import os from modules import shared, utils from pathlib import Path import json def list_subfoldersByTime(directory): if not directory.endswith('/'): directory += '/' subfolders = [] path = directory name_list = os.listdir(path) full_list = [os.path.join(path,i) for i in name_list] time_sorted_list = sorted(full_list, key=os.path.getmtime,reverse=True) for entry in time_sorted_list: if os.path.isdir(entry): entry_str = f"{entry}" # Convert entry to a string full_path = entry_str entry_str = entry_str.replace('\\','/') entry_str = entry_str.replace(f"{directory}", "") # Remove directory part subfolders.append(entry_str) return subfolders def get_available_loras_local(_sortedByTime): model_dir = shared.args.lora_dir # Update with the appropriate directory path subfolders = [] if _sortedByTime: subfolders = list_subfoldersByTime(model_dir) else: subfolders = utils.get_available_loras() return subfolders # FPHAM SPLIT BY SENTENCE BLOCK =============== def split_sentences(text: str, cutoff_len: int): sentences = [] sentence = '' delimiters = ['. ', '? ', '! ', '... ', '.\n', '?\n', '!\n','...\n','',''] abbreviations = ['Mr. ', 'Mrs. ', 'Dr. ', 'Ms. ', 'St. ', 'Prof. ', 'Jr. ', 'Ltd. ', 'Capt. ', 'Col. ', 'Gen. ', 'Ave. ', 'Blvd. ', 'Co. ', 'Corp. ', 'Dept. ', 'Est. ', 'Gov. ', 'Inc. ', 'Ph.D. ', 'Univ. '] errors = 0 max_cut = cutoff_len-1 prev_char = '' for char in text: sentence += char if (any(sentence.endswith(delimiter) for delimiter in delimiters) and not (prev_char.isupper() and len(sentence) >= 3 and sentence[-3] != ' ') and not any(sentence.endswith(abbreviation) for abbreviation in abbreviations)): tokens = shared.tokenizer.encode(sentence) if len(tokens) > max_cut: tokens = tokens[:max_cut] sentence = shared.tokenizer.decode(tokens, skip_special_tokens=True) errors = errors + 1 sentences.append({'text': sentence, 'size': len(tokens)}) sentence = '' prev_char = char if sentence: tokens = shared.tokenizer.encode(sentence) if len(tokens) > max_cut: tokens = tokens[:max_cut] sentence = shared.tokenizer.decode(tokens, skip_special_tokens=True) errors = errors + 1 sentences.append({'text': sentence, 'size': len(tokens)}) if errors > 0: print(f"Trimmed sentences beyond Cutoff Length: {errors}") return sentences # The goal of following code is to create blocks of text + overlapping blocks while: # respects sentence boundaries # always uses all the text # hard cut defined by hard_cut_string or will always end at the end of data block # no overlapping blocks will be created across hard cut or across token def precise_cut(text: str, overlap: bool, min_chars_cut: int, eos_to_hc: bool, cutoff_len: int, hard_cut_string: str): debug_slicer = False EOSX_str = '' #hardcut placeholder EOS_str = '' print("Precise raw text slicer: ON") cut_string = hard_cut_string.replace('\\n', '\n') text = text.replace(cut_string, EOSX_str) sentences = split_sentences(text, cutoff_len) print(f"Sentences: {len(sentences)}") sentencelist = [] currentSentence = '' totalLength = 0 max_cut = cutoff_len-1 half_cut = cutoff_len//2 halfcut_length = 0 edgeindex = [] half_index = 0 for index, item in enumerate(sentences): if halfcut_length+ item['size'] < half_cut: halfcut_length += item['size'] half_index = index else: edgeindex.append(half_index) halfcut_length = -2 * max_cut if totalLength + item['size'] < max_cut and not currentSentence.endswith(EOSX_str): currentSentence += item['text'] totalLength += item['size'] else: if len(currentSentence.strip()) > min_chars_cut: sentencelist.append(currentSentence.strip()) currentSentence = item['text'] totalLength = item['size'] halfcut_length = item['size'] if len(currentSentence.strip()) > min_chars_cut: sentencelist.append(currentSentence.strip()) unique_blocks = len(sentencelist) print(f"Text Blocks: {unique_blocks}") #overlap strategies: # don't overlap across HARD CUT (EOSX) if overlap: for edge_idx in edgeindex: currentSentence = '' totalLength = 0 for item in sentences[edge_idx:]: if totalLength + item['size'] < max_cut: currentSentence += item['text'] totalLength += item['size'] else: #if by chance EOSX is at the end then it's acceptable if currentSentence.endswith(EOSX_str) and len(currentSentence.strip()) > min_chars_cut: sentencelist.append(currentSentence.strip()) # otherwise don't cross hard cut elif EOSX_str not in currentSentence and len(currentSentence.strip()) > min_chars_cut: sentencelist.append(currentSentence.strip()) currentSentence = '' totalLength = 0 break print(f"+ Overlapping blocks: {len(sentencelist)-unique_blocks}") num_EOS = 0 for i in range(len(sentencelist)): if eos_to_hc: sentencelist[i] = sentencelist[i].replace(EOSX_str, EOS_str) else: sentencelist[i] = sentencelist[i].replace(EOSX_str, '') #someone may have had stop strings in the raw text... sentencelist[i] = sentencelist[i].replace("", EOS_str) num_EOS += sentencelist[i].count(EOS_str) if num_EOS > 0: print(f"+ EOS count: {num_EOS}") #final check for useless lines sentencelist = [item for item in sentencelist if item.strip() != ""] sentencelist = [item for item in sentencelist if item.strip() != ""] if debug_slicer: # Write the log file Path('logs').mkdir(exist_ok=True) sentencelist_dict = {index: sentence for index, sentence in enumerate(sentencelist)} output_file = "logs/sentencelist.json" with open(output_file, 'w') as f: json.dump(sentencelist_dict, f,indent=2) return sentencelist