marea: Desktop/Marea/marea.py comparison

comparison Desktop/Marea/marea.py @ 30:e88efefbd015 draft

fix changes

author	bimib
date	Tue, 15 Oct 2019 12:21:16 -0400
parents
children

comparison

equal deleted inserted replaced

-:9fcb0e8d6d47
+:e88efefbd015
+from __future__ import division
+import sys
+import pandas as pd
+import itertools as it
+import scipy.stats as st
+import collections
+import lxml.etree as ET
+import shutil
+import pickle as pk
+import math
+import os
+import argparse
+from svglib.svglib import svg2rlg
+from reportlab.graphics import renderPDF
+########################## argparse ##########################################
+def process_args(args):
+parser = argparse.ArgumentParser(usage = '%(prog)s [options]',
+description = 'process some value\'s'+
+' genes to create a comparison\'s map.')
+parser.add_argument('-rs', '--rules_selector',
+type = str,
+default = 'HMRcore',
+choices = ['HMRcore', 'Recon', 'Custom'],
+help = 'chose which type of dataset you want use')
+parser.add_argument('-cr', '--custom',
+type = str,
+help='your dataset if you want custom rules')
+parser.add_argument('-na', '--names',
+type = str,
+nargs = '+',
+help = 'input names')
+parser.add_argument('-n', '--none',
+type = str,
+default = 'true',
+choices = ['true', 'false'],
+help = 'compute Nan values')
+parser.add_argument('-pv' ,'--pValue',
+type = float,
+default = 0.05,
+help = 'P-Value threshold (default: %(default)s)')
+parser.add_argument('-fc', '--fChange',
+type = float,
+default = 1.5,
+help = 'Fold-Change threshold (default: %(default)s)')
+parser.add_argument('-td', '--tool_dir',
+type = str,
+required = True,
+help = 'your tool directory')
+parser.add_argument('-op', '--option',
+type = str,
+choices = ['datasets', 'dataset_class', 'datasets_rasonly'],
+help='dataset or dataset and class')
+parser.add_argument('-ol', '--out_log',
+help = "Output log")
+parser.add_argument('-ids', '--input_datas',
+type = str,
+nargs = '+',
+help = 'input datasets')
+parser.add_argument('-id', '--input_data',
+type = str,
+help = 'input dataset')
+parser.add_argument('-ic', '--input_class',
+type = str,
+help = 'sample group specification')
+parser.add_argument('-cm', '--custom_map',
+type = str,
+help = 'custom map')
+parser.add_argument('-yn', '--yes_no',
+type = str,
+choices = ['yes', 'no'],
+help = 'if make or not custom map')
+parser.add_argument('-gs', '--generate_svg',
+type = str,
+default = 'true',
+choices = ['true', 'false'],
+help = 'generate svg map')
+parser.add_argument('-gp', '--generate_pdf',
+type = str,
+default = 'true',
+choices = ['true', 'false'],
+help = 'generate pdf map')
+parser.add_argument('-gr', '--generate_ras',
+type = str,
+default = 'true',
+choices = ['true', 'false'],
+help = 'generate reaction activity score')
+parser.add_argument('-sr', '--single_ras_file',
+type = str,
+help = 'file that will contain ras')
+args = parser.parse_args()
+return args
+########################### warning ###########################################
+def warning(s):
+args = process_args(sys.argv)
+with open(args.out_log, 'a') as log:
+log.write(s)
+############################ dataset input ####################################
+def read_dataset(data, name):
+try:
+dataset = pd.read_csv(data, sep = '\t', header = 0, engine='python')
+except pd.errors.EmptyDataError:
+sys.exit('Execution aborted: wrong format of ' + name + '\n')
+if len(dataset.columns) < 2:
+sys.exit('Execution aborted: wrong format of ' + name + '\n')
+return dataset
+############################ dataset name #####################################
+def name_dataset(name_data, count):
+if str(name_data) == 'Dataset':
+return str(name_data) + '_' + str(count)
+else:
+return str(name_data)
+############################ load id e rules ##################################
+def load_id_rules(reactions):
+ids, rules = [], []
+for key, value in reactions.items():
+ids.append(key)
+rules.append(value)
+return (ids, rules)
+############################ check_methods ####################################
+def gene_type(l, name):
+if check_hgnc(l):
+return 'hugo_id'
+elif check_ensembl(l):
+return 'ensembl_gene_id'
+elif check_symbol(l):
+return 'symbol'
+elif check_entrez(l):
+return 'entrez_id'
+else:
+sys.exit('Execution aborted:\n' +
+'gene ID type in ' + name + ' not supported. Supported ID'+
+'types are: HUGO ID, Ensemble ID, HUGO symbol, Entrez ID\n')
+def check_hgnc(l):
+if len(l) > 5:
+if (l.upper()).startswith('HGNC:'):
+return l[5:].isdigit()
+else:
+return False
+else:
+return False
+def check_ensembl(l):
+if len(l) == 15:
+if (l.upper()).startswith('ENS'):
+return l[4:].isdigit()
+else:
+return False
+else:
+return False
+def check_symbol(l):
+if len(l) > 0:
+if l[0].isalpha() and l[1:].isalnum():
+return True
+else:
+return False
+else:
+return False
+def check_entrez(l):
+if len(l) > 0:
+return l.isdigit()
+else:
+return False
+def check_bool(b):
+if b == 'true':
+return True
+elif b == 'false':
+return False
+############################ resolve_methods ##################################
+def replace_gene_value(l, d):
+tmp = []
+err = []
+while l:
+if isinstance(l[0], list):
+tmp_rules, tmp_err = replace_gene_value(l[0], d)
+tmp.append(tmp_rules)
+err.extend(tmp_err)
+else:
+value = replace_gene(l[0], d)
+tmp.append(value)
+if value == None:
+err.append(l[0])
+l = l[1:]
+return (tmp, err)
+def replace_gene(l, d):
+if l =='and' or l == 'or':
+return l
+else:
+value = d.get(l, None)
+if not(value == None or isinstance(value, (int, float))):
+sys.exit('Execution aborted: ' + value + ' value not valid\n')
+return value
+def computes(val1, op, val2, cn):
+if val1 != None and val2 != None:
+if op == 'and':
+return min(val1, val2)
+else:
+return val1 + val2
+elif op == 'and':
+if cn is True:
+if val1 != None:
+return val1
+elif val2 != None:
+return val2
+else:
+return None
+else:
+return None
+else:
+if val1 != None:
+return val1
+elif val2 != None:
+return val2
+else:
+return None
+def control(ris, l, cn):
+if len(l) == 1:
+if isinstance(l[0], (float, int)) or l[0] == None:
+return l[0]
+elif isinstance(l[0], list):
+return control(None, l[0], cn)
+else:
+return False
+elif len(l) > 2:
+return control_list(ris, l, cn)
+else:
+return False
+def control_list(ris, l, cn):
+while l:
+if len(l) == 1:
+return False
+elif (isinstance(l[0], (float, int)) or
+l[0] == None) and l[1] in ['and', 'or']:
+if isinstance(l[2], (float, int)) or l[2] == None:
+ris = computes(l[0], l[1], l[2], cn)
+elif isinstance(l[2], list):
+tmp = control(None, l[2], cn)
+if tmp is False:
+return False
+else:
+ris = computes(l[0], l[1], tmp, cn)
+else:
+return False
+l = l[3:]
+elif l[0] in ['and', 'or']:
+if isinstance(l[1], (float, int)) or l[1] == None:
+ris = computes(ris, l[0], l[1], cn)
+elif isinstance(l[1], list):
+tmp = control(None,l[1], cn)
+if tmp is False:
+return False
+else:
+ris = computes(ris, l[0], tmp, cn)
+else:
+return False
+l = l[2:]
+elif isinstance(l[0], list) and l[1] in ['and', 'or']:
+if isinstance(l[2], (float, int)) or l[2] == None:
+tmp = control(None, l[0], cn)
+if tmp is False:
+return False
+else:
+ris = computes(tmp, l[1], l[2], cn)
+elif isinstance(l[2], list):
+tmp = control(None, l[0], cn)
+tmp2 = control(None, l[2], cn)
+if tmp is False or tmp2 is False:
+return False
+else:
+ris = computes(tmp, l[1], tmp2, cn)
+else:
+return False
+l = l[3:]
+else:
+return False
+return ris
+############################ map_methods ######################################
+def fold_change(avg1, avg2):
+if avg1 == 0 and avg2 == 0:
+return 0
+elif avg1 == 0:
+return '-INF'
+elif avg2 == 0:
+return 'INF'
+else:
+return math.log(avg1 / avg2, 2)
+def fix_style(l, col, width, dash):
+tmp = l.split(';')
+flag_col = False
+flag_width = False
+flag_dash = False
+for i in range(len(tmp)):
+if tmp[i].startswith('stroke:'):
+tmp[i] = 'stroke:' + col
+flag_col = True
+if tmp[i].startswith('stroke-width:'):
+tmp[i] = 'stroke-width:' + width
+flag_width = True
+if tmp[i].startswith('stroke-dasharray:'):
+tmp[i] = 'stroke-dasharray:' + dash
+flag_dash = True
+if not flag_col:
+tmp.append('stroke:' + col)
+if not flag_width:
+tmp.append('stroke-width:' + width)
+if not flag_dash:
+tmp.append('stroke-dasharray:' + dash)
+return ';'.join(tmp)
+def fix_map(d, core_map, threshold_P_V, threshold_F_C, max_F_C):
+maxT = 12
+minT = 2
+grey = '#BEBEBE'
+blue = '#0000FF'
+red = '#E41A1C'
+for el in core_map.iter():
+el_id = str(el.get('id'))
+if el_id.startswith('R_'):
+tmp = d.get(el_id[2:])
+if tmp != None:
+p_val = tmp[0]
+f_c = tmp[1]
+if p_val < threshold_P_V:
+if not isinstance(f_c, str):
+if abs(f_c) < math.log(threshold_F_C, 2):
+col = grey
+width = str(minT)
+else:
+if f_c < 0:
+col = blue
+elif f_c > 0:
+col = red
+width = str(max((abs(f_c) * maxT) / max_F_C, minT))
+else:
+if f_c == '-INF':
+col = blue
+elif f_c == 'INF':
+col = red
+width = str(maxT)
+dash = 'none'
+else:
+dash = '5,5'
+col = grey
+width = str(minT)
+el.set('style', fix_style(el.get('style'), col, width, dash))
+return core_map
+############################ make recon #######################################
+def check_and_doWord(l):
+tmp = []
+tmp_genes = []
+count = 0
+while l:
+if count >= 0:
+if l[0] == '(':
+count += 1
+tmp.append(l[0])
+l.pop(0)
+elif l[0] == ')':
+count -= 1
+tmp.append(l[0])
+l.pop(0)
+elif l[0] == ' ':
+l.pop(0)
+else:
+word = []
+while l:
+if l[0] in [' ', '(', ')']:
+break
+else:
+word.append(l[0])
+l.pop(0)
+word = ''.join(word)
+tmp.append(word)
+if not(word in ['or', 'and']):
+tmp_genes.append(word)
+else:
+return False
+if count == 0:
+return (tmp, tmp_genes)
+else:
+return False
+def brackets_to_list(l):
+tmp = []
+while l:
+if l[0] == '(':
+l.pop(0)
+tmp.append(resolve_brackets(l))
+else:
+tmp.append(l[0])
+l.pop(0)
+return tmp
+def resolve_brackets(l):
+tmp = []
+while l[0] != ')':
+if l[0] == '(':
+l.pop(0)
+tmp.append(resolve_brackets(l))
+else:
+tmp.append(l[0])
+l.pop(0)
+l.pop(0)
+return tmp
+def priorityAND(l):
+tmp = []
+flag = True
+while l:
+if len(l) == 1:
+if isinstance(l[0], list):
+tmp.append(priorityAND(l[0]))
+else:
+tmp.append(l[0])
+l = l[1:]
+elif l[0] == 'or':
+tmp.append(l[0])
+flag = False
+l = l[1:]
+elif l[1] == 'or':
+if isinstance(l[0], list):
+tmp.append(priorityAND(l[0]))
+else:
+tmp.append(l[0])
+tmp.append(l[1])
+flag = False
+l = l[2:]
+elif l[1] == 'and':
+tmpAnd = []
+if isinstance(l[0], list):
+tmpAnd.append(priorityAND(l[0]))
+else:
+tmpAnd.append(l[0])
+tmpAnd.append(l[1])
+if isinstance(l[2], list):
+tmpAnd.append(priorityAND(l[2]))
+else:
+tmpAnd.append(l[2])
+l = l[3:]
+while l:
+if l[0] == 'and':
+tmpAnd.append(l[0])
+if isinstance(l[1], list):
+tmpAnd.append(priorityAND(l[1]))
+else:
+tmpAnd.append(l[1])
+l = l[2:]
+elif l[0] == 'or':
+flag = False
+break
+if flag == True: #when there are only AND in list
+tmp.extend(tmpAnd)
+elif flag == False:
+tmp.append(tmpAnd)
+return tmp
+def checkRule(l):
+if len(l) == 1:
+if isinstance(l[0], list):
+if checkRule(l[0]) is False:
+return False
+elif len(l) > 2:
+if checkRule2(l) is False:
+return False
+else:
+return False
+return True
+def checkRule2(l):
+while l:
+if len(l) == 1:
+return False
+elif isinstance(l[0], list) and l[1] in ['and', 'or']:
+if checkRule(l[0]) is False:
+return False
+if isinstance(l[2], list):
+if checkRule(l[2]) is False:
+return False
+l = l[3:]
+elif l[1] in ['and', 'or']:
+if isinstance(l[2], list):
+if checkRule(l[2]) is False:
+return False
+l = l[3:]
+elif l[0] in ['and', 'or']:
+if isinstance(l[1], list):
+if checkRule(l[1]) is False:
+return False
+l = l[2:]
+else:
+return False
+return True
+def do_rules(rules):
+split_rules = []
+err_rules = []
+tmp_gene_in_rule = []
+for i in range(len(rules)):
+tmp = list(rules[i])
+if tmp:
+tmp, tmp_genes = check_and_doWord(tmp)
+tmp_gene_in_rule.extend(tmp_genes)
+if tmp is False:
+split_rules.append([])
+err_rules.append(rules[i])
+else:
+tmp = brackets_to_list(tmp)
+if checkRule(tmp):
+split_rules.append(priorityAND(tmp))
+else:
+split_rules.append([])
+err_rules.append(rules[i])
+else:
+split_rules.append([])
+if err_rules:
+warning('Warning: wrong format rule in ' + str(err_rules) + '\n')
+return (split_rules, list(set(tmp_gene_in_rule)))
+def make_recon(data):
+try:
+import cobra as cb
+import warnings
+with warnings.catch_warnings():
+warnings.simplefilter('ignore')
+recon = cb.io.read_sbml_model(data)
+react = recon.reactions
+rules = [react[i].gene_reaction_rule for i in range(len(react))]
+ids = [react[i].id for i in range(len(react))]
+except cb.io.sbml3.CobraSBMLError:
+try:
+data = (pd.read_csv(data, sep = '\t', dtype = str, engine='python')).fillna('')
+if len(data.columns) < 2:
+sys.exit('Execution aborted: wrong format of '+
+'custom datarules\n')
+if not len(data.columns) == 2:
+warning('Warning: more than 2 columns in custom datarules.\n' +
+'Extra columns have been disregarded\n')
+ids = list(data.iloc[:, 0])
+rules = list(data.iloc[:, 1])
+except pd.errors.EmptyDataError:
+sys.exit('Execution aborted: wrong format of custom datarules\n')
+except pd.errors.ParserError:
+sys.exit('Execution aborted: wrong format of custom datarules\n')
+split_rules, tmp_genes = do_rules(rules)
+gene_in_rule = {}
+for i in tmp_genes:
+gene_in_rule[i] = 'ok'
+return (ids, split_rules, gene_in_rule)
+############################ gene #############################################
+def data_gene(gene, type_gene, name, gene_custom):
+args = process_args(sys.argv)
+for i in range(len(gene)):
+tmp = gene.iloc[i, 0]
+if tmp.startswith(' ') or tmp.endswith(' '):
+gene.iloc[i, 0] = (tmp.lstrip()).rstrip()
+gene_dup = [item for item, count in
+collections.Counter(gene[gene.columns[0]]).items() if count > 1]
+pat_dup = [item for item, count in
+collections.Counter(list(gene.columns)).items() if count > 1]
+if gene_dup:
+if gene_custom == None:
+if args.rules_selector == 'HMRcore':
+gene_in_rule = pk.load(open(args.tool_dir +
+'/local/HMRcore_genes.p', 'rb'))
+elif args.rules_selector == 'Recon':
+gene_in_rule = pk.load(open(args.tool_dir +
+'/local/Recon_genes.p', 'rb'))
+gene_in_rule = gene_in_rule.get(type_gene)
+else:
+gene_in_rule = gene_custom
+tmp = []
+for i in gene_dup:
+if gene_in_rule.get(i) == 'ok':
+tmp.append(i)
+if tmp:
+sys.exit('Execution aborted because gene ID '
++str(tmp)+' in '+name+' is duplicated\n')
+if pat_dup:
+warning('Warning: duplicated label\n' + str(pat_dup) + 'in ' + name +
+'\n')
+return (gene.set_index(gene.columns[0])).to_dict()
+############################ resolve ##########################################
+def resolve(genes, rules, ids, resolve_none, name):
+resolve_rules = {}
+not_found = []
+flag = False
+for key, value in genes.items():
+tmp_resolve = []
+for i in range(len(rules)):
+tmp = rules[i]
+if tmp:
+tmp, err = replace_gene_value(tmp, value)
+if err:
+not_found.extend(err)
+ris = control(None, tmp, resolve_none)
+if ris is False or ris == None:
+tmp_resolve.append(None)
+else:
+tmp_resolve.append(ris)
+flag = True
+else:
+tmp_resolve.append(None)
+resolve_rules[key] = tmp_resolve
+if flag is False:
+warning('Warning: no computable score (due to missing gene values)' +
+'for class ' + name + ', the class has been disregarded\n')
+return (None, None)
+return (resolve_rules, list(set(not_found)))
+############################ split class ######################################
+def split_class(classes, resolve_rules):
+class_pat = {}
+for i in range(len(classes)):
+classe = classes.iloc[i, 1]
+if not pd.isnull(classe):
+l = []
+for j in range(i, len(classes)):
+if classes.iloc[j, 1] == classe:
+pat_id = classes.iloc[j, 0]
+tmp = resolve_rules.get(pat_id, None)
+if tmp != None:
+l.append(tmp)
+classes.iloc[j, 1] = None
+if l:
+class_pat[classe] = list(map(list, zip(*l)))
+else:
+warning('Warning: no sample found in class ' + classe +
+', the class has been disregarded\n')
+return class_pat
+############################ create_ras #######################################
+def create_ras (resolve_rules, dataset_name, single_ras):
+if resolve_rules == None:
+warning("Couldn't generate RAS for current dataset: " + dataset_name)
+for geni in resolve_rules.values():
+for i, valori in enumerate(geni):
+if valori == None:
+geni[i] = 'None'
+output_ras = pd.DataFrame.from_dict(resolve_rules)
+output_to_csv = pd.DataFrame.to_csv(output_ras, sep = '\t', index = False)
+if (single_ras):
+args = process_args(sys.argv)
+text_file = open(args.single_ras_file, "w")
+else:
+text_file = open("ras/Reaction_Activity_Score_Of_" + dataset_name + ".tsv", "w")
+text_file.write(output_to_csv)
+text_file.close()
+############################ map ##############################################
+def maps(core_map, class_pat, ids, threshold_P_V, threshold_F_C, create_svg, create_pdf):
+args = process_args(sys.argv)
+if (not class_pat) or (len(class_pat.keys()) < 2):
+sys.exit('Execution aborted: classes provided for comparisons are ' +
+'less than two\n')
+for i, j in it.combinations(class_pat.keys(), 2):
+tmp = {}
+count = 0
+max_F_C = 0
+for l1, l2 in zip(class_pat.get(i), class_pat.get(j)):
+try:
+stat_D, p_value = st.ks_2samp(l1, l2)
+avg = fold_change(sum(l1) / len(l1), sum(l2) / len(l2))
+if not isinstance(avg, str):
+if max_F_C < abs(avg):
+max_F_C = abs(avg)
+tmp[ids[count]] = [float(p_value), avg]
+count += 1
+except (TypeError, ZeroDivisionError):
+count += 1
+tab = 'result/' + i + '_vs_' + j + ' (Tabular Result).tsv'
+tmp_csv = pd.DataFrame.from_dict(tmp, orient = "index")
+tmp_csv = tmp_csv.reset_index()
+header = ['ids', 'P_Value', 'Log2(fold change)']
+tmp_csv.to_csv(tab, sep = '\t', index = False, header = header)
+if create_svg or create_pdf:
+if args.rules_selector == 'HMRcore' or (args.rules_selector == 'Custom'
+and args.yes_no == 'yes'):
+fix_map(tmp, core_map, threshold_P_V, threshold_F_C, max_F_C)
+file_svg = 'result/' + i + '_vs_' + j + ' (SVG Map).svg'
+with open(file_svg, 'wb') as new_map:
+new_map.write(ET.tostring(core_map))
+if create_pdf:
+file_pdf = 'result/' + i + '_vs_' + j + ' (PDF Map).pdf'
+renderPDF.drawToFile(svg2rlg(file_svg), file_pdf)
+if not create_svg:
+#Ho utilizzato il file svg per generare il pdf,
+#ma l'utente non ne ha richiesto il ritorno, quindi
+#lo elimino
+os.remove('result/' + i + '_vs_' + j + ' (SVG Map).svg')
+return None
+############################ MAIN #############################################
+def main():
+args = process_args(sys.argv)
+create_svg = check_bool(args.generate_svg)
+create_pdf = check_bool(args.generate_pdf)
+generate_ras = check_bool(args.generate_ras)
+os.makedirs('result')
+if generate_ras:
+os.makedirs('ras')
+if args.rules_selector == 'HMRcore':
+recon = pk.load(open(args.tool_dir + '/local/HMRcore_rules.p', 'rb'))
+elif args.rules_selector == 'Recon':
+recon = pk.load(open(args.tool_dir + '/local/Recon_rules.p', 'rb'))
+elif args.rules_selector == 'Custom':
+ids, rules, gene_in_rule = make_recon(args.custom)
+resolve_none = check_bool(args.none)
+class_pat = {}
+if args.option == 'datasets_rasonly':
+name = "RAS Dataset"
+dataset = read_dataset(args.input_datas[0],"dataset")
+dataset.iloc[:, 0] = (dataset.iloc[:, 0]).astype(str)
+type_gene = gene_type(dataset.iloc[0, 0], name)
+if args.rules_selector != 'Custom':
+genes = data_gene(dataset, type_gene, name, None)
+ids, rules = load_id_rules(recon.get(type_gene))
+elif args.rules_selector == 'Custom':
+genes = data_gene(dataset, type_gene, name, gene_in_rule)
+resolve_rules, err = resolve(genes, rules, ids, resolve_none, name)
+create_ras(resolve_rules, name, True)
+if err != None and err:
+warning('Warning: gene\n' + str(err) + '\nnot found in class '
++ name + ', the expression level for this gene ' +
+'will be considered NaN\n')
+print('execution succeded')
+return None
+elif args.option == 'datasets':
+num = 1
+for i, j in zip(args.input_datas, args.names):
+name = name_dataset(j, num)
+dataset = read_dataset(i, name)
+dataset.iloc[:, 0] = (dataset.iloc[:, 0]).astype(str)
+type_gene = gene_type(dataset.iloc[0, 0], name)
+if args.rules_selector != 'Custom':
+genes = data_gene(dataset, type_gene, name, None)
+ids, rules = load_id_rules(recon.get(type_gene))
+elif args.rules_selector == 'Custom':
+genes = data_gene(dataset, type_gene, name, gene_in_rule)
+resolve_rules, err = resolve(genes, rules, ids, resolve_none, name)
+if generate_ras:
+create_ras(resolve_rules, name, False)
+if err != None and err:
+warning('Warning: gene\n' + str(err) + '\nnot found in class '
++ name + ', the expression level for this gene ' +
+'will be considered NaN\n')
+if resolve_rules != None:
+class_pat[name] = list(map(list, zip(*resolve_rules.values())))
+num += 1
+elif args.option == 'dataset_class':
+name = 'RNAseq'
+dataset = read_dataset(args.input_data, name)
+dataset.iloc[:, 0] = (dataset.iloc[:, 0]).astype(str)
+type_gene = gene_type(dataset.iloc[0, 0], name)
+classes = read_dataset(args.input_class, 'class')
+if not len(classes.columns) == 2:
+warning('Warning: more than 2 columns in class file. Extra' +
+'columns have been disregarded\n')
+classes = classes.astype(str)
+if args.rules_selector != 'Custom':
+genes = data_gene(dataset, type_gene, name, None)
+ids, rules = load_id_rules(recon.get(type_gene))
+elif args.rules_selector == 'Custom':
+genes = data_gene(dataset, type_gene, name, gene_in_rule)
+resolve_rules, err = resolve(genes, rules, ids, resolve_none, name)
+if err != None and err:
+warning('Warning: gene\n'+str(err)+'\nnot found in class '
++ name + ', the expression level for this gene ' +
+'will be considered NaN\n')
+if resolve_rules != None:
+class_pat = split_class(classes, resolve_rules)
+if args.rules_selector == 'Custom':
+if args.yes_no == 'yes':
+try:
+core_map = ET.parse(args.custom_map)
+except (ET.XMLSyntaxError, ET.XMLSchemaParseError):
+sys.exit('Execution aborted: custom map in wrong format')
+elif args.yes_no == 'no':
+core_map = ET.parse(args.tool_dir + '/local/HMRcoreMap.svg')
+else:
+core_map = ET.parse(args.tool_dir+'/local/HMRcoreMap.svg')
+maps(core_map, class_pat, ids, args.pValue, args.fChange, create_svg, create_pdf)
+print('Execution succeded')
+return None
+###############################################################################
+if __name__ == "__main__":
+main()

Mercurial > repos > bimib > marea

comparison Desktop/Marea/marea.py @ 30:e88efefbd015 draft