class genotype: """ Replacement for reaper.Dataset so we can remove qtlreaper use while still generating mapping output figure """ def __init__(self, filename): self.group = None self.type = "riset" self.prgy = [] self.nprgy = 0 self.mat = -1 self.pat = 1 self.het = 0 self.unk = "U" self.filler = False self.mb_exists = False # ZS: This is because I'm not sure if some files switch the column that contains Mb/cM positions; might be unnecessary self.cm_column = 2 self.mb_column = 3 self.chromosomes = [] self.read_file(filename) def __iter__(self): return iter(self.chromosomes) def __getitem__(self, index): return self.chromosomes[index] def __len__(self): return len(self.chromosomes) def read_rdata_output(self, qtl_results): # ZS: This is necessary because R/qtl requires centimorgan marker positions, which it normally gets from the .geno file, but that doesn't exist for HET3-ITP (which only has RData), so it needs to read in the marker cM positions from the results # ZS: Overwriting since the .geno file's contents are just placeholders self.chromosomes = [] this_chr = "" # ZS: This is so it can track when the chromosome changes as it iterates through markers chr_ob = None for marker in qtl_results: locus = Locus(self) # ZS: This is really awkward but works as a temporary fix if (str(marker['chr']) != this_chr) and this_chr != "X": if this_chr != "": self.chromosomes.append(chr_ob) this_chr = str(marker['chr']) if this_chr == "20": this_chr = "X" chr_ob = Chr(this_chr, self) if 'chr' in marker: locus.chr = str(marker['chr']) if 'name' in marker: locus.name = marker['name'] if 'Mb' in marker: locus.Mb = marker['Mb'] if 'cM' in marker: locus.cM = marker['cM'] chr_ob.loci.append(locus) self.chromosomes.append(chr_ob) return self def read_file(self, filename): with open(filename, 'r') as geno_file: lines = geno_file.readlines() this_chr = "" # ZS: This is so it can track when the chromosome changes as it iterates through markers chr_ob = None for line in lines: if line[0] == "#": continue elif line[0] == "@": label = line.split(":")[0][1:] if label == "name": self.group = line.split(":")[1].strip() elif label == "filler": if line.split(":")[1].strip() == "yes": self.filler = True elif label == "type": self.type = line.split(":")[1].strip() elif label == "mat": self.mat = line.split(":")[1].strip() elif label == "pat": self.pat = line.split(":")[1].strip() elif label == "het": self.het = line.split(":")[1].strip() elif label == "unk": self.unk = line.split(":")[1].strip() else: continue elif line[:3] == "Chr": header_row = line.split("\t") if header_row[2] == "Mb": self.mb_exists = True self.mb_column = 2 self.cm_column = 3 elif header_row[3] == "Mb": self.mb_exists = True self.mb_column = 3 elif header_row[2] == "cM": self.cm_column = 2 if self.mb_exists: self.prgy = header_row[4:] else: self.prgy = header_row[3:] self.nprgy = len(self.prgy) else: if line.split("\t")[0] != this_chr: if this_chr != "": self.chromosomes.append(chr_ob) this_chr = line.split("\t")[0] chr_ob = Chr(line.split("\t")[0], self) chr_ob.add_marker(line.split("\t")) self.chromosomes.append(chr_ob) class Chr: def __init__(self, name, geno_ob): self.name = name self.loci = [] self.mb_exists = geno_ob.mb_exists self.cm_column = geno_ob.cm_column self.mb_column = geno_ob.mb_column self.geno_ob = geno_ob def __iter__(self): return iter(self.loci) def __getitem__(self, index): return self.loci[index] def __len__(self): return len(self.loci) def add_marker(self, marker_row): self.loci.append(Locus(self.geno_ob, marker_row)) class Locus: def __init__(self, geno_ob, marker_row=None): self.chr = None self.name = None self.cM = None self.Mb = None self.genotype = [] if marker_row: self.chr = marker_row[0] self.name = marker_row[1] try: self.cM = float(marker_row[geno_ob.cm_column]) except: self.cM = float( marker_row[geno_ob.mb_column]) if geno_ob.mb_exists else 0 try: self.Mb = float( marker_row[geno_ob.mb_column]) if geno_ob.mb_exists else None except: self.Mb = self.cM geno_table = { geno_ob.mat: -1, geno_ob.pat: 1, geno_ob.het: 0, geno_ob.unk: "U" } self.genotype = [] if geno_ob.mb_exists: start_pos = 4 else: start_pos = 3 for allele in marker_row[start_pos:]: if allele in list(geno_table.keys()): self.genotype.append(geno_table[allele]) else: # ZS: Some genotype appears that isn't specified in the metadata, make it unknown self.genotype.append("U")