def __init__(self, main, *arg, **opt): # Calling constructor from InterpreterBase InterpreterBase.__init__(self, *arg, **opt) # Getting back main self.main = main # Getting back all commands self.cmd_set = CmdSet(main) self.cmd_define = CmdDefine(main) self.cmd_display = CmdDisplay(main) self.cmd_display_datasets = CmdDisplayDatasets(main) self.cmd_display_particles = CmdDisplayParticles(main) self.cmd_display_multiparticles = CmdDisplayMultiparticles(main) self.cmd_import = CmdImport(main) self.cmd_remove = CmdRemove(main) self.cmd_swap = CmdSwap(main) self.cmd_plot = CmdPlot(main) self.cmd_reject = CmdCut(main, CutType.REJECT) self.cmd_select = CmdCut(main, CutType.SELECT) self.cmd_preview = CmdPreview(main) self.cmd_reset = CmdReset(main) self.cmd_open = CmdOpen(main) self.cmd_submit = CmdSubmit(main) self.cmd_resubmit = CmdSubmit(main, resubmit=True) self.cmd_generate_latex = CmdGenerate(main,\ ReportFormatType.LATEX) self.cmd_generate_pdflatex = CmdGenerate(main,\ ReportFormatType.PDFLATEX) self.cmd_generate_html = CmdGenerate(main,\ ReportFormatType.HTML) self.cmd_install = CmdInstall(main) # Initializing multiparticle self.InitializeParticle() self.InitializeMultiparticle() # Importing history self.history_file = os.path.normpath(self.main.ma5dir + '/.ma5history') try: readline.read_history_file(self.history_file) except: pass
def __init__(self, main,*arg, **opt): # Calling constructor from InterpreterBase InterpreterBase.__init__(self, *arg, **opt) # Getting back main self.main = main # Getting back all commands self.cmd_set = CmdSet(main) self.cmd_define = CmdDefine(main) self.cmd_display = CmdDisplay(main) self.cmd_display_datasets = CmdDisplayDatasets(main) self.cmd_display_particles = CmdDisplayParticles(main) self.cmd_display_multiparticles = CmdDisplayMultiparticles(main) self.cmd_import = CmdImport(main) self.cmd_remove = CmdRemove(main) self.cmd_swap = CmdSwap(main) self.cmd_plot = CmdPlot(main) self.cmd_reject = CmdCut(main,CutType.REJECT) self.cmd_select = CmdCut(main,CutType.SELECT) self.cmd_preview = CmdPreview(main) self.cmd_reset = CmdReset(main) self.cmd_open = CmdOpen(main) self.cmd_submit = CmdSubmit(main) self.cmd_resubmit = CmdSubmit(main,resubmit=True) self.cmd_generate_latex = CmdGenerate(main,\ ReportFormatType.LATEX) self.cmd_generate_pdflatex = CmdGenerate(main,\ ReportFormatType.PDFLATEX) self.cmd_generate_html = CmdGenerate(main,\ ReportFormatType.HTML) self.cmd_install = CmdInstall(main) # Initializing multiparticle self.InitializeParticle() self.InitializeMultiparticle() # Importing history self.history_file = os.path.normpath(self.main.ma5dir + '/.ma5history') try: readline.read_history_file(self.history_file) except: pass
class Interpreter(InterpreterBase): """Particularisation of the cmd command for MA5""" def __init__(self, main,*arg, **opt): # Calling constructor from InterpreterBase InterpreterBase.__init__(self, *arg, **opt) # Getting back main self.main = main # Getting back all commands self.cmd_set = CmdSet(main) self.cmd_define = CmdDefine(main) self.cmd_display = CmdDisplay(main) self.cmd_display_datasets = CmdDisplayDatasets(main) self.cmd_display_particles = CmdDisplayParticles(main) self.cmd_display_multiparticles = CmdDisplayMultiparticles(main) self.cmd_import = CmdImport(main) self.cmd_remove = CmdRemove(main) self.cmd_swap = CmdSwap(main) self.cmd_plot = CmdPlot(main) self.cmd_reject = CmdCut(main,CutType.REJECT) self.cmd_select = CmdCut(main,CutType.SELECT) self.cmd_reset = CmdReset(main) self.cmd_open = CmdOpen(main) self.cmd_submit = CmdSubmit(main) self.cmd_resubmit = CmdSubmit(main,resubmit=True) self.cmd_install = CmdInstall(main) # Initializing multiparticle self.InitializeParticle() self.InitializeMultiparticle() # Importing history self.history_file = os.path.normpath(self.main.ma5dir + '/.ma5history') try: readline.read_history_file(self.history_file) except: pass def __del__(self): try: readline.set_history_length(100) readline.write_history_file(self.history_file) except: pass def do_set(self,line): self.cmd_set.do(self.split_arg(line),line) def help_set(self): self.cmd_set.help() def complete_set(self,text,line,begidx,endidx): return self.cmd_set.complete(text,line,begidx,endidx) def do_define(self,line): self.cmd_define.do(self.split_arg(line)) def help_define(self): self.cmd_define.help() def complete_define(self,text,line,begidx,endidx): return self.cmd_define.complete(text,line,begidx,endidx) def do_display(self,line): self.cmd_display.do(self.split_arg(line)) def help_display(self): self.cmd_display.help() def complete_display(self,text,line,begidx,endidx): return self.cmd_display.complete(text,line,begidx,endidx) def do_display_particles(self,line): self.cmd_display_particles.do(self.split_arg(line)) def help_display_particles(self): self.cmd_display_particles.help() def complete_display_particles(self,text,line,begidx,endidx): return self.cmd_display_particles.complete(text,line,begidx,endidx) def do_display_multiparticles(self,line): self.cmd_display_multiparticles.do(self.split_arg(line)) def help_display_multiparticles(self): self.cmd_display_multiparticles.help() def complete_display_multiparticles(self,text,line,begidx,endidx): return self.cmd_display_multiparticles.complete(text,line,begidx,endidx) def do_display_datasets(self,line): self.cmd_display_datasets.do(self.split_arg(line)) def help_display_datasets(self): self.cmd_display_datasets.help() def complete_display_datasets(self,text,line,begidx,endidx): return self.cmd_display_datasets.complete(text,line,begidx,endidx) def do_import(self,line): self.cmd_import.do(self.split_arg(line),self,self.history) def help_import(self): self.cmd_import.help() def complete_import(self,text,line,begidx,endidx): return self.cmd_import.complete(text,line,begidx,endidx) # Restart def do_restart(self, line): """ sending a signal allowing to restart the interpreter """ if self.main.script: logging.warning("'restart' command is not allowed in script mode.") else: YES=False # Asking the safety question if not Main.forced: logging.warning("Are you sure to restart the MadAnalysis 5 session? (Y/N)") allowed_answers=['n','no','y','yes'] answer="" while answer not in allowed_answers: answer=raw_input("Answer: ") answer=answer.lower() if answer=="no" or answer=="n": YES=False break elif answer=='yes' or answer=='y': YES=True break if YES: self.main.repeatSession=True return True else: pass def help_restart(self): logging.info(" Syntax: restart ") logging.info(" Quit the current MadAnalysis sessiona and open a new one.") logging.info(" All the information will be discarded.") def do_remove(self,line): self.cmd_remove.do(self.split_arg(line)) def help_remove(self): self.cmd_remove.help() def complete_remove(self,text,line,begidx,endidx): return self.cmd_remove.complete(text,line,begidx,endidx) def do_swap(self,line): self.cmd_swap.do(self.split_arg(line)) def help_swap(self): self.cmd_swap.help() def complete_swap(self,text,line,begidx,endidx): return self.cmd_swap.complete(text,line,begidx,endidx) def do_install(self,line): result = self.cmd_install.do(self.split_arg(line)) if result=='restart': logging.info(" ") logging.info("MadAnalysis 5 must be restarted for taking into account the present installation.") return self.do_restart('restart') def help_install(self): self.cmd_install.help() def complete_install(self,text,line,begidx,endidx): return self.cmd_install.complete(text,self.split_arg(line),begidx,endidx) def do_open(self,line): self.cmd_open.do(self.split_arg(line)) def help_open(self): self.cmd_open.help() def complete_open(self,text,line,begidx,endidx): return self.cmd_open.complete(text,line,begidx,endidx) def do_reset(self,line): self.cmd_reset.do(self.split_arg(line),self) def help_reset(self): self.cmd_reset.help() def complete_reset(self,text,line,begidx,endidx): return self.cmd_reset.complete(text,line,begidx,endidx) def do_submit(self,line): self.cmd_submit.do(self.split_arg(line),self.history) def help_submit(self): self.cmd_submit.help() def complete_submit(self,text,line,begidx,endidx): return self.cmd_submit.complete(text,line,begidx,endidx) def do_resubmit(self,line): self.cmd_resubmit.do(self.split_arg(line),self.history) def help_resubmit(self): self.cmd_resubmit.help() def complete_resubmit(self,text,line,begidx,endidx): return self.cmd_resubmit.complete(text,line,begidx,endidx) def do_plot(self,line): self.cmd_plot.do(self.split_arg(line)) def help_plot(self): self.cmd_plot.help() def complete_plot(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace(")"," ) ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(","," , ") return self.cmd_plot.complete(text,self.split_arg(tmp),begidx,endidx) def do_reject(self,line): self.cmd_reject.do(self.split_arg(line)) def help_reject(self): self.cmd_reject.help() def complete_reject(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(")"," ) ") return self.cmd_reject.complete(text,self.split_arg(tmp),begidx,endidx) def do_select(self,line): self.cmd_select.do(self.split_arg(line)) def help_select(self): self.cmd_select.help() def complete_select(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(")"," ) ") return self.cmd_select.complete(text,self.split_arg(tmp),begidx,endidx) def InitializeParticle(self): input = ParticleReader(self.main.ma5dir,self.cmd_define,self.main.mode) input.Load() def InitializeMultiparticle(self): input = MultiparticleReader(self.main.ma5dir,self.cmd_define,self.main.mode,self.main.forced) input.Load() # PreLoop def preloop(self): """Initializing before starting the main loop""" self.prompt = 'ma5>' # if readline and not 'libedit' in readline.__doc__: # readline.set_completion_display_matches_hook(self.print_suggestions) def deal_multiple_categories(self, dico): """convert the multiple category in a formatted list understand by our specific readline parser""" if 'libedit' in readline.__doc__: # No parser in this case, just send all the valid options out = [] for name, opt in dico.items(): out += opt return out # That's the real work out = [] valid=0 # if the key starts with number order the key with that number. for name, opt in dico.items(): if not opt: continue name = name.replace(' ', '_') valid += 1 out.append(opt[0].rstrip()+'@@'+name+'@@') # Remove duplicate d = {} for x in opt: d[x] = 1 opt = list(d.keys()) opt.sort() out += opt if valid == 1: out = out[1:] return out def print_suggestions(self, substitution, matches, longest_match_length) : """print auto-completions by category""" longest_match_length += len(self.completion_prefix) try: if len(matches) == 1: self.stdout.write(matches[0]+' ') return self.stdout.write('\n') l2 = [a[-2:] for a in matches] if '@@' in l2: nb_column = self.getTerminalSize()//(longest_match_length+1) pos=0 for val in self.completion_matches: if val.endswith('@@'): category = val.rsplit('@@',2)[1] category = category.replace('_',' ') self.stdout.write('\n %s:\n%s\n' % (category, '=' * (len(category)+2))) start = 0 pos = 0 continue elif pos and pos % nb_column ==0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) pos +=1 self.stdout.write('\n') else: # nb column nb_column = self.getTerminalSize()//(longest_match_length+1) for i,val in enumerate(matches): if i and i%nb_column ==0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) self.stdout.write('\n') self.stdout.write(self.prompt+readline.get_line_buffer()) self.stdout.flush() except Exception, error: if __debug__: print error
class Interpreter(InterpreterBase): """Particularisation of the cmd command for MA5""" def __init__(self, main,*arg, **opt): # Calling constructor from InterpreterBase InterpreterBase.__init__(self, *arg, **opt) # Getting back main self.main = main # Getting back all commands self.cmd_set = CmdSet(main) self.cmd_define = CmdDefine(main) self.cmd_define_region = CmdDefineRegion(main) self.cmd_display = CmdDisplay(main) self.cmd_display_datasets = CmdDisplayDatasets(main) self.cmd_display_multiparticles = CmdDisplayMultiparticles(main) self.cmd_display_particles = CmdDisplayParticles(main) self.cmd_display_regions = CmdDisplayRegions(main) self.cmd_import = CmdImport(main) self.cmd_remove = CmdRemove(main) self.cmd_swap = CmdSwap(main) self.cmd_plot = CmdPlot(main) self.cmd_reject = CmdCut(main,CutType.REJECT) self.cmd_select = CmdCut(main,CutType.SELECT) self.cmd_reset = CmdReset(main) self.cmd_open = CmdOpen(main) self.cmd_submit = CmdSubmit(main) self.cmd_resubmit = CmdSubmit(main,resubmit=True) self.cmd_install = CmdInstall(main) # Initializing multiparticle self.InitializeParticle() self.InitializeMultiparticle() # Importing history self.history_file = os.path.normpath(self.main.archi_info.ma5dir + '/.ma5history') try: readline.read_history_file(self.history_file) except: pass def __del__(self): try: readline.set_history_length(100) readline.write_history_file(self.history_file) except: pass def do_set(self,line): self.cmd_set.do(self.split_arg(line),line) def help_set(self): self.cmd_set.help() def complete_set(self,text,line,begidx,endidx): return self.cmd_set.complete(text,line,begidx,endidx) def do_define(self,line): self.cmd_define.do(self.split_arg(line)) def do_define_region(self,line): self.cmd_define_region.do(self.split_arg(line)) def help_define(self): self.cmd_define.help() def help_define_region(self): self.cmd_define_region.help() def complete_define(self,text,line,begidx,endidx): return self.cmd_define.complete(text,line,begidx,endidx) def complete_define_region(self,text,line,begidx,endidx): return self.cmd_define_region.complete(text,line,begidx,endidx) def do_display(self,line): self.cmd_display.do(self.split_arg(line)) def help_display(self): self.cmd_display.help() def complete_display(self,text,line,begidx,endidx): return self.cmd_display.complete(text,line,begidx,endidx) def do_display_particles(self,line): self.cmd_display_particles.do(self.split_arg(line)) def help_display_particles(self): self.cmd_display_particles.help() def complete_display_particles(self,text,line,begidx,endidx): return self.cmd_display_particles.complete(text,line,begidx,endidx) def do_display_multiparticles(self,line): self.cmd_display_multiparticles.do(self.split_arg(line)) def help_display_multiparticles(self): self.cmd_display_multiparticles.help() def complete_display_multiparticles(self,text,line,begidx,endidx): return self.cmd_display_multiparticles.complete(text,line,begidx,endidx) def do_display_datasets(self,line): self.cmd_display_datasets.do(self.split_arg(line)) def do_display_regions(self,line): self.cmd_display_regions.do(self.split_arg(line)) def help_display_datasets(self): self.cmd_display_datasets.help() def help_display_regions(self): self.cmd_display_regions.help() def complete_display_datasets(self,text,line,begidx,endidx): return self.cmd_display_datasets.complete(text,line,begidx,endidx) def complete_display_regionss(self,text,line,begidx,endidx): return self.cmd_display_regions.complete(text,line,begidx,endidx) def do_import(self,line): self.cmd_import.do(self.split_arg(line),self,self.history) def help_import(self): self.cmd_import.help() def complete_import(self,text,line,begidx,endidx): return self.cmd_import.complete(text,line,begidx,endidx) # Restart def do_restart(self, line): """ sending a signal allowing to restart the interpreter """ # Note: Restart is available in script mode # Asking the safety question YES=True if not Main.forced: logging.getLogger('MA5').warning("Are you sure to restart the MadAnalysis 5 session? (Y/N)") allowed_answers=['n','no','y','yes'] answer="" while answer not in allowed_answers: answer=raw_input("Answer: ") answer=answer.lower() if answer=="no" or answer=="n": YES=False break elif answer=='yes' or answer=='y': YES=True break # Restart? if YES: self.main.repeatSession=True return True else: return None def help_restart(self): logging.getLogger('MA5').info(" Syntax: restart ") logging.getLogger('MA5').info(" Quit the current MadAnalysis sessiona and open a new one.") logging.getLogger('MA5').info(" All the information will be discarded.") def do_remove(self,line): self.cmd_remove.do(self.split_arg(line)) def help_remove(self): self.cmd_remove.help() def complete_remove(self,text,line,begidx,endidx): return self.cmd_remove.complete(text,line,begidx,endidx) def do_swap(self,line): self.cmd_swap.do(self.split_arg(line)) def help_swap(self): self.cmd_swap.help() def complete_swap(self,text,line,begidx,endidx): return self.cmd_swap.complete(text,line,begidx,endidx) def do_install(self,line): result = self.cmd_install.do(self.split_arg(line)) if result=='restart': logging.getLogger('MA5').info(" ") logging.getLogger('MA5').info("MadAnalysis 5 must be restarted for taking into account the present installation.") return self.do_restart('restart') def help_install(self): self.cmd_install.help() def complete_install(self,text,line,begidx,endidx): return self.cmd_install.complete(text,self.split_arg(line),begidx,endidx) def do_open(self,line): self.cmd_open.do(self.split_arg(line)) def help_open(self): self.cmd_open.help() def complete_open(self,text,line,begidx,endidx): return self.cmd_open.complete(text,line,begidx,endidx) def do_reset(self,line): self.cmd_reset.do(self.split_arg(line),self) def help_reset(self): self.cmd_reset.help() def complete_reset(self,text,line,begidx,endidx): return self.cmd_reset.complete(text,line,begidx,endidx) def do_submit(self,line): self.cmd_submit.do(self.split_arg(line),self.history) def help_submit(self): self.cmd_submit.help() def complete_submit(self,text,line,begidx,endidx): return self.cmd_submit.complete(text,line,begidx,endidx) def do_resubmit(self,line): self.cmd_resubmit.do(self.split_arg(line),self.history) def help_resubmit(self): self.cmd_resubmit.help() def complete_resubmit(self,text,line,begidx,endidx): return self.cmd_resubmit.complete(text,line,begidx,endidx) def do_plot(self,line): self.cmd_plot.do(self.split_arg(line)) def help_plot(self): self.cmd_plot.help() def complete_plot(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace(")"," ) ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(","," , ") return self.cmd_plot.complete(text,self.split_arg(tmp),begidx,endidx) def do_reject(self,line): self.cmd_reject.do(self.split_arg(line)) def help_reject(self): self.cmd_reject.help() def complete_reject(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(")"," ) ") return self.cmd_reject.complete(text,self.split_arg(tmp),begidx,endidx) def do_select(self,line): self.cmd_select.do(self.split_arg(line)) def help_select(self): self.cmd_select.help() def complete_select(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(")"," ) ") return self.cmd_select.complete(text,self.split_arg(tmp),begidx,endidx) def InitializeParticle(self): input = ParticleReader(self.main.archi_info.ma5dir,self.cmd_define,self.main.mode) input.Load() def InitializeMultiparticle(self): input = MultiparticleReader(self.main.archi_info.ma5dir,self.cmd_define,self.main.mode,self.main.forced) input.Load() # PreLoop def preloop(self): """Initializing before starting the main loop""" self.prompt = 'ma5>' # if readline and not 'libedit' in readline.__doc__: # readline.set_completion_display_matches_hook(self.print_suggestions) def deal_multiple_categories(self, dico): """convert the multiple category in a formatted list understand by our specific readline parser""" if 'libedit' in readline.__doc__: # No parser in this case, just send all the valid options out = [] for name, opt in dico.items(): out += opt return out # That's the real work out = [] valid=0 # if the key starts with number order the key with that number. for name, opt in dico.items(): if not opt: continue name = name.replace(' ', '_') valid += 1 out.append(opt[0].rstrip()+'@@'+name+'@@') # Remove duplicate d = {} for x in opt: d[x] = 1 opt = list(d.keys()) opt.sort() out += opt if valid == 1: out = out[1:] return out def print_suggestions(self, substitution, matches, longest_match_length) : """print auto-completions by category""" longest_match_length += len(self.completion_prefix) try: if len(matches) == 1: self.stdout.write(matches[0]+' ') return self.stdout.write('\n') l2 = [a[-2:] for a in matches] if '@@' in l2: nb_column = self.getTerminalSize()//(longest_match_length+1) pos=0 for val in self.completion_matches: if val.endswith('@@'): category = val.rsplit('@@',2)[1] category = category.replace('_',' ') self.stdout.write('\n %s:\n%s\n' % (category, '=' * (len(category)+2))) start = 0 pos = 0 continue elif pos and pos % nb_column ==0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) pos +=1 self.stdout.write('\n') else: # nb column nb_column = self.getTerminalSize()//(longest_match_length+1) for i,val in enumerate(matches): if i and i%nb_column ==0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) self.stdout.write('\n') self.stdout.write(self.prompt+readline.get_line_buffer()) self.stdout.flush() except Exception, error: if __debug__: print error
class Interpreter(InterpreterBase): """Particularisation of the cmd command for MA5""" def __init__(self, main,*arg, **opt): # Calling constructor from InterpreterBase InterpreterBase.__init__(self, *arg, **opt) # Getting back main self.main = main # Getting back all commands self.cmd_set = CmdSet(main) self.cmd_define = CmdDefine(main) self.cmd_display = CmdDisplay(main) self.cmd_display_datasets = CmdDisplayDatasets(main) self.cmd_display_particles = CmdDisplayParticles(main) self.cmd_display_multiparticles = CmdDisplayMultiparticles(main) self.cmd_import = CmdImport(main) self.cmd_remove = CmdRemove(main) self.cmd_swap = CmdSwap(main) self.cmd_plot = CmdPlot(main) self.cmd_reject = CmdCut(main,CutType.REJECT) self.cmd_select = CmdCut(main,CutType.SELECT) self.cmd_preview = CmdPreview(main) self.cmd_reset = CmdReset(main) self.cmd_open = CmdOpen(main) self.cmd_submit = CmdSubmit(main) self.cmd_resubmit = CmdSubmit(main,resubmit=True) self.cmd_generate_latex = CmdGenerate(main,\ ReportFormatType.LATEX) self.cmd_generate_pdflatex = CmdGenerate(main,\ ReportFormatType.PDFLATEX) self.cmd_generate_html = CmdGenerate(main,\ ReportFormatType.HTML) self.cmd_install = CmdInstall(main) # Initializing multiparticle self.InitializeParticle() self.InitializeMultiparticle() # Importing history self.history_file = os.path.normpath(self.main.ma5dir + '/.ma5history') try: readline.read_history_file(self.history_file) except: pass def __del__(self): try: readline.set_history_length(100) readline.write_history_file(self.history_file) except: pass def do_set(self,line): self.cmd_set.do(self.split_arg(line),line) def help_set(self): self.cmd_set.help() def complete_set(self,text,line,begidx,endidx): return self.cmd_set.complete(text,line,begidx,endidx) def do_define(self,line): self.cmd_define.do(self.split_arg(line)) def help_define(self): self.cmd_define.help() def complete_define(self,text,line,begidx,endidx): return self.cmd_define.complete(text,line,begidx,endidx) def do_display(self,line): self.cmd_display.do(self.split_arg(line)) def help_display(self): self.cmd_display.help() def complete_display(self,text,line,begidx,endidx): return self.cmd_display.complete(text,line,begidx,endidx) def do_display_particles(self,line): self.cmd_display_particles.do(self.split_arg(line)) def help_display_particles(self): self.cmd_display_particles.help() def complete_display_particles(self,text,line,begidx,endidx): return self.cmd_display_particles.complete(text,line,begidx,endidx) def do_display_multiparticles(self,line): self.cmd_display_multiparticles.do(self.split_arg(line)) def help_display_multiparticles(self): self.cmd_display_multiparticles.help() def complete_display_multiparticles(self,text,line,begidx,endidx): return self.cmd_display_multiparticles.complete(text,line,begidx,endidx) def do_display_datasets(self,line): self.cmd_display_datasets.do(self.split_arg(line)) def help_display_datasets(self): self.cmd_display_datasets.help() def complete_display_datasets(self,text,line,begidx,endidx): return self.cmd_display_datasets.complete(text,line,begidx,endidx) def do_generate_html(self,line): self.cmd_generate_html.do(self.split_arg(line),self.history) def help_generate_html(self): self.cmd_generate_html.help() def complete_generate_html(self,text,line,begidx,endidx): return self.cmd_generate_html.complete(text,line,begidx,endidx) def do_generate_latex(self,line): self.cmd_generate_latex.do(self.split_arg(line),self.history) def help_generate_latex(self): self.cmd_generate_latex.help() def complete_generate_latex(self,text,line,begidx,endidx): return self.cmd_generate_latex.complete(text,line,begidx,endidx) def do_generate_pdflatex(self,line): self.cmd_generate_pdflatex.do(self.split_arg(line),self.history) def help_generate_pdflatex(self): self.cmd_generate_pdflatex.help() def complete_generate_pdflatex(self,text,line,begidx,endidx): return self.cmd_generate_pdflatex.complete(text,line,begidx,endidx) def do_import(self,line): self.cmd_import.do(self.split_arg(line),self) def help_import(self): self.cmd_import.help() def complete_import(self,text,line,begidx,endidx): return self.cmd_import.complete(text,line,begidx,endidx) def do_remove(self,line): self.cmd_remove.do(self.split_arg(line)) def help_remove(self): self.cmd_remove.help() def complete_remove(self,text,line,begidx,endidx): return self.cmd_remove.complete(text,line,begidx,endidx) def do_swap(self,line): self.cmd_swap.do(self.split_arg(line)) def help_swap(self): self.cmd_swap.help() def complete_swap(self,text,line,begidx,endidx): return self.cmd_swap.complete(text,line,begidx,endidx) def do_install(self,line): self.cmd_install.do(self.split_arg(line)) def help_install(self): self.cmd_install.help() def complete_install(self,text,line,begidx,endidx): return self.cmd_install.complete(text,self.split_arg(line),begidx,endidx) def do_preview(self,line): self.cmd_preview.do(self.split_arg(line)) def help_preview(self): self.cmd_preview.help() def complete_preview(self,text,line,begidx,endidx): return self.cmd_preview.complete(text,line,begidx,endidx) def do_open(self,line): self.cmd_open.do(self.split_arg(line)) def help_open(self): self.cmd_open.help() def complete_open(self,text,line,begidx,endidx): return self.cmd_open.complete(text,line,begidx,endidx) def do_reset(self,line): self.cmd_reset.do(self.split_arg(line),self) def help_reset(self): self.cmd_reset.help() def complete_reset(self,text,line,begidx,endidx): return self.cmd_reset.complete(text,line,begidx,endidx) def do_submit(self,line): self.cmd_submit.do(self.split_arg(line),self.history) def help_submit(self): self.cmd_submit.help() def complete_submit(self,text,line,begidx,endidx): return self.cmd_submit.complete(text,line,begidx,endidx) def do_resubmit(self,line): self.cmd_resubmit.do(self.split_arg(line),self.history) def help_resubmit(self): self.cmd_resubmit.help() def complete_resubmit(self,text,line,begidx,endidx): return self.cmd_resubmit.complete(text,line,begidx,endidx) def do_plot(self,line): self.cmd_plot.do(self.split_arg(line)) def help_plot(self): self.cmd_plot.help() def complete_plot(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace(")"," ) ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(","," , ") return self.cmd_plot.complete(text,self.split_arg(tmp),begidx,endidx) def do_reject(self,line): self.cmd_reject.do(self.split_arg(line)) def help_reject(self): self.cmd_reject.help() def complete_reject(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(")"," ) ") return self.cmd_reject.complete(text,self.split_arg(tmp),begidx,endidx) def do_select(self,line): self.cmd_select.do(self.split_arg(line)) def help_select(self): self.cmd_select.help() def complete_select(self,text,line,begidx,endidx): tmp = line.replace("["," [ ") tmp = tmp.replace("]"," ] ") tmp = tmp.replace("("," ( ") tmp = tmp.replace(")"," ) ") return self.cmd_select.complete(text,self.split_arg(tmp),begidx,endidx) def InitializeParticle(self): input = ParticleReader(self.main.ma5dir,self.cmd_define,self.main.mode) input.Load() def InitializeMultiparticle(self): input = MultiparticleReader(self.main.ma5dir,self.cmd_define,self.main.mode) input.Load() # PreLoop def preloop(self): """Initializing before starting the main loop""" self.prompt = 'ma5>' # if readline and not 'libedit' in readline.__doc__: # readline.set_completion_display_matches_hook(self.print_suggestions) def deal_multiple_categories(self, dico): """convert the multiple category in a formatted list understand by our specific readline parser""" if 'libedit' in readline.__doc__: # No parser in this case, just send all the valid options out = [] for name, opt in dico.items(): out += opt return out # That's the real work out = [] valid=0 # if the key starts with number order the key with that number. for name, opt in dico.items(): if not opt: continue name = name.replace(' ', '_') valid += 1 out.append(opt[0].rstrip()+'@@'+name+'@@') # Remove duplicate d = {} for x in opt: d[x] = 1 opt = list(d.keys()) opt.sort() out += opt if valid == 1: out = out[1:] return out def print_suggestions(self, substitution, matches, longest_match_length) : """print auto-completions by category""" longest_match_length += len(self.completion_prefix) try: if len(matches) == 1: self.stdout.write(matches[0]+' ') return self.stdout.write('\n') l2 = [a[-2:] for a in matches] if '@@' in l2: nb_column = self.getTerminalSize()//(longest_match_length+1) pos=0 for val in self.completion_matches: if val.endswith('@@'): category = val.rsplit('@@',2)[1] category = category.replace('_',' ') self.stdout.write('\n %s:\n%s\n' % (category, '=' * (len(category)+2))) start = 0 pos = 0 continue elif pos and pos % nb_column ==0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) pos +=1 self.stdout.write('\n') else: # nb column nb_column = self.getTerminalSize()//(longest_match_length+1) for i,val in enumerate(matches): if i and i%nb_column ==0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) self.stdout.write('\n') self.stdout.write(self.prompt+readline.get_line_buffer()) self.stdout.flush() except Exception, error: if __debug__: print error
class Interpreter(InterpreterBase): """Particularisation of the cmd command for MA5""" def __init__(self, main, *arg, **opt): # Calling constructor from InterpreterBase InterpreterBase.__init__(self, *arg, **opt) # Getting back main self.main = main # Getting back all commands self.cmd_set = CmdSet(main) self.cmd_define = CmdDefine(main) self.cmd_display = CmdDisplay(main) self.cmd_display_datasets = CmdDisplayDatasets(main) self.cmd_display_particles = CmdDisplayParticles(main) self.cmd_display_multiparticles = CmdDisplayMultiparticles(main) self.cmd_import = CmdImport(main) self.cmd_remove = CmdRemove(main) self.cmd_swap = CmdSwap(main) self.cmd_plot = CmdPlot(main) self.cmd_reject = CmdCut(main, CutType.REJECT) self.cmd_select = CmdCut(main, CutType.SELECT) self.cmd_preview = CmdPreview(main) self.cmd_reset = CmdReset(main) self.cmd_open = CmdOpen(main) self.cmd_submit = CmdSubmit(main) self.cmd_resubmit = CmdSubmit(main, resubmit=True) self.cmd_generate_latex = CmdGenerate(main,\ ReportFormatType.LATEX) self.cmd_generate_pdflatex = CmdGenerate(main,\ ReportFormatType.PDFLATEX) self.cmd_generate_html = CmdGenerate(main,\ ReportFormatType.HTML) self.cmd_install = CmdInstall(main) # Initializing multiparticle self.InitializeParticle() self.InitializeMultiparticle() # Importing history self.history_file = os.path.normpath(self.main.ma5dir + '/.ma5history') try: readline.read_history_file(self.history_file) except: pass def __del__(self): try: readline.set_history_length(100) readline.write_history_file(self.history_file) except: pass def do_set(self, line): self.cmd_set.do(self.split_arg(line), line) def help_set(self): self.cmd_set.help() def complete_set(self, text, line, begidx, endidx): return self.cmd_set.complete(text, line, begidx, endidx) def do_define(self, line): self.cmd_define.do(self.split_arg(line)) def help_define(self): self.cmd_define.help() def complete_define(self, text, line, begidx, endidx): return self.cmd_define.complete(text, line, begidx, endidx) def do_display(self, line): self.cmd_display.do(self.split_arg(line)) def help_display(self): self.cmd_display.help() def complete_display(self, text, line, begidx, endidx): return self.cmd_display.complete(text, line, begidx, endidx) def do_display_particles(self, line): self.cmd_display_particles.do(self.split_arg(line)) def help_display_particles(self): self.cmd_display_particles.help() def complete_display_particles(self, text, line, begidx, endidx): return self.cmd_display_particles.complete(text, line, begidx, endidx) def do_display_multiparticles(self, line): self.cmd_display_multiparticles.do(self.split_arg(line)) def help_display_multiparticles(self): self.cmd_display_multiparticles.help() def complete_display_multiparticles(self, text, line, begidx, endidx): return self.cmd_display_multiparticles.complete( text, line, begidx, endidx) def do_display_datasets(self, line): self.cmd_display_datasets.do(self.split_arg(line)) def help_display_datasets(self): self.cmd_display_datasets.help() def complete_display_datasets(self, text, line, begidx, endidx): return self.cmd_display_datasets.complete(text, line, begidx, endidx) def do_generate_html(self, line): self.cmd_generate_html.do(self.split_arg(line), self.history) def help_generate_html(self): self.cmd_generate_html.help() def complete_generate_html(self, text, line, begidx, endidx): return self.cmd_generate_html.complete(text, line, begidx, endidx) def do_generate_latex(self, line): self.cmd_generate_latex.do(self.split_arg(line), self.history) def help_generate_latex(self): self.cmd_generate_latex.help() def complete_generate_latex(self, text, line, begidx, endidx): return self.cmd_generate_latex.complete(text, line, begidx, endidx) def do_generate_pdflatex(self, line): self.cmd_generate_pdflatex.do(self.split_arg(line), self.history) def help_generate_pdflatex(self): self.cmd_generate_pdflatex.help() def complete_generate_pdflatex(self, text, line, begidx, endidx): return self.cmd_generate_pdflatex.complete(text, line, begidx, endidx) def do_import(self, line): self.cmd_import.do(self.split_arg(line), self) def help_import(self): self.cmd_import.help() def complete_import(self, text, line, begidx, endidx): return self.cmd_import.complete(text, line, begidx, endidx) def do_remove(self, line): self.cmd_remove.do(self.split_arg(line)) def help_remove(self): self.cmd_remove.help() def complete_remove(self, text, line, begidx, endidx): return self.cmd_remove.complete(text, line, begidx, endidx) def do_swap(self, line): self.cmd_swap.do(self.split_arg(line)) def help_swap(self): self.cmd_swap.help() def complete_swap(self, text, line, begidx, endidx): return self.cmd_swap.complete(text, line, begidx, endidx) def do_install(self, line): self.cmd_install.do(self.split_arg(line)) def help_install(self): self.cmd_install.help() def complete_install(self, text, line, begidx, endidx): return self.cmd_install.complete(text, self.split_arg(line), begidx, endidx) def do_preview(self, line): self.cmd_preview.do(self.split_arg(line)) def help_preview(self): self.cmd_preview.help() def complete_preview(self, text, line, begidx, endidx): return self.cmd_preview.complete(text, line, begidx, endidx) def do_open(self, line): self.cmd_open.do(self.split_arg(line)) def help_open(self): self.cmd_open.help() def complete_open(self, text, line, begidx, endidx): return self.cmd_open.complete(text, line, begidx, endidx) def do_reset(self, line): self.cmd_reset.do(self.split_arg(line), self) def help_reset(self): self.cmd_reset.help() def complete_reset(self, text, line, begidx, endidx): return self.cmd_reset.complete(text, line, begidx, endidx) def do_submit(self, line): self.cmd_submit.do(self.split_arg(line), self.history) def help_submit(self): self.cmd_submit.help() def complete_submit(self, text, line, begidx, endidx): return self.cmd_submit.complete(text, line, begidx, endidx) def do_resubmit(self, line): self.cmd_resubmit.do(self.split_arg(line), self.history) def help_resubmit(self): self.cmd_resubmit.help() def complete_resubmit(self, text, line, begidx, endidx): return self.cmd_resubmit.complete(text, line, begidx, endidx) def do_plot(self, line): self.cmd_plot.do(self.split_arg(line)) def help_plot(self): self.cmd_plot.help() def complete_plot(self, text, line, begidx, endidx): tmp = line.replace("[", " [ ") tmp = tmp.replace("]", " ] ") tmp = tmp.replace(")", " ) ") tmp = tmp.replace("(", " ( ") tmp = tmp.replace(",", " , ") return self.cmd_plot.complete(text, self.split_arg(tmp), begidx, endidx) def do_reject(self, line): self.cmd_reject.do(self.split_arg(line)) def help_reject(self): self.cmd_reject.help() def complete_reject(self, text, line, begidx, endidx): tmp = line.replace("[", " [ ") tmp = tmp.replace("]", " ] ") tmp = tmp.replace("(", " ( ") tmp = tmp.replace(")", " ) ") return self.cmd_reject.complete(text, self.split_arg(tmp), begidx, endidx) def do_select(self, line): self.cmd_select.do(self.split_arg(line)) def help_select(self): self.cmd_select.help() def complete_select(self, text, line, begidx, endidx): tmp = line.replace("[", " [ ") tmp = tmp.replace("]", " ] ") tmp = tmp.replace("(", " ( ") tmp = tmp.replace(")", " ) ") return self.cmd_select.complete(text, self.split_arg(tmp), begidx, endidx) def InitializeParticle(self): input = ParticleReader(self.main.ma5dir, self.cmd_define, self.main.mode) input.Load() def InitializeMultiparticle(self): input = MultiparticleReader(self.main.ma5dir, self.cmd_define, self.main.mode) input.Load() # PreLoop def preloop(self): """Initializing before starting the main loop""" self.prompt = 'ma5>' # if readline and not 'libedit' in readline.__doc__: # readline.set_completion_display_matches_hook(self.print_suggestions) def deal_multiple_categories(self, dico): """convert the multiple category in a formatted list understand by our specific readline parser""" if 'libedit' in readline.__doc__: # No parser in this case, just send all the valid options out = [] for name, opt in dico.items(): out += opt return out # That's the real work out = [] valid = 0 # if the key starts with number order the key with that number. for name, opt in dico.items(): if not opt: continue name = name.replace(' ', '_') valid += 1 out.append(opt[0].rstrip() + '@@' + name + '@@') # Remove duplicate d = {} for x in opt: d[x] = 1 opt = list(d.keys()) opt.sort() out += opt if valid == 1: out = out[1:] return out def print_suggestions(self, substitution, matches, longest_match_length): """print auto-completions by category""" longest_match_length += len(self.completion_prefix) try: if len(matches) == 1: self.stdout.write(matches[0] + ' ') return self.stdout.write('\n') l2 = [a[-2:] for a in matches] if '@@' in l2: nb_column = self.getTerminalSize() // (longest_match_length + 1) pos = 0 for val in self.completion_matches: if val.endswith('@@'): category = val.rsplit('@@', 2)[1] category = category.replace('_', ' ') self.stdout.write('\n %s:\n%s\n' % (category, '=' * (len(category) + 2))) start = 0 pos = 0 continue elif pos and pos % nb_column == 0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) pos += 1 self.stdout.write('\n') else: # nb column nb_column = self.getTerminalSize() // (longest_match_length + 1) for i, val in enumerate(matches): if i and i % nb_column == 0: self.stdout.write('\n') self.stdout.write(self.completion_prefix + val + \ ' ' * (longest_match_length +1 -len(val))) self.stdout.write('\n') self.stdout.write(self.prompt + readline.get_line_buffer()) self.stdout.flush() except Exception, error: if __debug__: print error