from .utils import get_device class TokenizedText: """ A helper class that represents a string that can be attacked. """ """ Models that take multiple sentences as input separate them by `SPLIT_TOKEN`. Attacks "see" the entire input, joined into one string, without the split token. """ SPLIT_TOKEN = '>>>>' def __init__(self, text, tokenizer, attack_attrs=dict()): """ Initializer stores text and tensor of tokenized text. Args: text (string): The string that this TokenizedText represents tokenizer (Tokenizer): an object that can convert text to tokens and convert tokens to IDs """ text = text.strip() self.tokenizer = tokenizer self.tokens = tokenizer.convert_text_to_tokens(text) ids = tokenizer.convert_tokens_to_ids(self.tokens) if not isinstance(ids, tuple): # Some tokenizers may tokenize text to a single vector. # In this case, wrap the vector in a tuple to mirror the # format of other tokenizers. ids = (ids,) self.ids = ids self.words = raw_words(text) self.text = text self.attack_attrs = attack_attrs def text_window_around_index(self, index, window_size): """ The text window of `window_size` words centered around `index`. """ length = len(self.words) half_size = (window_size - 1) // 2 if index - half_size < 0: start = 0 end = min(window_size, length-1) elif index + half_size > length - 1: start = max(0, length - window_size) end = length - 1 else: start = index - half_size end = index + half_size text_idx_start = self._text_index_of_word_index(start) text_idx_end = self._text_index_of_word_index(end) + len(self.words[end]) return self.text[text_idx_start:text_idx_end] def _text_index_of_word_index(self, i): """ Returns the index of word `i` in self.text. """ pre_words = self.words[:i+1] lower_text = self.text.lower() # Find all words until `i` in string. look_after_index = 0 for word in pre_words: look_after_index = lower_text.find(word.lower(), look_after_index) return look_after_index def text_until_word_index(self, i): """ Returns the text before the beginning of word at index `i`. """ look_after_index = self._text_index_of_word_index(i) return self.text[:look_after_index] def text_after_word_index(self, i): """ Returns the text after the end of word at index `i`. """ # Get index of beginning of word then jump to end of word. look_after_index = self._text_index_of_word_index(i) + len(self.words[i]) return self.text[look_after_index:] def first_word_diff(self, other_tokenized_text): """ Returns the first word in self.words that differs from other_tokenized_text. Useful for word swap strategies. """ w1 = self.words w2 = other_tokenized_text.words for i in range(min(len(w1), len(w2))): if w1[i] != w2[i]: return w1 return None def first_word_diff_index(self, other_tokenized_text): """ Returns the index of the first word in self.words that differs from other_tokenized_text. Useful for word swap strategies. """ w1 = self.words w2 = other_tokenized_text.words for i in range(min(len(w1), len(w2))): if w1[i] != w2[i]: return i return None def all_words_diff(self, other_tokenized_text): """ Returns the set of indices for which this and other_tokenized_text have different words. """ indices = set() w1 = self.words w2 = other_tokenized_text.words for i in range(min(len(w1), len(w2))): if w1[i] != w2[i]: indices.add(i) return indices def ith_word_diff(self, other_tokenized_text, i): """ Returns whether the word at index i differs from other_tokenized_text """ w1 = self.words w2 = other_tokenized_text.words if len(w1) - 1 < i or len(w2) - 1 < i: return True return w1[i] != w2[i] def replace_words_at_indices(self, indices, new_words): """ This code returns a new TokenizedText object where the word at `index` is replaced with a new word.""" if len(indices) != len(new_words): raise ValueError(f'Cannot replace {len(new_words)} words at {len(indices)} indices.') words = self.words[:] for i, new_word in zip(indices, new_words): words[i] = new_word return self.replace_new_words(words) def replace_word_at_index(self, index, new_word): """ This code returns a new TokenizedText object where the word at `index` is replaced with a new word.""" self.attack_attrs['modified_word_index'] = index return self.replace_words_at_indices([index], [new_word]) def replace_new_words(self, new_words): """ This code returns a new TokenizedText object and replaces old list of words with a new list of words, but preserves the punctuation and spacing of the original message. """ final_sentence = '' text = self.text for input_word, adv_word in zip(self.words, new_words): if input_word == '[UNKNOWN]': continue word_start = text.index(input_word) word_end = word_start + len(input_word) final_sentence += text[:word_start] final_sentence += adv_word text = text[word_end:] final_sentence += text # Add all of the ending punctuation. return TokenizedText(final_sentence, self.tokenizer, attack_attrs=self.attack_attrs) def clean_text(self): """ Represents self in a clean, printable format. Joins text with multiple inputs separated by `TokenizedText.SPLIT_TOKEN` with a line break. """ return self.text.replace(TokenizedText.SPLIT_TOKEN, '\n\n') def __repr__(self): return f'' def raw_words(s): """ Lowercases a string, removes all non-alphanumeric characters, and splits into words. """ words = [] word = '' for c in ' '.join(s.split()): if c.isalpha(): word += c elif word: if word is not TokenizedText.SPLIT_TOKEN: words.append(word) word = '' if len(word) and (word is not TokenizedText.SPLIT_TOKEN): words.append(word) return words