Mercurial > repos > fubar > egapx_runner
view ui/egapx.py @ 3:9b1c2fb3b218 draft
planemo upload for repository https://github.com/ncbi/egapx commit 69fafcdd687884c990c7f4027aa2982df66626e6
author | fubar |
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date | Sun, 04 Aug 2024 00:52:17 +0000 |
parents | d9c5c5b87fec |
children |
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#!/usr/bin/env python # requires pip install pyyaml # import shlex import shutil import sys import os import argparse import subprocess import tempfile import re import time import datetime from collections import defaultdict from ftplib import FTP from ftplib import FTP_TLS import ftplib from pathlib import Path from typing import List from urllib.request import urlopen import json import sqlite3 import stat import yaml VERBOSITY_DEFAULT=0 VERBOSITY_QUIET=-1 VERBOSITY_VERBOSE=1 FTP_EGAP_PROTOCOL = "https" FTP_EGAP_SERVER = "ftp.ncbi.nlm.nih.gov" FTP_EGAP_ROOT_PATH = "genomes/TOOLS/EGAP/support_data" FTP_EGAP_ROOT = f"{FTP_EGAP_PROTOCOL}://{FTP_EGAP_SERVER}/{FTP_EGAP_ROOT_PATH}" DATA_VERSION = "current" dataset_taxonomy_url = "https://api.ncbi.nlm.nih.gov/datasets/v2alpha/taxonomy/taxon/" user_cache_dir = '' def parse_args(argv): parser = argparse.ArgumentParser(description="Main script for EGAPx") group = parser.add_argument_group('run') group.add_argument("filename", nargs='?', help="YAML file with input: section with at least genome: and reads: parameters") group.add_argument("-o", "--output", help="Output path", default="") parser.add_argument("-e", "--executor", help="Nextflow executor, one of docker, singularity, aws, or local (for NCBI internal use only). Uses corresponding Nextflow config file", default="local") parser.add_argument("-c", "--config-dir", help="Directory for executor config files, default is ./egapx_config. Can be also set as env EGAPX_CONFIG_DIR", default="") parser.add_argument("-w", "--workdir", help="Working directory for cloud executor", default="") parser.add_argument("-r", "--report", help="Report file prefix for report (.report.html) and timeline (.timeline.html) files, default is in output directory", default="") parser.add_argument("-n", "--dry-run", action="store_true", default=False) parser.add_argument("-st", "--stub-run", action="store_true", default=False) parser.add_argument("-so", "--summary-only", help="Print result statistics only if available, do not compute result", action="store_true", default=False) group = parser.add_argument_group('download') group.add_argument("-dl", "--download-only", help="Download external files to local storage, so that future runs can be isolated", action="store_true", default=False) parser.add_argument("-lc", "--local-cache", help="Where to store the downloaded files", default="") parser.add_argument("-q", "--quiet", dest='verbosity', action='store_const', const=VERBOSITY_QUIET, default=VERBOSITY_DEFAULT) parser.add_argument("-v", "--verbose", dest='verbosity', action='store_const', const=VERBOSITY_VERBOSE, default=VERBOSITY_DEFAULT) parser.add_argument("-fn", "--func_name", help="func_name", default="") return parser.parse_args(argv[1:]) class FtpDownloader: def __init__(self): self.ftp = None def connect(self, host): self.host = host self.reconnect() def reconnect(self): self.ftp = FTP(self.host) self.ftp.login() self.ftp.set_debuglevel(0) ##ftp_types = set() def download_ftp_file(self, ftp_name, local_path): # print(f"file: {ftp_name}") # print(f"f: { os.path.dirname(local_path)}") os.makedirs(os.path.dirname(local_path), exist_ok=True) try: with open(local_path, 'wb') as f: self.ftp.retrbinary("RETR {0}".format(ftp_name), f.write) # print("downloaded: {0}".format(local_path)) return True except FileNotFoundError: print("FAILED FNF: {0}".format(local_path)) except EOFError: print("FAILED EOF: {0}".format(local_path)) time.sleep(1) self.reconnect() print("retrying...") r = self.download_ftp_file(ftp_name, local_path) print("downloaded on retry: {0}".format(local_path)) return r except BrokenPipeError: print("FAILED BP: {0}".format(local_path)) except IsADirectoryError: ## same as 550 but pre-exists ## os.remove(local_path) return 550 except ftplib.error_perm: ## ftplib.error_perm: 550 genomes/TOOLS/EGAP/ortholog_references/9606/current: Not a regular file ## its a symlink to a dir. os.remove(local_path) return 550 return False # item: ('Eublepharis_macularius', {'modify': '20240125225739', 'perm': 'fle', 'size': '4096', 'type': 'dir', 'unique': '6CU599079F', 'unix.group': '562', 'unix.mode': '0444', 'unix.owner': '14'} def should_download_file(self, ftp_item, local_name): metadata = ftp_item[1] ftp_modify = datetime.datetime.strptime(metadata['modify'], '%Y%m%d%H%M%S') ftp_size = int(metadata['size']) ftp_type = metadata['type'] local_stat = [] try: local_stat = os.stat(local_name) except FileNotFoundError: return True except NotADirectoryError: return True local_is_dir = stat.S_ISDIR(local_stat.st_mode) #print(f"item: {ftp_item}") #print(f"stat: {local_stat}") local_stat_dt = datetime.datetime.fromtimestamp(local_stat.st_mtime) #print(f"should_dl: {ftp_size != local_stat.st_size} {ftp_modify > local_stat_dt} ") if (ftp_type == 'file' and ftp_size != local_stat.st_size) or (ftp_type=='OS.unix=symlink' and ftp_size >= local_stat.st_size): return True if ftp_modify > local_stat_dt: return True return False ## types ## cdir and pdir: . and ..: do nothing ## file: a file ## dir: a dir ## OS.unix=symlink: symlink to a file, treat like a file def download_ftp_dir(self, ftp_path, local_path): """ replicates a directory on an ftp server recursively """ for ftp_item in self.ftp.mlsd(ftp_path): # print(f"ftp_item: {ftp_item}") ##print(f" name: {ftp_item[0]}") ##print(f" type: {ftp_item[1]['type']}") name = ftp_item[0] next_ftp_name="/".join([ftp_path,name]) next_local_name=os.sep.join([local_path,name]) ftp_type = ftp_item[1]['type'] ##ftp_types.add(ftp_type) if ftp_type=='dir': self.download_ftp_dir(next_ftp_name, next_local_name) elif ftp_type=='file' or ftp_type=='OS.unix=symlink': if self.should_download_file(ftp_item, next_local_name): r = self.download_ftp_file(next_ftp_name, next_local_name) if r == 550: self.download_ftp_dir(next_ftp_name, next_local_name) ##time.sleep(0.1) ## else: . or .. do nothing def download_egapx_ftp_data(local_cache_dir): global user_cache_dir manifest_url = f"{FTP_EGAP_ROOT}/{DATA_VERSION}.mft" manifest = urlopen(manifest_url) manifest_path = f"{user_cache_dir}/{DATA_VERSION}.mft" manifest_list = [] for line in manifest: line = line.decode("utf-8").strip() if not line or line[0] == '#': continue manifest_list.append(line) print(f"Downloading {line}") ftpd = FtpDownloader() ftpd.connect(FTP_EGAP_SERVER) ftpd.download_ftp_dir(FTP_EGAP_ROOT_PATH+f"/{line}", f"{local_cache_dir}/{line}") if user_cache_dir: with open(manifest_path, 'wt') as f: for line in manifest_list: f.write(f"{line}\n") return 0 def repackage_inputs(run_inputs): "Repackage input parameters into 'input' key if not already there" if 'input' in run_inputs: return run_inputs new_inputs = {} new_inputs['input'] = {} for key in run_inputs: if key not in { 'tasks', 'output' }: new_inputs['input'][key] = run_inputs[key] else: new_inputs[key] = run_inputs[key] return new_inputs def convert_value(value): "Convert paths to absolute paths when possible, look into objects and lists" if isinstance(value, dict): return {k: convert_value(v) for k, v in value.items()} elif isinstance(value, list): return [convert_value(v) for v in value] else: if value == '' or re.match(r'[a-z0-9]{2,5}://', value) or not os.path.exists(value): # do not convert - this is a URL or empty string or non-file return value # convert to absolute path return str(Path(value).absolute()) path_inputs = { 'genome', 'hmm', 'softmask', 'reads_metadata', 'organelles', 'proteins', 'reads', 'rnaseq_alignments', 'protein_alignments' } def convert_paths(run_inputs): "Convert paths to absolute paths where appropriate" input_root = run_inputs['input'] for key in input_root: if key in path_inputs: if isinstance(input_root[key], list): input_root[key] = [convert_value(v) for v in input_root[key]] else: input_root[key] = convert_value(input_root[key]) if 'output' in run_inputs: run_inputs['output'] = convert_value(run_inputs['output']) def prepare_reads(run_inputs): """Reformat reads input to be in 'fromPairs' format expected by egapx, i.e. [sample_id, [read1, read2]] Generate reads metadata file with minimal information - paired/unpaired and valid for existing libraries""" if 'reads' not in run_inputs['input'] or 'output' not in run_inputs: return prefixes = defaultdict(list) reads = run_inputs['input']['reads'] if type(reads) == str: del run_inputs['input']['reads'] run_inputs['input']['reads_query'] = reads return # Create fake metadata file for reads containing only one meaningful information piece - pairedness # Have an entry in this file only for SRA runs - files with prefixes SRR, ERR, and DRR and digits # Non-SRA reads are handled by rnaseq_collapse internally has_files = False for rf in run_inputs['input']['reads']: if type(rf) == str: name = Path(rf).parts[-1] mo = re.match(r'([^._]+)', name) if mo and mo.group(1) != name: has_files = True prefixes[mo.group(1)].append(rf) elif type(rf) == list: has_files = True names = list(map(lambda x: re.match(r'([^.]+)', Path(x).parts[-1]).group(1), rf)) # Find common prefix names.sort() if len(names) == 1: sample_id = names[0] else: for i in range(min(len(names[0]), len(names[-1]))): if names[0][i] != names[-1][i]: break sample_id = names[0][0:i] # Dont end prefix with . or _ i = len(sample_id) - 1 while i > 0 and sample_id[-1] in "._": sample_id = sample_id[:-1] i -= 1 prefixes[sample_id] = rf if has_files: # len(prefixes): # Always create metadata file even if it's empty output = run_inputs['output'] with tempfile.NamedTemporaryFile(mode='w', delete=False, dir=output, prefix='egapx_reads_metadata_', suffix='.tsv') as f: for k, v in prefixes.items(): if re.fullmatch(r'([DES]RR[0-9]+)', k): paired = 'paired' if len(v) == 2 else 'unpaired' # SRR9005248 NA paired 2 2 NA NA NA NA NA NA NA 0 rec = "\t".join([k, 'NA', paired, '2', '2', 'NA', 'NA', 'NA', 'NA', 'NA', 'NA', 'NA', '0']) f.write(rec + '\n') f.flush() run_inputs['input']['reads_metadata'] = f.name run_inputs['input']['reads'] = [ [k, v] for k, v in prefixes.items() ] elif reads: del run_inputs['input']['reads'] run_inputs['input']['reads_query'] = "[Accession] OR ".join(reads) + "[Accession]" def expand_and_validate_params(run_inputs): """ Expand implicit parameters and validate inputs Args: run_inputs (dict): Input parameters Returns: bool: True if parameters are valid, False otherwise """ inputs = run_inputs['input'] if 'taxid' not in inputs: print("ERROR: Missing parameter: 'taxid'") return False taxid = inputs['taxid'] if 'genome' not in inputs: print("ERROR: Missing parameter: 'genome'") return False # Check for proteins input and if empty or no input at all, add closest protein bag if 'proteins' not in inputs: proteins = get_closest_protein_bag(taxid) if not proteins: # Proteins are not specified explicitly and not found by taxid print(f"ERROR: Proteins are not found for tax id {inputs['taxid']}") print(" This organism is not supported by current NCBI protein database") print(" You can specify proteins manually using 'proteins' parameter") return False inputs['proteins'] = proteins has_rnaseq = 'reads' in inputs or 'reads_ids' in inputs or 'reads_query' in inputs if not has_rnaseq: if inputs['proteins']: print("WARNING: It is strongly advised to specify RNA-seq reads using 'reads' parameter\n") else: print("ERROR: Either proteins or RNA-seq reads should be provided for annotation") return False if 'hmm' not in inputs: best_taxid, best_hmm = get_closest_hmm(taxid) inputs['hmm'] = best_hmm inputs['hmm_taxid'] = best_taxid else: # We assume the user knows what they're doing and the training is not necessary inputs['hmm_taxid'] = taxid if 'max_intron' not in inputs: max_intron, genome_size_threshold = get_max_intron(taxid) inputs['max_intron'] = max_intron inputs['genome_size_threshold'] = genome_size_threshold else: # Given max_intron is a hard limit, no further calculation is necessary inputs['genome_size_threshold'] = 0 return True def manage_workdir(args): workdir_file = f"work_dir_{args.executor}.last" if args.workdir: os.environ['NXF_WORK'] = args.workdir with open(workdir_file, 'w') as f: f.write(args.workdir) else: if os.path.exists(workdir_file): with open(workdir_file) as f: os.environ['NXF_WORK'] = f.read().strip() else: if args.executor == 'aws': print("Work directory not set, use -w at least once") return False return True def get_cache_dir(): global user_cache_dir if user_cache_dir and os.path.exists(user_cache_dir): return user_cache_dir ##elif os.path.exists("/am/ftp-genomes/TOOLS/EGAP"): ## return "/am/ftp-genomes/TOOLS/EGAP" return "" data_version_cache = {} def get_versioned_path(subsystem, filename): global data_version_cache global user_cache_dir if not data_version_cache: manifest_path = f"{user_cache_dir}/{DATA_VERSION}.mft" if user_cache_dir and os.path.exists(manifest_path): with open(manifest_path, 'rt') as f: for line in f: line = line.strip() if not line or line[0] == '#': continue parts = line.split('/') if len(parts) == 2: data_version_cache[parts[0]] = parts[1] else: manifest_url = f"{FTP_EGAP_ROOT}/{DATA_VERSION}.mft" manifest = urlopen(manifest_url) manifest_list = [] for line in manifest: line = line.decode("utf-8").strip() if not line or line[0] == '#': continue parts = line.split('/') if len(parts) == 2: data_version_cache[parts[0]] = parts[1] manifest_list.append(line) if user_cache_dir: with open(manifest_path, 'wt') as f: for line in manifest_list: f.write(f"{line}\n") if subsystem not in data_version_cache: return os.path.join(subsystem, filename) version = data_version_cache[subsystem] return os.path.join(subsystem, version, filename) # Get file path for subsystem, either from cache or from remote server def get_file_path(subsystem, filename): cache_dir = get_cache_dir() vfn = get_versioned_path(subsystem, filename) file_path = os.path.join(cache_dir, vfn) file_url = f"{FTP_EGAP_ROOT}/{vfn}" if os.path.exists(file_path): return file_path return file_url def get_config(script_directory, args): config_file = "" config_dir = args.config_dir if args.config_dir else os.environ.get("EGAPX_CONFIG_DIR") if not config_dir: config_dir = Path(os.getcwd()) / "egapx_config" if not Path(config_dir).is_dir(): # Create directory and copy executor config files there from_dir = Path(script_directory) / 'assets' / 'config' / 'executor' if args.verbosity >= VERBOSITY_VERBOSE: print(f"Copy config files from {from_dir} to {config_dir}") if not args.dry_run: os.mkdir(config_dir) ld = os.listdir(from_dir) for f in ld: shutil.copy2(from_dir / f, config_dir) print(f"Edit config files in {config_dir} to reflect your actual configuration, then repeat the command") return "" config_file = Path(config_dir) / (args.executor + '.config') if not config_file.is_file(): print(f"Executor {args.executor} not supported") return "" default_configs = [ "default.config" ] with open(str(config_file), 'r') as f: config_txt = f.read().replace('\n', ' ') # Check whether the config sets the container mo = re.search(r"process.+container *=", config_txt) if not mo: default_configs.append("docker_image.config") # Check whether the config specifies proccess memory or CPUs mo = re.search(r"process.+(memory|cpus) *=", config_txt) if not mo: default_configs.append("process_resources.config") # Add mandatory configs config_files = [str(config_file)] for cf in default_configs: config_files.append(os.path.join(script_directory, "assets/config", cf)) return ",".join(config_files) lineage_cache = {} def get_lineage(taxid): global lineage_cache if not taxid: return [] if taxid in lineage_cache: return lineage_cache[taxid] # Try cached taxonomy database taxonomy_db_name = os.path.join(get_cache_dir(), get_versioned_path("taxonomy", "taxonomy4blast.sqlite3")) if os.path.exists(taxonomy_db_name): conn = sqlite3.connect(taxonomy_db_name) if conn: c = conn.cursor() lineage = [taxid] cur_taxid = taxid while cur_taxid != 1: c.execute("SELECT parent FROM TaxidInfo WHERE taxid = ?", (cur_taxid,)) cur_taxid = c.fetchone()[0] lineage.append(cur_taxid) lineage.reverse() lineage_cache[taxid] = lineage return lineage # Fallback to API taxon_json_file = urlopen(dataset_taxonomy_url+str(taxid)) taxon = json.load(taxon_json_file)["taxonomy_nodes"][0] lineage = taxon["taxonomy"]["lineage"] lineage.append(taxon["taxonomy"]["tax_id"]) lineage_cache[taxid] = lineage return lineage def get_tax_file(subsystem, tax_path): vfn = get_versioned_path(subsystem, tax_path) taxids_path = os.path.join(get_cache_dir(), vfn) taxids_url = f"{FTP_EGAP_ROOT}/{vfn}" taxids_file = [] if os.path.exists(taxids_path): with open(taxids_path, "rb") as r: taxids_file = r.readlines() else: taxids_file = urlopen(taxids_url) return taxids_file def get_closest_protein_bag(taxid): if not taxid: return '' taxids_file = get_tax_file("target_proteins", "taxid.list") taxids_list = [] for line in taxids_file: line = line.decode("utf-8").strip() if len(line) == 0 or line[0] == '#': continue parts = line.split('\t') if len(parts) > 0: t = parts[0] taxids_list.append(int(t)) lineage = get_lineage(taxid) best_taxid = None best_score = 0 for t in taxids_list: try: pos = lineage.index(t) except ValueError: continue if pos > best_score: best_score = pos best_taxid = t if best_score == 0: return '' # print(best_taxid, best_score) return get_file_path("target_proteins", f"{best_taxid}.faa.gz") def get_closest_hmm(taxid): if not taxid: return 0, "" taxids_file = get_tax_file("gnomon", "hmm_parameters/taxid.list") taxids_list = [] lineages = [] for line in taxids_file: parts = line.decode("utf-8").strip().split('\t') if len(parts) > 0: t = parts[0] taxids_list.append(t) if len(parts) > 1: l = map(lambda x: int(x) if x[-1] != ';' else int(x[:-1]), parts[1].split()) lineages.append((int(t), list(l)+[int(t)])) #if len(lineages) < len(taxids_list): # taxonomy_json_file = urlopen(dataset_taxonomy_url+','.join(taxids_list)) # taxonomy = json.load(taxonomy_json_file)["taxonomy_nodes"] # lineages = [ (t["taxonomy"]["tax_id"], t["taxonomy"]["lineage"] + [t["taxonomy"]["tax_id"]]) for t in taxonomy ] lineage = get_lineage(taxid) best_lineage = None best_taxid = None best_score = 0 for (t, l) in lineages: pos1 = 0 last_match = 0 for pos in range(len(lineage)): tax_id = lineage[pos] while tax_id != l[pos1]: if pos1 + 1 < len(l): pos1 += 1 else: break if tax_id == l[pos1]: last_match = pos1 else: break if last_match > best_score: best_score = last_match best_taxid = t best_lineage = l if best_score == 0: return 0, "" # print(best_lineage) # print(best_taxid, best_score) return best_taxid, get_file_path("gnomon", f"hmm_parameters/{best_taxid}.params") PLANTS=33090 VERTEBRATES=7742 def get_max_intron(taxid): if not taxid: return 0, 0 lineage = get_lineage(taxid) if PLANTS in lineage: return 300000, 3000000000 elif VERTEBRATES in lineage: return 1200000, 2000000000 else: return 600000, 500000000 def to_dict(x: List[str]): d = {} s = len(x) i = 0 while i < s: el = x[i] i += 1 if el and el[0] == '-': if i < s: v = x[i] if v and (v[0] != '-' or (v[0] == '-' and ' ' in v)): d[el] = v i += 1 else: d[el] = "" else: d[el] = "" else: d[el] = "" return d def merge_params(task_params, run_inputs): # Walk over the keys in run_inputs and merge them into task_params for k in run_inputs.keys(): if k in task_params: if isinstance(task_params[k], dict) and isinstance(run_inputs[k], dict): task_params[k] = merge_params(task_params[k], run_inputs[k]) else: task_params_dict = to_dict(shlex.split(task_params[k])) run_inputs_dict = to_dict(shlex.split(run_inputs[k])) task_params_dict.update(run_inputs_dict) task_params_list = [] for k1, v in task_params_dict.items(): task_params_list.append(k1) if v: task_params_list.append(v) task_params[k] = shlex.join(task_params_list) else: task_params[k] = run_inputs[k] return task_params def print_statistics(output): accept_gff = Path(output) / 'accept.gff' print(f"Statistics for {accept_gff}") counter = defaultdict(int) if accept_gff.exists(): with open(accept_gff, 'rt') as f: for line in f: line = line.strip() if not line or line[0] == '#': continue parts = line.split() if len(parts) < 3: continue counter[parts[2]] += 1 keys = list(counter.keys()) keys.sort() for k in keys: print(f"{k:12s} {counter[k]}") def main(argv): "Main script for EGAPx" #warn user that this is an alpha release print("\n!!WARNING!!\nThis is an alpha release with limited features and organism scope to collect initial feedback on execution. Outputs are not yet complete and not intended for production use.\n") # Parse command line args = parse_args(argv) global user_cache_dir if args.local_cache: # print(f"Local cache: {args.local_cache}") user_cache_dir = args.local_cache if args.download_only: if args.local_cache: if not args.dry_run: # print(f"Download only: {args.download_only}") os.makedirs(args.local_cache, exist_ok=True) download_egapx_ftp_data(args.local_cache) else: print(f"Download only to {args.local_cache}") return 0 else: print("Local cache not set") return 1 else: # Check that input and output set if not args.filename or not args.output: print("Input file and output directory must be set") return 1 packaged_distro = bool(getattr(sys, '_MEIPASS', '')) script_directory = getattr(sys, '_MEIPASS', os.path.abspath(os.path.dirname(__file__))) config_file = get_config(script_directory, args) if not config_file: return 1 # Check for workdir, set if not set, and manage last used workdir if not manage_workdir(args): return 1 files_to_delete = [] # Read default task parameters into a dict task_params = yaml.safe_load(open(Path(script_directory) / 'assets' / 'default_task_params.yaml', 'r')) run_inputs = repackage_inputs(yaml.safe_load(open(args.filename, 'r'))) if not expand_and_validate_params(run_inputs): return 1 # Command line overrides manifest input if args.output: run_inputs['output'] = args.output # Convert inputs to absolute paths convert_paths(run_inputs) # Create output directory if needed os.makedirs(run_inputs['output'], exist_ok=True) if args.summary_only: print_statistics(run_inputs['output']) return 0 # Reformat reads into pairs in fromPairs format and add reads_metadata.tsv file prepare_reads(run_inputs) ##if True or args.download_only: ## with open("./dumped_input.yaml", 'w') as f: ## yaml.dump(run_inputs, f) ## f.flush() ##return 0 # Add to default task parameters, if input file has some task parameters they will override the default task_params = merge_params(task_params, run_inputs) # Move output from YAML file to arguments to have more transparent Nextflow log output = task_params['output'] del task_params['output'] if args.func_name: task_params['func_name'] = args.func_name # Run nextflow process if args.verbosity >= VERBOSITY_VERBOSE: task_params['verbose'] = True print("Nextflow inputs:") print(yaml.dump(task_params)) if 'reads_metadata' in run_inputs['input']: print("Reads metadata:") with open(run_inputs['input']['reads_metadata'], 'r') as f: print(f.read()) if packaged_distro: main_nf = Path(script_directory) / 'nf' / 'ui.nf' else: main_nf = Path(script_directory) / '..' / 'nf' / 'ui.nf' nf_cmd = ["nextflow", "-C", config_file, "-log", f"{output}/nextflow.log", "run", main_nf, "--output", output] if args.stub_run: nf_cmd += ["-stub-run", "-profile", "stubrun"] if args.report: nf_cmd += ["-with-report", f"{args.report}.report.html", "-with-timeline", f"{args.report}.timeline.html"] else: nf_cmd += ["-with-report", f"{output}/run.report.html", "-with-timeline", f"{output}/run.timeline.html"] nf_cmd += ["-with-trace", f"{output}/run.trace.txt"] # if output directory does not exist, it will be created if not os.path.exists(output): os.makedirs(output) params_file = Path(output) / "run_params.yaml" nf_cmd += ["-params-file", str(params_file)] if args.dry_run: print(" ".join(map(str, nf_cmd))) else: with open(params_file, 'w') as f: yaml.dump(task_params, f) f.flush() if args.verbosity >= VERBOSITY_VERBOSE: print(" ".join(map(str, nf_cmd))) resume_file = Path(output) / "resume.sh" with open(resume_file, 'w') as f: f.write("#!/bin/bash\n") f.write(" ".join(map(str, nf_cmd))) f.write(" -resume") if os.environ.get('NXF_WORK'): f.write(" -work-dir " + os.environ['NXF_WORK']) f.write("\n") try: subprocess.run(nf_cmd, check=True, capture_output=(args.verbosity <= VERBOSITY_QUIET), text=True) except subprocess.CalledProcessError as e: print(e.stderr) print(f"To resume execution, run: sh {resume_file}") if files_to_delete: print(f"Don't forget to delete file(s) {' '.join(files_to_delete)}") return 1 if not args.dry_run and not args.stub_run: print_statistics(output) # TODO: Use try-finally to delete the metadata file for f in files_to_delete: os.unlink(f) return 0 if __name__ == "__main__": sys.exit(main(sys.argv))