https://github.com/dereneaton/ipyrad
Tip revision: 11e26eaa46286ae1e4eea61e6ec214de179f7f8b authored by isaacovercast on 01 May 2016, 20:33:56 UTC
Merge branch 'master' of https://github.com/dereneaton/ipyrad
Merge branch 'master' of https://github.com/dereneaton/ipyrad
Tip revision: 11e26ea
__main__.py
#!/usr/bin/env python2
""" the main CLI for calling ipyrad """
from __future__ import print_function, division # Requires Python 2.7+
from ipyrad.core.parallel import ipcontroller_init
from ipyrad.assemble.util import IPyradError, IPyradWarningExit, detect_cpus
import pkg_resources
import ipyrad as ip
import argparse
import logging
import sys
import os
# pylint: disable=W0212
LOGGER = logging.getLogger(__name__)
def parse_params(args):
""" Parse the params file args, create and return Assembly object."""
## check that params.txt file is correctly formatted.
try:
with open(args.params) as paramsin:
plines = paramsin.readlines()
except IOError as _:
sys.exit("No params file found")
## check header: big version changes can be distinguished by the header
assert len(plines[0].split()[0]) == 6, \
"params file is not compatible with ipyrad v.{}.".format(ip.__version__) \
+ "Create a new params file with: ipyrad -n"
## check length
## assert len(plines) > 30, "params file error. Format not recognized."
## make into a dict
items = [i.split("##")[0].strip() for i in plines[1:]]
#keys = [i.split("]")[-2][-1] for i in plines[1:]]
keys = range(len(plines)-1)
parsedict = {str(i):j for i, j in zip(keys, items)}
return parsedict
def showstats(parsedict):
""" loads assembly or dies, and print stats to screen """
project_dir = parsedict['1']
## Be nice if somebody also puts in the file extension
assembly_name = parsedict['0']
my_assembly = os.path.join(project_dir, assembly_name)
## If the project_dir doesn't exist don't even bother trying harder.
if not os.path.isdir(project_dir):
msg = """
Trying to print stats for Assembly ({}) that doesn't exist. You must
first run steps before you can show results.
""".format(project_dir)
sys.exit(msg)
if not assembly_name:
msg = """
Assembly name is not set in params.txt, meaning it was either changed or
erased since the Assembly was started. Please restore the original name.
You can find the name of your Assembly in the "project dir": {}.
""".format(project_dir)
raise IPyradError(msg)
data = ip.load_json(my_assembly, quiet=True)
print("\nSummary stats of Assembly {}".format(data.name) \
+"\n------------------------------------------------")
if not data.stats.empty:
print(data.stats)
print("\n\nFull stats files"\
+"\n------------------------------------------------")
fullcurdir = os.path.realpath(os.path.curdir)
for i in range(1, 8):
#enumerate(sorted(data.stats_files)):
key = "s"+str(i)
try:
val = data.stats_files[key]
val = val.replace(fullcurdir, ".")
print("step {}: {}".format(i, val))
except (KeyError, AttributeError):
print("step {}: None".format(i))
print("\n")
else:
print("No stats to display")
def branch_assembly(args, parsedict):
""" Load the passed in assembly and create a branch. Copy it
to a new assembly, and also write out the appropriate params.txt
"""
## Get the current assembly
data = getassembly(args, parsedict)
new_data = data.branch(args.branch)
print(" Creating a branch of assembly {} called {}".\
format(data.name, new_data.name))
print(" Writing new params file to {}"\
.format("params-"+new_data.name+".txt"))
new_data.write_params("params-"+new_data.name+".txt", force=args.force)
def getassembly(args, parsedict):
""" loads assembly or creates a new one and set its params from
parsedict. Does not launch ipcluster.
"""
## Creating an assembly with a full path in the name will "work"
## but it is potentially dangerous, so here we have assembly_name
## and assembly_file, name is used for creating new in cwd, file is
## used for loading existing.
##
## Be nice if the user includes the extension.
project_dir = ip.core.assembly.expander(parsedict['1'])
assembly_name = parsedict['0']
assembly_file = os.path.join(project_dir, assembly_name)
## Assembly creation will handle error checking on
## the format of the assembly_name
## make sure the working directory exists.
if not os.path.exists(project_dir):
os.mkdir(project_dir)
try:
## If 1 and force then go ahead and create a new assembly
if '1' in args.steps and args.force:
data = ip.Assembly(assembly_name)
else:
data = ip.load_json(assembly_file)
except IPyradWarningExit as inst:
## if no assembly is found then go ahead and make one
if '1' not in args.steps:
raise IPyradWarningExit("""
Error: Steps >1 ({}) requested but no current assembly found - {}
""".format(args.steps, assembly_file))
else:
## create a new assembly object
data = ip.Assembly(assembly_name)
## for entering some params...
for param in parsedict:
## trap assignment of assembly_name since it is immutable.
if param == str(0):
## only pass to set_params if user tried to change assembly_name
## it will raise an Exit error
if parsedict[param] != data.name:
data.set_params(param, parsedict[param])
else:
## all other params should be handled by set_params
data.set_params(param, parsedict[param])
return data
def parse_command_line():
""" Parse CLI args. Only three options now. """
## create the parser
parser = argparse.ArgumentParser(
formatter_class=argparse.RawDescriptionHelpFormatter,
epilog="""\n
* Example command-line usage:
ipyrad -n data ## create new file called params-data.txt
ipyrad -p params-data.txt ## run ipyrad with settings in params file
ipyrad -p params-data.txt -s 123 ## run only steps 1-3 of assembly.
ipyrad -p params-data.txt -s 4567 ## run steps 4-7 of assembly.
ipyrad -p params-data.txt -s 3 -f ## run step 3, overwrite existing data.
* Preview mode:
ipyrad -p params-data.txt -s --preview ## Run fast preview mode for testing
* HPC parallelization
ipyrad -p params-data.txt -s 3 --MPI ## access cores across multiple nodes
* Results summary quick view
ipyrad -p params-data.txt -r ## print summary stats to screen for 'data'
* Run quietly
ipyrad -p params.txt -q ## Run quietly, do not write output to std out
* Branch assembly
ipyrad -p params-data.txt -b newdata ## Create new branch of Assembly 'data'
## called 'newdata', which inherits
## stats/files from 'data'.
* Get parameter info
ipyrad -i ## Get a list of parameter names
ipyrad -i 7 ## Get detailed info about a specific parameter
* Documentation: http://ipyrad.readthedocs.org/en/latest/
""")
## add arguments
parser.add_argument('-v', '--version', action='version',
version=str(pkg_resources.get_distribution('ipyrad')))
parser.add_argument('-r', "--results", action='store_true',
help="show results summary for Assembly in params.txt and exit")
parser.add_argument('-f', "--force", action='store_true',
help="force overwrite of existing data")
parser.add_argument('-q', "--quiet", action='store_true',
help="do not print to stderror or stdout.")
parser.add_argument('-i', metavar="info", dest="info",
type=str, nargs="?", default=False,
help="get info about parameters")
parser.add_argument('-n', metavar='new', dest="new", type=str,
default=None,
help="create new file 'params-{new}.txt' in current directory")
parser.add_argument('-p', metavar='params', dest="params",
type=str, default=None,
help="path to params file for Assembly: params-{assembly_name}.txt")
parser.add_argument('-b', metavar='branch', dest="branch",
type=str, default=None,
help="create a new branch of the Assembly as params-{branch}.txt")
parser.add_argument('-s', metavar="steps", dest="steps",
type=str, default=None,
help="Set of assembly steps to perform, e.g., -s 123 (Default=None)")
parser.add_argument("-c", metavar="cores", dest="cores",
type=int, default=4,
help="number of CPU cores to use (Default=4)")
parser.add_argument("--MPI", action='store_true',
help="connect to parallel CPUs across multiple nodes")
parser.add_argument("--preview", action='store_true',
help="run ipyrad in preview mode. Subset the input file so it'll run"\
+ "quickly so you can verify everything is working")
## if no args then return help message
if len(sys.argv) == 1:
parser.print_help()
sys.exit(1)
## parse args
args = parser.parse_args()
if not any(x in ["params", "new", "info"] for x in vars(args).keys()):
print("Bad arguments: ipyrad command must include at least one of"\
+"`-p`, `-n` or `-i`\n")
parser.print_help()
sys.exit(1)
return args
def main():
""" main function """
## turn off traceback for the CLI
ip.__interactive__ = 0
## parse params file input (returns to stdout if --help or --version)
args = parse_command_line()
## create new paramsfile if -n
if args.new:
## Create a tmp assembly and call write_params to write out
## default params.txt file
try:
tmpassembly = ip.Assembly(args.new, quiet=True)
tmpassembly.write_params("params-{}.txt".format(args.new),
force=args.force)
except Exception as inst:
print(inst)
sys.exit(2)
print("\n New file `params-{}.txt` created in {}\n".\
format(args.new, os.path.realpath(os.path.curdir)))
sys.exit(2)
## if params then must provide action argument with it
if args.params:
if not any([args.branch, args.results, args.steps]):
print("""
Must provide action argument along with -p argument for params file.
e.g., ipyrad -p params-test.txt -r ## shows results
e.g., ipyrad -p params-test.txt -s 12 ## runs steps 1 & 2
""")
sys.exit(2)
## if branching or info do not allow steps in same command, print spacer
if any([args.branch, args.info]):
args.steps = ""
print("")
## always print the header when doing steps
header = \
"\n --------------------------------------------------"+\
"\n ipyrad [v.{}]".format(ip.__version__)+\
"\n Interactive assembly and analysis of RADseq data"+\
"\n --------------------------------------------------"
## if info print the info and exit
if not args.info == False:
if args.info:
ip.paramsinfo(int(args.info))
else:
ip.paramsinfo()
sys.exit(1)
## create new Assembly or load existing Assembly, quit if args.results
elif args.params:
parsedict = parse_params(args)
if args.branch:
branch_assembly(args, parsedict)
elif args.steps:
## print header
print(header)
## run Assembly steps
## launch or load assembly with custom profile/pid
data = getassembly(args, parsedict)
## if cores was entered, limit cores to this number
## otherwise use all available cores. By default _ipcluster[cores]
## is set to detect_cpus in Assembly.__init__)
if args.cores:
data.cpus = args.cores
if args.MPI:
data._ipcluster["engines"] = "MPI"
else:
data._ipcluster["engines"] = "Local"
## launch ipcluster and register for later destruction
data = ipcontroller_init(data)
## set to print headers
data._headers = 1
## run assembly steps
steps = list(args.steps)
data.run(steps=steps, force=args.force, preview=args.preview)
if args.results:
showstats(parsedict)
if __name__ == "__main__":
main()
