def print_melon(melons): for melon_type, melon_data in melons.items(): # items returns a list of tuples, making it easy to unpack multiple variables at once print melon_type for description, value in melon_data.items(): print "%s: %r" % (description, value) print "\n"
def print_melon(melons): """Print each melon with corresponding attribute information.""" for melon_name, attributes in melons.items(): print(melon_name.upper()) for attribute, value in attributes.items(): print(f'{attribute}: {value}')
def print_melon(melons): """Print each melon with corresponding attribute information.""" for malon_name, attr in melons.items(): print(malon_name.upper()) for key, val in attr.items(): print(f" {key}: {val}")
def print_melon(melons): """Print each melon with corresponding attribute information.""" for melon, attributes in melons.items(): print("{}" .format(melon)) for attribute in attributes: print("{}: {}" .format(attribute, attributes[attribute]))
def print_melons(melons): """Print each melon with corresponding attribute information.""" for melon, attribute in melons.items(): print('MELON TYPE:', melon) for attribute, value in attribute.items(): print(attribute, value)
def print_all_melons(melons): """Print each melon with corresponding attribute information.""" for melon, attributes in melons.items(): print(melon.upper()) for attribute, value in attributes.items(): print(f"{attribute}: {value}") print('===================================')
def print_all_melon(melons): """ Print each melon and its associated characteristics. """ for melon, attributes in melons.items(): print melon.upper() for attribute, value in attributes.items(): print " {}: {}".format(attribute, value) print
def print_all_melons(melons): """Print each melon with corresponding data""" for melon_name, attribute in melons.items(): print(melon_name.upper()) for attribute, value in attribute.items(): print(f'\t{attribute}:{value}')
def print_melons(melons): """Print melons.""" for melon, parametrs in melons.items(): print melon.upper() for parametr, value in parametrs.items(): print "{} : {}".format(parametr, value) print "\n"
def print_melons(melons): """Print each melon with corresponding attribute information.""" for name, attributes in melons.items(): print(name.upper()) for attributes, value in attributes.items(): print(f" {attributes}: {value}")
def print_melons(melons): """Print each melon with corresponding attribute information.""" #For Melon (Keys) names in Dictionary, print the Melon name sin uppercase for melon_names, attributes in melons.items(): print(melon_names.upper()) # For the various Values in attributes in Melon dictionary #Print attribut:Value for attribute, value in attributes.items(): print(f"{attribute}: {value}")
def print_melon(melons): """Print each melon with corresponding attribute information.""" for name, attr in melons.items(): print(name.upper()) for att, value in attr.items(): print(f'{att} : {value}') print('--------------------')
def print_melon(melons): """Print each melon with corresponding attribute information.""" for melon, characteristics in melons.items(): print(melon.upper()) for characteristic, value in characteristics.items(): print(f"{characteristic}: {value}") print("------------------------")
def print_melon(melon): """Print each melon with corresponding attribute information.""" for melon_name, info in melons.items(): print(melon_name.upper()) for info, value in info.items(): print(f"{info}: {value}") print('===================================')
def print_all_melons(melons): """Print every melon and corresponding attributes""" for melon_name, attributes in melons.items(): print(melon_name) for attribute, value in attributes.items(): print(f'{attribute}: {value}') print('==================')
def print_melons(melons): """Print each melon with corresponding attribute information.""" #Capitalizes melon name and assigns variables in dict for melon_name, attributes in melons.items(): print(melon_name.upper()) #Assigns variables in nested dict for attribute, value in attributes.items(): print(f'{attribute}: {value}') print('------------------')
def print_melons(melons): """Print each melon with corresponding attribute information.""" for melon_name, melon_attributes in melons.items(): print("") print(f'{melon_name.upper()}') #Prints melon name for melon_attribute, melon_value in melon_attributes.items(): print(f'{melon_attribute}: {melon_value}') #Prints melon attributes
def print_melon(melon_name): """Print each melon with corresponding attribute information.""" # have_or_have_not = "have" # iterates through each melon name for melon, attributes in melons.items(): print(melon.upper()) # iterates through attributes of each melon for attribute, value in attributes.items(): print(f"{attribute}: {value}") print()
def print_all_melons(melons): """Print each melon with corresponding attribute information""" for melon_name, attributes in melons.items( ): #pulls out the first key, and #the dictionary associated to it and naming that attributes print(melon_name.upper()) #print melon name in caps for attribute, value in attributes.items( ): #loop through the attribute #dictionary and pulls attribute keys and the values for them print(f'{attribute}: {value}') print('==================================')
def print_out_melon_info(melons): """Print out all the melons in our inventory.""" additional_info = (raw_input("Do you have additional things to track? ")).lower() if additional_info == "yes": melon = raw_input("Which melon is it for? ") characteristic = raw_input("What is the new characteristic? ") additional_value = raw_input("What is the value of this new characteristic? ") melons[melon][characteristic] = additional_value for melon, characteristics in melons.items(): print melon.upper() for characteristic, value in characteristics.items(): print "{}: {}".format(characteristic, value) print
def print_melon(melons): # the dictionary name is passed as the parameter # so that interpreter knows where to pull attributes from """Print each melon with corresponding attribute information.""" for name, attributes in melons.items( ): # the name is the first feature or key whose features are being defined; #the attributes are the characteristics you define. Every key must have the same characteristics. print(name.upper()) # this prints the watermelon name in uppercase for attribute, value in attributes.items( ): #items are the characteristics which have a value such as # None, a boolean, a string, a float or an int. Here the code says that for every attribute and value print # the attribute and value fields line by line print(f'{attribute}:{value}') print('-')
def print_melons(melons): """Print each melon followed by it's attributes Example: CANTALOUPE flesh_color: None price: 0.99 rind_color: None seedless: False weight: None """ for name, melon in sorted(melons.items()): print name.upper() for attribute, value in sorted(melon.items()): print " {}: {}".format(attribute, value) print ""
def print_melon(melons): for melon_name, melon_info in melons.items(): print melon_name.upper() for key, value in melon_info.items(): print " {} : {}".format(key, value)
def print_melon(melons): """Print each melon with corresponding attribute information.""" for melon, details in melons.items(): print(melon.upper()) for detail, value in details.items(): print(detail, value)
"""Print out all the melons in our inventory.""" from melons import melons # print the nested dictionary, but with # each key-value pair (item) on a separate line for melon_name, melon_info in melons.items(): print(melon_name.upper()) for key, value in melon_info.items(): print(f" {key}: {value}") print() ### ---------------- OLD CODE --------------- ### # from melons import melon_names, melon_seedlessness, melon_prices # def print_melon(name, seedless, price): # """Print each melon with corresponding attribute information.""" # have_or_have_not = 'have' # if seedless: # have_or_have_not = 'do not have' # print(f'{name}s {have_or_have_not} seeds and are ${price:.2f}') # for i in melon_names: # print_melon(melon_names[i], melon_seedlessness[i], melon_prices[i])
def print_melon(melons): """Print each melon with corresponding attribute information.""" for melon_type, attributes in melons.items(): print('\n', melon_type.upper(), '\n') for melon_attr, val in attributes.items(): print(f'{melon_attr}: {val}')
""" Prints out all the melons in our inventory """ from melons import melons for melon, items in melons.items(): print melon.upper() for key, value in items.items(): print " {}: {}".format(key, value)