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Kokoro-TTS / num2kana.py

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	# https://github.com/Greatdane/Convert-Numbers-to-Japanese/blob/master/Convert-Numbers-to-Japanese.py
	# Japanese Number Converter
	# - Currently using length functions - possible to use Recursive Functions? Difficult with the many exceptions
	# - Works up to 9 figures (999999999)

	romaji_dict = {".": "ten", "0": "zero", "1": "ichi", "2": "ni", "3": "san", "4": "yon", "5": "go", "6": "roku", "7": "nana",
	"8": "hachi", "9": "kyuu", "10": "juu", "100": "hyaku", "1000": "sen", "10000": "man", "100000000": "oku",
	"300": "sanbyaku", "600": "roppyaku", "800": "happyaku", "3000": "sanzen", "8000":"hassen", "01000": "issen"}

	kanji_dict = {".": "点", "0": "零", "1": "一", "2": "二", "3": "三", "4": "四", "5": "五", "6": "六", "7": "七",
	"8": "八", "9": "九", "10": "十", "100": "百", "1000": "千", "10000": "万", "100000000": "億",
	"300": "三百", "600": "六百", "800": "八百", "3000": "三千", "8000":"八千", "01000": "一千"}

	hiragana_dict = {".": "てん", "0": "ゼロ", "1": "いち", "2": "に", "3": "さん", "4": "よん", "5": "ご", "6": "ろく", "7": "なな",
	"8": "はち", "9": "きゅう", "10": "じゅう", "100": "ひゃく", "1000": "せん", "10000": "まん", "100000000": "おく",
	"300": "さんびゃく", "600": "ろっぴゃく", "800": "はっぴゃく", "3000": "さんぜん", "8000":"はっせん", "01000": "いっせん" }

	key_dict = {"kanji" : kanji_dict, "hiragana" : hiragana_dict, "romaji": romaji_dict}

	def len_one(convert_num,requested_dict):
	# Returns single digit conversion, 0-9
	return requested_dict[convert_num]

	def len_two(convert_num,requested_dict):
	# Returns the conversion, when number is of length two (10-99)
	if convert_num[0] == "0": #if 0 is first, return len_one
	return len_one(convert_num[1],requested_dict)
	if convert_num == "10":
	return requested_dict["10"] # Exception, if number is 10, simple return 10
	if convert_num[0] == "1": # When first number is 1, use ten plus second number
	return requested_dict["10"] + " " + len_one(convert_num[1],requested_dict)
	elif convert_num[1] == "0": # If ending number is zero, give first number plus 10
	return len_one(convert_num[0],requested_dict) + " " + requested_dict["10"]
	else:
	num_list = []
	for x in convert_num:
	num_list.append(requested_dict[x])
	num_list.insert(1, requested_dict["10"])
	# Convert to a string (from a list)
	output = ""
	for y in num_list:
	output += y + " "
	output = output[:len(output) - 1] # take off the space
	return output

	def len_three(convert_num,requested_dict):
	# Returns the conversion, when number is of length three (100-999)
	num_list = []
	if convert_num[0] == "1":
	num_list.append(requested_dict["100"])
	elif convert_num[0] == "3":
	num_list.append(requested_dict["300"])
	elif convert_num[0] == "6":
	num_list.append(requested_dict["600"])
	elif convert_num[0] == "8":
	num_list.append(requested_dict["800"])
	else:
	num_list.append(requested_dict[convert_num[0]])
	num_list.append(requested_dict["100"])
	if convert_num[1:] == "00" and len(convert_num) == 3:
	pass
	else:
	if convert_num[1] == "0":
	num_list.append(requested_dict[convert_num[2]])
	else:
	num_list.append(len_two(convert_num[1:], requested_dict))
	output = ""
	for y in num_list:
	output += y + " "
	output = output[:len(output) - 1]
	return output

	def len_four(convert_num,requested_dict, stand_alone):
	# Returns the conversion, when number is of length four (1000-9999)
	num_list = []
	# First, check for zeros (and get deal with them)
	if convert_num == "0000":
	return ""
	while convert_num[0] == "0":
	convert_num = convert_num[1:]
	if len(convert_num) == 1:
	return len_one(convert_num,requested_dict)
	elif len(convert_num) == 2:
	return len_two(convert_num,requested_dict)
	elif len(convert_num) == 3:
	return len_three(convert_num,requested_dict)
	# If no zeros, do the calculation
	else:
	# Have to handle 1000, depending on if its a standalone 1000-9999 or included in a larger number
	if convert_num[0] == "1" and stand_alone:
	num_list.append(requested_dict["1000"])
	elif convert_num[0] == "1":
	num_list.append(requested_dict["01000"])
	elif convert_num[0] == "3":
	num_list.append(requested_dict["3000"])
	elif convert_num[0] == "8":
	num_list.append(requested_dict["8000"])
	else:
	num_list.append(requested_dict[convert_num[0]])
	num_list.append(requested_dict["1000"])
	if convert_num[1:] == "000" and len(convert_num) == 4:
	pass
	else:
	if convert_num[1] == "0":
	num_list.append(len_two(convert_num[2:],requested_dict))
	else:
	num_list.append(len_three(convert_num[1:],requested_dict))
	output = ""
	for y in num_list:
	output += y + " "
	output = output[:len(output) - 1]
	return output


	def len_x(convert_num,requested_dict):
	#Returns everything else.. (up to 9 digits)
	num_list = []
	if len(convert_num[0:-4]) == 1:
	num_list.append(requested_dict[convert_num[0:-4]])
	num_list.append(requested_dict["10000"])
	elif len(convert_num[0:-4]) == 2:
	num_list.append(len_two(convert_num[0:2],requested_dict))
	num_list.append(requested_dict["10000"])
	elif len(convert_num[0:-4]) == 3:
	num_list.append(len_three(convert_num[0:3],requested_dict))
	num_list.append(requested_dict["10000"])
	elif len(convert_num[0:-4]) == 4:
	num_list.append(len_four(convert_num[0:4],requested_dict, False))
	num_list.append(requested_dict["10000"])
	elif len(convert_num[0:-4]) == 5:
	num_list.append(requested_dict[convert_num[0]])
	num_list.append(requested_dict["100000000"])
	num_list.append(len_four(convert_num[1:5],requested_dict, False))
	if convert_num[1:5] == "0000":
	pass
	else:
	num_list.append(requested_dict["10000"])
	else:
	assert False, "Not yet implemented, please choose a lower number."
	num_list.append(len_four(convert_num[-4:],requested_dict, False))
	output = ""
	for y in num_list:
	output += y + " "
	output = output[:len(output) - 1]
	return output

	def remove_spaces(convert_result):
	# Remove spaces in Hirigana and Kanji results
	correction = ""
	for x in convert_result:
	if x == " ":
	pass
	else:
	correction += x
	return correction

	def do_convert(convert_num,requested_dict):
	#Check lengths and convert accordingly
	if len(convert_num) == 1:
	return(len_one(convert_num,requested_dict))
	elif len(convert_num) == 2:
	return(len_two(convert_num,requested_dict))
	elif len(convert_num) == 3:
	return(len_three(convert_num,requested_dict))
	elif len(convert_num) == 4:
	return(len_four(convert_num,requested_dict, True))
	else:
	return(len_x(convert_num,requested_dict))

	def split_Point(split_num,dict_choice):
	# Used if a decmial point is in the string.
	split_num = split_num.split(".")
	split_num_a = split_num[0]
	split_num_b = split_num[1]
	split_num_b_end = " "
	for x in split_num_b:
	split_num_b_end += len_one(x,key_dict[dict_choice]) + " "
	# To account for small exception of small tsu when ending in jyuu in hiragana/romaji
	if split_num_a[-1] == "0" and split_num_a[-2] != "0" and dict_choice == "hiragana":
	small_Tsu = Convert(split_num_a,dict_choice)
	small_Tsu = small_Tsu[0:-1] + "っ"
	return small_Tsu + key_dict[dict_choice]["."] + split_num_b_end
	if split_num_a[-1] == "0" and split_num_a[-2] != "0" and dict_choice == "romaji":
	small_Tsu = Convert(split_num_a,dict_choice)
	small_Tsu = small_Tsu[0:-1] + "t"
	return small_Tsu + key_dict[dict_choice]["."] + split_num_b_end

	return Convert(split_num_a,dict_choice) + " " + key_dict[dict_choice]["."] + split_num_b_end


	def do_kanji_convert(convert_num):
	# Converts kanji to arabic number

	if convert_num == "零":
	return 0

	# First, needs to check for MAN 万 and OKU 億 kanji, as need to handle differently, splitting up the numbers at these intervals.
	# key tells us whether we need to add or multiply the numbers, then we create a list of numbers in an order we need to add/multiply
	key = []
	numberList = []
	y = ""
	for x in convert_num:
	if x == "万" or x == "億":
	numberList.append(y)
	key.append("times")
	numberList.append(x)
	key.append("plus")
	y = ""
	else:
	y += x
	if y != "":
	numberList.append(y)

	numberListConverted = []
	baseNumber = ["一", "二", "三", "四", "五", "六", "七", "八", "九"]
	linkNumber = ["十", "百", "千", "万", "億"]

	# Converts the kanji number list to arabic numbers, using the 'base number' and 'link number' list above. For a link number, we would need to
	# link with a base number
	for noX in numberList:
	count = len(noX)
	result = 0
	skip = 1
	for x in reversed(noX):
	addTo = 0
	skip -= 1
	count = count - 1
	if skip == 1:
	continue
	if x in baseNumber:
	for y, z in kanji_dict.items():
	if z == x:
	result += int(y)
	elif x in linkNumber:
	if noX[count - 1] in baseNumber and count > 0:
	for y, z in kanji_dict.items():
	if z == noX[count - 1]:
	tempNo = int(y)
	for y, z in kanji_dict.items():
	if z == x:
	addTo += tempNo * int(y)
	result += addTo
	skip = 2
	else:
	for y, z in kanji_dict.items():
	if z == x:
	result += int(y)
	numberListConverted.append(int(result))

	result = numberListConverted[0]
	y = 0

	# Iterate over the converted list, and either multiply/add as instructed in key list
	for x in range(1,len(numberListConverted)):
	if key[y] == "plus":
	try:
	if key[y+1] == "times":
	result = result + numberListConverted[x] * numberListConverted[x+1]
	y += 1
	else:
	result += numberListConverted[x]
	except IndexError:
	result += numberListConverted[-1]
	break
	else:
	result = result * numberListConverted[x]
	y += 1

	return result

	def Convert(convert_num, dict_choice='hiragana'):
	# Input formatting
	convert_num = str(convert_num)
	convert_num = convert_num.replace(',','')
	dict_choice = dict_choice.lower()

	# If all is selected as dict_choice, return as a list
	if dict_choice == "all":
	result_list = []
	for x in "kanji", "hiragana", "romaji":
	result_list.append(Convert(convert_num,x))
	return result_list

	dictionary = key_dict[dict_choice]

	# Exit if length is greater than current limit
	if len(convert_num) > 9:
	return("Number length too long, choose less than 10 digits")

	# Remove any leading zeroes
	while convert_num[0] == "0" and len(convert_num) > 1:
	convert_num = convert_num[1:]

	# Check for decimal places
	if "." in convert_num:
	result = split_Point(convert_num,dict_choice)
	else:
	result = do_convert(convert_num, dictionary)

	# Remove spaces and return result
	if key_dict[dict_choice] == romaji_dict:
	pass
	else:
	result = remove_spaces(result)
	return result

	def ConvertKanji(convert_num):
	if convert_num[0] in kanji_dict.values():
	# Check to see if 点 (point) is in the input, and handle by splitting at 点, before and after is handled separately
	if "点" in convert_num:
	point = convert_num.find("点")
	endNumber = ""
	for x in convert_num[point+1:]:
	endNumber += list(kanji_dict.keys())[list(kanji_dict.values()).index(x)]
	return(str(do_kanji_convert(convert_num[0:point])) + "." + endNumber)
	else:
	return(str(do_kanji_convert(convert_num)))