_pos, end_pos] in gff_genes_dict.gene_dict.items():
start_pos = start_pos - adj_value
end_pos = end_pos + adj_value
gff_genes_dict.gene_dict[gene_name] = [chr, start_pos, end_pos]
if use_random == "Y":
# Construct a list of randomly selected genes to replace the list of duplicated genes
#dup_list = sample(gff_genes_dict.gene_dict.keys(),len(dup_list))
dup_list = gff_genes_dict.gene_dict.keys() # Delete me soon
dup_positions = ";".join([chr + ":" + str(s_pos) + "-" + str(e_pos) for gene_name, [chr,s_pos,e_pos] in sorted(gff_genes_dict.gene_dict.items(), key = lambda x: (x[1][0], x[1][1]) ) if gene_name in dup_list ] )
dup_pileup = Pileup.parse(pileup_file, False, dup_positions)
suns_in_gene = Counter()
suns_in_gene_prob = {}
'-o',
default=
"/home/mattchat/SuecicaDupSearch/Data/RNA-Seq/Col0_leaf_RNA-seq/libWhan_10nc_gene_count.tsv",
type=str,
help='Output file for gene-mapped read counts',
metavar='OutputFile')
args = parser.parse_args()
i_file = args.i
gff_file = args.gff
o_file = args.o
return (i_file, gff_file, o_file)
i_file, gff_file, o_file = command_line()
#gff_obj = GFF.Parse_Genes(gff_file, "AtChr1;AtChr2;AtChr3;AtChr4;AtChr5")
gff_obj = GFF.parse_genes(gff_file, "Chr1;Chr2;Chr3;Chr4;Chr5")
parse_sam = SAM.Parse(i_file)
parse_sam.reads_per_gene(gff_obj)
parse_sam.start()
gene_counts = parse_sam.get_reads_per_gene()
with open(o_file, 'w') as outfile:
outline = "Gene\tReads_mapped\n"
outfile.write(outline)
for gene, count in sorted(gene_counts.items(),
key=lambda gene_counts: gene_counts[1],
reverse=True):
outline = str(gene) + "\t" + str(count) + "\n"
outfile.write(outline)
