示例#1
0
def drive():
#def main(f):

	# Calculate important words - returns array of important words
	#important = important_words.wordlist_string(text_input, 10)

	# Get sentences with words
	# INPUT VERSION
	# f = sys.stdin.readline()

	# FILE IO VERSION
	# print f
	f = open('practice2.txt').read()

	important_word = important_words.wordlist_string(f,10)
	print (important_word)
	important_sentences, counts = sent_parser.parse_sent(f, important_word)
	print (important_sentences)
	offsets = haiku_algorithm.find_haiku(counts)
	
	lines = find_lines.get_lines(offsets, important_sentences, important_word)
	
	for i in lines:
		if len(i)==0:
			print ('None')
			#return None

	output = ''
	for i in lines:
		line = ' '.join([str(x) for x in i])
		output += line + '\n'

	print (output)
	
	return output
示例#2
0
def drive():
    #def main(f):

    # Calculate important words - returns array of important words
    #important = important_words.wordlist_string(text_input, 10)

    # Get sentences with words
    # INPUT VERSION
    # f = sys.stdin.readline()

    # FILE IO VERSION
    # print f
    f = open('practice2.txt').read()

    important_word = important_words.wordlist_string(f, 10)
    print(important_word)
    important_sentences, counts = sent_parser.parse_sent(f, important_word)
    print(important_sentences)
    offsets = haiku_algorithm.find_haiku(counts)

    lines = find_lines.get_lines(offsets, important_sentences, important_word)

    for i in lines:
        if len(i) == 0:
            print('None')
            #return None

    output = ''
    for i in lines:
        line = ' '.join([str(x) for x in i])
        output += line + '\n'

    print(output)

    return output
示例#3
0
def drive():
    #def main(f):

    # Calculate important words - returns array of important words
    #important = important_words.wordlist_string(text_input, 10)

    # Get sentences with words
    # INPUT VERSION
    f = sys.stdin.readline()
    if len(f) < 5:
        print('')
        return None

    important_word = important_words.wordlist_string(f, 10)

    # Remove NoneType from list
    important_word = [x for x in important_word if x is not None]

    important_sentences, counts = sent_parser.parse_sent(f, important_word)
    if important_sentences == "ERROR":
        print('')
        return None

    offsets = haiku_algorithm.find_haiku(counts)

    lines = find_lines.get_lines(offsets, important_sentences, important_word)

    for i in lines:
        if len(i) == 0:
            print('')
            return None

    output = ''
    for i in lines:
        line = ' '.join([str(x) for x in i])
        output += line + ' * '

    print(output)

    return output
示例#4
0
def drive():
#def main(f):

	# Calculate important words - returns array of important words
	f = open('practice2.txt').read()

	important_word = important_words.wordlist_string(f,10)
	print important_word

	# Remove NoneType from list
	important_word = [x for x in important_word if x is not None]

	print important_word

	important_sentences, counts = sent_parser.parse_sent(f, important_word)
	if important_sentences == "ERROR":
		print ('None')
		
	print (important_sentences)
	offsets = haiku_algorithm.find_haiku(counts)
	
	lines = find_lines.get_lines(offsets, important_sentences, important_word)
	
	for i in lines:
		if len(i)==0:
			print ('None')
			#return None

	output = ''
	for i in lines:
		line = ' '.join([str(x) for x in i])
		output += line + '\n'

	print (output)
	
	return output