# HG changeset patch # User iuc # Date 1607613922 0 # Node ID b03e88e7bb1d819bf5a734b73199570b98767eb7 # Parent 12f2b14549f6e903c7e7abfceed703c8e86dd226 "planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/vsnp commit 2e312886647244b416c64eca91e1a61dd1be939b" diff -r 12f2b14549f6 -r b03e88e7bb1d macros.xml --- a/macros.xml Wed Dec 02 09:11:24 2020 +0000 +++ b/macros.xml Thu Dec 10 15:25:22 2020 +0000 @@ -2,12 +2,6 @@ 1.0 19.09 - - - - - - diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/CMC_20E1_R1.fastq.gz Binary file test-data/CMC_20E1_R1.fastq.gz has changed diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/CMC_20E1_R2.fastq.gz Binary file test-data/CMC_20E1_R2.fastq.gz has changed diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/forward.fastq.gz Binary file test-data/forward.fastq.gz has changed diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/output_metrics.tabular --- a/test-data/output_metrics.tabular Wed Dec 02 09:11:24 2020 +0000 +++ b/test-data/output_metrics.tabular Thu Dec 10 15:25:22 2020 +0000 @@ -1,2 +1,3 @@ # File Number of Good SNPs Average Coverage Genome Coverage - 0 +vcf_input_vcf 0.659602 50.49% +vcf_input_vcf 0 diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/output_metrics.txt --- a/test-data/output_metrics.txt Wed Dec 02 09:11:24 2020 +0000 +++ b/test-data/output_metrics.txt Thu Dec 10 15:25:22 2020 +0000 @@ -1,4 +1,4 @@ -Sample: Mcap_Deer_DE_SRR650221 +Sample: Mcap_Deer_DE_SRR650221_fastq_gz Brucella counts: 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, TB counts: 2,2,0,0,4,5,0,0, Para counts: 0,0,0, diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/paired_collection_metrics.txt --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/paired_collection_metrics.txt Thu Dec 10 15:25:22 2020 +0000 @@ -0,0 +1,6 @@ +Sample: CMC_20E1_R1_fastq_gz +Brucella counts: 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, +TB counts: 4,4,0,0,8,10,0,0, +Para counts: 0,0,0, +Group: TB +dbkey: AF2122 diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/paired_metrics.txt --- a/test-data/paired_metrics.txt Wed Dec 02 09:11:24 2020 +0000 +++ b/test-data/paired_metrics.txt Thu Dec 10 15:25:22 2020 +0000 @@ -1,4 +1,4 @@ -Sample: forward +Sample: CMC_20E1_R1_fastq_gz Brucella counts: 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, TB counts: 4,4,0,0,8,10,0,0, Para counts: 0,0,0, diff -r 12f2b14549f6 -r b03e88e7bb1d test-data/reverse.fastq.gz Binary file test-data/reverse.fastq.gz has changed diff -r 12f2b14549f6 -r b03e88e7bb1d vsnp_add_zero_coverage.py --- a/vsnp_add_zero_coverage.py Wed Dec 02 09:11:24 2020 +0000 +++ b/vsnp_add_zero_coverage.py Thu Dec 10 15:25:22 2020 +0000 @@ -1,9 +1,7 @@ #!/usr/bin/env python import argparse -import multiprocessing import os -import queue import re import shutil @@ -11,179 +9,124 @@ import pysam from Bio import SeqIO -INPUT_BAM_DIR = 'input_bam_dir' -INPUT_VCF_DIR = 'input_vcf_dir' -OUTPUT_VCF_DIR = 'output_vcf_dir' -OUTPUT_METRICS_DIR = 'output_metrics_dir' - -def get_base_file_name(file_path): +def get_sample_name(file_path): base_file_name = os.path.basename(file_path) if base_file_name.find(".") > 0: # Eliminate the extension. return os.path.splitext(base_file_name)[0] - elif base_file_name.endswith("_vcf"): - # The "." character has likely - # changed to an "_" character. - return base_file_name.rstrip("_vcf") return base_file_name -def get_coverage_and_snp_count(task_queue, reference, output_metrics, output_vcf, timeout): - while True: - try: - tup = task_queue.get(block=True, timeout=timeout) - except queue.Empty: - break - bam_file, vcf_file = tup - # Create a coverage dictionary. - coverage_dict = {} - coverage_list = pysam.depth(bam_file, split_lines=True) - for line in coverage_list: - chrom, position, depth = line.split('\t') - coverage_dict["%s-%s" % (chrom, position)] = depth - # Convert it to a data frame. - coverage_df = pandas.DataFrame.from_dict(coverage_dict, orient='index', columns=["depth"]) - # Create a zero coverage dictionary. - zero_dict = {} - for record in SeqIO.parse(reference, "fasta"): - chrom = record.id - total_len = len(record.seq) - for pos in list(range(1, total_len + 1)): - zero_dict["%s-%s" % (str(chrom), str(pos))] = 0 - # Convert it to a data frame with depth_x - # and depth_y columns - index is NaN. - zero_df = pandas.DataFrame.from_dict(zero_dict, orient='index', columns=["depth"]) - coverage_df = zero_df.merge(coverage_df, left_index=True, right_index=True, how='outer') - # depth_x "0" column no longer needed. - coverage_df = coverage_df.drop(columns=['depth_x']) - coverage_df = coverage_df.rename(columns={'depth_y': 'depth'}) - # Covert the NaN to 0 coverage and get some metrics. - coverage_df = coverage_df.fillna(0) - coverage_df['depth'] = coverage_df['depth'].apply(int) - total_length = len(coverage_df) - average_coverage = coverage_df['depth'].mean() - zero_df = coverage_df[coverage_df['depth'] == 0] - total_zero_coverage = len(zero_df) - total_coverage = total_length - total_zero_coverage - genome_coverage = "{:.2%}".format(total_coverage / total_length) - # Process the associated VCF input. - column_names = ["CHROM", "POS", "ID", "REF", "ALT", "QUAL", "FILTER", "INFO", "FORMAT", "Sample"] - vcf_df = pandas.read_csv(vcf_file, sep='\t', header=None, names=column_names, comment='#') - good_snp_count = len(vcf_df[(vcf_df['ALT'].str.len() == 1) & (vcf_df['REF'].str.len() == 1) & (vcf_df['QUAL'] > 150)]) - base_file_name = get_base_file_name(vcf_file) - if total_zero_coverage > 0: - header_file = "%s_header.csv" % base_file_name - with open(header_file, 'w') as outfile: - with open(vcf_file) as infile: - for line in infile: - if re.search('^#', line): - outfile.write("%s" % line) - vcf_df_snp = vcf_df[vcf_df['REF'].str.len() == 1] - vcf_df_snp = vcf_df_snp[vcf_df_snp['ALT'].str.len() == 1] - vcf_df_snp['ABS_VALUE'] = vcf_df_snp['CHROM'].map(str) + "-" + vcf_df_snp['POS'].map(str) - vcf_df_snp = vcf_df_snp.set_index('ABS_VALUE') - cat_df = pandas.concat([vcf_df_snp, zero_df], axis=1, sort=False) - cat_df = cat_df.drop(columns=['CHROM', 'POS', 'depth']) - cat_df[['ID', 'ALT', 'QUAL', 'FILTER', 'INFO']] = cat_df[['ID', 'ALT', 'QUAL', 'FILTER', 'INFO']].fillna('.') - cat_df['REF'] = cat_df['REF'].fillna('N') - cat_df['FORMAT'] = cat_df['FORMAT'].fillna('GT') - cat_df['Sample'] = cat_df['Sample'].fillna('./.') - cat_df['temp'] = cat_df.index.str.rsplit('-', n=1) - cat_df[['CHROM', 'POS']] = pandas.DataFrame(cat_df.temp.values.tolist(), index=cat_df.index) - cat_df = cat_df[['CHROM', 'POS', 'ID', 'REF', 'ALT', 'QUAL', 'FILTER', 'INFO', 'FORMAT', 'Sample']] - cat_df['POS'] = cat_df['POS'].astype(int) - cat_df = cat_df.sort_values(['CHROM', 'POS']) - body_file = "%s_body.csv" % base_file_name - cat_df.to_csv(body_file, sep='\t', header=False, index=False) - if output_vcf is None: - output_vcf_file = os.path.join(OUTPUT_VCF_DIR, "%s.vcf" % base_file_name) - else: - output_vcf_file = output_vcf - with open(output_vcf_file, "w") as outfile: - for cf in [header_file, body_file]: - with open(cf, "r") as infile: - for line in infile: - outfile.write("%s" % line) - else: - if output_vcf is None: - output_vcf_file = os.path.join(OUTPUT_VCF_DIR, "%s.vcf" % base_file_name) - else: - output_vcf_file = output_vcf - shutil.copyfile(vcf_file, output_vcf_file) - bam_metrics = [base_file_name, "", "%4f" % average_coverage, genome_coverage] - vcf_metrics = [base_file_name, str(good_snp_count), "", ""] - if output_metrics is None: - output_metrics_file = os.path.join(OUTPUT_METRICS_DIR, "%s.tabular" % base_file_name) - else: - output_metrics_file = output_metrics - metrics_columns = ["File", "Number of Good SNPs", "Average Coverage", "Genome Coverage"] - with open(output_metrics_file, "w") as fh: - fh.write("# %s\n" % "\t".join(metrics_columns)) - fh.write("%s\n" % "\t".join(bam_metrics)) - fh.write("%s\n" % "\t".join(vcf_metrics)) - task_queue.task_done() +def get_coverage_df(bam_file): + # Create a coverage dictionary. + coverage_dict = {} + coverage_list = pysam.depth(bam_file, split_lines=True) + for line in coverage_list: + chrom, position, depth = line.split('\t') + coverage_dict["%s-%s" % (chrom, position)] = depth + # Convert it to a data frame. + coverage_df = pandas.DataFrame.from_dict(coverage_dict, orient='index', columns=["depth"]) + return coverage_df + + +def get_zero_df(reference): + # Create a zero coverage dictionary. + zero_dict = {} + for record in SeqIO.parse(reference, "fasta"): + chrom = record.id + total_len = len(record.seq) + for pos in list(range(1, total_len + 1)): + zero_dict["%s-%s" % (str(chrom), str(pos))] = 0 + # Convert it to a data frame with depth_x + # and depth_y columns - index is NaN. + zero_df = pandas.DataFrame.from_dict(zero_dict, orient='index', columns=["depth"]) + return zero_df -def set_num_cpus(num_files, processes): - num_cpus = int(multiprocessing.cpu_count()) - if num_files < num_cpus and num_files < processes: - return num_files - if num_cpus < processes: - half_cpus = int(num_cpus / 2) - if num_files < half_cpus: - return num_files - return half_cpus - return processes +def output_zc_vcf_file(base_file_name, vcf_file, zero_df, total_zero_coverage, output_vcf): + column_names = ["CHROM", "POS", "ID", "REF", "ALT", "QUAL", "FILTER", "INFO", "FORMAT", "Sample"] + vcf_df = pandas.read_csv(vcf_file, sep='\t', header=None, names=column_names, comment='#') + good_snp_count = len(vcf_df[(vcf_df['ALT'].str.len() == 1) & (vcf_df['REF'].str.len() == 1) & (vcf_df['QUAL'] > 150)]) + if total_zero_coverage > 0: + header_file = "%s_header.csv" % base_file_name + with open(header_file, 'w') as outfile: + with open(vcf_file) as infile: + for line in infile: + if re.search('^#', line): + outfile.write("%s" % line) + vcf_df_snp = vcf_df[vcf_df['REF'].str.len() == 1] + vcf_df_snp = vcf_df_snp[vcf_df_snp['ALT'].str.len() == 1] + vcf_df_snp['ABS_VALUE'] = vcf_df_snp['CHROM'].map(str) + "-" + vcf_df_snp['POS'].map(str) + vcf_df_snp = vcf_df_snp.set_index('ABS_VALUE') + cat_df = pandas.concat([vcf_df_snp, zero_df], axis=1, sort=False) + cat_df = cat_df.drop(columns=['CHROM', 'POS', 'depth']) + cat_df[['ID', 'ALT', 'QUAL', 'FILTER', 'INFO']] = cat_df[['ID', 'ALT', 'QUAL', 'FILTER', 'INFO']].fillna('.') + cat_df['REF'] = cat_df['REF'].fillna('N') + cat_df['FORMAT'] = cat_df['FORMAT'].fillna('GT') + cat_df['Sample'] = cat_df['Sample'].fillna('./.') + cat_df['temp'] = cat_df.index.str.rsplit('-', n=1) + cat_df[['CHROM', 'POS']] = pandas.DataFrame(cat_df.temp.values.tolist(), index=cat_df.index) + cat_df = cat_df[['CHROM', 'POS', 'ID', 'REF', 'ALT', 'QUAL', 'FILTER', 'INFO', 'FORMAT', 'Sample']] + cat_df['POS'] = cat_df['POS'].astype(int) + cat_df = cat_df.sort_values(['CHROM', 'POS']) + body_file = "%s_body.csv" % base_file_name + cat_df.to_csv(body_file, sep='\t', header=False, index=False) + with open(output_vcf, "w") as outfile: + for cf in [header_file, body_file]: + with open(cf, "r") as infile: + for line in infile: + outfile.write("%s" % line) + else: + shutil.move(vcf_file, output_vcf) + return good_snp_count + + +def output_metrics_file(base_file_name, average_coverage, genome_coverage, good_snp_count, output_metrics): + bam_metrics = [base_file_name, "", "%4f" % average_coverage, genome_coverage] + vcf_metrics = [base_file_name, str(good_snp_count), "", ""] + metrics_columns = ["File", "Number of Good SNPs", "Average Coverage", "Genome Coverage"] + with open(output_metrics, "w") as fh: + fh.write("# %s\n" % "\t".join(metrics_columns)) + fh.write("%s\n" % "\t".join(bam_metrics)) + fh.write("%s\n" % "\t".join(vcf_metrics)) + + +def output_files(vcf_file, total_zero_coverage, zero_df, output_vcf, average_coverage, genome_coverage, output_metrics): + base_file_name = get_sample_name(vcf_file) + good_snp_count = output_zc_vcf_file(base_file_name, vcf_file, zero_df, total_zero_coverage, output_vcf) + output_metrics_file(base_file_name, average_coverage, genome_coverage, good_snp_count, output_metrics) + + +def get_coverage_and_snp_count(bam_file, vcf_file, reference, output_metrics, output_vcf): + coverage_df = get_coverage_df(bam_file) + zero_df = get_zero_df(reference) + coverage_df = zero_df.merge(coverage_df, left_index=True, right_index=True, how='outer') + # depth_x "0" column no longer needed. + coverage_df = coverage_df.drop(columns=['depth_x']) + coverage_df = coverage_df.rename(columns={'depth_y': 'depth'}) + # Covert the NaN to 0 coverage and get some metrics. + coverage_df = coverage_df.fillna(0) + coverage_df['depth'] = coverage_df['depth'].apply(int) + total_length = len(coverage_df) + average_coverage = coverage_df['depth'].mean() + zero_df = coverage_df[coverage_df['depth'] == 0] + total_zero_coverage = len(zero_df) + total_coverage = total_length - total_zero_coverage + genome_coverage = "{:.2%}".format(total_coverage / total_length) + # Output a zero-coverage vcf fil and the metrics file. + output_files(vcf_file, total_zero_coverage, zero_df, output_vcf, average_coverage, genome_coverage, output_metrics) if __name__ == '__main__': parser = argparse.ArgumentParser() + parser.add_argument('--bam_input', action='store', dest='bam_input', help='bam input file') parser.add_argument('--output_metrics', action='store', dest='output_metrics', required=False, default=None, help='Output metrics text file') parser.add_argument('--output_vcf', action='store', dest='output_vcf', required=False, default=None, help='Output VCF file') parser.add_argument('--reference', action='store', dest='reference', help='Reference dataset') - parser.add_argument('--processes', action='store', dest='processes', type=int, help='User-selected number of processes to use for job splitting') + parser.add_argument('--vcf_input', action='store', dest='vcf_input', help='vcf input file') args = parser.parse_args() - # The assumption here is that the list of files - # in both INPUT_BAM_DIR and INPUT_VCF_DIR are - # equal in number and named such that they are - # properly matched if the directories contain - # more than 1 file (i.e., hopefully the bam file - # names and vcf file names will be something like - # Mbovis-01D6_* so they can be # sorted and properly - # associated with each other). - bam_files = [] - for file_name in sorted(os.listdir(INPUT_BAM_DIR)): - file_path = os.path.abspath(os.path.join(INPUT_BAM_DIR, file_name)) - bam_files.append(file_path) - vcf_files = [] - for file_name in sorted(os.listdir(INPUT_VCF_DIR)): - file_path = os.path.abspath(os.path.join(INPUT_VCF_DIR, file_name)) - vcf_files.append(file_path) - - multiprocessing.set_start_method('spawn') - queue1 = multiprocessing.JoinableQueue() - num_files = len(bam_files) - cpus = set_num_cpus(num_files, args.processes) - # Set a timeout for get()s in the queue. - timeout = 0.05 - - # Add each associated bam and vcf file pair to the queue. - for i, bam_file in enumerate(bam_files): - vcf_file = vcf_files[i] - queue1.put((bam_file, vcf_file)) - - # Complete the get_coverage_and_snp_count task. - processes = [multiprocessing.Process(target=get_coverage_and_snp_count, args=(queue1, args.reference, args.output_metrics, args.output_vcf, timeout, )) for _ in range(cpus)] - for p in processes: - p.start() - for p in processes: - p.join() - queue1.join() - - if queue1.empty(): - queue1.close() - queue1.join_thread() + get_coverage_and_snp_count(args.bam_input, args.vcf_input, args.reference, args.output_metrics, args.output_vcf) diff -r 12f2b14549f6 -r b03e88e7bb1d vsnp_build_tables.py --- a/vsnp_build_tables.py Wed Dec 02 09:11:24 2020 +0000 +++ b/vsnp_build_tables.py Thu Dec 10 15:25:22 2020 +0000 @@ -1,18 +1,13 @@ #!/usr/bin/env python import argparse -import multiprocessing import os -import queue import re import pandas import pandas.io.formats.excel from Bio import SeqIO -INPUT_JSON_AVG_MQ_DIR = 'input_json_avg_mq_dir' -INPUT_JSON_DIR = 'input_json_dir' -INPUT_NEWICK_DIR = 'input_newick_dir' # Maximum columns allowed in a LibreOffice # spreadsheet is 1024. Excel allows for # 16,384 columns, but we'll set the lower @@ -145,18 +140,12 @@ return annotation_dict -def get_base_file_name(file_path): +def get_sample_name(file_path): base_file_name = os.path.basename(file_path) if base_file_name.find(".") > 0: # Eliminate the extension. return os.path.splitext(base_file_name)[0] - elif base_file_name.find("_") > 0: - # The dot extension was likely changed to - # the " character. - items = base_file_name.split("_") - return "_".join(items[0:-1]) - else: - return base_file_name + return base_file_name def output_cascade_table(cascade_order, mqdf, group, annotation_dict): @@ -169,17 +158,20 @@ # is used by the excel_formatter. if count is None: if group is None: - json_file_name = "%s_order_mq.json" % type_str + json_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_order_mq.json" % type_str) excel_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_table.xlsx" % type_str) else: - json_file_name = "%s_%s_order_mq.json" % (group, type_str) + json_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_%s_order_mq.json" % (group, type_str)) excel_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_%s_table.xlsx" % (group, type_str)) else: + # The table has more columns than is allowed by the + # MAXCOLS setting, so multiple files will be produced + # as an output collection. if group is None: - json_file_name = "%s_order_mq_%d.json" % (type_str, count) + json_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_order_mq_%d.json" % (type_str, count)) excel_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_table_%d.xlsx" % (type_str, count)) else: - json_file_name = "%s_%s_order_mq_%d.json" % (group, type_str, count) + json_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_%s_order_mq_%d.json" % (group, type_str, count)) excel_file_name = os.path.join(OUTPUT_EXCEL_DIR, "%s_%s_table_%d.xlsx" % (group, type_str, count)) df.to_json(json_file_name, orient='split') # Output the Excel file. @@ -229,94 +221,74 @@ output_excel(df, type_str, group_str, annotation_dict) -def preprocess_tables(task_queue, annotation_dict, timeout): - while True: - try: - tup = task_queue.get(block=True, timeout=timeout) - except queue.Empty: - break - newick_file, json_file, json_avg_mq_file = tup - avg_mq_series = pandas.read_json(json_avg_mq_file, typ='series', orient='split') - # Map quality to dataframe. - mqdf = avg_mq_series.to_frame(name='MQ') - mqdf = mqdf.T - # Get the group. - group = get_base_file_name(newick_file) - snps_df = pandas.read_json(json_file, orient='split') - with open(newick_file, 'r') as fh: - for line in fh: - line = re.sub('[:,]', '\n', line) - line = re.sub('[)(]', '', line) - line = re.sub(r'[0-9].*\.[0-9].*\n', '', line) - line = re.sub('root\n', '', line) - sample_order = line.split('\n') - sample_order = list([_f for _f in sample_order if _f]) - sample_order.insert(0, 'root') - tree_order = snps_df.loc[sample_order] - # Count number of SNPs in each column. - snp_per_column = [] - for column_header in tree_order: - count = 0 - column = tree_order[column_header] - for element in column: - if element != column[0]: - count = count + 1 - snp_per_column.append(count) - row1 = pandas.Series(snp_per_column, tree_order.columns, name="snp_per_column") - # Count number of SNPS from the - # top of each column in the table. - snp_from_top = [] - for column_header in tree_order: - count = 0 - column = tree_order[column_header] - # for each element in the column - # skip the first element - for element in column[1:]: - if element == column[0]: - count = count + 1 - else: - break - snp_from_top.append(count) - row2 = pandas.Series(snp_from_top, tree_order.columns, name="snp_from_top") - tree_order = tree_order.append([row1]) - tree_order = tree_order.append([row2]) - # In pandas=0.18.1 even this does not work: - # abc = row1.to_frame() - # abc = abc.T --> tree_order.shape (5, 18), abc.shape (1, 18) - # tree_order.append(abc) - # Continue to get error: "*** ValueError: all the input arrays must have same number of dimensions" - tree_order = tree_order.T - tree_order = tree_order.sort_values(['snp_from_top', 'snp_per_column'], ascending=[True, False]) - tree_order = tree_order.T - # Remove snp_per_column and snp_from_top rows. - cascade_order = tree_order[:-2] - # Output the cascade table. - output_cascade_table(cascade_order, mqdf, group, annotation_dict) - # Output the sorted table. - output_sort_table(cascade_order, mqdf, group, annotation_dict) - task_queue.task_done() - - -def set_num_cpus(num_files, processes): - num_cpus = int(multiprocessing.cpu_count()) - if num_files < num_cpus and num_files < processes: - return num_files - if num_cpus < processes: - half_cpus = int(num_cpus / 2) - if num_files < half_cpus: - return num_files - return half_cpus - return processes +def preprocess_tables(newick_file, json_file, json_avg_mq_file, annotation_dict): + avg_mq_series = pandas.read_json(json_avg_mq_file, typ='series', orient='split') + # Map quality to dataframe. + mqdf = avg_mq_series.to_frame(name='MQ') + mqdf = mqdf.T + # Get the group. + group = get_sample_name(newick_file) + snps_df = pandas.read_json(json_file, orient='split') + with open(newick_file, 'r') as fh: + for line in fh: + line = re.sub('[:,]', '\n', line) + line = re.sub('[)(]', '', line) + line = re.sub(r'[0-9].*\.[0-9].*\n', '', line) + line = re.sub('root\n', '', line) + sample_order = line.split('\n') + sample_order = list([_f for _f in sample_order if _f]) + sample_order.insert(0, 'root') + tree_order = snps_df.loc[sample_order] + # Count number of SNPs in each column. + snp_per_column = [] + for column_header in tree_order: + count = 0 + column = tree_order[column_header] + for element in column: + if element != column[0]: + count = count + 1 + snp_per_column.append(count) + row1 = pandas.Series(snp_per_column, tree_order.columns, name="snp_per_column") + # Count number of SNPS from the + # top of each column in the table. + snp_from_top = [] + for column_header in tree_order: + count = 0 + column = tree_order[column_header] + # for each element in the column + # skip the first element + for element in column[1:]: + if element == column[0]: + count = count + 1 + else: + break + snp_from_top.append(count) + row2 = pandas.Series(snp_from_top, tree_order.columns, name="snp_from_top") + tree_order = tree_order.append([row1]) + tree_order = tree_order.append([row2]) + # In pandas=0.18.1 even this does not work: + # abc = row1.to_frame() + # abc = abc.T --> tree_order.shape (5, 18), abc.shape (1, 18) + # tree_order.append(abc) + # Continue to get error: "*** ValueError: all the input arrays must have same number of dimensions" + tree_order = tree_order.T + tree_order = tree_order.sort_values(['snp_from_top', 'snp_per_column'], ascending=[True, False]) + tree_order = tree_order.T + # Remove snp_per_column and snp_from_top rows. + cascade_order = tree_order[:-2] + # Output the cascade table. + output_cascade_table(cascade_order, mqdf, group, annotation_dict) + # Output the sorted table. + output_sort_table(cascade_order, mqdf, group, annotation_dict) if __name__ == '__main__': parser = argparse.ArgumentParser() - parser.add_argument('--input_avg_mq_json', action='store', dest='input_avg_mq_json', required=False, default=None, help='Average MQ json file') - parser.add_argument('--input_newick', action='store', dest='input_newick', required=False, default=None, help='Newick file') - parser.add_argument('--input_snps_json', action='store', dest='input_snps_json', required=False, default=None, help='SNPs json file') parser.add_argument('--gbk_file', action='store', dest='gbk_file', required=False, default=None, help='Optional gbk file'), - parser.add_argument('--processes', action='store', dest='processes', type=int, help='User-selected number of processes to use for job splitting') + parser.add_argument('--input_avg_mq_json', action='store', dest='input_avg_mq_json', help='Average MQ json file') + parser.add_argument('--input_newick', action='store', dest='input_newick', help='Newick file') + parser.add_argument('--input_snps_json', action='store', dest='input_snps_json', help='SNPs json file') args = parser.parse_args() @@ -327,56 +299,4 @@ else: annotation_dict = None - # The assumption here is that the list of files - # in both INPUT_NEWICK_DIR and INPUT_JSON_DIR are - # named such that they are properly matched if - # the directories contain more than 1 file (i.e., - # hopefully the newick file names and json file names - # will be something like Mbovis-01D6_* so they can be - # sorted and properly associated with each other). - if args.input_newick is not None: - newick_files = [args.input_newick] - else: - newick_files = [] - for file_name in sorted(os.listdir(INPUT_NEWICK_DIR)): - file_path = os.path.abspath(os.path.join(INPUT_NEWICK_DIR, file_name)) - newick_files.append(file_path) - if args.input_snps_json is not None: - json_files = [args.input_snps_json] - else: - json_files = [] - for file_name in sorted(os.listdir(INPUT_JSON_DIR)): - file_path = os.path.abspath(os.path.join(INPUT_JSON_DIR, file_name)) - json_files.append(file_path) - if args.input_avg_mq_json is not None: - json_avg_mq_files = [args.input_avg_mq_json] - else: - json_avg_mq_files = [] - for file_name in sorted(os.listdir(INPUT_JSON_AVG_MQ_DIR)): - file_path = os.path.abspath(os.path.join(INPUT_JSON_AVG_MQ_DIR, file_name)) - json_avg_mq_files.append(file_path) - - multiprocessing.set_start_method('spawn') - queue1 = multiprocessing.JoinableQueue() - queue2 = multiprocessing.JoinableQueue() - num_files = len(newick_files) - cpus = set_num_cpus(num_files, args.processes) - # Set a timeout for get()s in the queue. - timeout = 0.05 - - for i, newick_file in enumerate(newick_files): - json_file = json_files[i] - json_avg_mq_file = json_avg_mq_files[i] - queue1.put((newick_file, json_file, json_avg_mq_file)) - - # Complete the preprocess_tables task. - processes = [multiprocessing.Process(target=preprocess_tables, args=(queue1, annotation_dict, timeout, )) for _ in range(cpus)] - for p in processes: - p.start() - for p in processes: - p.join() - queue1.join() - - if queue1.empty(): - queue1.close() - queue1.join_thread() + preprocess_tables(args.input_newick, args.input_snps_json, args.input_avg_mq_json, annotation_dict) diff -r 12f2b14549f6 -r b03e88e7bb1d vsnp_determine_ref_from_data.py --- a/vsnp_determine_ref_from_data.py Wed Dec 02 09:11:24 2020 +0000 +++ b/vsnp_determine_ref_from_data.py Thu Dec 10 15:25:22 2020 +0000 @@ -12,17 +12,11 @@ OUTPUT_METRICS_DIR = 'output_metrics' -def get_base_file_name(file_path): +def get_sample_name(file_path): base_file_name = os.path.basename(file_path) if base_file_name.find(".") > 0: # Eliminate the extension. return os.path.splitext(base_file_name)[0] - elif base_file_name.find("_fq") > 0: - # The "." character has likely - # changed to an "_" character. - return base_file_name.split("_fq")[0] - elif base_file_name.find("_fastq") > 0: - return base_file_name.split("_fastq")[0] return base_file_name @@ -178,7 +172,7 @@ def output_files(fastq_file, count_list, group, dbkey, dbkey_file, metrics_file): - base_file_name = get_base_file_name(fastq_file) + base_file_name = get_sample_name(fastq_file) output_dbkey(base_file_name, dbkey, dbkey_file) output_metrics(base_file_name, count_list, group, dbkey, metrics_file) diff -r 12f2b14549f6 -r b03e88e7bb1d vsnp_determine_ref_from_data.xml --- a/vsnp_determine_ref_from_data.xml Wed Dec 02 09:11:24 2020 +0000 +++ b/vsnp_determine_ref_from_data.xml Thu Dec 10 15:25:22 2020 +0000 @@ -1,4 +1,4 @@ - + from input data macros.xml @@ -25,10 +25,10 @@ #end if #else: #set read1 = $input_type_cond.reads_collection['forward'] - #set read1_identifier = re.sub('[^\s\w\-]', '_', str($read1.element_identifier)) + #set read1_identifier = re.sub('[^\s\w\-]', '_', str($read1.name)) ln -s '${read1}' '${read1_identifier}' && #set read2 = $input_type_cond.reads_collection['reverse'] - #set read2_identifier = re.sub('[^\s\w\-]', '_', str($read2.element_identifier)) + #set read2_identifier = re.sub('[^\s\w\-]', '_', str($read2.name)) ln -s '${read2}' '${read2_identifier}' && #end if @@ -67,8 +67,8 @@ - - + + @@ -81,8 +81,8 @@ - - + + @@ -91,12 +91,12 @@ - - + + - +