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get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install -e $repo_path') get_ipython().system('pip install transformers') import dspy from dspy.evaluate import Evaluate from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch, BootstrapFinetune llama = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=[7140, 7141, 7142, 7143], max_tokens=150) colbertv2 = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts')
dspy.settings.configure(rm=colbertv2, lm=llama)
dspy.settings.configure
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_LongFormQA_Cache') get_ipython().run_line_magic('cd', 'DSPy_LongFormQA_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_LongFormQA_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_LongFormQA_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import EM, normalize_text from dspy.primitives.assertions import assert_transform_module, backtrack_handler get_ipython().run_line_magic('cd', 'dspy/examples/longformqa') from utils import extract_text_by_citation, correct_citation_format, has_citations, citations_check colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts')
dspy.settings.configure(rm=colbertv2_wiki17_abstracts)
dspy.settings.configure
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context = dspy.InputField(desc="may contain relevant facts") tweet = dspy.OutputField() class Tweeter(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet return
dspy.Prediction(generated_tweet=generated_tweet, context=context)
dspy.Prediction
import dspy from dsp.utils import deduplicate from dspy.datasets import HotPotQA from dspy.predict.retry import Retry from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler import os import openai openai.api_key = os.getenv('OPENAI_API_KEY') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500)
dspy.settings.configure(lm=turbo, trace=[], temperature=0.7)
dspy.settings.configure
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context = dspy.InputField(desc="may contain relevant facts") tweet = dspy.OutputField() class Tweeter(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter = Tweeter() def has_no_hashtags(text): return len(re.findall(r"#\w+", text)) == 0 def is_within_length_limit(text, length_limit=280): return len(text) <= length_limit def is_assessment_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' def has_correct_answer(text, answer): return answer in text class AssessTweet(dspy.Signature): """Assess the quality of a tweet along the specified dimension.""" context = dspy.InputField(desc='ignore if N/A') assessed_text = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def no_hashtags_metric(gold, pred, trace=None): tweet = pred.generated_tweet no_hashtags = has_no_hashtags(tweet) score = no_hashtags return score def is_correct_metric(gold, pred, trace=None): answer, tweet = gold.answer, pred.generated_tweet correct = has_correct_answer(tweet, answer) score = correct return score def within_length_metric(gold, pred, trace=None): tweet = pred.generated_tweet within_length_limit = is_within_length_limit(tweet, 280) score = within_length_limit return score def engaging_metric(gold, pred, trace=None): tweet = pred.generated_tweet engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging = engaging.assessment_answer.split()[0].lower() == 'yes' score = engaging return score def faithful_metric(gold, pred, trace=None): context, tweet = pred.context, pred.generated_tweet faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) faithful = faithful.assessment_answer.split()[0].lower() == 'yes' score = faithful return score def overall_metric(gold, pred, trace=None): answer, context, tweet = gold.answer, pred.context, pred.generated_tweet no_hashtags = has_no_hashtags(tweet) within_length_limit = is_within_length_limit(tweet, 280) correct = has_correct_answer(tweet, answer) engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful =
dspy.Predict(AssessTweet)
dspy.Predict
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') get_ipython().run_line_magic('pip', 'install datasets') import datasets ds = datasets.load_dataset("openai_humaneval") ds['test'][0] import dspy, dotenv, os dotenv.load_dotenv(os.path.expanduser("~/.env")) # load OpenAI API key from .env file lm = dspy.OpenAI(model="gpt-3.5-turbo", max_tokens=4000) dspy.settings.configure(lm=lm) predictor =
dspy.Predict("question -> answer")
dspy.Predict
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context = dspy.InputField(desc="may contain relevant facts") tweet = dspy.OutputField() class Tweeter(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter = Tweeter() def has_no_hashtags(text): return len(re.findall(r"#\w+", text)) == 0 def is_within_length_limit(text, length_limit=280): return len(text) <= length_limit def is_assessment_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' def has_correct_answer(text, answer): return answer in text class AssessTweet(dspy.Signature): """Assess the quality of a tweet along the specified dimension.""" context = dspy.InputField(desc='ignore if N/A') assessed_text = dspy.InputField() assessment_question =
dspy.InputField()
dspy.InputField
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install -e $repo_path') get_ipython().system('pip install transformers') import dspy from dspy.evaluate import Evaluate from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch, BootstrapFinetune llama = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=[7140, 7141, 7142, 7143], max_tokens=150) colbertv2 = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2, lm=llama) train = [('Who was the director of the 2009 movie featuring Peter Outerbridge as William Easton?', 'Kevin Greutert'), ('The heir to the Du Pont family fortune sponsored what wrestling team?', 'Foxcatcher'), ('In what year was the star of To Hell and Back born?', '1925'), ('Which award did the first book of Gary Zukav receive?', 'U.S. National Book Award'), ('What documentary about the Gilgo Beach Killer debuted on A&E?', 'The Killing Season'), ('Which author is English: John Braine or Studs Terkel?', 'John Braine'), ('Who produced the album that included a re-recording of "Lithium"?', 'Butch Vig')] train = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in train] dev = [('Who has a broader scope of profession: E. L. Doctorow or Julia Peterkin?', 'E. L. Doctorow'), ('Right Back At It Again contains lyrics co-written by the singer born in what city?', 'Gainesville, Florida'), ('What year was the party of the winner of the 1971 San Francisco mayoral election founded?', '1828'), ('Anthony Dirrell is the brother of which super middleweight title holder?', 'Andre Dirrell'), ('The sports nutrition business established by Oliver Cookson is based in which county in the UK?', 'Cheshire'), ('Find the birth date of the actor who played roles in First Wives Club and Searching for the Elephant.', 'February 13, 1980'), ('Kyle Moran was born in the town on what river?', 'Castletown River'), ("The actress who played the niece in the Priest film was born in what city, country?", 'Surrey, England'), ('Name the movie in which the daughter of Noel Harrison plays Violet Trefusis.', 'Portrait of a Marriage'), ('What year was the father of the Princes in the Tower born?', '1442'), ('What river is near the Crichton Collegiate Church?', 'the River Tyne'), ('Who purchased the team Michael Schumacher raced for in the 1995 Monaco Grand Prix in 2000?', 'Renault'), ('André Zucca was a French photographer who worked with a German propaganda magazine published by what Nazi organization?', 'the Wehrmacht')] dev = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in dev] predict = dspy.Predict('question -> answer') predict(question="What is the capital of Germany?") class CoT(dspy.Module): # let's define a new module def __init__(self): super().__init__() self.generate_answer = dspy.ChainOfThought('question -> answer') def forward(self, question): return self.generate_answer(question=question) # here we use the module metric_EM = dspy.evaluate.answer_exact_match teleprompter = BootstrapFewShot(metric=metric_EM, max_bootstrapped_demos=2) cot_compiled = teleprompter.compile(CoT(), trainset=train) cot_compiled("What is the capital of Germany?") llama.inspect_history(n=1) NUM_THREADS = 32 evaluate_hotpot = Evaluate(devset=dev, metric=metric_EM, num_threads=NUM_THREADS, display_progress=True, display_table=15) evaluate_hotpot(cot_compiled) class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_query = dspy.ChainOfThought("question -> search_query") self.generate_answer =
dspy.ChainOfThought("context, question -> answer")
dspy.ChainOfThought
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateAnswerChoices(dspy.Signature): """Generate answer choices in JSON format that include the correct answer and plausible distractors for the specified question.""" question = dspy.InputField() correct_answer = dspy.InputField() number_of_choices = dspy.InputField() answer_choices = dspy.OutputField(desc='JSON key-value pairs') class QuizAnswerGenerator(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choices = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices return dspy.Prediction(choices = choices) number_of_choices = '4' quiz_generator = QuizAnswerGenerator() def format_checker(choice_string): try: choices = json.loads(choice_string) if isinstance(choices, dict) and all(isinstance(key, str) and isinstance(value, str) for key, value in choices.items()): return True except json.JSONDecodeError: return False return False def is_correct_answer_included(correct_answer, generated_choices): try: choices_dict = json.loads(generated_choices) return correct_answer in choices_dict.values() except json.JSONDecodeError: return False def is_plausibility_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' class AssessQuizChoices(dspy.Signature): """Assess the quality of quiz answer choices along specified dimensions.""" question = dspy.InputField() answer_choices = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def format_valid_metric(gold, pred, trace=None): generated_choices = pred.choices format_valid = format_checker(generated_choices) score = format_valid return score def is_correct_metric(gold, pred, trace=None): correct_answer, generated_choices = gold.answer, pred.choices correct_included = is_correct_answer_included(correct_answer, generated_choices) score = correct_included return score def plausibility_metric(gold, pred, trace=None): question, generated_choices = gold.question, pred.choices plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = plausibility_result return score def overall_metric(gold, pred, trace=None): question, correct_answer, generated_choices = gold.question, gold.answer, pred.choices format_valid = format_checker(generated_choices) correct_included = is_correct_answer_included(correct_answer, generated_choices) plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = (format_valid + correct_included + plausibility_result) / 3.0 if correct_included and format_valid else 0 return score metrics = [format_valid_metric, is_correct_metric, plausibility_metric, overall_metric] for metric in metrics: evaluate =
Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5)
dspy.evaluate.evaluate.Evaluate
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateAnswerChoices(dspy.Signature): """Generate answer choices in JSON format that include the correct answer and plausible distractors for the specified question.""" question = dspy.InputField() correct_answer = dspy.InputField() number_of_choices = dspy.InputField() answer_choices = dspy.OutputField(desc='JSON key-value pairs') class QuizAnswerGenerator(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choices = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices return dspy.Prediction(choices = choices) number_of_choices = '4' quiz_generator = QuizAnswerGenerator() def format_checker(choice_string): try: choices = json.loads(choice_string) if isinstance(choices, dict) and all(isinstance(key, str) and isinstance(value, str) for key, value in choices.items()): return True except json.JSONDecodeError: return False return False def is_correct_answer_included(correct_answer, generated_choices): try: choices_dict = json.loads(generated_choices) return correct_answer in choices_dict.values() except json.JSONDecodeError: return False def is_plausibility_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' class AssessQuizChoices(dspy.Signature): """Assess the quality of quiz answer choices along specified dimensions.""" question = dspy.InputField() answer_choices = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def format_valid_metric(gold, pred, trace=None): generated_choices = pred.choices format_valid = format_checker(generated_choices) score = format_valid return score def is_correct_metric(gold, pred, trace=None): correct_answer, generated_choices = gold.answer, pred.choices correct_included = is_correct_answer_included(correct_answer, generated_choices) score = correct_included return score def plausibility_metric(gold, pred, trace=None): question, generated_choices = gold.question, pred.choices plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = plausibility_result return score def overall_metric(gold, pred, trace=None): question, correct_answer, generated_choices = gold.question, gold.answer, pred.choices format_valid = format_checker(generated_choices) correct_included = is_correct_answer_included(correct_answer, generated_choices) plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = (format_valid + correct_included + plausibility_result) / 3.0 if correct_included and format_valid else 0 return score metrics = [format_valid_metric, is_correct_metric, plausibility_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator) example = devset[38] quiz_choices = quiz_generator(question=example.question, answer = example.answer) print(f'Generated Quiz Choices: ', quiz_choices.choices) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[38:39], num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator) class QuizAnswerGeneratorWithAssertions(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choice_string = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices dspy.Suggest(format_checker(choice_string), "The format of the answer choices should be in JSON format. Please revise accordingly.", target_module=GenerateAnswerChoices) dspy.Suggest(is_correct_answer_included(answer, choice_string), "The answer choices do not include the correct answer to the question. Please revise accordingly.", target_module=GenerateAnswerChoices) plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=choice_string, assessment_question=plausibility_question) dspy.Suggest(is_plausibility_yes(plausibility_assessment.assessment_answer), "The answer choices are not plausible distractors or are too easily identifiable as incorrect. Please revise to provide more challenging and plausible distractors.", target_module=GenerateAnswerChoices) return dspy.Prediction(choices = choice_string) number_of_choices = '4' quiz_generator_with_assertions = assert_transform_module(QuizAnswerGeneratorWithAssertions().map_named_predictors(Retry), backtrack_handler) metrics = [format_valid_metric, is_correct_metric, plausibility_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator_with_assertions) example = devset[38] quiz_choices = quiz_generator_with_assertions(question=example.question, answer = example.answer) print(f'Generated Quiz Choices: ', quiz_choices.choices) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[38:39], num_threads=1, display_progress=True, display_table=30) evaluate(quiz_generator_with_assertions) teleprompter =
BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6)
dspy.teleprompt.BootstrapFewShotWithRandomSearch
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question =
dspy.InputField()
dspy.InputField
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) def forward(self, question): context = self.retrieve(question).passages prediction = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=prediction.answer) from dspy.teleprompt import BootstrapFewShot def validate_context_and_answer(example, pred, trace=None): answer_EM = dspy.evaluate.answer_exact_match(example, pred) answer_PM = dspy.evaluate.answer_passage_match(example, pred) return answer_EM and answer_PM teleprompter = BootstrapFewShot(metric=validate_context_and_answer) compiled_rag = teleprompter.compile(RAG(), trainset=trainset) my_question = "What castle did David Gregory inherit?" pred = compiled_rag(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {pred.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in pred.context]}") turbo.inspect_history(n=1) for name, parameter in compiled_rag.named_predictors(): print(name) print(parameter.demos[0]) print() from dspy.evaluate.evaluate import Evaluate evaluate_on_hotpotqa =
Evaluate(devset=devset, num_threads=1, display_progress=True, display_table=5)
dspy.evaluate.evaluate.Evaluate
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_LongFormQA_Cache') get_ipython().run_line_magic('cd', 'DSPy_LongFormQA_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_LongFormQA_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_LongFormQA_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import EM, normalize_text from dspy.primitives.assertions import assert_transform_module, backtrack_handler get_ipython().run_line_magic('cd', 'dspy/examples/longformqa') from utils import extract_text_by_citation, correct_citation_format, has_citations, citations_check colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") print(f"Relevant Wikipedia Titles: {train_example.gold_titles}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") from dsp.utils import deduplicate class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateCitedParagraph(dspy.Signature): """Generate a paragraph with citations.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() paragraph = dspy.OutputField(desc="includes citations") class LongFormQA(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_cited_paragraph = dspy.ChainOfThought(GenerateCitedParagraph) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_cited_paragraph(context=context, question=question) pred = dspy.Prediction(context=context, paragraph=pred.paragraph) return pred class CheckCitationFaithfulness(dspy.Signature): """Verify that the text is based on the provided context.""" context = dspy.InputField(desc="may contain relevant facts") text = dspy.InputField(desc="between 1 to 2 sentences") faithfulness = dspy.OutputField(desc="boolean indicating if text is faithful to context") def citation_faithfulness(example, pred, trace): paragraph, context = pred.paragraph, pred.context citation_dict = extract_text_by_citation(paragraph) if not citation_dict: return False, None context_dict = {str(i): context[i].split(' | ')[1] for i in range(len(context))} faithfulness_results = [] unfaithful_citations = [] check_citation_faithfulness = dspy.ChainOfThought(CheckCitationFaithfulness) for citation_num, texts in citation_dict.items(): if citation_num not in context_dict: continue current_context = context_dict[citation_num] for text in texts: try: result = check_citation_faithfulness(context=current_context, text=text) is_faithful = result.faithfulness.lower() == 'true' faithfulness_results.append(is_faithful) if not is_faithful: unfaithful_citations.append({'paragraph': paragraph, 'text': text, 'context': current_context}) except ValueError as e: faithfulness_results.append(False) unfaithful_citations.append({'paragraph': paragraph, 'text': text, 'error': str(e)}) final_faithfulness = all(faithfulness_results) if not faithfulness_results: return False, None return final_faithfulness, unfaithful_citations def extract_cited_titles_from_paragraph(paragraph, context): cited_indices = [int(m.group(1)) for m in re.finditer(r'\[(\d+)\]\.', paragraph)] cited_indices = [index - 1 for index in cited_indices if index <= len(context)] cited_titles = [context[index].split(' | ')[0] for index in cited_indices] return cited_titles def calculate_recall(example, pred, trace=None): gold_titles = set(example['gold_titles']) found_cited_titles = set(extract_cited_titles_from_paragraph(pred.paragraph, pred.context)) intersection = gold_titles.intersection(found_cited_titles) recall = len(intersection) / len(gold_titles) if gold_titles else 0 return recall def calculate_precision(example, pred, trace=None): gold_titles = set(example['gold_titles']) found_cited_titles = set(extract_cited_titles_from_paragraph(pred.paragraph, pred.context)) intersection = gold_titles.intersection(found_cited_titles) precision = len(intersection) / len(found_cited_titles) if found_cited_titles else 0 return precision def answer_correctness(example, pred, trace=None): assert hasattr(example, 'answer'), "Example does not have 'answer'." normalized_context = normalize_text(pred.paragraph) if isinstance(example.answer, str): gold_answers = [example.answer] elif isinstance(example.answer, list): gold_answers = example.answer else: raise ValueError("'example.answer' is not string or list.") return 1 if any(normalize_text(answer) in normalized_context for answer in gold_answers) else 0 def evaluate(module): correctness_values = [] recall_values = [] precision_values = [] citation_faithfulness_values = [] for i in range(len(devset)): example = devset[i] try: pred = module(question=example.question) correctness_values.append(answer_correctness(example, pred)) citation_faithfulness_score, _ = citation_faithfulness(None, pred, None) citation_faithfulness_values.append(citation_faithfulness_score) recall = calculate_recall(example, pred) precision = calculate_precision(example, pred) recall_values.append(recall) precision_values.append(precision) except Exception as e: print(f"Failed generation with error: {e}") average_correctness = sum(correctness_values) / len(devset) if correctness_values else 0 average_recall = sum(recall_values) / len(devset) if recall_values else 0 average_precision = sum(precision_values) / len(devset) if precision_values else 0 average_citation_faithfulness = sum(citation_faithfulness_values) / len(devset) if citation_faithfulness_values else 0 print(f"Average Correctness: {average_correctness}") print(f"Average Recall: {average_recall}") print(f"Average Precision: {average_precision}") print(f"Average Citation Faithfulness: {average_citation_faithfulness}") longformqa = LongFormQA() evaluate(longformqa) question = devset[6].question pred = longformqa(question) citation_faithfulness_score, _ = citation_faithfulness(None, pred, None) print(f"Question: {question}") print(f"Predicted Paragraph: {pred.paragraph}") print(f"Citation Faithfulness: {citation_faithfulness_score}") class LongFormQAWithAssertions(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_cited_paragraph = dspy.ChainOfThought(GenerateCitedParagraph) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_cited_paragraph(context=context, question=question) pred = dspy.Prediction(context=context, paragraph=pred.paragraph) dspy.Suggest(citations_check(pred.paragraph), f"Make sure every 1-2 sentences has citations. If any 1-2 sentences lack citations, add them in 'text... [x].' format.", target_module=GenerateCitedParagraph) _, unfaithful_outputs = citation_faithfulness(None, pred, None) if unfaithful_outputs: unfaithful_pairs = [(output['text'], output['context']) for output in unfaithful_outputs] for _, context in unfaithful_pairs: dspy.Suggest(len(unfaithful_pairs) == 0, f"Make sure your output is based on the following context: '{context}'.", target_module=GenerateCitedParagraph) else: return pred return pred longformqa_with_assertions = assert_transform_module(LongFormQAWithAssertions().map_named_predictors(Retry), backtrack_handler) evaluate(longformqa_with_assertions) question = devset[6].question pred = longformqa_with_assertions(question) citation_faithfulness_score, _ = citation_faithfulness(None, pred, None) print(f"Question: {question}") print(f"Predicted Paragraph: {pred.paragraph}") print(f"Citation Faithfulness: {citation_faithfulness_score}") longformqa = LongFormQA() teleprompter = BootstrapFewShotWithRandomSearch(metric = answer_correctness, max_bootstrapped_demos=2, num_candidate_programs=6) cited_longformqa = teleprompter.compile(student = longformqa, teacher = longformqa, trainset=trainset, valset=devset[:100]) evaluate(cited_longformqa) longformqa = LongFormQA() teleprompter =
BootstrapFewShotWithRandomSearch(metric = answer_correctness, max_bootstrapped_demos=2, num_candidate_programs=6)
dspy.teleprompt.BootstrapFewShotWithRandomSearch
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import dspy get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys; sys.path.append('/future/u/okhattab/repos/public/stanfordnlp/dspy') import dspy from dspy.evaluate import Evaluate from dspy.datasets.hotpotqa import HotPotQA from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch, BootstrapFinetune llama = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=[7140, 7141, 7142, 7143], max_tokens=150) colbertv2 = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2, lm=llama) train = [('Who was the director of the 2009 movie featuring Peter Outerbridge as William Easton?', 'Kevin Greutert'), ('The heir to the Du Pont family fortune sponsored what wrestling team?', 'Foxcatcher'), ('In what year was the star of To Hell and Back born?', '1925'), ('Which award did the first book of Gary Zukav receive?', 'U.S. National Book Award'), ('What documentary about the Gilgo Beach Killer debuted on A&E?', 'The Killing Season'), ('Which author is English: John Braine or Studs Terkel?', 'John Braine'), ('Who produced the album that included a re-recording of "Lithium"?', 'Butch Vig')] train = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in train] dev = [('Who has a broader scope of profession: E. L. Doctorow or Julia Peterkin?', 'E. L. Doctorow'), ('Right Back At It Again contains lyrics co-written by the singer born in what city?', 'Gainesville, Florida'), ('What year was the party of the winner of the 1971 San Francisco mayoral election founded?', '1828'), ('Anthony Dirrell is the brother of which super middleweight title holder?', 'Andre Dirrell'), ('The sports nutrition business established by Oliver Cookson is based in which county in the UK?', 'Cheshire'), ('Find the birth date of the actor who played roles in First Wives Club and Searching for the Elephant.', 'February 13, 1980'), ('Kyle Moran was born in the town on what river?', 'Castletown River'), ("The actress who played the niece in the Priest film was born in what city, country?", 'Surrey, England'), ('Name the movie in which the daughter of Noel Harrison plays Violet Trefusis.', 'Portrait of a Marriage'), ('What year was the father of the Princes in the Tower born?', '1442'), ('What river is near the Crichton Collegiate Church?', 'the River Tyne'), ('Who purchased the team Michael Schumacher raced for in the 1995 Monaco Grand Prix in 2000?', 'Renault'), ('André Zucca was a French photographer who worked with a German propaganda magazine published by what Nazi organization?', 'the Wehrmacht')] dev = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in dev] predict = dspy.Predict('question -> answer') predict(question="What is the capital of Germany?") class CoT(dspy.Module): # let's define a new module def __init__(self): super().__init__() self.generate_answer = dspy.ChainOfThought('question -> answer') def forward(self, question): return self.generate_answer(question=question) # here we use the module metric_EM = dspy.evaluate.answer_exact_match teleprompter = BootstrapFewShot(metric=metric_EM, max_bootstrapped_demos=2) cot_compiled = teleprompter.compile(CoT(), trainset=train) cot_compiled("What is the capital of Germany?") llama.inspect_history(n=1) NUM_THREADS = 32 evaluate_hotpot = Evaluate(devset=dev, metric=metric_EM, num_threads=NUM_THREADS, display_progress=True, display_table=15) evaluate_hotpot(cot_compiled) class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve =
dspy.Retrieve(k=num_passages)
dspy.Retrieve
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context = dspy.InputField(desc="may contain relevant facts") tweet = dspy.OutputField() class Tweeter(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter = Tweeter() def has_no_hashtags(text): return len(re.findall(r"#\w+", text)) == 0 def is_within_length_limit(text, length_limit=280): return len(text) <= length_limit def is_assessment_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' def has_correct_answer(text, answer): return answer in text class AssessTweet(dspy.Signature): """Assess the quality of a tweet along the specified dimension.""" context = dspy.InputField(desc='ignore if N/A') assessed_text = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def no_hashtags_metric(gold, pred, trace=None): tweet = pred.generated_tweet no_hashtags = has_no_hashtags(tweet) score = no_hashtags return score def is_correct_metric(gold, pred, trace=None): answer, tweet = gold.answer, pred.generated_tweet correct = has_correct_answer(tweet, answer) score = correct return score def within_length_metric(gold, pred, trace=None): tweet = pred.generated_tweet within_length_limit = is_within_length_limit(tweet, 280) score = within_length_limit return score def engaging_metric(gold, pred, trace=None): tweet = pred.generated_tweet engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging = engaging.assessment_answer.split()[0].lower() == 'yes' score = engaging return score def faithful_metric(gold, pred, trace=None): context, tweet = pred.context, pred.generated_tweet faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) faithful = faithful.assessment_answer.split()[0].lower() == 'yes' score = faithful return score def overall_metric(gold, pred, trace=None): answer, context, tweet = gold.answer, pred.context, pred.generated_tweet no_hashtags = has_no_hashtags(tweet) within_length_limit = is_within_length_limit(tweet, 280) correct = has_correct_answer(tweet, answer) engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging, faithful = [m.assessment_answer.split()[0].lower() == 'yes' for m in [engaging, faithful]] score = (correct + engaging + faithful + no_hashtags + within_length_limit) if correct and within_length_limit else 0 return score / 5.0 metrics = [no_hashtags_metric, is_correct_metric, within_length_metric, engaging_metric, faithful_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(tweeter) example = devset[10] tweet = tweeter(question=example.question, answer = example.answer) print(f'Generated Tweet: ', tweet.generated_tweet) tweet.context for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[10:11], num_threads=1, display_progress=True, display_table=5) evaluate(tweeter) class TweeterWithAssertions(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet dspy.Suggest(has_no_hashtags(generated_tweet), f"Please revise the tweet to remove hashtag phrases following it.", target_module=GenerateTweet) dspy.Suggest(is_within_length_limit(generated_tweet, 280), f"Please ensure the tweet is within {280} characters.", target_module=GenerateTweet) dspy.Suggest(has_correct_answer(generated_tweet, answer), "The tweet does not include the correct answer to the question. Please revise accordingly.", target_module=GenerateTweet) engaging_question = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging_assessment = dspy.Predict(AssessTweet)(context=context, assessed_text=generated_tweet, assessment_question=engaging_question) dspy.Suggest(is_assessment_yes(engaging_assessment.assessment_answer), "The text is not engaging enough. Please revise to make it more captivating.", target_module=GenerateTweet) faithful_question = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful_assessment = dspy.Predict(AssessTweet)(context='N/A', assessed_text=generated_tweet, assessment_question=faithful_question) dspy.Suggest(is_assessment_yes(faithful_assessment.assessment_answer), "The text contains unfaithful elements or significant facts not in the context. Please revise for accuracy.", target_module=GenerateTweet) return
dspy.Prediction(generated_tweet=generated_tweet, context=context)
dspy.Prediction
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context = dspy.InputField(desc="may contain relevant facts") tweet = dspy.OutputField() class Tweeter(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter = Tweeter() def has_no_hashtags(text): return len(re.findall(r"#\w+", text)) == 0 def is_within_length_limit(text, length_limit=280): return len(text) <= length_limit def is_assessment_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' def has_correct_answer(text, answer): return answer in text class AssessTweet(dspy.Signature): """Assess the quality of a tweet along the specified dimension.""" context = dspy.InputField(desc='ignore if N/A') assessed_text = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def no_hashtags_metric(gold, pred, trace=None): tweet = pred.generated_tweet no_hashtags = has_no_hashtags(tweet) score = no_hashtags return score def is_correct_metric(gold, pred, trace=None): answer, tweet = gold.answer, pred.generated_tweet correct = has_correct_answer(tweet, answer) score = correct return score def within_length_metric(gold, pred, trace=None): tweet = pred.generated_tweet within_length_limit = is_within_length_limit(tweet, 280) score = within_length_limit return score def engaging_metric(gold, pred, trace=None): tweet = pred.generated_tweet engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging = engaging.assessment_answer.split()[0].lower() == 'yes' score = engaging return score def faithful_metric(gold, pred, trace=None): context, tweet = pred.context, pred.generated_tweet faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) faithful = faithful.assessment_answer.split()[0].lower() == 'yes' score = faithful return score def overall_metric(gold, pred, trace=None): answer, context, tweet = gold.answer, pred.context, pred.generated_tweet no_hashtags = has_no_hashtags(tweet) within_length_limit = is_within_length_limit(tweet, 280) correct = has_correct_answer(tweet, answer) engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging, faithful = [m.assessment_answer.split()[0].lower() == 'yes' for m in [engaging, faithful]] score = (correct + engaging + faithful + no_hashtags + within_length_limit) if correct and within_length_limit else 0 return score / 5.0 metrics = [no_hashtags_metric, is_correct_metric, within_length_metric, engaging_metric, faithful_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(tweeter) example = devset[10] tweet = tweeter(question=example.question, answer = example.answer) print(f'Generated Tweet: ', tweet.generated_tweet) tweet.context for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[10:11], num_threads=1, display_progress=True, display_table=5) evaluate(tweeter) class TweeterWithAssertions(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet dspy.Suggest(has_no_hashtags(generated_tweet), f"Please revise the tweet to remove hashtag phrases following it.", target_module=GenerateTweet) dspy.Suggest(is_within_length_limit(generated_tweet, 280), f"Please ensure the tweet is within {280} characters.", target_module=GenerateTweet) dspy.Suggest(has_correct_answer(generated_tweet, answer), "The tweet does not include the correct answer to the question. Please revise accordingly.", target_module=GenerateTweet) engaging_question = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging_assessment = dspy.Predict(AssessTweet)(context=context, assessed_text=generated_tweet, assessment_question=engaging_question) dspy.Suggest(is_assessment_yes(engaging_assessment.assessment_answer), "The text is not engaging enough. Please revise to make it more captivating.", target_module=GenerateTweet) faithful_question = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful_assessment = dspy.Predict(AssessTweet)(context='N/A', assessed_text=generated_tweet, assessment_question=faithful_question) dspy.Suggest(is_assessment_yes(faithful_assessment.assessment_answer), "The text contains unfaithful elements or significant facts not in the context. Please revise for accuracy.", target_module=GenerateTweet) return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter_with_assertions = assert_transform_module(TweeterWithAssertions().map_named_predictors(Retry), backtrack_handler) metrics = [no_hashtags_metric, is_correct_metric, within_length_metric, engaging_metric, faithful_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(tweeter_with_assertions) example = devset[10] tweet = tweeter_with_assertions(question=example.question, answer = example.answer) print(f'Generated Tweet: ', tweet.generated_tweet) tweet.context for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[10:11], num_threads=1, display_progress=True, display_table=5) evaluate(tweeter_with_assertions) teleprompter = BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6) compiled_tweeter = teleprompter.compile(student = tweeter, teacher = tweeter, trainset=trainset, valset=devset[:100]) for metric in metrics: evaluate =
Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5)
dspy.evaluate.evaluate.Evaluate
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install -e $repo_path') get_ipython().system('pip install transformers') import dspy from dspy.evaluate import Evaluate from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch, BootstrapFinetune llama = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=[7140, 7141, 7142, 7143], max_tokens=150) colbertv2 = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2, lm=llama) train = [('Who was the director of the 2009 movie featuring Peter Outerbridge as William Easton?', 'Kevin Greutert'), ('The heir to the Du Pont family fortune sponsored what wrestling team?', 'Foxcatcher'), ('In what year was the star of To Hell and Back born?', '1925'), ('Which award did the first book of Gary Zukav receive?', 'U.S. National Book Award'), ('What documentary about the Gilgo Beach Killer debuted on A&E?', 'The Killing Season'), ('Which author is English: John Braine or Studs Terkel?', 'John Braine'), ('Who produced the album that included a re-recording of "Lithium"?', 'Butch Vig')] train = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in train] dev = [('Who has a broader scope of profession: E. L. Doctorow or Julia Peterkin?', 'E. L. Doctorow'), ('Right Back At It Again contains lyrics co-written by the singer born in what city?', 'Gainesville, Florida'), ('What year was the party of the winner of the 1971 San Francisco mayoral election founded?', '1828'), ('Anthony Dirrell is the brother of which super middleweight title holder?', 'Andre Dirrell'), ('The sports nutrition business established by Oliver Cookson is based in which county in the UK?', 'Cheshire'), ('Find the birth date of the actor who played roles in First Wives Club and Searching for the Elephant.', 'February 13, 1980'), ('Kyle Moran was born in the town on what river?', 'Castletown River'), ("The actress who played the niece in the Priest film was born in what city, country?", 'Surrey, England'), ('Name the movie in which the daughter of Noel Harrison plays Violet Trefusis.', 'Portrait of a Marriage'), ('What year was the father of the Princes in the Tower born?', '1442'), ('What river is near the Crichton Collegiate Church?', 'the River Tyne'), ('Who purchased the team Michael Schumacher raced for in the 1995 Monaco Grand Prix in 2000?', 'Renault'), ('André Zucca was a French photographer who worked with a German propaganda magazine published by what Nazi organization?', 'the Wehrmacht')] dev = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in dev] predict = dspy.Predict('question -> answer') predict(question="What is the capital of Germany?") class CoT(dspy.Module): # let's define a new module def __init__(self): super().__init__() self.generate_answer = dspy.ChainOfThought('question -> answer') def forward(self, question): return self.generate_answer(question=question) # here we use the module metric_EM = dspy.evaluate.answer_exact_match teleprompter = BootstrapFewShot(metric=metric_EM, max_bootstrapped_demos=2) cot_compiled = teleprompter.compile(CoT(), trainset=train) cot_compiled("What is the capital of Germany?") llama.inspect_history(n=1) NUM_THREADS = 32 evaluate_hotpot = Evaluate(devset=dev, metric=metric_EM, num_threads=NUM_THREADS, display_progress=True, display_table=15) evaluate_hotpot(cot_compiled) class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_query = dspy.ChainOfThought("question -> search_query") self.generate_answer = dspy.ChainOfThought("context, question -> answer") def forward(self, question): search_query = self.generate_query(question=question).search_query passages = self.retrieve(search_query).passages return self.generate_answer(context=passages, question=question) evaluate_hotpot(RAG(), display_table=0) teleprompter2 =
BootstrapFewShotWithRandomSearch(metric=metric_EM, max_bootstrapped_demos=2, num_candidate_programs=8, num_threads=NUM_THREADS)
dspy.teleprompt.BootstrapFewShotWithRandomSearch
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo =
dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500)
dspy.OpenAI
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context =
dspy.InputField(desc="may contain relevant facts")
dspy.InputField
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateAnswerChoices(dspy.Signature): """Generate answer choices in JSON format that include the correct answer and plausible distractors for the specified question.""" question = dspy.InputField() correct_answer = dspy.InputField() number_of_choices = dspy.InputField() answer_choices = dspy.OutputField(desc='JSON key-value pairs') class QuizAnswerGenerator(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choices = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices return dspy.Prediction(choices = choices) number_of_choices = '4' quiz_generator = QuizAnswerGenerator() def format_checker(choice_string): try: choices = json.loads(choice_string) if isinstance(choices, dict) and all(isinstance(key, str) and isinstance(value, str) for key, value in choices.items()): return True except json.JSONDecodeError: return False return False def is_correct_answer_included(correct_answer, generated_choices): try: choices_dict = json.loads(generated_choices) return correct_answer in choices_dict.values() except json.JSONDecodeError: return False def is_plausibility_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' class AssessQuizChoices(dspy.Signature): """Assess the quality of quiz answer choices along specified dimensions.""" question = dspy.InputField() answer_choices = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def format_valid_metric(gold, pred, trace=None): generated_choices = pred.choices format_valid = format_checker(generated_choices) score = format_valid return score def is_correct_metric(gold, pred, trace=None): correct_answer, generated_choices = gold.answer, pred.choices correct_included = is_correct_answer_included(correct_answer, generated_choices) score = correct_included return score def plausibility_metric(gold, pred, trace=None): question, generated_choices = gold.question, pred.choices plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = plausibility_result return score def overall_metric(gold, pred, trace=None): question, correct_answer, generated_choices = gold.question, gold.answer, pred.choices format_valid = format_checker(generated_choices) correct_included = is_correct_answer_included(correct_answer, generated_choices) plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = (format_valid + correct_included + plausibility_result) / 3.0 if correct_included and format_valid else 0 return score metrics = [format_valid_metric, is_correct_metric, plausibility_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator) example = devset[38] quiz_choices = quiz_generator(question=example.question, answer = example.answer) print(f'Generated Quiz Choices: ', quiz_choices.choices) for metric in metrics: evaluate =
Evaluate(metric=metric, devset=devset[38:39], num_threads=1, display_progress=True, display_table=5)
dspy.evaluate.evaluate.Evaluate
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install -e $repo_path') get_ipython().system('pip install transformers') import dspy from dspy.evaluate import Evaluate from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch, BootstrapFinetune llama = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=[7140, 7141, 7142, 7143], max_tokens=150) colbertv2 = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2, lm=llama) train = [('Who was the director of the 2009 movie featuring Peter Outerbridge as William Easton?', 'Kevin Greutert'), ('The heir to the Du Pont family fortune sponsored what wrestling team?', 'Foxcatcher'), ('In what year was the star of To Hell and Back born?', '1925'), ('Which award did the first book of Gary Zukav receive?', 'U.S. National Book Award'), ('What documentary about the Gilgo Beach Killer debuted on A&E?', 'The Killing Season'), ('Which author is English: John Braine or Studs Terkel?', 'John Braine'), ('Who produced the album that included a re-recording of "Lithium"?', 'Butch Vig')] train = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in train] dev = [('Who has a broader scope of profession: E. L. Doctorow or Julia Peterkin?', 'E. L. Doctorow'), ('Right Back At It Again contains lyrics co-written by the singer born in what city?', 'Gainesville, Florida'), ('What year was the party of the winner of the 1971 San Francisco mayoral election founded?', '1828'), ('Anthony Dirrell is the brother of which super middleweight title holder?', 'Andre Dirrell'), ('The sports nutrition business established by Oliver Cookson is based in which county in the UK?', 'Cheshire'), ('Find the birth date of the actor who played roles in First Wives Club and Searching for the Elephant.', 'February 13, 1980'), ('Kyle Moran was born in the town on what river?', 'Castletown River'), ("The actress who played the niece in the Priest film was born in what city, country?", 'Surrey, England'), ('Name the movie in which the daughter of Noel Harrison plays Violet Trefusis.', 'Portrait of a Marriage'), ('What year was the father of the Princes in the Tower born?', '1442'), ('What river is near the Crichton Collegiate Church?', 'the River Tyne'), ('Who purchased the team Michael Schumacher raced for in the 1995 Monaco Grand Prix in 2000?', 'Renault'), ('André Zucca was a French photographer who worked with a German propaganda magazine published by what Nazi organization?', 'the Wehrmacht')] dev = [dspy.Example(question=question, answer=answer).with_inputs('question') for question, answer in dev] predict = dspy.Predict('question -> answer') predict(question="What is the capital of Germany?") class CoT(dspy.Module): # let's define a new module def __init__(self): super().__init__() self.generate_answer =
dspy.ChainOfThought('question -> answer')
dspy.ChainOfThought
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts =
dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts')
dspy.ColBERTv2
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) def forward(self, question): context = self.retrieve(question).passages prediction = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=prediction.answer) from dspy.teleprompt import BootstrapFewShot def validate_context_and_answer(example, pred, trace=None): answer_EM = dspy.evaluate.answer_exact_match(example, pred) answer_PM = dspy.evaluate.answer_passage_match(example, pred) return answer_EM and answer_PM teleprompter =
BootstrapFewShot(metric=validate_context_and_answer)
dspy.teleprompt.BootstrapFewShot
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context = dspy.InputField(desc="may contain relevant facts") tweet = dspy.OutputField() class Tweeter(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter = Tweeter() def has_no_hashtags(text): return len(re.findall(r"#\w+", text)) == 0 def is_within_length_limit(text, length_limit=280): return len(text) <= length_limit def is_assessment_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' def has_correct_answer(text, answer): return answer in text class AssessTweet(dspy.Signature): """Assess the quality of a tweet along the specified dimension.""" context = dspy.InputField(desc='ignore if N/A') assessed_text = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def no_hashtags_metric(gold, pred, trace=None): tweet = pred.generated_tweet no_hashtags = has_no_hashtags(tweet) score = no_hashtags return score def is_correct_metric(gold, pred, trace=None): answer, tweet = gold.answer, pred.generated_tweet correct = has_correct_answer(tweet, answer) score = correct return score def within_length_metric(gold, pred, trace=None): tweet = pred.generated_tweet within_length_limit = is_within_length_limit(tweet, 280) score = within_length_limit return score def engaging_metric(gold, pred, trace=None): tweet = pred.generated_tweet engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging = engaging.assessment_answer.split()[0].lower() == 'yes' score = engaging return score def faithful_metric(gold, pred, trace=None): context, tweet = pred.context, pred.generated_tweet faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) faithful = faithful.assessment_answer.split()[0].lower() == 'yes' score = faithful return score def overall_metric(gold, pred, trace=None): answer, context, tweet = gold.answer, pred.context, pred.generated_tweet no_hashtags = has_no_hashtags(tweet) within_length_limit = is_within_length_limit(tweet, 280) correct = has_correct_answer(tweet, answer) engaging = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." faithful = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful = dspy.Predict(AssessTweet)(context=context, assessed_text=tweet, assessment_question=faithful) engaging = dspy.Predict(AssessTweet)(context='N/A', assessed_text=tweet, assessment_question=engaging) engaging, faithful = [m.assessment_answer.split()[0].lower() == 'yes' for m in [engaging, faithful]] score = (correct + engaging + faithful + no_hashtags + within_length_limit) if correct and within_length_limit else 0 return score / 5.0 metrics = [no_hashtags_metric, is_correct_metric, within_length_metric, engaging_metric, faithful_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(tweeter) example = devset[10] tweet = tweeter(question=example.question, answer = example.answer) print(f'Generated Tweet: ', tweet.generated_tweet) tweet.context for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[10:11], num_threads=1, display_progress=True, display_table=5) evaluate(tweeter) class TweeterWithAssertions(dspy.Module): def __init__(self): super().__init__() self.generate_tweet = dspy.ChainOfThought(GenerateTweet) def forward(self, question, answer): context = [] max_hops=2 passages_per_hop=3 generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] retrieve = dspy.Retrieve(k=passages_per_hop) for hop in range(max_hops): query = generate_query[hop](context=context, question=question).query passages = retrieve(query).passages context = deduplicate(context + passages) generated_tweet = self.generate_tweet(question=question, context=context).tweet dspy.Suggest(has_no_hashtags(generated_tweet), f"Please revise the tweet to remove hashtag phrases following it.", target_module=GenerateTweet) dspy.Suggest(is_within_length_limit(generated_tweet, 280), f"Please ensure the tweet is within {280} characters.", target_module=GenerateTweet) dspy.Suggest(has_correct_answer(generated_tweet, answer), "The tweet does not include the correct answer to the question. Please revise accordingly.", target_module=GenerateTweet) engaging_question = "Does the assessed text make for a self-contained, engaging tweet? Say no if it is not engaging." engaging_assessment = dspy.Predict(AssessTweet)(context=context, assessed_text=generated_tweet, assessment_question=engaging_question) dspy.Suggest(is_assessment_yes(engaging_assessment.assessment_answer), "The text is not engaging enough. Please revise to make it more captivating.", target_module=GenerateTweet) faithful_question = "Is the assessed text grounded in the context? Say no if it includes significant facts not in the context." faithful_assessment = dspy.Predict(AssessTweet)(context='N/A', assessed_text=generated_tweet, assessment_question=faithful_question) dspy.Suggest(is_assessment_yes(faithful_assessment.assessment_answer), "The text contains unfaithful elements or significant facts not in the context. Please revise for accuracy.", target_module=GenerateTweet) return dspy.Prediction(generated_tweet=generated_tweet, context=context) tweeter_with_assertions = assert_transform_module(TweeterWithAssertions().map_named_predictors(Retry), backtrack_handler) metrics = [no_hashtags_metric, is_correct_metric, within_length_metric, engaging_metric, faithful_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(tweeter_with_assertions) example = devset[10] tweet = tweeter_with_assertions(question=example.question, answer = example.answer) print(f'Generated Tweet: ', tweet.generated_tweet) tweet.context for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[10:11], num_threads=1, display_progress=True, display_table=5) evaluate(tweeter_with_assertions) teleprompter = BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6) compiled_tweeter = teleprompter.compile(student = tweeter, teacher = tweeter, trainset=trainset, valset=devset[:100]) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(compiled_tweeter) teleprompter =
BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6)
dspy.teleprompt.BootstrapFewShotWithRandomSearch
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query =
dspy.OutputField()
dspy.OutputField
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateAnswerChoices(dspy.Signature): """Generate answer choices in JSON format that include the correct answer and plausible distractors for the specified question.""" question = dspy.InputField() correct_answer = dspy.InputField() number_of_choices = dspy.InputField() answer_choices = dspy.OutputField(desc='JSON key-value pairs') class QuizAnswerGenerator(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choices = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices return dspy.Prediction(choices = choices) number_of_choices = '4' quiz_generator = QuizAnswerGenerator() def format_checker(choice_string): try: choices = json.loads(choice_string) if isinstance(choices, dict) and all(isinstance(key, str) and isinstance(value, str) for key, value in choices.items()): return True except json.JSONDecodeError: return False return False def is_correct_answer_included(correct_answer, generated_choices): try: choices_dict = json.loads(generated_choices) return correct_answer in choices_dict.values() except json.JSONDecodeError: return False def is_plausibility_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' class AssessQuizChoices(dspy.Signature): """Assess the quality of quiz answer choices along specified dimensions.""" question = dspy.InputField() answer_choices = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def format_valid_metric(gold, pred, trace=None): generated_choices = pred.choices format_valid = format_checker(generated_choices) score = format_valid return score def is_correct_metric(gold, pred, trace=None): correct_answer, generated_choices = gold.answer, pred.choices correct_included = is_correct_answer_included(correct_answer, generated_choices) score = correct_included return score def plausibility_metric(gold, pred, trace=None): question, generated_choices = gold.question, pred.choices plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment =
dspy.Predict(AssessQuizChoices)
dspy.Predict
get_ipython().system('pip install clarifai') get_ipython().system('pip install dspy-ai') import dspy from dspy.retrieve.clarifai_rm import ClarifaiRM MODEL_URL = "https://clarifai.com/meta/Llama-2/models/llama2-70b-chat" PAT = "CLARIFAI_PAT" USER_ID = "YOUR_ID" APP_ID = "YOUR_APP" from langchain.text_splitter import CharacterTextSplitter from langchain.document_loaders import TextLoader from langchain.vectorstores import Clarifai as clarifaivectorstore loader = TextLoader("YOUR_TEXT_FILE") #replace with your file path documents = loader.load() text_splitter = CharacterTextSplitter(chunk_size=1024, chunk_overlap=200) docs = text_splitter.split_documents(documents) clarifai_vector_db = clarifaivectorstore.from_documents( user_id=USER_ID, app_id=APP_ID, documents=docs, pat=PAT ) llm=dspy.Clarifai(model=MODEL_URL, api_key=PAT, n=2, inference_params={"max_tokens":100,'temperature':0.6}) retriever_model=ClarifaiRM(clarifai_user_id=USER_ID, clarfiai_app_id=APP_ID, clarifai_pat=PAT, k=2)
dspy.settings.configure(lm=llm, rm=retriever_model)
dspy.settings.configure
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_LongFormQA_Cache') get_ipython().run_line_magic('cd', 'DSPy_LongFormQA_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_LongFormQA_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_LongFormQA_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import EM, normalize_text from dspy.primitives.assertions import assert_transform_module, backtrack_handler get_ipython().run_line_magic('cd', 'dspy/examples/longformqa') from utils import extract_text_by_citation, correct_citation_format, has_citations, citations_check colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") print(f"Relevant Wikipedia Titles: {train_example.gold_titles}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") from dsp.utils import deduplicate class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateCitedParagraph(dspy.Signature): """Generate a paragraph with citations.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() paragraph = dspy.OutputField(desc="includes citations") class LongFormQA(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_cited_paragraph = dspy.ChainOfThought(GenerateCitedParagraph) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_cited_paragraph(context=context, question=question) pred = dspy.Prediction(context=context, paragraph=pred.paragraph) return pred class CheckCitationFaithfulness(dspy.Signature): """Verify that the text is based on the provided context.""" context = dspy.InputField(desc="may contain relevant facts") text = dspy.InputField(desc="between 1 to 2 sentences") faithfulness = dspy.OutputField(desc="boolean indicating if text is faithful to context") def citation_faithfulness(example, pred, trace): paragraph, context = pred.paragraph, pred.context citation_dict = extract_text_by_citation(paragraph) if not citation_dict: return False, None context_dict = {str(i): context[i].split(' | ')[1] for i in range(len(context))} faithfulness_results = [] unfaithful_citations = [] check_citation_faithfulness = dspy.ChainOfThought(CheckCitationFaithfulness) for citation_num, texts in citation_dict.items(): if citation_num not in context_dict: continue current_context = context_dict[citation_num] for text in texts: try: result = check_citation_faithfulness(context=current_context, text=text) is_faithful = result.faithfulness.lower() == 'true' faithfulness_results.append(is_faithful) if not is_faithful: unfaithful_citations.append({'paragraph': paragraph, 'text': text, 'context': current_context}) except ValueError as e: faithfulness_results.append(False) unfaithful_citations.append({'paragraph': paragraph, 'text': text, 'error': str(e)}) final_faithfulness = all(faithfulness_results) if not faithfulness_results: return False, None return final_faithfulness, unfaithful_citations def extract_cited_titles_from_paragraph(paragraph, context): cited_indices = [int(m.group(1)) for m in re.finditer(r'\[(\d+)\]\.', paragraph)] cited_indices = [index - 1 for index in cited_indices if index <= len(context)] cited_titles = [context[index].split(' | ')[0] for index in cited_indices] return cited_titles def calculate_recall(example, pred, trace=None): gold_titles = set(example['gold_titles']) found_cited_titles = set(extract_cited_titles_from_paragraph(pred.paragraph, pred.context)) intersection = gold_titles.intersection(found_cited_titles) recall = len(intersection) / len(gold_titles) if gold_titles else 0 return recall def calculate_precision(example, pred, trace=None): gold_titles = set(example['gold_titles']) found_cited_titles = set(extract_cited_titles_from_paragraph(pred.paragraph, pred.context)) intersection = gold_titles.intersection(found_cited_titles) precision = len(intersection) / len(found_cited_titles) if found_cited_titles else 0 return precision def answer_correctness(example, pred, trace=None): assert hasattr(example, 'answer'), "Example does not have 'answer'." normalized_context = normalize_text(pred.paragraph) if isinstance(example.answer, str): gold_answers = [example.answer] elif isinstance(example.answer, list): gold_answers = example.answer else: raise ValueError("'example.answer' is not string or list.") return 1 if any(normalize_text(answer) in normalized_context for answer in gold_answers) else 0 def evaluate(module): correctness_values = [] recall_values = [] precision_values = [] citation_faithfulness_values = [] for i in range(len(devset)): example = devset[i] try: pred = module(question=example.question) correctness_values.append(answer_correctness(example, pred)) citation_faithfulness_score, _ = citation_faithfulness(None, pred, None) citation_faithfulness_values.append(citation_faithfulness_score) recall = calculate_recall(example, pred) precision = calculate_precision(example, pred) recall_values.append(recall) precision_values.append(precision) except Exception as e: print(f"Failed generation with error: {e}") average_correctness = sum(correctness_values) / len(devset) if correctness_values else 0 average_recall = sum(recall_values) / len(devset) if recall_values else 0 average_precision = sum(precision_values) / len(devset) if precision_values else 0 average_citation_faithfulness = sum(citation_faithfulness_values) / len(devset) if citation_faithfulness_values else 0 print(f"Average Correctness: {average_correctness}") print(f"Average Recall: {average_recall}") print(f"Average Precision: {average_precision}") print(f"Average Citation Faithfulness: {average_citation_faithfulness}") longformqa = LongFormQA() evaluate(longformqa) question = devset[6].question pred = longformqa(question) citation_faithfulness_score, _ = citation_faithfulness(None, pred, None) print(f"Question: {question}") print(f"Predicted Paragraph: {pred.paragraph}") print(f"Citation Faithfulness: {citation_faithfulness_score}") class LongFormQAWithAssertions(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_cited_paragraph = dspy.ChainOfThought(GenerateCitedParagraph) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_cited_paragraph(context=context, question=question) pred = dspy.Prediction(context=context, paragraph=pred.paragraph) dspy.Suggest(citations_check(pred.paragraph), f"Make sure every 1-2 sentences has citations. If any 1-2 sentences lack citations, add them in 'text... [x].' format.", target_module=GenerateCitedParagraph) _, unfaithful_outputs = citation_faithfulness(None, pred, None) if unfaithful_outputs: unfaithful_pairs = [(output['text'], output['context']) for output in unfaithful_outputs] for _, context in unfaithful_pairs: dspy.Suggest(len(unfaithful_pairs) == 0, f"Make sure your output is based on the following context: '{context}'.", target_module=GenerateCitedParagraph) else: return pred return pred longformqa_with_assertions = assert_transform_module(LongFormQAWithAssertions().map_named_predictors(Retry), backtrack_handler) evaluate(longformqa_with_assertions) question = devset[6].question pred = longformqa_with_assertions(question) citation_faithfulness_score, _ = citation_faithfulness(None, pred, None) print(f"Question: {question}") print(f"Predicted Paragraph: {pred.paragraph}") print(f"Citation Faithfulness: {citation_faithfulness_score}") longformqa = LongFormQA() teleprompter = BootstrapFewShotWithRandomSearch(metric = answer_correctness, max_bootstrapped_demos=2, num_candidate_programs=6) cited_longformqa = teleprompter.compile(student = longformqa, teacher = longformqa, trainset=trainset, valset=devset[:100]) evaluate(cited_longformqa) longformqa = LongFormQA() teleprompter = BootstrapFewShotWithRandomSearch(metric = answer_correctness, max_bootstrapped_demos=2, num_candidate_programs=6) cited_longformqa_teacher = teleprompter.compile(student=longformqa, teacher = assert_transform_module(LongFormQAWithAssertions().map_named_predictors(Retry), backtrack_handler), trainset=trainset, valset=devset[:100]) evaluate(cited_longformqa_teacher) longformqa = LongFormQA() teleprompter =
BootstrapFewShotWithRandomSearch(metric = answer_correctness, max_bootstrapped_demos=2, num_candidate_programs=6)
dspy.teleprompt.BootstrapFewShotWithRandomSearch
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_TweetGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_TweetGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_TweetGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_TweetGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import deduplicate from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateTweet(dspy.Signature): """Generate an engaging tweet that effectively answers a question staying faithful to the context, is less than 280 characters, and has no hashtags.""" question = dspy.InputField() context =
dspy.InputField(desc="may contain relevant facts")
dspy.InputField
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) def forward(self, question): context = self.retrieve(question).passages prediction = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=prediction.answer) from dspy.teleprompt import BootstrapFewShot def validate_context_and_answer(example, pred, trace=None): answer_EM = dspy.evaluate.answer_exact_match(example, pred) answer_PM = dspy.evaluate.answer_passage_match(example, pred) return answer_EM and answer_PM teleprompter = BootstrapFewShot(metric=validate_context_and_answer) compiled_rag = teleprompter.compile(RAG(), trainset=trainset) my_question = "What castle did David Gregory inherit?" pred = compiled_rag(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {pred.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in pred.context]}") turbo.inspect_history(n=1) for name, parameter in compiled_rag.named_predictors(): print(name) print(parameter.demos[0]) print() from dspy.evaluate.evaluate import Evaluate evaluate_on_hotpotqa = Evaluate(devset=devset, num_threads=1, display_progress=True, display_table=5) metric = dspy.evaluate.answer_exact_match evaluate_on_hotpotqa(compiled_rag, metric=metric) def gold_passages_retrieved(example, pred, trace=None): gold_titles = set(map(dspy.evaluate.normalize_text, example['gold_titles'])) found_titles = set(map(dspy.evaluate.normalize_text, [c.split(' | ')[0] for c in pred.context])) return gold_titles.issubset(found_titles) compiled_rag_retrieval_score = evaluate_on_hotpotqa(compiled_rag, metric=gold_passages_retrieved) class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() from dsp.utils import deduplicate class SimplifiedBaleen(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=pred.answer) my_question = "How many storeys are in the castle that David Gregory inherited?" uncompiled_baleen = SimplifiedBaleen() # uncompiled (i.e., zero-shot) program pred = uncompiled_baleen(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {pred.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in pred.context]}") turbo.inspect_history(n=3) def validate_context_and_answer_and_hops(example, pred, trace=None): if not dspy.evaluate.answer_exact_match(example, pred): return False if not dspy.evaluate.answer_passage_match(example, pred): return False hops = [example.question] + [outputs.query for *_, outputs in trace if 'query' in outputs] if max([len(h) for h in hops]) > 100: return False if any(dspy.evaluate.answer_exact_match_str(hops[idx], hops[:idx], frac=0.8) for idx in range(2, len(hops))): return False return True teleprompter =
BootstrapFewShot(metric=validate_context_and_answer_and_hops)
dspy.teleprompt.BootstrapFewShot
get_ipython().system('pip install clarifai') get_ipython().system('pip install dspy-ai') import dspy from dspy.retrieve.clarifai_rm import ClarifaiRM MODEL_URL = "https://clarifai.com/meta/Llama-2/models/llama2-70b-chat" PAT = "CLARIFAI_PAT" USER_ID = "YOUR_ID" APP_ID = "YOUR_APP" from langchain.text_splitter import CharacterTextSplitter from langchain.document_loaders import TextLoader from langchain.vectorstores import Clarifai as clarifaivectorstore loader = TextLoader("YOUR_TEXT_FILE") #replace with your file path documents = loader.load() text_splitter = CharacterTextSplitter(chunk_size=1024, chunk_overlap=200) docs = text_splitter.split_documents(documents) clarifai_vector_db = clarifaivectorstore.from_documents( user_id=USER_ID, app_id=APP_ID, documents=docs, pat=PAT ) llm=dspy.Clarifai(model=MODEL_URL, api_key=PAT, n=2, inference_params={"max_tokens":100,'temperature':0.6}) retriever_model=ClarifaiRM(clarifai_user_id=USER_ID, clarfiai_app_id=APP_ID, clarifai_pat=PAT, k=2) dspy.settings.configure(lm=llm, rm=retriever_model) sentence = "disney again ransacks its archives for a quick-buck sequel ." # example from the SST-2 dataset. classify = dspy.Predict('sentence -> sentiment') print(classify(sentence=sentence).sentiment) retrieve = dspy.Retrieve() topK_passages = retrieve("can I test my vehicle engine in pit?").passages print(topK_passages) class GenerateAnswer(dspy.Signature): """Think and Answer questions based on the context provided.""" context = dspy.InputField(desc="may contain relevant facts about user query") question = dspy.InputField(desc="User query") answer = dspy.OutputField(desc="Answer in one or two lines") class RAG(dspy.Module): def __init__(self): super().__init__() self.retrieve = dspy.Retrieve() self.generate_answer = dspy.ChainOfThought(GenerateAnswer) def forward(self, question): context = self.retrieve(question).passages prediction = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=prediction.answer) my_question = "can I test my vehicle engine in pit before inspection?" Rag_obj= RAG() predict_response_llama70b=Rag_obj(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {predict_response_llama70b.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in predict_response_llama70b.context]}") mistral_lm = dspy.Clarifai(model="https://clarifai.com/mistralai/completion/models/mistral-7B-Instruct", api_key=PAT, n=2, inference_params={'temperature':0.6}) dspy.settings.configure(lm=mistral_lm, rm=retriever_model) my_question = "can I test my vehicle engine in pit before inspection?" Rag_obj= RAG() predict_response_mistral=Rag_obj(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {predict_response_mistral.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in predict_response_mistral.context]}") gemini_lm =
dspy.Clarifai(model="https://clarifai.com/gcp/generate/models/gemini-pro", api_key=PAT, n=2)
dspy.Clarifai
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import dspy from dspy.evaluate import Evaluate from dspy.datasets.hotpotqa import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch, BootstrapFinetune ports = [7140, 7141, 7142, 7143, 7144, 7145] llamaChat = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=ports, max_tokens=150) colbertv2 = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2, lm=llamaChat) dataset = HotPotQA(train_seed=1, train_size=200, eval_seed=2023, dev_size=1000, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] testset = [x.with_inputs('question') for x in dataset.test] len(trainset), len(devset), len(testset) trainset[0] from dsp.utils.utils import deduplicate class BasicMH(dspy.Module): def __init__(self, passages_per_hop=3): super().__init__() self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_query = [dspy.ChainOfThought("context, question -> search_query") for _ in range(2)] self.generate_answer =
dspy.ChainOfThought("context, question -> answer")
dspy.ChainOfThought
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) def forward(self, question): context = self.retrieve(question).passages prediction = self.generate_answer(context=context, question=question) return
dspy.Prediction(context=context, answer=prediction.answer)
dspy.Prediction
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought =
dspy.ChainOfThought(BasicQA)
dspy.ChainOfThought
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") class RAG(dspy.Module): def __init__(self, num_passages=3): super().__init__() self.retrieve = dspy.Retrieve(k=num_passages) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) def forward(self, question): context = self.retrieve(question).passages prediction = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=prediction.answer) from dspy.teleprompt import BootstrapFewShot def validate_context_and_answer(example, pred, trace=None): answer_EM = dspy.evaluate.answer_exact_match(example, pred) answer_PM = dspy.evaluate.answer_passage_match(example, pred) return answer_EM and answer_PM teleprompter = BootstrapFewShot(metric=validate_context_and_answer) compiled_rag = teleprompter.compile(RAG(), trainset=trainset) my_question = "What castle did David Gregory inherit?" pred = compiled_rag(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {pred.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in pred.context]}") turbo.inspect_history(n=1) for name, parameter in compiled_rag.named_predictors(): print(name) print(parameter.demos[0]) print() from dspy.evaluate.evaluate import Evaluate evaluate_on_hotpotqa = Evaluate(devset=devset, num_threads=1, display_progress=True, display_table=5) metric = dspy.evaluate.answer_exact_match evaluate_on_hotpotqa(compiled_rag, metric=metric) def gold_passages_retrieved(example, pred, trace=None): gold_titles = set(map(dspy.evaluate.normalize_text, example['gold_titles'])) found_titles = set(map(dspy.evaluate.normalize_text, [c.split(' | ')[0] for c in pred.context])) return gold_titles.issubset(found_titles) compiled_rag_retrieval_score = evaluate_on_hotpotqa(compiled_rag, metric=gold_passages_retrieved) class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() from dsp.utils import deduplicate class SimplifiedBaleen(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_answer = dspy.ChainOfThought(GenerateAnswer) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_answer(context=context, question=question) return dspy.Prediction(context=context, answer=pred.answer) my_question = "How many storeys are in the castle that David Gregory inherited?" uncompiled_baleen = SimplifiedBaleen() # uncompiled (i.e., zero-shot) program pred = uncompiled_baleen(my_question) print(f"Question: {my_question}") print(f"Predicted Answer: {pred.answer}") print(f"Retrieved Contexts (truncated): {[c[:200] + '...' for c in pred.context]}") turbo.inspect_history(n=3) def validate_context_and_answer_and_hops(example, pred, trace=None): if not
dspy.evaluate.answer_exact_match(example, pred)
dspy.evaluate.answer_exact_match
import openai import dspy import json with open("creds.json", "r") as creds: api_key = json.loads(creds.read())["openai_key"] lm = dspy.OpenAI(model='gpt-4', api_key=api_key, model_type='chat', max_tokens = 500) dspy.settings.configure(lm=lm) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] train_example = trainset[0] print(train_example) print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") class BasicQABot(dspy.Module): def __init__(self): super().__init__() self.generate = dspy.Predict(BasicQA) def forward(self,question): prediction = self.generate(question = question) return dspy.Prediction(answer = prediction.answer) qa_bot = BasicQABot() pred = qa_bot.forward("In the 10th Century A.D. Ealhswith had a son called Æthelweard by which English king?") pred.answer from dspy.teleprompt import KNNFewShot from dspy.predict.knn import KNN knn_teleprompter =
KNNFewShot(KNN, 7, trainset)
dspy.teleprompt.KNNFewShot
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question', 'answer') for x in dataset.train] devset = [x.with_inputs('question', 'answer') for x in dataset.dev] class GenerateAnswerChoices(dspy.Signature): """Generate answer choices in JSON format that include the correct answer and plausible distractors for the specified question.""" question = dspy.InputField() correct_answer = dspy.InputField() number_of_choices = dspy.InputField() answer_choices = dspy.OutputField(desc='JSON key-value pairs') class QuizAnswerGenerator(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choices = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices return dspy.Prediction(choices = choices) number_of_choices = '4' quiz_generator = QuizAnswerGenerator() def format_checker(choice_string): try: choices = json.loads(choice_string) if isinstance(choices, dict) and all(isinstance(key, str) and isinstance(value, str) for key, value in choices.items()): return True except json.JSONDecodeError: return False return False def is_correct_answer_included(correct_answer, generated_choices): try: choices_dict = json.loads(generated_choices) return correct_answer in choices_dict.values() except json.JSONDecodeError: return False def is_plausibility_yes(assessment_answer): """Check if the first word of the assessment answer is 'yes'.""" return assessment_answer.split()[0].lower() == 'yes' class AssessQuizChoices(dspy.Signature): """Assess the quality of quiz answer choices along specified dimensions.""" question = dspy.InputField() answer_choices = dspy.InputField() assessment_question = dspy.InputField() assessment_answer = dspy.OutputField(desc="Yes or No") def format_valid_metric(gold, pred, trace=None): generated_choices = pred.choices format_valid = format_checker(generated_choices) score = format_valid return score def is_correct_metric(gold, pred, trace=None): correct_answer, generated_choices = gold.answer, pred.choices correct_included = is_correct_answer_included(correct_answer, generated_choices) score = correct_included return score def plausibility_metric(gold, pred, trace=None): question, generated_choices = gold.question, pred.choices plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = plausibility_result return score def overall_metric(gold, pred, trace=None): question, correct_answer, generated_choices = gold.question, gold.answer, pred.choices format_valid = format_checker(generated_choices) correct_included = is_correct_answer_included(correct_answer, generated_choices) plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=generated_choices, assessment_question=plausibility_question) plausibility_result = plausibility_assessment.assessment_answer.split()[0].lower() == 'yes' score = (format_valid + correct_included + plausibility_result) / 3.0 if correct_included and format_valid else 0 return score metrics = [format_valid_metric, is_correct_metric, plausibility_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator) example = devset[38] quiz_choices = quiz_generator(question=example.question, answer = example.answer) print(f'Generated Quiz Choices: ', quiz_choices.choices) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[38:39], num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator) class QuizAnswerGeneratorWithAssertions(dspy.Module): def __init__(self): super().__init__() self.generate_choices = dspy.ChainOfThought(GenerateAnswerChoices) def forward(self, question, answer): choice_string = self.generate_choices(question=question, correct_answer=answer, number_of_choices=number_of_choices).answer_choices dspy.Suggest(format_checker(choice_string), "The format of the answer choices should be in JSON format. Please revise accordingly.", target_module=GenerateAnswerChoices) dspy.Suggest(is_correct_answer_included(answer, choice_string), "The answer choices do not include the correct answer to the question. Please revise accordingly.", target_module=GenerateAnswerChoices) plausibility_question = "Are the distractors in the answer choices plausible and not easily identifiable as incorrect?" plausibility_assessment = dspy.Predict(AssessQuizChoices)(question=question, answer_choices=choice_string, assessment_question=plausibility_question) dspy.Suggest(is_plausibility_yes(plausibility_assessment.assessment_answer), "The answer choices are not plausible distractors or are too easily identifiable as incorrect. Please revise to provide more challenging and plausible distractors.", target_module=GenerateAnswerChoices) return dspy.Prediction(choices = choice_string) number_of_choices = '4' quiz_generator_with_assertions = assert_transform_module(QuizAnswerGeneratorWithAssertions().map_named_predictors(Retry), backtrack_handler) metrics = [format_valid_metric, is_correct_metric, plausibility_metric, overall_metric] for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(quiz_generator_with_assertions) example = devset[38] quiz_choices = quiz_generator_with_assertions(question=example.question, answer = example.answer) print(f'Generated Quiz Choices: ', quiz_choices.choices) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset[38:39], num_threads=1, display_progress=True, display_table=30) evaluate(quiz_generator_with_assertions) teleprompter = BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6) compiled_quiz_generator = teleprompter.compile(student = quiz_generator, teacher = quiz_generator, trainset=trainset, valset=devset[:100]) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(compiled_quiz_generator) teleprompter = BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6) compiled_with_assertions_quiz_generator = teleprompter.compile(student=quiz_generator, teacher = quiz_generator_with_assertions, trainset=trainset, valset=devset[:100]) for metric in metrics: evaluate = Evaluate(metric=metric, devset=devset, num_threads=1, display_progress=True, display_table=5) evaluate(compiled_with_assertions_quiz_generator) teleprompter =
BootstrapFewShotWithRandomSearch(metric = overall_metric, max_bootstrapped_demos=2, num_candidate_programs=6)
dspy.teleprompt.BootstrapFewShotWithRandomSearch
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import dspy get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys; sys.path.append('/future/u/okhattab/repos/public/stanfordnlp/dspy') import dspy from dspy.evaluate import Evaluate from dspy.datasets.hotpotqa import HotPotQA from dspy.teleprompt import BootstrapFewShot, BootstrapFewShotWithRandomSearch, BootstrapFinetune llama = dspy.HFClientTGI(model="meta-llama/Llama-2-13b-chat-hf", port=[7140, 7141, 7142, 7143], max_tokens=150) colbertv2 =
dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts')
dspy.ColBERTv2
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_LongFormQA_Cache') get_ipython().run_line_magic('cd', 'DSPy_LongFormQA_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_LongFormQA_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_LongFormQA_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dsp.utils import EM, normalize_text from dspy.primitives.assertions import assert_transform_module, backtrack_handler get_ipython().run_line_magic('cd', 'dspy/examples/longformqa') from utils import extract_text_by_citation, correct_citation_format, has_citations, citations_check colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(rm=colbertv2_wiki17_abstracts) turbo = dspy.OpenAI(model='gpt-3.5-turbo', max_tokens=500) dspy.settings.configure(lm=turbo, trace=[], temperature=0.7) dataset = HotPotQA(train_seed=1, train_size=300, eval_seed=2023, dev_size=300, test_size=0, keep_details=True) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") print(f"Relevant Wikipedia Titles: {train_example.gold_titles}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") from dsp.utils import deduplicate class GenerateSearchQuery(dspy.Signature): """Write a simple search query that will help answer a complex question.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() query = dspy.OutputField() class GenerateCitedParagraph(dspy.Signature): """Generate a paragraph with citations.""" context = dspy.InputField(desc="may contain relevant facts") question = dspy.InputField() paragraph = dspy.OutputField(desc="includes citations") class LongFormQA(dspy.Module): def __init__(self, passages_per_hop=3, max_hops=2): super().__init__() self.generate_query = [dspy.ChainOfThought(GenerateSearchQuery) for _ in range(max_hops)] self.retrieve = dspy.Retrieve(k=passages_per_hop) self.generate_cited_paragraph = dspy.ChainOfThought(GenerateCitedParagraph) self.max_hops = max_hops def forward(self, question): context = [] for hop in range(self.max_hops): query = self.generate_query[hop](context=context, question=question).query passages = self.retrieve(query).passages context = deduplicate(context + passages) pred = self.generate_cited_paragraph(context=context, question=question) pred = dspy.Prediction(context=context, paragraph=pred.paragraph) return pred class CheckCitationFaithfulness(dspy.Signature): """Verify that the text is based on the provided context.""" context = dspy.InputField(desc="may contain relevant facts") text = dspy.InputField(desc="between 1 to 2 sentences") faithfulness =
dspy.OutputField(desc="boolean indicating if text is faithful to context")
dspy.OutputField
import glob import os import pandas as pd import random import dspy from dspy.evaluate import Evaluate from dspy.teleprompt import BootstrapFewShotWithRandomSearch os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join('.', 'cache') turbo = dspy.OpenAI(model='gpt-3.5-turbo-1106', max_tokens=250, model_type='chat') dspy.settings.configure(lm=turbo) gpt4T = dspy.OpenAI(model='gpt-4-1106-preview', max_tokens=350, model_type='chat') RUN_FROM_SCRATCH = False get_ipython().system('git clone https://github.com/selenashe/ScoNe.git') def load_scone(dirname): dfs = [] for filename in glob.glob(dirname + "/*.csv"): df = pd.read_csv(filename, index_col=0) df['category'] = os.path.basename(filename).replace(".csv", "") dfs.append(df) data_df = pd.concat(dfs) def as_example(row): suffix = '' if row['category'] == 'one_scoped' else '_edited' hkey = 'sentence2' + suffix question = row[hkey][0].lower() + row[hkey][1: ].strip(".") question = f"Can we logically conclude for sure that {question}?" label = "Yes" if row['gold_label' + suffix] == 'entailment' else "No" return dspy.Example({ "context": row['sentence1' + suffix], "question": question, "answer": label, "category": row['category'] }).with_inputs("context", "question") return list(data_df.apply(as_example, axis=1).values) all_train = load_scone("ScoNe/scone_nli/train") random.seed(1) random.shuffle(all_train) train, dev = all_train[: 200], all_train[200: 250] len(train), len(dev) random.seed(1) test = load_scone(dirname=f"ScoNe/scone_nli/test") test = [ex for ex in test if ex.category == "one_scoped"] pd.Series([ex.answer for ex in test]).value_counts() scone_accuracy = dspy.evaluate.metrics.answer_exact_match evaluator = Evaluate(devset=test, num_threads=1, display_progress=True, display_table=0) class ScoNeSignature(dspy.Signature): ("""You are given some context (a premise) and a question (a hypothesis). """ """You must indicate with Yes/No answer whether we can logically """ """conclude the hypothesis from the premise.""") context = dspy.InputField() question = dspy.InputField() answer =
dspy.OutputField(desc="Yes or No")
dspy.OutputField
get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) os.environ["DSP_NOTEBOOK_CACHEDIR"] = os.path.join(repo_path, 'cache') import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') import dspy turbo = dspy.OpenAI(model='gpt-3.5-turbo') colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts') dspy.settings.configure(lm=turbo, rm=colbertv2_wiki17_abstracts) from dspy.datasets import HotPotQA dataset = HotPotQA(train_seed=1, train_size=20, eval_seed=2023, dev_size=50, test_size=0) trainset = [x.with_inputs('question') for x in dataset.train] devset = [x.with_inputs('question') for x in dataset.dev] len(trainset), len(devset) train_example = trainset[0] print(f"Question: {train_example.question}") print(f"Answer: {train_example.answer}") dev_example = devset[18] print(f"Question: {dev_example.question}") print(f"Answer: {dev_example.answer}") print(f"Relevant Wikipedia Titles: {dev_example.gold_titles}") print(f"For this dataset, training examples have input keys {train_example.inputs().keys()} and label keys {train_example.labels().keys()}") print(f"For this dataset, dev examples have input keys {dev_example.inputs().keys()} and label keys {dev_example.labels().keys()}") class BasicQA(dspy.Signature): """Answer questions with short factoid answers.""" question = dspy.InputField() answer = dspy.OutputField(desc="often between 1 and 5 words") generate_answer = dspy.Predict(BasicQA) pred = generate_answer(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Predicted Answer: {pred.answer}") turbo.inspect_history(n=1) generate_answer_with_chain_of_thought = dspy.ChainOfThought(BasicQA) pred = generate_answer_with_chain_of_thought(question=dev_example.question) print(f"Question: {dev_example.question}") print(f"Thought: {pred.rationale.split('.', 1)[1].strip()}") print(f"Predicted Answer: {pred.answer}") retrieve = dspy.Retrieve(k=3) topK_passages = retrieve(dev_example.question).passages print(f"Top {retrieve.k} passages for question: {dev_example.question} \n", '-' * 30, '\n') for idx, passage in enumerate(topK_passages): print(f'{idx+1}]', passage, '\n') retrieve("When was the first FIFA World Cup held?").passages[0] class GenerateAnswer(dspy.Signature): """Answer questions with short factoid answers.""" context = dspy.InputField(desc="may contain relevant facts") question =
dspy.InputField()
dspy.InputField
get_ipython().system('git clone https://huggingface.co/arnavs11/DSPy_QuizGen_Cache') get_ipython().run_line_magic('cd', 'DSPy_QuizGen_Cache/') get_ipython().system('git checkout master') get_ipython().run_line_magic('cd', '..') import os repo_clone_path = '/content/DSPy_QuizGen_Cache' if not os.access('/content', os.W_OK): repo_clone_path = os.path.join(os.getcwd(), 'DSPy_QuizGen_Cache') os.environ["DSP_NOTEBOOK_CACHEDIR"] = repo_clone_path get_ipython().run_line_magic('load_ext', 'autoreload') get_ipython().run_line_magic('autoreload', '2') import sys import os import regex as re import json try: # When on google Colab, let's clone the notebook so we download the cache. import google.colab repo_path = 'dspy' get_ipython().system('git -C $repo_path pull origin || git clone https://github.com/stanfordnlp/dspy $repo_path') except: repo_path = '.' if repo_path not in sys.path: sys.path.append(repo_path) import pkg_resources # Install the package if it's not installed if not "dspy-ai" in {pkg.key for pkg in pkg_resources.working_set}: get_ipython().system('pip install -U pip') get_ipython().system('pip install dspy-ai') get_ipython().system('pip install openai~=0.28.1') get_ipython().system('pip install -e $repo_path') import dspy from dspy.predict import Retry from dspy.datasets import HotPotQA from dspy.teleprompt import BootstrapFewShotWithRandomSearch from dspy.evaluate.evaluate import Evaluate from dspy.primitives.assertions import assert_transform_module, backtrack_handler colbertv2_wiki17_abstracts = dspy.ColBERTv2(url='http://20.102.90.50:2017/wiki17_abstracts')
dspy.settings.configure(rm=colbertv2_wiki17_abstracts)
dspy.settings.configure
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