# coding: utf-8 """ Routines for printing a report. """ from __future__ import print_function, division, absolute_import import sys from collections import namedtuple from contextlib import contextmanager import textwrap from .adapters import BACK, FRONT, PREFIX, SUFFIX, ANYWHERE, LINKED from .modifiers import QualityTrimmer, AdapterCutter from .filters import (NoFilter, PairedNoFilter, TooShortReadFilter, TooLongReadFilter, DiscardTrimmedFilter, DiscardUntrimmedFilter, Demultiplexer, NContentFilter) class Statistics: def __init__(self, n, total_bp1, total_bp2): """ n -- total number of reads total_bp1 -- number of bases in first reads total_bp2 -- number of bases in second reads (set to None for single-end data) """ self.n = n self.total_bp = total_bp1 self.total_bp1 = total_bp1 if total_bp2 is None: self.paired = False else: self.paired = True self.total_bp2 = total_bp2 self.total_bp += total_bp2 def collect(self, adapters_pair, time, modifiers, modifiers2, writers): self.time = max(time, 0.01) self.too_short = None self.too_long = None self.written = 0 self.written_bp = [0, 0] self.too_many_n = None # Collect statistics from writers/filters for w in writers: if isinstance(w, (NoFilter, PairedNoFilter, Demultiplexer)) or isinstance(w.filter, (DiscardTrimmedFilter, DiscardUntrimmedFilter)): self.written += w.written if self.n > 0: self.written_fraction = self.written / self.n self.written_bp = self.written_bp[0] + w.written_bp[0], self.written_bp[1] + w.written_bp[1] elif isinstance(w.filter, TooShortReadFilter): self.too_short = w.filtered elif isinstance(w.filter, TooLongReadFilter): self.too_long = w.filtered elif isinstance(w.filter, NContentFilter): self.too_many_n = w.filtered assert self.written is not None # Collect statistics from modifiers self.with_adapters = [0, 0] self.quality_trimmed_bp = [0, 0] self.did_quality_trimming = False for i, modifiers_list in [(0, modifiers), (1, modifiers2)]: for modifier in modifiers_list: if isinstance(modifier, QualityTrimmer): self.quality_trimmed_bp[i] = modifier.trimmed_bases self.did_quality_trimming = True elif isinstance(modifier, AdapterCutter): self.with_adapters[i] += modifier.with_adapters self.with_adapters_fraction = [ (v / self.n if self.n > 0 else 0) for v in self.with_adapters ] self.quality_trimmed = sum(self.quality_trimmed_bp) self.quality_trimmed_fraction = self.quality_trimmed / self.total_bp if self.total_bp > 0 else 0.0 self.total_written_bp = sum(self.written_bp) self.total_written_bp_fraction = self.total_written_bp / self.total_bp if self.total_bp > 0 else 0.0 if self.n > 0: if self.too_short is not None: self.too_short_fraction = self.too_short / self.n if self.too_long is not None: self.too_long_fraction = self.too_long / self.n if self.too_many_n is not None: self.too_many_n_fraction = self.too_many_n / self.n ADAPTER_TYPES = { BACK: "regular 3'", FRONT: "regular 5'", PREFIX: "anchored 5'", SUFFIX: "anchored 3'", ANYWHERE: "variable 5'/3'", LINKED: "linked", } def print_error_ranges(adapter_length, error_rate): print("No. of allowed errors:") prev = 0 for errors in range(1, int(error_rate * adapter_length) + 1): r = int(errors / error_rate) print("{0}-{1} bp: {2};".format(prev, r - 1, errors - 1), end=' ') prev = r if prev == adapter_length: print("{0} bp: {1}".format(adapter_length, int(error_rate * adapter_length))) else: print("{0}-{1} bp: {2}".format(prev, adapter_length, int(error_rate * adapter_length))) print() def print_histogram(d, adapter_length, n, error_rate, errors): """ Print a histogram. Also, print the no. of reads expected to be trimmed by chance (assuming a uniform distribution of nucleotides in the reads). d -- a dictionary mapping lengths of trimmed sequences to their respective frequency adapter_length -- adapter length n -- total no. of reads. """ h = [] for length in sorted(d): # when length surpasses adapter_length, the # probability does not increase anymore estimated = n * 0.25 ** min(length, adapter_length) h.append( (length, d[length], estimated) ) print("length", "count", "expect", "max.err", "error counts", sep="\t") for length, count, estimate in h: max_errors = max(errors[length].keys()) errs = ' '.join(str(errors[length][e]) for e in range(max_errors+1)) print(length, count, "{0:.1F}".format(estimate), int(error_rate*min(length, adapter_length)), errs, sep="\t") print() def print_adjacent_bases(bases, sequence): """ Print a summary of the bases preceding removed adapter sequences. Print a warning if one of the bases is overrepresented and there are at least 20 preceding bases available. Return whether a warning was printed. """ total = sum(bases.values()) if total == 0: return False print('Bases preceding removed adapters:') warnbase = None for base in ['A', 'C', 'G', 'T', '']: b = base if base != '' else 'none/other' fraction = 1.0 * bases[base] / total print(' {0}: {1:.1%}'.format(b, fraction)) if fraction > 0.8 and base != '': warnbase = b if total >= 20 and warnbase is not None: print('WARNING:') print(' The adapter is preceded by "{0}" extremely often.'.format(warnbase)) print(' The provided adapter sequence may be incomplete.') print(' To fix the problem, add "{0}" to the beginning of the adapter sequence.'.format(warnbase)) print() return True print() return False @contextmanager def redirect_standard_output(file): if file is None: yield return old_stdout = sys.stdout sys.stdout = file yield sys.stdout = old_stdout def print_report(stats, adapters_pair): """Print report to standard output.""" if stats.n == 0: print("No reads processed! Either your input file is empty or you used the wrong -f/--format parameter.") return print("Finished in {0:.2F} s ({1:.0F} us/read; {2:.2F} M reads/minute).".format( stats.time, 1E6 * stats.time / stats.n, stats.n / stats.time * 60 / 1E6)) report = "\n=== Summary ===\n\n" if stats.paired: report += textwrap.dedent("""\ Total read pairs processed: {n:13,d} Read 1 with adapter: {with_adapters[0]:13,d} ({with_adapters_fraction[0]:.1%}) Read 2 with adapter: {with_adapters[1]:13,d} ({with_adapters_fraction[1]:.1%}) """) else: report += textwrap.dedent("""\ Total reads processed: {n:13,d} Reads with adapters: {with_adapters[0]:13,d} ({with_adapters_fraction[0]:.1%}) """) if stats.too_short is not None: report += "{pairs_or_reads} that were too short: {too_short:13,d} ({too_short_fraction:.1%})\n" if stats.too_long is not None: report += "{pairs_or_reads} that were too long: {too_long:13,d} ({too_long_fraction:.1%})\n" if stats.too_many_n is not None: report += "{pairs_or_reads} with too many N: {too_many_n:13,d} ({too_many_n_fraction:.1%})\n" report += textwrap.dedent("""\ {pairs_or_reads} written (passing filters): {written:13,d} ({written_fraction:.1%}) Total basepairs processed: {total_bp:13,d} bp """) if stats.paired: report += " Read 1: {total_bp1:13,d} bp\n" report += " Read 2: {total_bp2:13,d} bp\n" if stats.did_quality_trimming: report += "Quality-trimmed: {quality_trimmed:13,d} bp ({quality_trimmed_fraction:.1%})\n" if stats.paired: report += " Read 1: {quality_trimmed_bp[0]:13,d} bp\n" report += " Read 2: {quality_trimmed_bp[1]:13,d} bp\n" report += "Total written (filtered): {total_written_bp:13,d} bp ({total_written_bp_fraction:.1%})\n" if stats.paired: report += " Read 1: {written_bp[0]:13,d} bp\n" report += " Read 2: {written_bp[1]:13,d} bp\n" v = vars(stats) v['pairs_or_reads'] = "Pairs" if stats.paired else "Reads" try: report = report.format(**v) except ValueError: # Python 2.6 does not support the comma format specifier (PEP 378) report = report.replace(",d}", "d}").format(**v) print(report) warning = False for which_in_pair in (0, 1): for adapter in adapters_pair[which_in_pair]: total_front = sum(adapter.lengths_front.values()) total_back = sum(adapter.lengths_back.values()) total = total_front + total_back where = adapter.where assert where in (ANYWHERE, LINKED) or (where in (BACK, SUFFIX) and total_front == 0) or (where in (FRONT, PREFIX) and total_back == 0) if stats.paired: extra = 'First read: ' if which_in_pair == 0 else 'Second read: ' else: extra = '' print("=" * 3, extra + "Adapter", adapter.name, "=" * 3) print() if where == LINKED: print("Sequence: {0}...{1}; Type: linked; Length: {2}+{3}; Trimmed: {4} times; Half matches: {5}". format(adapter.front_adapter.sequence, adapter.back_adapter.sequence, len(adapter.front_adapter.sequence), len(adapter.back_adapter.sequence), total_front, total_back)) else: print("Sequence: {0}; Type: {1}; Length: {2}; Trimmed: {3} times.". format(adapter.sequence, ADAPTER_TYPES[adapter.where], len(adapter.sequence), total)) if total == 0: print() continue if where == ANYWHERE: print(total_front, "times, it overlapped the 5' end of a read") print(total_back, "times, it overlapped the 3' end or was within the read") print() print_error_ranges(len(adapter), adapter.max_error_rate) print("Overview of removed sequences (5')") print_histogram(adapter.lengths_front, len(adapter), stats.n, adapter.max_error_rate, adapter.errors_front) print() print("Overview of removed sequences (3' or within)") print_histogram(adapter.lengths_back, len(adapter), stats.n, adapter.max_error_rate, adapter.errors_back) elif where == LINKED: print() print_error_ranges(len(adapter.front_adapter), adapter.front_adapter.max_error_rate) print_error_ranges(len(adapter.back_adapter), adapter.back_adapter.max_error_rate) print("Overview of removed sequences at 5' end") print_histogram(adapter.front_adapter.lengths_front, len(adapter.front_adapter), stats.n, adapter.front_adapter.max_error_rate, adapter.front_adapter.errors_front) print() print("Overview of removed sequences at 3' end") print_histogram(adapter.back_adapter.lengths_back, len(adapter.back_adapter), stats.n, adapter.back_adapter.max_error_rate, adapter.back_adapter.errors_back) elif where in (FRONT, PREFIX): print() print_error_ranges(len(adapter), adapter.max_error_rate) print("Overview of removed sequences") print_histogram(adapter.lengths_front, len(adapter), stats.n, adapter.max_error_rate, adapter.errors_front) else: assert where in (BACK, SUFFIX) print() print_error_ranges(len(adapter), adapter.max_error_rate) warning = warning or print_adjacent_bases(adapter.adjacent_bases, adapter.sequence) print("Overview of removed sequences") print_histogram(adapter.lengths_back, len(adapter), stats.n, adapter.max_error_rate, adapter.errors_back) if warning: print('WARNING:') print(' One or more of your adapter sequences may be incomplete.') print(' Please see the detailed output above.')