Mercurial > repos > fubar > tool_factory_2
view toolfactory/rgToolFactory2.py @ 49:35a912ce0c83 draft
Can now make the bwa example from planemo :)
| author | fubar |
|---|---|
| date | Thu, 27 Aug 2020 23:11:01 -0400 |
| parents | 5a7a5b06bce0 |
| children | bf432f4486c7 |
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#!/usr/bin/env python # rgToolFactory.py # see https://github.com/fubar2/toolfactory # # copyright ross lazarus (ross stop lazarus at gmail stop com) May 2012 # # all rights reserved # Licensed under the LGPL # suggestions for improvement and bug fixes welcome at # https://github.com/fubar2/toolfactory # # July 2020: BCC was fun and I feel like rip van winkle after 5 years. # Decided to # 1. Fix the toolfactory so it works - done for simplest case # 2. Fix planemo so the toolfactory function works # 3. Rewrite bits using galaxyxml functions where that makes sense - done # # removed all the old complications including making the new tool use this same script # galaxyxml now generates the tool xml https://github.com/hexylena/galaxyxml # No support for automatic HTML file creation from arbitrary outputs # essential problem is to create two command lines - one for the tool xml and a different # one to run the executable with the supplied test data and settings # Be simpler to write the tool, then run it with planemo and soak up the test outputs. import argparse import logging import os import re import shutil import subprocess import sys import tarfile import tempfile import time import galaxyxml.tool as gxt import galaxyxml.tool.parameters as gxtp import lxml import yaml myversion = "V2.1 July 2020" verbose = True debug = True toolFactoryURL = "https://github.com/fubar2/toolfactory" ourdelim = "~~~" ALOT = 10000000 # srsly. command or test overrides use read() so just in case STDIOXML = """<stdio> <exit_code range="100:" level="debug" description="shite happens" /> </stdio>""" # --input_files="$input_files~~~$CL~~~$input_formats~~~$input_label # ~~~$input_help" IPATHPOS = 0 ICLPOS = 1 IFMTPOS = 2 ILABPOS = 3 IHELPOS = 4 IOCLPOS = 5 # --output_files "$otab.history_name~~~$otab.history_format~~~$otab.CL~~~otab.history_test ONAMEPOS = 0 OFMTPOS = 1 OCLPOS = 2 OTESTPOS = 3 OOCLPOS = 4 # --additional_parameters="$i.param_name~~~$i.param_value~~~ # $i.param_label~~~$i.param_help~~~$i.param_type~~~$i.CL~~~i$.param_CLoverride" ANAMEPOS = 0 AVALPOS = 1 ALABPOS = 2 AHELPPOS = 3 ATYPEPOS = 4 ACLPOS = 5 AOVERPOS = 6 AOCLPOS = 7 foo = len(lxml.__version__) # fug you, flake8. Say my name! FAKEEXE = "~~~REMOVE~~~ME~~~" # need this until a PR/version bump to fix galaxyxml prepending the exe even # with override. def timenow(): """return current time as a string """ return time.strftime("%d/%m/%Y %H:%M:%S", time.localtime(time.time())) def quote_non_numeric(s): """return a prequoted string for non-numerics useful for perl and Rscript parameter passing? """ try: _ = float(s) return s except ValueError: return '"%s"' % s html_escape_table = {"&": "&", ">": ">", "<": "<", "$": r"\$"} def html_escape(text): """Produce entities within text.""" return "".join(html_escape_table.get(c, c) for c in text) def html_unescape(text): """Revert entities within text. Multiple character targets so use replace""" t = text.replace("&", "&") t = t.replace(">", ">") t = t.replace("<", "<") t = t.replace("\\$", "$") return t def parse_citations(citations_text): """ """ citations = [c for c in citations_text.split("**ENTRY**") if c.strip()] citation_tuples = [] for citation in citations: if citation.startswith("doi"): citation_tuples.append(("doi", citation[len("doi") :].strip())) else: citation_tuples.append(("bibtex", citation[len("bibtex") :].strip())) return citation_tuples class ScriptRunner: """Wrapper for an arbitrary script uses galaxyxml """ def __init__(self, args=None): """ prepare command line cl for running the tool here and prepare elements needed for galaxyxml tool generation """ self.infiles = [x.split(ourdelim) for x in args.input_files] self.outfiles = [x.split(ourdelim) for x in args.output_files] self.addpar = [x.split(ourdelim) for x in args.additional_parameters] self.args = args self.cleanuppar() self.lastclredirect = None self.lastxclredirect = None self.cl = [] self.xmlcl = [] self.is_positional = self.args.parampass == "positional" if self.args.packages: self.executeme = self.args.packages.split(",")[0].split(":")[0] else: self.executeme = self.args.sysexe assert ( self.executeme is not None ), "No system or managed executable passed in. Cannot build" aCL = self.cl.append aXCL = self.xmlcl.append assert args.parampass in [ "0", "argparse", "positional", ], 'args.parampass must be "0","positional" or "argparse"' self.tool_name = re.sub("[^a-zA-Z0-9_]+", "", args.tool_name) self.tool_id = self.tool_name self.tool = gxt.Tool( self.args.tool_name, self.tool_id, self.args.tool_version, self.args.tool_desc, FAKEEXE, ) if self.args.script_path: self.tool.interpreter = self.executeme self.tooloutdir = "tfout" self.repdir = "TF_run_report_tempdir" self.testdir = os.path.join(self.tooloutdir, "test-data") if not os.path.exists(self.tooloutdir): os.mkdir(self.tooloutdir) if not os.path.exists(self.testdir): os.mkdir(self.testdir) # make tests directory if not os.path.exists(self.repdir): os.mkdir(self.repdir) self.tinputs = gxtp.Inputs() self.toutputs = gxtp.Outputs() self.testparam = [] if self.args.script_path: self.prepScript() if self.args.command_override: scos = open(self.args.command_override, "r").readlines() self.command_override = [x.rstrip() for x in scos] else: self.command_override = None if self.args.test_override: stos = open(self.args.test_override, "r").readlines() self.test_override = [x.rstrip() for x in stos] else: self.test_override = None if self.args.cl_prefix: # DIY CL start clp = self.args.cl_prefix.split(" ") for c in clp: aCL(c) aXCL(c) else: if self.args.runmode == "Executable": if self.args.script_path: aCL(self.executeme) aCL(self.sfile) aXCL("$runme") else: aCL(self.executeme) # this little CL will just run aXCL(self.executeme) else: if self.args.script_path: aCL(self.executeme) aCL(self.sfile) aXCL("$runme") else: aCL(self.executeme) # this little CL will just run aXCL(self.executeme) self.elog = os.path.join(self.repdir,"%s_error_log.txt" % self.tool_name) self.tlog = os.path.join(self.repdir,"%s_runner_log.txt" % self.tool_name) if self.args.parampass == "0": self.clsimple() else: clsuffix = [] xclsuffix = [] for i, p in enumerate(self.infiles): if p[IOCLPOS] == "STDIN": appendme = [ p[IOCLPOS], p[ICLPOS], p[IPATHPOS], "< %s" % p[IPATHPOS], ] xappendme = [ p[IOCLPOS], p[ICLPOS], p[IPATHPOS], "< $%s" % p[ICLPOS], ] else: appendme = [p[IOCLPOS], p[ICLPOS], p[IPATHPOS], ""] xappendme = [p[IOCLPOS], p[ICLPOS], "$%s" % p[ICLPOS], ""] clsuffix.append(appendme) xclsuffix.append(xappendme) for i, p in enumerate(self.outfiles): if p[OOCLPOS] == "STDOUT": self.lastclredirect = [">", p[ONAMEPOS]] self.lastxclredirect = [">", "$%s" % p[OCLPOS]] else: clsuffix.append([p[OOCLPOS], p[OCLPOS], p[ONAMEPOS], ""]) xclsuffix.append([p[OOCLPOS], p[OCLPOS], "$%s" % p[ONAMEPOS], ""]) for p in self.addpar: clsuffix.append([p[AOCLPOS], p[ACLPOS], p[AVALPOS], p[AOVERPOS]]) xclsuffix.append( [p[AOCLPOS], p[ACLPOS], '"$%s"' % p[ANAMEPOS], p[AOVERPOS]] ) clsuffix.sort() xclsuffix.sort() self.xclsuffix = xclsuffix self.clsuffix = clsuffix if self.args.parampass == "positional": self.clpositional() else: self.clargparse() def prepScript(self): rx = open(self.args.script_path, "r").readlines() rx = [x.rstrip() for x in rx] rxcheck = [x.strip() for x in rx if x.strip() > ""] assert len(rxcheck) > 0, "Supplied script is empty. Cannot run" self.script = "\n".join(rx) fhandle, self.sfile = tempfile.mkstemp( prefix=self.tool_name, suffix="_%s" % (self.executeme) ) tscript = open(self.sfile, "w") tscript.write(self.script) tscript.close() self.indentedScript = " %s" % "\n".join([" %s" % html_escape(x) for x in rx]) self.escapedScript = "%s" % "\n".join([" %s" % html_escape(x) for x in rx]) art = "%s.%s" % (self.tool_name, self.executeme) artifact = open(art, "wb") artifact.write(bytes(self.script, "utf8")) artifact.close() def cleanuppar(self): """ positional parameters are complicated by their numeric ordinal""" for i, p in enumerate(self.infiles): if self.args.parampass == "positional": assert p[ICLPOS].isdigit(), ( "Positional parameters must be ordinal integers - got %s for %s" % (p[ICLPOS], p[ILABPOS]) ) p.append(p[ICLPOS]) if p[ICLPOS].isdigit() or self.args.parampass == "0": scl = "input%d" % (i + 1) p[ICLPOS] = scl self.infiles[i] = p for i, p in enumerate( self.outfiles ): # trying to automagically gather using extensions if self.args.parampass == "positional" and p[OCLPOS] != "STDOUT": assert p[OCLPOS].isdigit(), ( "Positional parameters must be ordinal integers - got %s for %s" % (p[OCLPOS], p[ONAMEPOS]) ) p.append(p[OCLPOS]) if p[OCLPOS].isdigit() or p[OCLPOS] == "STDOUT": scl = p[ONAMEPOS] p[OCLPOS] = scl self.outfiles[i] = p for i, p in enumerate(self.addpar): if self.args.parampass == "positional": assert p[ACLPOS].isdigit(), ( "Positional parameters must be ordinal integers - got %s for %s" % (p[ACLPOS], p[ANAMEPOS]) ) p.append(p[ACLPOS]) if p[ACLPOS].isdigit(): scl = "input%s" % p[ACLPOS] p[ACLPOS] = scl self.addpar[i] = p def clsimple(self): """ no parameters - uses < and > for i/o """ aCL = self.cl.append aCL("<") aCL(self.infiles[0][IPATHPOS]) aCL(">") aCL(self.outfiles[0][OCLPOS]) aXCL = self.xmlcl.append aXCL("<") aXCL("$%s" % self.infiles[0][ICLPOS]) aXCL(">") aXCL("$%s" % self.outfiles[0][ONAMEPOS]) def clpositional(self): # inputs in order then params aCL = self.cl.append for (o_v, k, v, koverride) in self.clsuffix: if " " in v: aCL("%s" % v) else: aCL(v) aXCL = self.xmlcl.append for (o_v, k, v, koverride) in self.xclsuffix: aXCL(v) if self.lastxclredirect: aXCL(self.lastxclredirect[0]) aXCL(self.lastxclredirect[1]) def clargparse(self): """ argparse style """ aCL = self.cl.append aXCL = self.xmlcl.append # inputs then params in argparse named form for (o_v, k, v, koverride) in self.xclsuffix: if koverride > "": k = koverride elif len(k.strip()) == 1: k = "-%s" % k else: k = "--%s" % k aXCL(k) aXCL(v) for (o_v, k, v, koverride) in self.clsuffix: if koverride > "": k = koverride elif len(k.strip()) == 1: k = "-%s" % k else: k = "--%s" % k aCL(k) aCL(v) def getNdash(self, newname): if self.is_positional: ndash = 0 else: ndash = 2 if len(newname) < 2: ndash = 1 return ndash def doXMLparam(self): """flake8 made me do this...""" for p in self.outfiles: newname, newfmt, newcl, test, oldcl = p ndash = self.getNdash(newcl) aparm = gxtp.OutputData(newcl, format=newfmt, num_dashes=ndash) aparm.positional = self.is_positional if self.is_positional: if oldcl == "STDOUT": aparm.positional = 9999999 aparm.command_line_override = "> $%s" % newcl else: aparm.positional = int(oldcl) aparm.command_line_override = "$%s" % newcl self.toutputs.append(aparm) usetest = None ld = None if test > '': if test.startswith('diff'): usetest = 'diff' if test.split(':')[1].isdigit: ld = int(test.split(':')[1]) else: usetest = test tp = gxtp.TestOutput(name=newcl, value="%s_sample" % newcl, format=newfmt, compare=usetest, lines_diff=ld, delta=None,) self.testparam.append(tp) for p in self.infiles: newname = p[ICLPOS] newfmt = p[IFMTPOS] ndash = self.getNdash(newname) if not len(p[ILABPOS]) > 0: alab = p[ICLPOS] else: alab = p[ILABPOS] aninput = gxtp.DataParam( newname, optional=False, label=alab, help=p[IHELPOS], format=newfmt, multiple=False, num_dashes=ndash, ) aninput.positional = self.is_positional self.tinputs.append(aninput) tparm = gxtp.TestParam(name=newname, value="%s_sample" % newname) self.testparam.append(tparm) for p in self.addpar: newname, newval, newlabel, newhelp, newtype, newcl, override, oldcl = p if not len(newlabel) > 0: newlabel = newname ndash = self.getNdash(newname) if newtype == "text": aparm = gxtp.TextParam( newname, label=newlabel, help=newhelp, value=newval, num_dashes=ndash, ) elif newtype == "integer": aparm = gxtp.IntegerParam( newname, label=newname, help=newhelp, value=newval, num_dashes=ndash, ) elif newtype == "float": aparm = gxtp.FloatParam( newname, label=newname, help=newhelp, value=newval, num_dashes=ndash, ) else: raise ValueError( 'Unrecognised parameter type "%s" for\ additional parameter %s in makeXML' % (newtype, newname) ) aparm.positional = self.is_positional if self.is_positional: aninput.positional = int(oldcl) self.tinputs.append(aparm) self.tparm = gxtp.TestParam(newname, value=newval) self.testparam.append(tparm) def doNoXMLparam(self): """filter style package - stdin to stdout""" alab = self.infiles[0][ILABPOS] if len(alab) == 0: alab = self.infiles[0][ICLPOS] max1s = ( "Maximum one input if parampass is 0 but multiple input files supplied - %s" % str(self.infiles) ) assert len(self.infiles) == 1, max1s newname = self.infiles[0][ICLPOS] aninput = gxtp.DataParam( newname, optional=False, label=alab, help=self.infiles[0][IHELPOS], format=self.infiles[0][IFMTPOS], multiple=False, num_dashes=0, ) aninput.command_line_override = "< $%s" % newname aninput.positional = self.is_positional self.tinputs.append(aninput) tp = gxtp.TestParam(name=newname, value="%s_sample" % newname) self.testparam.append(tp) newname = self.outfiles[0][OCLPOS] newfmt = self.outfiles[0][OFMTPOS] anout = gxtp.OutputData(newname, format=newfmt, num_dashes=0) anout.command_line_override = "> $%s" % newname anout.positional = self.is_positional self.toutputs.append(anout) tp = gxtp.TestOutput(name=newname, value="%s_sample" % newname, format=newfmt) self.testparam.append(tp) def makeXML(self): """ Create a Galaxy xml tool wrapper for the new script Uses galaxyhtml Hmmm. How to get the command line into correct order... """ if self.command_override: self.tool.command_line_override = self.command_override # config file else: self.tool.command_line_override = self.xmlcl # if self.args.interpreter_name: # self.tool.interpreter = self.args.interpreter_name if self.args.help_text: helptext = open(self.args.help_text, "r").readlines() helptext = [html_escape(x) for x in helptext] self.tool.help = "".join([x for x in helptext]) else: self.tool.help = ( "Please ask the tool author (%s) for help \ as none was supplied at tool generation\n" % (self.args.user_email) ) self.tool.version_command = None # do not want requirements = gxtp.Requirements() if self.args.packages: for d in self.args.packages.split(","): if ":" in d: packg, ver = d.split(":") else: packg = d ver = "" requirements.append(gxtp.Requirement("package", packg.strip(), ver.strip())) self.tool.requirements = requirements if self.args.parampass == "0": self.doNoXMLparam() else: self.doXMLparam() self.tool.outputs = self.toutputs self.tool.inputs = self.tinputs if ( self.args.script_path ): configfiles = gxtp.Configfiles() configfiles.append(gxtp.Configfile(name="runme", text=self.script)) self.tool.configfiles = configfiles tests = gxtp.Tests() test_a = gxtp.Test() for tp in self.testparam: test_a.append(tp) tests.append(test_a) self.tool.tests = tests self.tool.add_comment( "Created by %s at %s using the Galaxy Tool Factory." % (self.args.user_email, timenow()) ) self.tool.add_comment("Source in git at: %s" % (toolFactoryURL)) self.tool.add_comment( "Cite: Creating re-usable tools from scripts doi: \ 10.1093/bioinformatics/bts573" ) exml0 = self.tool.export() exml = exml0.replace(FAKEEXE, "") # temporary work around until PR accepted if self.test_override: # cannot do this inside galaxyxml as it expects lxml objects for tests part1 = exml.split('<tests>')[0] part2 = exml.split('</tests>')[1] fixed = '%s\n%s\n%s' % (part1,self.test_override,part2) exml = fixed xf = open("%s.xml" % self.tool_name, "w") xf.write(exml) xf.write("\n") xf.close() # ready for the tarball def makeTool(self): """write xmls and samples into place """ self.makeXML() if self.args.script_path: stname = os.path.join(self.tooloutdir, "%s" % (self.sfile)) if not os.path.exists(stname): shutil.copyfile(self.sfile, stname) xreal = "%s.xml" % self.tool_name xout = os.path.join(self.tooloutdir, xreal) shutil.copyfile(xreal, xout) for p in self.infiles: pth = p[IPATHPOS] dest = os.path.join(self.testdir, "%s_sample" % p[ICLPOS]) shutil.copyfile(pth, dest) def makeToolTar(self): self.newtarpath = "toolfactory_%s.tgz" % self.tool_name tf = tarfile.open(self.newtarpath, "w:gz") tf.add(name=self.tooloutdir, arcname=self.tool_name) tf.close() shutil.copyfile(self.newtarpath, self.args.new_tool) if os.path.exists(self.tlog) and os.stat(self.tlog).st_size > 0: shutil.copyfile( self.tlog, os.path.join(self.tooloutdir, "test1_log_outfiletxt") ) def moveRunOutputs(self): """need to move files into toolfactory collection after any run - planemo or not """ for p in self.outfiles: naym = p[ONAMEPOS] src = os.path.join(self.tooloutdir,naym) if os.path.isfile(src): dest = os.path.join(self.testdir, "%s_sample" % naym) shutil.copyfile(naym, dest) else: print('### problem - output file %s not found in tooloutdir %s' % (src,self.tooloutdir)) with os.scandir(self.tooloutdir) as outs: for entry in outs: if not entry.is_file() or entry.name.startswith('.'): continue if "." in entry.name: nayme,ext = os.path.splitext(entry.name) else: ext = ".txt" ofn = "%s%s" % (entry.name.replace(".", "_"), ext) dest = os.path.join(self.repdir, ofn) src = os.path.join(self.tooloutdir,entry.name) shutil.copyfile(src, dest) def run(self): """ """ s = "run cl=%s" % str(self.cl) logging.debug(s) scl = " ".join(self.cl) err = None if self.args.parampass != "0": ste = open(self.elog, "wb") if self.lastclredirect: sto = open(self.lastclredirect[1], "wb") # is name of an output file else: sto = open(self.tlog, "wb") sto.write( bytes( "## Executing Toolfactory generated command line = %s\n" % scl, "utf8", ) ) sto.flush() p = subprocess.run(self.cl, shell=False, stdout=sto, stderr=ste) sto.close() ste.close() tmp_stderr = open(self.elog, "rb") err = "" buffsize = 1048576 try: while True: err += str(tmp_stderr.read(buffsize)) if not err or len(err) % buffsize != 0: break except OverflowError: pass tmp_stderr.close() retval = p.returncode else: # work around special case - stdin and write to stdout sti = open(self.infiles[0][IPATHPOS], "rb") sto = open(self.outfiles[0][ONAMEPOS], "wb") # must use shell to redirect p = subprocess.run(self.cl, shell=False, stdout=sto, stdin=sti) retval = p.returncode sto.close() sti.close() if os.path.isfile(self.tlog) and os.stat(self.tlog).st_size == 0: os.unlink(self.tlog) if os.path.isfile(self.elog) and os.stat(self.elog).st_size == 0: os.unlink(self.elog) if retval != 0 and err: # problem sys.stderr.write(err) logging.debug("run done") return retval def planemo_shedload(self): """ planemo shed_create --shed_target testtoolshed planemo shed_update --check_diff --shed_target testtoolshed """ if os.path.exists(self.tlog): tout = open(self.tlog,'a') else: tout = open(self.tlog,'w') cll = ["planemo", "shed_create", "--shed_target", "local"] try: p = subprocess.run(cll, shell=False, cwd=self.tooloutdir, stdout=tout, stderr = tout) except: pass if p.returncode != 0: print("Repository %s exists" % self.args.tool_name) else: print("initiated %s" % self.args.tool_name) cll = [ "planemo", "shed_upload", "--shed_target", "local", "--owner", "fubar", "--name", self.args.tool_name, "--shed_key", self.args.toolshed_api_key, "--tar", self.newtarpath, ] print("Run", " ".join(cll)) p = subprocess.run(cll, shell=False) print("Ran", " ".join(cll), "got", p.returncode) tout.close() return p.returncode def planemo_test(self, genoutputs=True): """planemo is a requirement so is available """ xreal = "%s.xml" % self.tool_name if os.path.exists(self.tlog): tout = open(self.tlog,'a') else: tout = open(self.tlog,'w') if genoutputs: cll = [ "planemo", "test", "--galaxy_root", self.args.galaxy_root, "--update_test_data", xreal, ] else: cll = ["planemo", "test", "--galaxy_root", self.args.galaxy_root, xreal] try: p = subprocess.run(cll, shell=False, cwd=self.tooloutdir, stderr=tout, stdout=tout) except: pass tout.close() return p.returncode def eph_galaxy_load(self): """ """ if os.path.exists(self.tlog): tout = open(self.tlog,'a') else: tout = open(self.tlog,'w') cll = [ "shed-tools", "install", "-g", self.args.galaxy_url, "--latest", "-a", self.args.galaxy_api_key, "--name", self.args.tool_name, "--owner", "fubar", "--toolshed", self.args.toolshed_url, "--section_label", "Generated Tools", "--install_tool_dependencies", ] print("running\n", " ".join(cll)) p = subprocess.run(cll, shell=False, stderr=tout, stdout=tout) if p.returncode != 0: print( "Repository %s installation returned %d" % (self.args.tool_name, p.returncode) ) else: print("installed %s" % self.args.tool_name) tout.close() return p.returncode def writeShedyml(self): yuser = self.args.user_email.split("@")[0] yfname = os.path.join(self.tooloutdir, ".shed.yml") yamlf = open(yfname, "w") odict = { "name": self.tool_name, "owner": yuser, "type": "unrestricted", "description": self.args.tool_desc, } yaml.dump(odict, yamlf, allow_unicode=True) yamlf.close() def install_load(self): _ = self.planemo_test(genoutputs=True) testres = self.planemo_test(genoutputs=False) if testres == 0: if self.args.make_Tool == "install": self.planemo_shedload() self.eph_galaxy_load() else: os.stderr.write( "Planemo test failed - tool %s was not installed" % self.args.tool_name ) def main(): """ This is a Galaxy wrapper. It expects to be called by a special purpose tool.xml as: <command interpreter="python">rgBaseScriptWrapper.py --script_path "$scriptPath" --tool_name "foo" --interpreter "Rscript" </command> """ parser = argparse.ArgumentParser() a = parser.add_argument a("--script_path", default=None) a("--history_test", default=None) a("--cl_prefix", default=None) a("--sysexe", default=None) a("--packages", default=None) a("--tool_name", default=None) a("--input_files", default=[], action="append") a("--output_files", default=[], action="append") a("--user_email", default="Unknown") a("--bad_user", default=None) a("--make_Tool", default="runonly") a("--help_text", default=None) a("--tool_desc", default=None) a("--tool_version", default=None) a("--citations", default=None) a("--command_override", default=None) a("--test_override", default=None) a("--additional_parameters", action="append", default=[]) a("--edit_additional_parameters", action="store_true", default=False) a("--parampass", default="positional") a("--tfout", default="./tfout") a("--new_tool", default="new_tool") a("--runmode", default=None) a("--galaxy_url", default="http://localhost:8080") a("--galaxy_api_key", default="fbdd3c2eecd191e88939fffc02eeeaf8") a("--toolshed_url", default="http://localhost:9009") a("--toolshed_api_key", default="d46e5ed0e242ed52c6e1f506b5d7f9f7") a("--galaxy_root", default="/home/ross/galaxy") args = parser.parse_args() assert not args.bad_user, ( 'UNAUTHORISED: %s is NOT authorized to use this tool until Galaxy admin adds %s to "admin_users" in the Galaxy configuration file' % (args.bad_user, args.bad_user) ) assert args.tool_name, "## Tool Factory expects a tool name - eg --tool_name=DESeq" assert ( args.sysexe or args.packages ), "## Tool Factory wrapper expects an interpreter or an executable package" args.input_files = [x.replace('"', "").replace("'", "") for x in args.input_files] # remove quotes we need to deal with spaces in CL params for i, x in enumerate(args.additional_parameters): args.additional_parameters[i] = args.additional_parameters[i].replace('"', "") r = ScriptRunner(args) r.writeShedyml() r.makeTool() if args.make_Tool == "runonly": retcode = r.run() if retcode: sys.stderr.write( "## Run failed with return code %d. Cannot build yet. Please fix and retry" % retcode ) sys.exit(1) else: r.moveRunOutputs() elif args.make_Tool in ["gentestinstall", "generate", "gentest"]: retcode = r.run() if retcode: sys.stderr.write( "## Run failed with return code %d. Cannot build yet. Please fix and retry" % retcode ) sys.exit(1) r.moveRunOutputs() r.makeToolTar() if args.make_Tool in ["gentestinstall","gentest"]: r.planemo_test(genoutputs=False) r.moveRunOutputs() r.planemo_shedload() r.eph_galaxy_load() else: retcode = r.planemo_test(genoutputs=True) # this fails :( r.moveRunOutputs() r.makeToolTar() retcode = r.planemo_test(genoutputs=False) r.moveRunOutputs() if args.make_Tool == "planemotestinstall": r.planemo_shedload() r.eph_galaxy_load() # if retcode: # sys.exit(retcode) # indicate failure to job runner if __name__ == "__main__": main()