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taxonomy_util.py

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Last change on this file was 14544, checked in by akozlov, 9 years ago
partial merge from sativa branch log:branches/sativa@14543:14543
File size: 23.2 KB

Line
1	#!/usr/bin/env python
2
3	import sys
4	import re
5	from string import maketrans
6	from ete2 import Tree
7
8	class TaxCode:
9	UNI_TAX_RANKS = {
10	1: ("Domain", "d__"),
11	2: ("Kingdom", "k__"),
12	3: ("Subkingdom", "a__"),
13	4: ("Phylum", "p__"),
14	5: ("Subphylum", "a__"),
15	6: ("Class", "c__"),
16	7: ("Subclass", "x__"),
17	8: ("Superorder", "e__"),
18	9: ("Order", "o__"),
19	10: ("Suborder", "h__"),
20	11: ("Infraorder", "i__"),
21	12: ("Superfamily", "j__"),
22	13: ("Epifamily", "l__"),
23	14: ("Family", "f__"),
24	15: ("Subfamily", "m__"),
25	16: ("Infrafamily", "n__"),
26	17: ("Tribe", "t__"),
27	18: ("Subtribe", "u__"),
28	19: ("Infratribe", "v__"),
29	20: ("Genus", "g__"),
30	21: ("Species", "s__"),
31	22: ("Subspecies", "b__"),
32	23: ("Strain", "r__"),
33	24: ("Isolate", "q__")
34	}
35	UNI_TAX_LEVELS = len(UNI_TAX_RANKS)
36
37	# ranks of the standard 7-levels taxonomy
38	# kingdom, phylum, class, order, family, genus, species
39	STD_RANKS = [2, 4, 6, 9, 14, 20, 21]
40
41	BAC_TAX_CODE = {
42	2: ((), ("bacteria", "archaea")), # kingdom
43	4: ((), ()), # phylum
44	6: ((), ()), # class
45	7: (("idae"), ()), # subclass
46	9: (("ales"), ()), # order
47	10: (("ineae"), ()), # suborder
48	14: (("aceae"), ()), # family
49	15: (("oideae"), ()), # subfamily
50	20: ((), ()), # genus
51	21: ((), ()), # species
52	22: ((), ()), # subspecies
53	23: ((), ()), # strain
54	24: ((), ()) # isolate
55	}
56
57	BOT_TAX_CODE = {
58	1: ((), ("eukaryota")), # domain
59	2: ((), ("plantae", "algae", "fungi")), # kingdom
60	3: ((), ("dikarya")), # subkingdom
61	4: (("phyta", "phycota", "mycota"), ()), # phylum
62	5: (("phytina", "phycotina", "mycotina"), ()), # subphylum
63	6: (("opsida", "phyceae", "mycetes"), ()), # class
64	7: (("idae", "phycidae", "mycetidae"), ()), # subclass
65	8: (("anae"), ()), # superorder
66	9: (("ales"), ()), # order
67	10: (("ineae"), ()), # suborder
68	11: (("aria"), ()), # infraorder
69	12: (("acea"), ()), # superfamily
70	14: (("aceae"), ()), # family
71	15: (("oideae"), ()), # subfamily
72	17: (("eae"), ()), # tribe
73	18: (("inae"), ()), # subtribe
74	20: ((), ()), # genus
75	21: ((), ()), # species
76	22: ((), ()), # subspecies
77	23: ((), ()), # specimen
78	24: ((), ()) # isolate
79	}
80
81	ZOO_TAX_CODE = {
82	1: ((), ("eukaryota")), # domain
83	2: ((), ("animalia")), # kingdom
84	4: ((), ("chordata", "arthropoda", "mollusca", "nematoda")), # phylum
85	5: ((), ("vertebrata", "myriapoda", "crustacea", "hexapoda")), # subphylum
86	6: ((), ("mammalia", "aves", "reptilia", "amphibia", "insecta")), # class
87	7: ((), ()), # subclass
88	8: ((), ()), # superorder
89	9: ((), ()), # order
90	10: ((), ()), # suborder
91	11: ((), ()), # infraorder
92	12: (("oidea"), ()), # superfamily
93	13: (("oidae"), ()), # epifamily
94	14: (("idae"), ()), # family
95	15: (("inae"), ()), # subfamily
96	16: (("odd"), ()), # infrafamily
97	17: (("ini"), ()), # tribe
98	18: (("ina"), ()), # subtribe
99	19: (("ad", "iti"), ()), # infratribe
100	20: ((), ()), # genus
101	21: ((), ()), # species
102	22: ((), ()), # subspecies
103	23: ((), ()), # specimen
104	24: ((), ()) # isolate
105	}
106
107	VIR_TAX_CODE = {
108	2: ((), ("viruses")), # kingdom
109	6: ((), ()), # class
110	7: (("idae"), ()), # subclass
111	9: (("virales"), ()), # order
112	14: (("viridae"), ()), # family
113	15: (("virinae"), ()), # subfamily
114	20: (("virus"), ()), # genus
115	21: ((" virus"), ()), # species
116	23: ((), ()), # strain
117	24: ((), ()) # isolate
118	}
119
120	TAX_CODE_MAP = {
121	"bac": BAC_TAX_CODE,
122	"bot": BOT_TAX_CODE,
123	"zoo": ZOO_TAX_CODE,
124	"vir": VIR_TAX_CODE
125	}
126
127	def __init__(self, tax_code_name):
128	self.tax_code = TaxCode.TAX_CODE_MAP.get(tax_code_name.lower(), None)
129	if not self.tax_code:
130	print "ERROR: Unknown taxonomic code: %s" % tax_code_name
131	sys.exit()
132
133	@staticmethod
134	def rank_level_name(uni_rank_level):
135	return TaxCode.UNI_TAX_RANKS.get(uni_rank_level, ("Unknown", "?__"))
136
137	def guess_rank_level(self, ranks, rank_level):
138	rank_name = re.sub("[\W_]+", "", ranks[rank_level].lower())
139
140	sorted_tax_levels = sorted(self.tax_code.keys())
141
142	real_level = 0
143
144	# first, try to guess rank level based on its name or name suffix
145	for lvl in sorted_tax_levels:
146	(suffix, exact_match) = self.tax_code[lvl]
147	if rank_name.endswith(suffix) or rank_name in exact_match:
148	real_level = lvl
149	break
150
151	# if name-based identification failed, try to derive rank level from its parent
152	if real_level == 0:
153	if rank_level == 0: # kingdom
154	real_level = 2
155	else:
156	parent_level = self.guess_rank_level(ranks, rank_level-1)
157	if parent_level == 0:
158	return 0
159	idx = sorted_tax_levels.index(parent_level)
160	for i in range(idx+1, len(sorted_tax_levels)):
161	lvl = sorted_tax_levels[i]
162	suffix = self.tax_code[lvl][0]
163	if lvl in TaxCode.STD_RANKS:
164	real_level = lvl
165	break
166
167	return real_level
168
169	def guess_rank_level_name(self, ranks, rank_level):
170	real_level = self.guess_rank_level(ranks, rank_level)
171	return TaxCode.rank_level_name(real_level)
172
173
174	class Taxonomy:
175	EMPTY_RANK = "-"
176	RANK_UID_DELIM = "@@"
177
178	RANK_PLACEHOLDERS = ["k__", "p__", "c__", "o__", "f__", "g__", "s__"]
179
180	@staticmethod
181	def lineage_str(ranks):
182	return ";".join(ranks).strip(';')
183
184	@staticmethod
185	def lowest_assigned_rank_level(ranks):
186	rank_level = len(ranks)-1
187	while rank_level >= 0 and ranks[rank_level] == Taxonomy.EMPTY_RANK:
188	rank_level -= 1
189	return rank_level
190
191	@staticmethod
192	def lowest_assigned_rank(ranks):
193	rank_level = Taxonomy.lowest_assigned_rank_level(ranks)
194	if rank_level >= 0:
195	return ranks[rank_level]
196	else:
197	return None
198
199	@staticmethod
200	def get_rank_uid(ranks, rank_level=-1):
201	if rank_level == -1:
202	rank_level = Taxonomy.lowest_assigned_rank_level(ranks)
203	return Taxonomy.RANK_UID_DELIM.join(ranks[:rank_level+1])
204
205	@staticmethod
206	def split_rank_uid(rank_uid, min_lvls=0):
207	ranks = rank_uid.split(Taxonomy.RANK_UID_DELIM)
208	if len(ranks) < min_lvls:
209	return ranks + [Taxonomy.EMPTY_RANK] * (min_lvls - len(ranks))
210	else:
211	return ranks
212
213	@staticmethod
214	def rank_uid_to_lineage_str(rank_uid, min_lvls=0):
215	ranks = Taxonomy.split_rank_uid(rank_uid, min_lvls)
216	return Taxonomy.lineage_str(ranks)
217
218	def __init__(self, prefix="", tax_fname="", tax_map=None):
219	self.prefix = prefix
220
221	tree_nodes = []
222	self.common_ranks = set([])
223	self.seq_ranks_map = {}
224	self.rank_seqs_map = {}
225	self.corr_seq_ids = {}
226	self.uncorr_rank_ids = {}
227	if tax_map:
228	for sid, ranks in tax_map.iteritems():
229	self.seq_ranks_map[sid] = ranks
230	rank_id = Taxonomy.get_rank_uid(ranks)
231	self.rank_seqs_map[rank_id] = self.rank_seqs_map.get(rank_id, []) + [sid]
232	elif tax_fname:
233	self.load_taxonomy(tax_fname)
234
235	def get_common_ranks(self):
236	allranks = list(self.seq_ranks_map.items())
237	numitems = len(allranks)
238	if numitems > 0:
239	self.common_ranks = set(allranks[0][1])
240	for i in range(1, numitems):
241	curr_set = set(allranks[i][1])
242	inters = self.common_ranks & curr_set
243	self.common_ranks = inters
244	return self.common_ranks
245	else:
246	return set([])
247
248	def seq_count(self):
249	return len(self.seq_ranks_map)
250
251	def items(self):
252	return self.seq_ranks_map.items()
253
254	def iteritems(self):
255	return self.seq_ranks_map.items()
256
257	def get_map(self):
258	return self.seq_ranks_map
259
260	def remove_seq(self, seqid):
261	rank_id = self.seq_rank_id(seqid)
262	self.rank_seqs_map[rank_id].remove(seq_id)
263	del self.seq_ranks_map[seqid]
264
265	def rename_seq(self, old_seqid, new_seqid):
266	rank_id = self.seq_rank_id(old_seqid)
267	self.rank_seqs_map[rank_id].remove(old_seqid)
268	self.rank_seqs_map[rank_id].append(new_seqid)
269	self.seq_ranks_map[new_seqid] = self.seq_ranks_map[old_seqid]
270	del self.seq_ranks_map[old_seqid]
271
272	def get_seq_ranks(self, seq_id):
273	if not seq_id.startswith(self.prefix):
274	seq_id = self.prefix + seq_id
275	seq_id = self.corr_seq_ids.get(seq_id, seq_id)
276	return self.seq_ranks_map[seq_id]
277
278	def seq_lineage_str(self, seq_id):
279	ranks = list(self.get_seq_ranks(seq_id))
280	return Taxonomy.lineage_str(ranks)
281
282	def seq_rank_id(self, seq_id):
283	ranks = list(self.get_seq_ranks(seq_id))
284	return Taxonomy.get_rank_uid(ranks)
285
286	def get_rank_seqs(self, rank_id):
287	return self.rank_seqs_map.get(rank_id, [])
288
289	def get_rank_seq_count(self, rank_id):
290	return len(self.rank_seqs_map.get(rank_id, []))
291
292	def get_uncorr_rank_id(self, rank_id):
293	return self.uncorr_rank_ids.get(rank_id, rank_id)
294
295	def merge_ranks(self, rank_ids, name_prefix="__TAXCLUSTER__"):
296	if len(rank_ids) < 2:
297	return None
298
299	all_sid = []
300	for rank_id in rank_ids:
301	all_sid += self.get_rank_seqs(rank_id)
302	del self.rank_seqs_map[rank_id]
303
304	first_taxon = Taxonomy.split_rank_uid(rank_ids[0])
305	merge_lvl = Taxonomy.lowest_assigned_rank_level(first_taxon)
306	new_name = name_prefix + first_taxon[merge_lvl]
307	new_rank = first_taxon[:merge_lvl] + [new_name]
308	new_rank_id = Taxonomy.get_rank_uid(new_rank)
309
310	self.rank_seqs_map[new_rank_id] = all_sid
311
312	for sid in all_sid:
313	self.seq_ranks_map[sid] = new_rank
314
315	return new_rank_id
316
317	def load_taxonomy(self, tax_fname):
318	with open(tax_fname) as fin:
319	for line in fin:
320	line = line.strip()
321	toks = line.split("\t")
322	sid = self.prefix + toks[0]
323	ranks_str = toks[1]
324	ranks = ranks_str.split(";")
325	for i in range(len(ranks)):
326	rank_name = ranks[i].strip()
327	# if rank_name in GGTaxonomyFile.rank_placeholders:
328	# rank_name = Taxonomy.EMPTY_RANK
329	ranks[i] = rank_name
330	rank_id = Taxonomy.get_rank_uid(ranks)
331
332	self.seq_ranks_map[sid] = ranks
333	self.rank_seqs_map[rank_id] = self.rank_seqs_map.get(rank_id, []) + [sid]
334
335	def normalize_rank_names(self):
336	invalid_chars = "[](),;:'"
337	sub_chars = "_" * len(invalid_chars)
338	trantab = maketrans(invalid_chars, sub_chars)
339	corr_ranks = {}
340	for sid, ranks in self.seq_ranks_map.iteritems():
341	old_rank_id = Taxonomy.get_rank_uid(ranks)
342	for i in range(len(ranks)):
343	if ranks[i] in corr_ranks:
344	ranks[i] = corr_ranks[ranks[i]]
345	else:
346	new_rank_name = ranks[i].translate(trantab);
347	if new_rank_name != ranks[i]:
348	corr_ranks[ranks[i]] = new_rank_name
349	ranks[i] = new_rank_name
350
351	new_rank_id = Taxonomy.get_rank_uid(ranks)
352	if new_rank_id != old_rank_id and old_rank_id in self.rank_seqs_map:
353	self.rank_seqs_map[new_rank_id] = self.rank_seqs_map[old_rank_id]
354	del self.rank_seqs_map[old_rank_id]
355	self.uncorr_rank_ids[new_rank_id] = old_rank_id
356
357	return corr_ranks
358
359	def normalize_seq_ids(self):
360	invalid_chars = "[](),;:' "
361	sub_chars = "_" * len(invalid_chars)
362	trantab = maketrans(invalid_chars, sub_chars)
363	self.corr_seq_ids = {}
364	for old_sid in self.seq_ranks_map.iterkeys():
365	new_sid = old_sid.translate(trantab);
366	if new_sid != old_sid:
367	self.rename_seq(old_sid, new_sid)
368	self.corr_seq_ids[old_sid] = new_sid
369
370	return self.corr_seq_ids
371
372	def close_taxonomy_gaps(self):
373	for sid, ranks in self.seq_ranks_map.iteritems():
374	last_rank = None
375	gap_count = 0
376	for i in reversed(range(1, len(ranks))):
377	if ranks[i] != Taxonomy.EMPTY_RANK:
378	last_rank = ranks[i]
379	elif last_rank:
380	gap_count += 1
381	ranks[i] = "parent%d_" % gap_count + last_rank
382
383	def check_for_duplicates(self, autofix=False):
384	parent_map = {}
385	dups = []
386	old_fixed = {}
387	old_ranks = {}
388	for sid, ranks in self.seq_ranks_map.iteritems():
389	for i in range(1, len(ranks)):
390	if ranks[i] == Taxonomy.EMPTY_RANK:
391	break
392	parent = ranks[i-1]
393	if not ranks[i] in parent_map:
394	parent_map[ranks[i]] = sid
395	else:
396	old_sid = parent_map[ranks[i]]
397	if self.get_seq_ranks(old_sid)[i-1] != parent:
398	if autofix:
399	orig_name = self.lineage_str(sid)
400	orig_old_name = self.lineage_str(old_sid)
401
402	if old_sid not in old_fixed:
403	old_fixed[old_sid] = self.lineage_str(old_sid)
404	old_ranks[old_sid] = set([])
405
406	if i not in old_ranks[old_sid]:
407	self.seq_ranks_map[old_sid][i] += "_" + self.seq_ranks_map[old_sid][i-1]
408	old_ranks[old_sid].add(i)
409
410	self.seq_ranks_map[sid][i] = ranks[i] + "_" + parent
411	dup_rec = (old_sid, orig_old_name, sid, orig_name, self.lineage_str(sid))
412	else:
413	dup_rec = (old_sid, self.lineage_str(old_sid), sid, self.lineage_str(sid))
414	dups.append(dup_rec)
415
416	if autofix:
417	for sid, orig_name in old_fixed.iteritems():
418	dup_rec = (sid, orig_name, sid, orig_name, self.lineage_str(sid))
419	dups.append(dup_rec)
420
421	return dups
422
423	def check_for_disbalance(self, autofix=False):
424	# the next block finds "orphan" ranks - could be used to decide which ranks to drop (not used now)
425	if 0:
426	child_map = {}
427	for sid, ranks in self.seq_ranks_map.iteritems():
428	for i in range(1, len(ranks)):
429	parent = "%d_%s" % (i-1, ranks[i-1])
430	if parent not in child_map:
431	child_map[parent] = set([ranks[i]])
432	else:
433	child_map[parent].add(ranks[i])
434
435	errs = []
436	for sid, ranks in self.seq_ranks_map.iteritems():
437	if len(ranks) > 7:
438	if autofix:
439	orig_name = self.lineage_str(sid)
440
441	dropq = []
442	keepq = []
443	restq = []
444	for i in range(1, len(ranks)):
445	# drop Subclass and Suborder, preserve Order and Family (based on common suffixes)
446	if ranks[i].endswith("dae") or ranks[i].endswith("neae"):
447	dropq += [i]
448	elif ranks[i].endswith("ceae") or ranks[i].endswith("ales"):
449	keepq += [i]
450	else:
451	restq += [i]
452
453	to_remove = dropq + restq + keepq
454	to_remove = to_remove[:len(ranks)-7]
455
456	new_ranks = []
457	for i in range(len(ranks)):
458	if i not in to_remove:
459	new_ranks += [ranks[i]]
460
461	self.seq_ranks_map[sid] = new_ranks
462
463	err_rec = (sid, orig_name, self.lineage_str(sid))
464	else:
465	err_rec = (sid, self.lineage_str(sid))
466	errs.append(err_rec)
467
468	return errs
469
470
471	class TaxTreeBuilder:
472	ROOT_LABEL = "<<root>>"
473
474	def __init__(self, config, taxonomy):
475	self.tree_nodes = {}
476	self.leaf_count = {}
477	self.config = config
478	self.taxonomy = taxonomy
479
480	def prune_unifu_nodes(self, tree):
481	for node in tree.traverse("preorder"):
482	if len(node.children) == 1:
483	node.delete()
484
485	def add_tree_node(self, tree, nodeId, ranks, rank_level):
486	if rank_level >= 0:
487	parent_level = rank_level
488	while ranks[parent_level] == Taxonomy.EMPTY_RANK:
489	parent_level -= 1
490	parentId = Taxonomy.get_rank_uid(ranks, parent_level)
491	else:
492	parentId = TaxTreeBuilder.ROOT_LABEL
493	parent_level = -1
494
495	if (parentId in self.tree_nodes):
496	parentNode = self.tree_nodes[parentId]
497	else:
498	parentNode = self.add_tree_node(tree, parentId, ranks, parent_level-1)
499	self.tree_nodes[parentId] = parentNode;
500
501	# print "Adding node: %s, parent: %s, parent_level: %d" % (nodeId, parentId, parent_level)
502	newNode = parentNode.add_child()
503	newNode.add_feature("name", nodeId)
504	return newNode
505
506	def build(self, min_rank=0, max_seqs_per_leaf=1e9, clades_to_include=[], clades_to_ignore=[]):
507
508	t0 = Tree()
509	t0.add_feature("name", TaxTreeBuilder.ROOT_LABEL)
510	self.tree_nodes[TaxTreeBuilder.ROOT_LABEL] = t0;
511	self.leaf_count[TaxTreeBuilder.ROOT_LABEL] = 0;
512	k = 0
513	added = 0
514	seq_ids = []
515	# sequences are leafs of the tree, so they always have the lowest taxonomy level (e.g. "species"+1)
516	for sid, ranks in self.taxonomy.iteritems():
517	k += 1
518	if self.config.verbose and k % 1000 == 0:
519	print "Processed nodes: ", k, ", added: ", added, ", skipped: ", k - added
520
521	# filter by minimum rank level
522	if ranks[min_rank] == Taxonomy.EMPTY_RANK:
523	continue
524
525	# filter by rank contraints (e.g. class Clostridia only)
526	clade_is_ok = False
527
528	# check against the inclusion list
529	if len(clades_to_include) > 0:
530	for (rank_level, rank_name) in clades_to_include:
531	if ranks[rank_level] == rank_name:
532	clade_is_ok = True
533	break
534	else: # default: include all
535	clade_is_ok = True
536
537	# if sequence is about to be included, check it against the ignore list
538	if clade_is_ok:
539	for (rank_level, rank_name) in clades_to_ignore:
540	if ranks[rank_level] == rank_name:
541	clade_is_ok = False
542	break
543
544	# final decision
545	if not clade_is_ok:
546	continue
547
548	tax_seq_level = len(ranks)
549	parent_level = tax_seq_level - 1
550	while ranks[parent_level] == Taxonomy.EMPTY_RANK:
551	parent_level -= 1
552	parent_name = Taxonomy.get_rank_uid(ranks, parent_level)
553	if parent_name in self.tree_nodes:
554	parent_node = self.tree_nodes[parent_name]
555	# max_seq_per_rank = max_seqs_per_leaf * (tax_seq_level - parent_level)
556	if parent_level == tax_seq_level - 1:
557	max_seq_per_rank = max_seqs_per_leaf # * (tax_seq_level - parent_level)
558	if parent_name in self.leaf_count and self.leaf_count[parent_name] >= max_seq_per_rank:
559	continue
560
561	self.leaf_count[parent_name] = self.leaf_count.get(parent_name, 0) + 1
562
563	# all checks succeeded: add the sequence to the tree
564	self.add_tree_node(t0, sid, ranks, parent_level)
565	seq_ids += [sid]
566	added += 1
567
568	self.config.log.debug("Total nodes in resulting tree: %d", added)
569
570	if self.config.debug:
571	reftax_fname = self.config.tmp_fname("%NAME%_mf_unpruned.tre")
572	t0.write(outfile=reftax_fname, format=8)
573
574	self.prune_unifu_nodes(t0)
575	return t0, seq_ids

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source: branches/stable/GDE/SATIVA/sativa/epac/taxonomy_util.py

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