def check_conjectures(kind,msg,ag,state): failed = itp.undecided_conjectures(state) if failed: print "{} failed.".format(kind) if diagnose.get(): gui = ui.new_ui() agui = gui.add(ag) gui.tk.update_idletasks() # so that dialog is on top of main window agui.try_conjecture(state,msg="{}\nChoose one to see counterexample.".format(msg)) gui.tk.mainloop() exit(1)
def check_conjectures(kind,msg,ag,state): failed = itp.undecided_conjectures(state) if failed: if diagnose.get(): print "{} failed.".format(kind) iu.dbg('ag.states[0].clauses') gui = ui.new_ui() agui = gui.add(ag) gui.tk.update_idletasks() # so that dialog is on top of main window agui.try_conjecture(state,msg="{}\nChoose one to see counterexample.".format(msg),bound=1) gui.tk.mainloop() exit(1) raise iu.IvyError(None,"{} failed.".format(kind))
def check_conjectures(kind,msg,ag,state): failed = itp.undecided_conjectures(state) if failed: if diagnose.get(): print "{} failed.".format(kind) import tk_ui as ui iu.set_parameters({'mode':'induction'}) gui = ui.new_ui() agui = gui.add(ag) gui.tk.update_idletasks() # so that dialog is on top of main window agui.try_conjecture(state,msg="{}\nChoose one to see counterexample.".format(msg),bound=1) gui.tk.mainloop() exit(1) raise iu.IvyError(None,"{} failed.".format(kind))
def check_conjectures(kind, msg, ag, state): failed = itp.undecided_conjectures(state) if failed: if diagnose.get(): print "{} failed.".format(kind) iu.dbg('ag.states[0].clauses') gui = ui.new_ui() agui = gui.add(ag) gui.tk.update_idletasks( ) # so that dialog is on top of main window agui.try_conjecture( state, msg="{}\nChoose one to see counterexample.".format(msg), bound=1) gui.tk.mainloop() exit(1) raise iu.IvyError(None, "{} failed.".format(kind))