def main():
parser = make_arg_parser()
args = parser.parse_args()
# Parse command line
tanimoto = args.tanimoto
with open(args.mpfa, 'r') as inf:
# Generates dictionary with each unique 'refseq_cluster' as keys, ORFs as values
cluster_map = build_cluster_map(inf, bread=args.bread)
with open(args.input, 'r') as inf2:
inkey = generate_index_list(inf2)
print('\nOk, processing input file...\n')
with open(args.input, 'r') as in_csv2:
headers = generate_chunk_list(in_csv2)
c_list = list(cluster_map.keys())
grabbed_clusters = []
data_to_pool = []
# print(c_list)
for cluster in c_list:
grab = pick_a_cluster(headers, cluster) # uses the name of the cluster to get a list of all orfs for a particular unique cluster
# print(grab)
if not grab:
pass
else:
# print(grab)
grabbed_clusters.extend([cluster])
with open(args.input, 'r') as inf3:
mx = pd.read_csv(inf3, sep=',', header=0, usecols=grab, engine='c') # loads in only the columns from the grab list, i.e. all cols for a unique cluster
mx.index = inkey # reindexes the df with the orf labels after importing specific columns with usecols
data_to_pool.append(mx)
dlen = len(data_to_pool)
print('Built the data list of %s clusters' % dlen)
args_list = [cluster_map, c_list] # organizes all the arguments that the parallelized function needs into a list
print('\nSending data to Workers... work, Workers, work!\n')
if args.tanimoto:
if __name__ == '__main__':
results = list(futures.map(partial(parallel_tanimoto, args_list=args_list), data_to_pool))
outdf = pd.concat(results, axis=1)
if not args.tanimoto:
if __name__ == '__main__':
results = list(futures.map(partial(parallel_minicluster, args_list=args_list), data_to_pool))
outdf = pd.concat(results, axis=1)
# bigmat = pd.concat(results, axis=0) # stack all the results into a single column in a dataframe
# print(bigmat.shape[0])
# bigmat.index = c_list # now the index is just the clusters, not the orfs
# print(bigmat)
print('File processing complete; writing output file...\n')
del data_to_pool
with open(args.output, 'w') if args.output != '-' else sys.stdout as outf:
# outdf = pd.concat(results, axis=1)
outdf.columns = grabbed_clusters # names the columns (and index, next line) according to clusters in the order they were processed
outdf.index = c_list
outdf.sort_index(axis=0, inplace=True)
outdf.sort_index(axis=1, inplace=True)
outdf = outdf.round(decimals=3)
outdf.to_csv(outf)
def main():
parser = make_arg_parser()
args = parser.parse_args()
# Parse command line
with open(args.mpfa, 'r') as inf:
# Generates dictionary with each unique 'refseq_cluster' as keys, ORFs as values
cluster_map = build_cluster_map(inf, bread=args.bread)
with open(args.input, 'r') as in_csv:
print('\nOk, processing input file in pieces...\n')
inkey = generate_index_list(in_csv)
# print(len(inkey))
with open(args.input, 'r') as in_csv2:
headers = generate_chunk_list(in_csv2)
# print(len(headers))
c_list = list(cluster_map.keys())
# ct = len(c_list)
# print('Found %d clusters...' % ct)
data_to_pool = []
grabbed_clusters = []
for cluster in c_list:
grab = pick_a_cluster(
headers, cluster
) # uses the name of the cluster to get a list of all orfs for a particular unique cluster
if not grab:
pass
else:
# print(grab)
grabbed_clusters.extend([cluster])
with open(args.input, 'r') as inf3:
mx = pd.read_csv(
inf3, sep=',', header=0, usecols=grab, engine='c'
) # loads in only the columns from the grab list, i.e. all cols for a unique cluster
mx.index = inkey # reindexes the df with the orf labels after importing specific columns with usecols
data_to_pool.append(
mx) # create the list of dfs to map over for multiprocessing
if __name__ == '__main__':
print('\nSending data to Workers... work, Workers, work!')
results = list(
futures.map(partial(parallel_clustermean, c_list=c_list),
data_to_pool))
print('\nFile processing complete; writing output file...\n')
del data_to_pool
with open(args.output, 'w') if args.output != '-' else sys.stdout as outf:
outdf = pd.concat(results, axis=1)
outdf.columns = grabbed_clusters # names the columns (and index, next line) according to clusters in the order they were processed
# outdf.index = c_list
outdf.sort_index(
axis=0, inplace=True
) # ensure that the clusters are in order on cols and rows
outdf.sort_index(axis=1, inplace=True)
outdf.to_csv(outf)
def main():
parser = make_arg_parser()
args = parser.parse_args()
# Parse command line
tanimoto = args.tanimoto
with open(args.mpfa, 'r') as inf:
# Generates dictionary with each unique 'refseq_cluster' as keys, ORFs as values
cluster_map = build_cluster_map(inf, bread=args.bread)
# intype = str(args.input).split('.')[-1]
with open(args.input, 'r') as inf2:
inkey = generate_index_list(inf2)
print('\nOk, processing input file in pieces...\n')
with open(args.input, 'r') as in_csv2:
headers = generate_chunk_list(in_csv2)
c_list = list(cluster_map.keys())
results_list = []
j = 0
grabbed_clusters = []
for cluster in c_list:
grab = pick_a_cluster(
headers, cluster
) # uses the name of the cluster to get a list of all orfs for a particular unique cluster
# print(grab)
if not grab:
pass
else:
# print(grab)
grabbed_clusters.extend([cluster])
with open(args.input, 'r') as inf3:
bigmat = big_cluster_completeness(inf3, grab, inkey, cluster,
cluster_map, tanimoto,
c_list, j)
# print(bigmat)
results_list.append(
bigmat
) # returns a list of dataframes, one for each cluster column
j += 1
print('File processing complete; writing output file...\n')
with open(args.output, 'w') if args.output != '-' else sys.stdout as outf:
outdf = pd.concat(results_list, axis=1)
outdf.columns = grabbed_clusters # names the columns (and index, next line) according to clusters in the order they were processed
# outdf.index = c_list
outdf.sort_index(axis=0, inplace=True)
outdf.sort_index(axis=1, inplace=True)
outdf = outdf.round(decimals=3)
outdf.to_csv(outf)
def main():
parser = make_arg_parser()
args = parser.parse_args()
# Parse command line
cpus = args.cpus
num_cpus = cpu_count()
if cpus > num_cpus:
print(
'\nError: Number of requested processors exceeds hardware available!'
)
print('Maximum processors available is %s.\n' % num_cpus)
sys.exit()
with open(args.mpfa, 'r') as inf:
# Generates dictionary with each unique 'refseq_cluster' as keys, ORFs as values
cluster_map = build_cluster_map(inf, bread=args.bread)
with open(args.input, 'r') as in_csv:
with open(args.output,
'w') if args.output != '-' else sys.stdout as outf:
print('\nOk, processing input file in pieces...\n')
inkey = generate_index_list(in_csv)
c_list = list(cluster_map.keys())
ct = len(c_list)
print('Found %d clusters...' % ct)
results_list = []
j = 0
for cluster in c_list:
grab = pick_a_cluster(
inkey, cluster
) # uses the name of the cluster to get a list of all orfs for a particular unique cluster
# print(grab)
with open(args.input, 'r') as inf3:
bigmat = big_cluster_v_cluster(inf3, grab, inkey, cpus,
c_list, j)
# print(bigmat)
results_list.append(
bigmat
) # returns a list of dataframes, one for each cluster column
j += 1
print('File processing complete; writing output file...\n')
outdf = pd.concat(results_list, axis=1)
outdf.columns = c_list # names the columns (and index, next line) according to clusters in the order they were processed
outdf.index = c_list
outdf.sort_index(axis=0, inplace=True)
outdf.sort_index(axis=1, inplace=True)
outdf = outdf.round(decimals=2)
outdf.to_csv(outf)
def main():
parser = make_arg_parser()
args = parser.parse_args()
# Parse command line
if args.synthesize:
final_df = synthesize_chunks()
with open(args.output, 'w') as outf:
final_df.to_csv(outf)
print('\nMerged data written to file... exiting...\n')
sys.exit()
with open(args.mpfa, 'r') as inf:
# Generates dictionary with each unique 'refseq_cluster' as keys, ORFs as values
cluster_map = build_cluster_map(inf, bread=args.bread)
with open(args.input, 'r') as in_csv:
print('\nOk, processing input file in pieces...\n')
inkey = generate_index_list(in_csv)
c_list = list(cluster_map.keys())
ct = len(c_list)
n = int(args.cuts)
print('Found %d clusters... Making %d cuts...' % (ct, n))
# g = orfct / cuts
# if not g.is_integer():
# g = int(g) + 1
bcl = [c_list[i:i + n] for i in range(0, len(c_list), n)]
print('\nMaster list generated... now doing the splits!')
p = 1
for c in bcl:
grab_chunk = []
for cluster in list(c):
grab = pick_a_cluster(
inkey, cluster
) # uses the name of the cluster to get a list of all orfs for a particular unique cluster
grab_chunk.extend(grab)
with open(args.input, 'r') as inf3:
mx = pd.read_csv(
inf3, sep=',', header=0, usecols=grab_chunk, engine='c'
) # loads in only the columns from the grab list, i.e. all cols for a unique cluster
mx.index = inkey # reindexes the df with the orf labels after importing specific columns with usecols
# data_to_pool.append(mx) # create the list of dfs to map over for multiprocessing
outf = args.output
if outf.endswith('.csv'):
outf.replace('.csv', '')
outf = '_'.join([args.output, str(p), '.csv'])
mx.to_csv(outf)
print('\nSaved a matrix chunk...')
p += 1
def main():
parser = make_arg_parser()
args = parser.parse_args()
# Parse command line
with open(args.mpfa, 'r') as inf:
# Generates dictionary with each unique 'refseq_cluster' as keys, ORFs as values
cluster_map = build_cluster_map(inf, bread=args.bread)
with open(args.input, 'r') as in_csv, open(
args.output, 'w') if args.output != '-' else sys.stdout as outf:
if not args.pieces:
outdf = cluster_by_cluster(cluster_map, in_csv)
outdf = outdf.round(decimals=2)
outdf.to_csv(outf)
else:
print('\nOk, processing input file in pieces...\n')
inkey = generate_index_list(in_csv)
c_list = list(cluster_map.keys())
ct = len(c_list)
print('Found %d clusters...' % ct)
mat = np.zeros(
(ct, ct)
) # initializes an array of the dimensions necessary to fit all cluster results
j = 0
for cluster in c_list:
grab = pick_a_cluster(inkey, cluster)
# print(grab)
with open(args.input, 'r') as inf3:
mat = big_cluster_by_cluster(grab, inkey, c_list, inf3,
mat, j)
# print(mat)
j += 1
print('File processing complete; writing output file...\n')
outdf = pd.DataFrame(mat, dtype=float)
outdf.columns = c_list # names the columns (and index, next line) according to clusters in the order they were processed
outdf.index = c_list
outdf.sort_index(axis=0, inplace=True)
outdf.sort_index(axis=1, inplace=True)
outdf = outdf.round(decimals=2)
outdf.to_csv(outf)