def process_task(task, wkname, npr_conf, nodeid2info): cogconf, cogclass = npr_conf.cog_selector concatconf, concatclass = npr_conf.alg_concatenator treebuilderconf, treebuilderclass = npr_conf.tree_builder splitterconf, splitterclass = npr_conf.tree_splitter threadid, nodeid, seqtype, ttype = (task.threadid, task.nodeid, task.seqtype, task.ttype) cladeid, targets, outgroups = db.get_node_info(threadid, nodeid) if not treebuilderclass or task.size < 4: # Allows to dump algs in workflows with no tree tasks or if tree # inference does not make sense given the number of sequences. DummyTree # will produce a fake fully collapsed newick tree. treebuilderclass = DummyTree if outgroups and len(outgroups) > 1: constrain_id = nodeid else: constrain_id = None node_info = nodeid2info[nodeid] conf = GLOBALS[task.configid] new_tasks = [] if ttype == "cog_selector": # Generates a md5 id based on the genetree configuration workflow used # for the concat alg task. If something changes, concat alg will change # and the associated tree will be rebuilt config_blocks = set([wkname]) for key, value in conf[wkname].iteritems(): if isinstance(value, list) or isinstance(value, tuple) \ or isinstance(value, set): for elem in value: config_blocks.add(elem[1:]) if isinstance(elem, str) and elem.startswith("@") else None elif isinstance(value, str): config_blocks.add(value[1:]) if value.startswith("@") else None config_checksum = md5(''.join(["[%s]\n%s" %(x, dict_string(conf[x])) for x in sorted(config_blocks)])) # THIS PART HAS BEEN MOVED TO COG_SELECTOR TASK # Check that current selection of cogs will cover all target and # outgroup species #cog_hard_limit = int(conf[concatconf]["_max_cogs"]) #sp_repr = defaultdict(int) #for co in task.raw_cogs[:cog_hard_limit]: # for sp, seq in co: # sp_repr[sp] += 1 #missing_sp = (targets | outgroups) - set(sp_repr.keys()) #if missing_sp: # raise TaskError("missing species under current cog selection: %s" %missing_sp) #else: # log.log(28, "Analysis of current COG selection:") # for sp, ncogs in sorted(sp_repr.items(), key=lambda x:x[1]): # log.log(28, " % 30s species present in % 6d COGs" %(sp, ncogs)) # register concat alignment task. NodeId associated to concat_alg tasks # and all its children jobs should take into account cog information and # not only species and outgroups included. concat_job = concatclass(task.cogs, seqtype, conf, concatconf, config_checksum) db.add_node(threadid, concat_job.nodeid, cladeid, targets, outgroups) # Register Tree constrains constrain_tree = "(%s, (%s));" %(','.join(sorted(outgroups)), ','.join(sorted(targets))) _outs = "\n".join(map(lambda name: ">%s\n0" %name, sorted(outgroups))) _tars = "\n".join(map(lambda name: ">%s\n1" %name, sorted(targets))) constrain_alg = '\n'.join([_outs, _tars]) db.add_task_data(concat_job.nodeid, DATATYPES.constrain_tree, constrain_tree) db.add_task_data(concat_job.nodeid, DATATYPES.constrain_alg, constrain_alg) db.dataconn.commit() # since the creation of some Task objects # may require this info, I need to commit # right now. concat_job.size = task.size new_tasks.append(concat_job) elif ttype == "concat_alg": # register tree for concat alignment, using constraint tree if # necessary alg_id = db.get_dataid(task.taskid, DATATYPES.concat_alg_phylip) try: parts_id = db.get_dataid(task.taskid, DATATYPES.model_partitions) except ValueError: parts_id = None nodeid2info[nodeid]["size"] = task.size nodeid2info[nodeid]["target_seqs"] = targets nodeid2info[nodeid]["out_seqs"] = outgroups tree_task = treebuilderclass(nodeid, alg_id, constrain_id, None, task.seqtype, conf, treebuilderconf, parts_id=parts_id) tree_task.size = task.size new_tasks.append(tree_task) elif ttype == "tree": merger_task = splitterclass(nodeid, seqtype, task.tree_file, conf, splitterconf) merger_task.size = task.size new_tasks.append(merger_task) elif ttype == "treemerger": # Lets merge with main tree if not task.task_tree: task.finish() log.log(24, "Saving task tree...") annotate_node(task.task_tree, task) db.update_node(nid=task.nodeid, runid=task.threadid, newick=db.encode(task.task_tree)) db.commit() if not isinstance(treebuilderclass, DummyTree) and npr_conf.max_iters > 1: current_iter = get_iternumber(threadid) if npr_conf.max_iters and current_iter >= npr_conf.max_iters: log.warning("Maximum number of iterations reached!") else: # Add new nodes source_seqtype = "aa" if "aa" in GLOBALS["seqtypes"] else "nt" ttree, mtree = task.task_tree, task.main_tree log.log(26, "Processing tree: %s seqs, %s outgroups", len(targets), len(outgroups)) target_cladeids = None if tobool(conf[splitterconf].get("_find_ncbi_targets", False)): tcopy = mtree.copy() ncbi.connect_database() tax2name, tax2track = ncbi.annotate_tree_with_taxa(tcopy, None) #tax2name, tax2track = ncbi.annotate_tree_with_taxa(tcopy, "fake") # for testing sptree example n2content = tcopy.get_cached_content() broken_branches, broken_clades, broken_clade_sizes, tax2name = ncbi.get_broken_branches(tcopy, n2content) log.log(28, 'restricting NPR to broken clades: '+ colorify(', '.join(map(lambda x: "%s"%tax2name[x], broken_clades)), "wr")) target_cladeids = set() for branch in broken_branches: print branch.get_ascii(attributes=['spname', 'taxid'], compact=True) print map(lambda x: "%s"%tax2name[x], broken_branches[branch]) target_cladeids.add(branch.cladeid) for node, seqs, outs, wkname in get_next_npr_node(task.configid, ttree, task.out_seqs, mtree, None, npr_conf, target_cladeids): # None is to avoid alg checks log.log(24, "Adding new node: %s seqs, %s outgroups", len(seqs), len(outs)) new_task_node = cogclass(seqs, outs, source_seqtype, conf, cogconf) new_task_node.target_wkname = wkname new_tasks.append(new_task_node) db.add_node(threadid, new_task_node.nodeid, new_task_node.cladeid, new_task_node.targets, new_task_node.outgroups) return new_tasks
pos = 0 while next_block: block = next_block.pop() blocks_to_show[block] = pos for k1, v1 in config[block].iteritems(): if type(v1) in iterable_types: for v2 in v1: if isinstance(v2, str) and v2.startswith('@'): next_block.append(v2[1:]) elif isinstance(v1, str) and v1.startswith('@'): next_block.append(v1[1:]) pos += 1 if metaworkflow and color: print colorify('[meta_workflow]', 'yellow') print "%s = %s" %(block_name, ', '.join(config["meta_workflow"][block_name])) print elif metaworkflow: print '[meta_workflow]' print "%s = %s" %(block_name, ', '.join(config["meta_workflow"][block_name])) print for b, pos in sorted(blocks_to_show.items(), key=lambda x: x[1]): if color: print colorify('[%s]' %b, 'yellow') else: print '[%s]' %b for k,v in config[b].iteritems(): if type(v) in iterable_types: