Mercurial > repos > brigidar > select_product
view helper.py @ 6:8eb1751dcfe7 draft
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author | brigidar |
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date | Thu, 08 Oct 2015 23:05:56 -0400 |
parents | 738310b31de0 |
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#!/usr/bin/env python """ Common utility functions """ import os import re import sys import bz2 import gzip import numpy def init_gene(): """ Initializing the gene structure """ gene_det = [('id', 'f8'), ('anno_id', numpy.dtype), ('confgenes_id', numpy.dtype), ('name', 'S25'), ('source', 'S25'), ('gene_info', numpy.dtype), ('alias', 'S15'), ('name2', numpy.dtype), ('strand', 'S2'), ('score', 'S15'), ('chr', 'S15'), ('chr_num', numpy.dtype), ('paralogs', numpy.dtype), ('start', 'f8'), ('stop', 'f8'), ('transcripts', numpy.dtype), ('transcript_type', numpy.dtype), ('transcript_info', numpy.dtype), ('transcript_score', numpy.dtype), ('transcript_status', numpy.dtype), ('transcript_valid', numpy.dtype), ('exons', numpy.dtype), ('exons_confirmed', numpy.dtype), ('cds_exons', numpy.dtype), ('utr5_exons', numpy.dtype), ('utr3_exons', numpy.dtype), ('tis', numpy.dtype), ('tis_conf', numpy.dtype), ('tis_info', numpy.dtype), ('cdsStop', numpy.dtype), ('cdsStop_conf', numpy.dtype), ('cdsStop_info', numpy.dtype), ('tss', numpy.dtype), ('tss_info', numpy.dtype), ('tss_conf', numpy.dtype), ('cleave', numpy.dtype), ('cleave_info', numpy.dtype), ('cleave_conf', numpy.dtype), ('polya', numpy.dtype), ('polya_info', numpy.dtype), ('polya_conf', numpy.dtype), ('is_alt', 'f8'), ('is_alt_spliced', 'f8'), ('is_valid', numpy.dtype), ('transcript_complete', numpy.dtype), ('is_complete', numpy.dtype), ('is_correctly_gff3_referenced', 'S5'), ('splicegraph', numpy.dtype) ] return gene_det def open_file(fname): """ Open the file (supports .gz .bz2) and returns the handler @args fname: input file name for reading @type fname: str """ try: if os.path.splitext(fname)[1] == ".gz": FH = gzip.open(fname, 'rb') elif os.path.splitext(fname)[1] == ".bz2": FH = bz2.BZ2File(fname, 'rb') else: FH = open(fname, 'rU') except Exception as error: sys.exit(error) return FH def add_CDS_phase(strand, cds): """ Calculate CDS phase and add to the CDS exons @args strand: feature strand information @type strand: +/- @args cds: coding exon coordinates @type cds: numpy array [[int, int, int]] """ cds_region, cds_flag = [], 0 if strand == '+': for cdspos in cds: if cds_flag == 0: cdspos = (cdspos[0], cdspos[1], 0) diff = (cdspos[1]-(cdspos[0]-1))%3 else: xy = 0 if diff == 0: cdspos = (cdspos[0], cdspos[1], 0) elif diff == 1: cdspos = (cdspos[0], cdspos[1], 2) xy = 2 elif diff == 2: cdspos = (cdspos[0], cdspos[1], 1) xy = 1 diff = ((cdspos[1]-(cdspos[0]-1))-xy)%3 cds_region.append(cdspos) cds_flag = 1 elif strand == '-': cds.reverse() for cdspos in cds: if cds_flag == 0: cdspos = (cdspos[0], cdspos[1], 0) diff = (cdspos[1]-(cdspos[0]-1))%3 else: xy = 0 if diff == 0: cdspos = (cdspos[0], cdspos[1], 0) elif diff == 1: cdspos = (cdspos[0], cdspos[1], 2) xy = 2 elif diff == 2: cdspos = (cdspos[0], cdspos[1], 1) xy = 1 diff = ((cdspos[1]-(cdspos[0]-1))-xy)%3 cds_region.append(cdspos) cds_flag = 1 cds_region.reverse() return cds_region def buildUTR(cc, ec, strand): """ Build UTR regions from a given set of CDS and exon coordiantes of a gene @args cc: coding exon coordinates @type cc: numpy array [[int, int, int]] @args ec: exon coordinates @type ec: numpy array [[int, int]] @args strand: feature strand information @type strand: +/- """ utr5 = [] utr3 = [] if strand == '+': cds_s = cc[0][0] for ex in ec: if ex[0] <= cds_s and cds_s <= ex[1]: if ex[0] != cds_s:utr5.append((ex[0], cds_s-1)) break else: utr5.append(ex) cds_e = cc[-1][1] for i in range(len(ec)): i += 1 if ec[-i][0] <= cds_e and cds_e <= ec[-i][1]: if ec[-i][1] != cds_e:utr3.append((cds_e +1, ec[-i][1])) break else: utr3.append(ec[-i]) utr3.reverse() elif strand == '-': cds_s = cc[-1][1] for i in range(len(ec)): i += 1 if ec[-i][0] <= cds_s and cds_s <= ec[-i][1]: if ec[-i][1] != cds_s:utr5.append((cds_s+1, ec[-i][1])) break else: utr5.append(ec[-i]) utr5.reverse() cds_e = cc[0][0] for ex in ec: if ex[0] <= cds_e and cds_e <= ex[1]: if ex[0] != cds_e:utr3.append((ex[0], cds_e-1)) break else: utr3.append(ex) return utr5, utr3 def make_Exon_cod(strand_p, five_p_utr, cds_cod, three_p_utr): """ Create exon cordinates from UTR's and CDS region @args strand_p: feature strand information @type strand_p: +/- @args five_p_utr: five prime utr exon coordinates @type five_p_utr: numpy array [[int, int]] @args cds_cod: coding exon coordinates @type cds_cod: numpy array [[int, int, int]] @args three_p_utr: three prime utr exon coordinates @type three_p_utr: numpy array [[int, int]] """ exon_pos = [] if strand_p == '+': utr5_start, utr5_end = 0, 0 if five_p_utr != []: utr5_start, utr5_end = five_p_utr[-1][0], five_p_utr[-1][1] cds_5start, cds_5end = cds_cod[0][0], cds_cod[0][1] jun_exon = [] if cds_5start-utr5_end == 0 or cds_5start-utr5_end == 1: jun_exon = [utr5_start, cds_5end] if len(cds_cod) == 1: five_prime_flag = 0 if jun_exon != []: five_p_utr = five_p_utr[:-1] five_prime_flag = 1 for utr5 in five_p_utr: exon_pos.append(utr5) jun_exon = [] utr3_start, utr3_end = 0, 0 if three_p_utr != []: utr3_start = three_p_utr[0][0] utr3_end = three_p_utr[0][1] if utr3_start-cds_5end == 0 or utr3_start-cds_5end == 1: jun_exon = [cds_5start, utr3_end] three_prime_flag = 0 if jun_exon != []: cds_cod = cds_cod[:-1] three_p_utr = three_p_utr[1:] three_prime_flag = 1 if five_prime_flag == 1 and three_prime_flag == 1: exon_pos.append([utr5_start, utr3_end]) if five_prime_flag == 1 and three_prime_flag == 0: exon_pos.append([utr5_start, cds_5end]) cds_cod = cds_cod[:-1] if five_prime_flag == 0 and three_prime_flag == 1: exon_pos.append([cds_5start, utr3_end]) for cds in cds_cod: exon_pos.append(cds) for utr3 in three_p_utr: exon_pos.append(utr3) else: if jun_exon != []: five_p_utr = five_p_utr[:-1] cds_cod = cds_cod[1:] for utr5 in five_p_utr: exon_pos.append(utr5) exon_pos.append(jun_exon) if jun_exon != [] else '' jun_exon = [] utr3_start, utr3_end = 0, 0 if three_p_utr != []: utr3_start = three_p_utr[0][0] utr3_end = three_p_utr[0][1] cds_3start = cds_cod[-1][0] cds_3end = cds_cod[-1][1] if utr3_start-cds_3end == 0 or utr3_start-cds_3end == 1: jun_exon = [cds_3start, utr3_end] if jun_exon != []: cds_cod = cds_cod[:-1] three_p_utr = three_p_utr[1:] for cds in cds_cod: exon_pos.append(cds) exon_pos.append(jun_exon) if jun_exon != [] else '' for utr3 in three_p_utr: exon_pos.append(utr3) elif strand_p == '-': utr3_start, utr3_end = 0, 0 if three_p_utr != []: utr3_start = three_p_utr[-1][0] utr3_end = three_p_utr[-1][1] cds_3start = cds_cod[0][0] cds_3end = cds_cod[0][1] jun_exon = [] if cds_3start-utr3_end == 0 or cds_3start-utr3_end == 1: jun_exon = [utr3_start, cds_3end] if len(cds_cod) == 1: three_prime_flag = 0 if jun_exon != []: three_p_utr = three_p_utr[:-1] three_prime_flag = 1 for utr3 in three_p_utr: exon_pos.append(utr3) jun_exon = [] (utr5_start, utr5_end) = (0, 0) if five_p_utr != []: utr5_start = five_p_utr[0][0] utr5_end = five_p_utr[0][1] if utr5_start-cds_3end == 0 or utr5_start-cds_3end == 1: jun_exon = [cds_3start, utr5_end] five_prime_flag = 0 if jun_exon != []: cds_cod = cds_cod[:-1] five_p_utr = five_p_utr[1:] five_prime_flag = 1 if three_prime_flag == 1 and five_prime_flag == 1: exon_pos.append([utr3_start, utr5_end]) if three_prime_flag == 1 and five_prime_flag == 0: exon_pos.append([utr3_start, cds_3end]) cds_cod = cds_cod[:-1] if three_prime_flag == 0 and five_prime_flag == 1: exon_pos.append([cds_3start, utr5_end]) for cds in cds_cod: exon_pos.append(cds) for utr5 in five_p_utr: exon_pos.append(utr5) else: if jun_exon != []: three_p_utr = three_p_utr[:-1] cds_cod = cds_cod[1:] for utr3 in three_p_utr: exon_pos.append(utr3) if jun_exon != []: exon_pos.append(jun_exon) jun_exon = [] (utr5_start, utr5_end) = (0, 0) if five_p_utr != []: utr5_start = five_p_utr[0][0] utr5_end = five_p_utr[0][1] cds_5start = cds_cod[-1][0] cds_5end = cds_cod[-1][1] if utr5_start-cds_5end == 0 or utr5_start-cds_5end == 1: jun_exon = [cds_5start, utr5_end] if jun_exon != []: cds_cod = cds_cod[:-1] five_p_utr = five_p_utr[1:] for cds in cds_cod: exon_pos.append(cds) if jun_exon != []: exon_pos.append(jun_exon) for utr5 in five_p_utr: exon_pos.append(utr5) return exon_pos