import pynini from fun_text_processing.text_normalization.en.graph_utils import ( DAMO_NOT_QUOTE, GraphFst, delete_space, insert_space, ) from pynini.lib import pynutil class DecimalFst(GraphFst): """ Finite state transducer for verbalizing decimal, e.g. decimal { negative: "true" integer_part: "twelve" fractional_part: "five o o six" quantity: "billion" } -> minus twelve point five o o six billion Args: deterministic: if True will provide a single transduction option, for False multiple transduction are generated (used for audio-based normalization) """ def __init__(self, cardinal, deterministic: bool = True): super().__init__(name="decimal", kind="verbalize", deterministic=deterministic) self.optional_sign = pynini.cross('negative: "true"', "minus ") if not deterministic: self.optional_sign |= pynini.cross('negative: "true"', "negative ") self.optional_sign = pynini.closure(self.optional_sign + delete_space, 0, 1) self.integer = pynutil.delete("integer_part:") + cardinal.integer self.optional_integer = pynini.closure(self.integer + delete_space + insert_space, 0, 1) self.fractional_default = ( pynutil.delete("fractional_part:") + delete_space + pynutil.delete('"') + pynini.closure(DAMO_NOT_QUOTE, 1) + pynutil.delete('"') ) self.fractional = pynutil.insert("point ") + self.fractional_default self.quantity = ( delete_space + insert_space + pynutil.delete("quantity:") + delete_space + pynutil.delete('"') + pynini.closure(DAMO_NOT_QUOTE, 1) + pynutil.delete('"') ) self.optional_quantity = pynini.closure(self.quantity, 0, 1) graph = self.optional_sign + ( self.integer | (self.integer + self.quantity) | (self.optional_integer + self.fractional + self.optional_quantity) ) self.numbers = graph delete_tokens = self.delete_tokens(graph) self.fst = delete_tokens.optimize()