from dotenv import load_dotenv import os load_dotenv() import concurrent.futures from collections import defaultdict import pandas as pd import numpy as np import json import pickle import pprint from io import StringIO import textwrap import time import re from openai import OpenAI openai_client = OpenAI(api_key=os.getenv('OPENAI_API_KEY')) import octoai octoai_client = octoai.client.Client(token=os.getenv('OCTOML_KEY')) from pinecone import Pinecone, ServerlessSpec pc = Pinecone(api_key=os.getenv('PINECONE_API_KEY')) pc_256 = pc.Index('prorata-postman-ds-256-v2') pc_128 = pc.Index('prorata-postman-ds-128-v2') from langchain.text_splitter import RecursiveCharacterTextSplitter sentence_splitter = RecursiveCharacterTextSplitter( chunk_size=128, chunk_overlap=0, separators=["\n\n", "\n", "."], keep_separator=False ) from functools import cache @cache def get_embedding(text, model="text-embedding-3-small"): text = text.replace("\n", " ") return openai_client.embeddings.create(input = [text], model=model).data[0].embedding def get_embedding_l(text_l, model="text-embedding-3-small"): text_l = [text.replace("\n", " ") for text in text_l] res = openai_client.embeddings.create(input=text_l, model=model) embeds = [record.embedding for record in res.data] return embeds def parse_json_string(content): fixed_content = content for _ in range(20): try: result = json.loads(fixed_content) break except Exception as e: print(e) if "Expecting ',' delimiter" in str(e): # "Expecting , delimiter: line x column y (char d)" idx = int(re.findall(r'\(char (\d+)\)', str(e))[0]) fixed_content = fixed_content[:idx] + ',' + fixed_content[idx:] print(fixed_content) print() elif "Expecting property name enclosed in double quotes" in str(e): # Expecting property name enclosed in double quotes: line x column y (char d) idx = int(re.findall(r'\(char (\d+)\)', str(e))[0]) fixed_content = fixed_content[:idx-1] + '}' + fixed_content[idx:] print(fixed_content) print() else: raise ValueError(str(e)) return result # prompt_af_template_llama3 = "Please breakdown the following paragraph into independent and atomic facts. Format your response as a signle JSON object, a list of facts:\n\n{}" prompt_af_template_llama3 = "Please breakdown the following paragraph into independent and atomic facts. Format your response in JSON as a list of 'fact' objects:\n\n{}" # prompt_tf_template = "Given the context below, anwer the question that follows. Please format your answer in JSON with a yes or no determination and rationale for the determination. \n\nContext: {}\n\nQuestion: {} Is this claim true or false?" # prompt_tf_template = "Given the context below, anwer the question that follows. Please format your answer in JSON with a yes or no determination and rationale for the determination. \n\nContext: {}\n\nQuestion: <{}> Is the previous claim (in between <> braces) true or false?" prompt_tf_template = "Given the context below, anwer the question that follows. Please format your answer in JSON with a yes or no determination and rationale for the determination. \n\nContext: {}\n\nQuestion: <{}> Does the context explicitly support the previous claim (in between <> braces), true or false?" def get_atoms_list(answer, file=None): prompt_af = prompt_af_template_llama3.format(answer) response, atoms_l = None, [] for _ in range(5): try: # response = octoai_client.chat.completions.create( # model="meta-llama-3-70b-instruct", # messages=[ # {"role": "system", "content": "You are a helpful assistant."}, # {"role": "user", "content": prompt_af} # ], # # response_format={"type": "json_object"}, # max_tokens=512, # presence_penalty=0, # temperature=0.1, # top_p=0.9, # ) response = octoai_client.chat.completions.create( model="meta-llama-3-70b-instruct", messages=[ {"role": "system", "content": "You are a helpful assistant."}, {"role": "user", "content": prompt_af} ], # response_format={"type": "json_object"}, max_tokens=512, presence_penalty=0, temperature=0.1, top_p=0.9, ) content = response.choices[0].message.content idx1 = content.find('```') idx2 = idx1+3 + content[idx1+3:].find('```') # atoms_l = json.loads(content[idx1+3:idx2]) atoms_l = parse_json_string(content[idx1+3:idx2]) atoms_l = [a['fact'] for a in atoms_l] break except Exception as error: print(error, file=file) print(response, file=file) print(content[idx1+3:idx2], file=file) time.sleep(2) return atoms_l def get_topk_matches(atom, k=5, pc_index=pc_256): embed_atom = get_embedding(atom) res = pc_index.query(vector=embed_atom, top_k=k, include_metadata=True) return res['matches'] def get_match_atom_entailment_determination(_match, atom, file=None): prompt_tf = prompt_tf_template.format(_match['metadata']['text'], atom) response = None chunk_determination = {} chunk_determination['chunk_id'] = _match['id'] chunk_determination['true'] = False for _ in range(5): try: response = octoai_client.chat.completions.create( model="meta-llama-3-70b-instruct", messages=[ {"role": "system", "content": "You are a helpful assistant."}, {"role": "user", "content": prompt_tf} ], # response_format={"type": "json_object"}, max_tokens=512, # presence_penalty=0, temperature=0.1, # top_p=0.9, ) content = response.choices[0].message.content idx1 = content.find('{') idx2 = content.find('}') chunk_determination.update(json.loads(content[idx1:idx2+1])) _det_lower = chunk_determination['determination'].lower() chunk_determination['true'] = "true" in _det_lower or "yes" in _det_lower break except Exception as error: print(error, file=file) print(prompt_tf, file=file) print(response, file=file) time.sleep(2) return chunk_determination def get_atom_support(atom, file=None): topk_matches = get_topk_matches(atom) atom_support = {} for _match in topk_matches: chunk_determination = atom_support.get(_match['metadata']['url'], {}) if not chunk_determination or not chunk_determination['true']: atom_support[_match['metadata']['url']] = get_match_atom_entailment_determination(_match, atom, file=file) return atom_support def get_atom_support_list(atoms_l, file=None): return [get_atom_support(a, file=file) for a in atoms_l] def credit_atom_support_list(atom_support_l): num_atoms = len(atom_support_l) credit_d = defaultdict(float) for atom_support in atom_support_l: atom_support_size = 0.0 for url_determination_d in atom_support.values(): if url_determination_d['true']: atom_support_size += 1.0 for url, url_determination_d in atom_support.items(): if url_determination_d['true']: credit_d[url] += 1.0 / atom_support_size for url in credit_d.keys(): credit_d[url] = credit_d[url] / num_atoms return credit_d def print_atom_support(atom_support, prefix='', file=None): for url, chunk_determination in atom_support.items(): print(f"{prefix}{url}:", file=file) print(f"{prefix} Determination: {'YES' if chunk_determination['true'] else 'NO'}", file=file) print(f"{prefix} Rationale: {chunk_determination['rationale']}", file=file) def print_credit_dist(credit_dist, prefix='', url_to_id=None, file=None): credit_l = [(url, w) for url, w in credit_dist.items()] credit_l = sorted(credit_l, key=lambda x: x[1], reverse=True) for url, w in credit_l: if url_to_id is None: print(f"{prefix}{url}: {100*w:.2f}%", file=file) else: print(f"{prefix}{url_to_id[url]} {url}: {100*w:.2f}%", file=file) # concurrent LLM calls def get_atom_topk_matches_l_concurrent(atoms_l, max_workers=4): atom_topkmatches_l = [] with concurrent.futures.ThreadPoolExecutor(max_workers=max_workers) as executor: futures = [] for atom in atoms_l: futures.append(executor.submit(get_topk_matches, atom)) for f in futures: r = f.result() atom_topkmatches_l.append(r) return atom_topkmatches_l def aggregate_atom_topkmatches_l(atom_topkmatches_l): atom_url_to_aggmacth_maps_l = [] for atom_topkmatches in atom_topkmatches_l: atom_url_to_aggmatch_map = {} atom_url_to_aggmacth_maps_l.append(atom_url_to_aggmatch_map) for _match in atom_topkmatches: if _match['metadata']['url'] not in atom_url_to_aggmatch_map: match_copy = {} match_copy['id'] = _match['id'] match_copy['id_l'] = [_match['id']] match_copy['offset_l'] = [0] match_copy['score'] = _match['score'] match_copy['values'] = _match['values'] # TODO: change to list of chunks and then append at query time match_copy['metadata'] = {} match_copy['metadata']['url'] = _match['metadata']['url'] match_copy['metadata']['chunk'] = _match['metadata']['chunk'] match_copy['metadata']['text'] = _match['metadata']['text'] match_copy['metadata']['title'] = _match['metadata']['title'] atom_url_to_aggmatch_map[_match['metadata']['url']] = match_copy else: prev_match = atom_url_to_aggmatch_map[_match['metadata']['url']] prev_match['id_l'].append(_match['id']) prev_match['offset_l'].append(len(prev_match['metadata']['text'])) prev_match['metadata']['text'] += f"\n\n{_match['metadata']['text']}" atomidx_w_single_url_aggmatch_l = [] for idx, atom_url_to_aggmatch_map in enumerate(atom_url_to_aggmacth_maps_l): for agg_match in atom_url_to_aggmatch_map.values(): atomidx_w_single_url_aggmatch_l.append((idx, agg_match)) return atomidx_w_single_url_aggmatch_l def get_atmom_support_l_from_atomidx_w_single_url_aggmatch_l_concurrent(atoms_l, atomidx_w_single_url_aggmatch_l, max_workers=4): atom_support_l = [{} for _ in atoms_l] with concurrent.futures.ThreadPoolExecutor(max_workers=max_workers) as executor: futures = [] for atomidx_w_single_url_aggmatch in atomidx_w_single_url_aggmatch_l: futures.append(executor.submit( get_match_atom_entailment_determination, atomidx_w_single_url_aggmatch[1], atoms_l[atomidx_w_single_url_aggmatch[0]], ) ) for f, atomidx_w_single_url_aggmatch in zip(futures, atomidx_w_single_url_aggmatch_l): aggmatch_determination = f.result() atom_support = atom_support_l[atomidx_w_single_url_aggmatch[0]] atom_support[atomidx_w_single_url_aggmatch[1]['metadata']['url']] = aggmatch_determination return atom_support_l style_str = """ """