def build_menu_metacyc_stats(): ''' Build the menu Statistics - MetaCyc. ''' while True: # print headers clib.clear_screen() clib.print_headers_with_environment('Statistics - MetaCyc') # print the menu options print( 'Options:') print() print( ' 1. Frecuency distribution data') print( ' 2. # sequences per # ids data') print() print( ' X. Return to menu Statistics') print() # get the selected option option = input('Input the selected option: ').upper() # process the selected option if option == '1': ctoa.form_view_ontologic_data_frecuency(stats_code='metacyc') elif option == '2': ctoa.form_view_x_per_y_data(stats_code='seq_per_metacyc') elif option == 'X': break
def build_menu_alignment_stats(): ''' Build the menu Statistics - Alignment. ''' while True: # print headers clib.clear_screen() clib.print_headers_with_environment('Statistics - Alignment') # print the menu options print( 'Options:') print() print( ' 1. # HITs per # HSPs data') print() print( ' X. Return to menu Statistics') print() # get the selected option option = input('Input the selected option: ').upper() # process the selected option if option == '1': ctoa.form_view_x_per_y_data(stats_code='hit_per_hsp') elif option == 'X': break
def build_menu_go_stats(): ''' Build the menu Statistics - Gene Ontology. ''' while True: # print headers clib.clear_screen() clib.print_headers_with_environment('Statistics - Gene Ontology') # print the menu options print( 'Options:') print() print( ' 1. Frecuency distribution data per term') print( ' 2. Frecuency distribution data per namespace') print( ' 3. # sequences per # terms data') print() print( ' X. Return to menu Statistics') print() # get the selected option option = input('Input the selected option: ').upper() # process the selected option if option == '1': ctoa.form_view_go_data_frecuency() elif option == '2': ctoa.form_view_phylogenic_data_frecuency(stats_code='namespace') elif option == '3': ctoa.form_view_x_per_y_data(stats_code='seq_per_go') elif option == 'X': break