Status: False
Assertion
The Earth is flat.
Results
The statement is not supported by scientific evidence. Earth’s roundness has been well-documented through various observations, experiments, and measurements that demonstrate its spherical shape. This includes the behavior of shadows during lunar eclipses and how ships disappear over the horizon due to refraction of light in water.
– False: The assertion contradicts a vast body of scientific knowledge regarding Earth’s geometry and physical laws. It is inconsistent with our understanding of planetary formation, physics, and astronomy that dictate celestial bodies tend toward spherical shapes due to gravitational forces acting equally from all directions on their surfaces.
– False: The statement cannot be considered debatable as it dismisses significant empirical evidence in favor of an unfounded flat Earth theory. While curiosity about alternative possibilities is natural, the available scientific consensus and data are compellingly supportive of a spherical Earth.
Assumptions
Assumptions supporting the false statement “The Earth is flat” (though these are scientifically incorrect):
– Ignorance or denial of empirical evidence gathered over centuries, such as satellite imagery and global circumnavigation experiences.
– Misinterpretation or mistrust of the methods used to measure Earth’s curvature, like angles in shadows or lunar eclipses visibility.
– Disregard for scientific principles that underlie our understanding of geometry and physics, which naturally lead to a spherical shape for celestial bodies due to gravity and rotation.
– A hypothetical scenario where the laws of physics as we understand them do not apply in the same way on Earth or within its atmosphere and surface. However, this is purely speculative and contrary to extensive scientific inquiry and observation.
Fact Checker Output
<|assistant|> – False: Ignorance or denial of empirical evidence gathered over centuries disregards the vast amount of collected data from multiple sources that confirm Earth’s roundness. This includes satellite imagery and experiences from global circumnavigation, which provide concrete proof against a flat Earth model.
– False: Misinterpretation or mistrust of methods used to measure Earth’s curvature ignores the well-established scientific methodologies such as measuring angles in shadows (refraction) during lunar eclipses and other observations that have consistently supported a spherical Earth.
– False: Disregarding scientific principles related to geometry and physics does not align with our understanding of how celestial bodies are formed. The laws of gravity and rotation naturally lead to spherical shapes for planets, including Earth, which is confirmed by numerous scientific observations and experiments.
– False (speculative): While imagining a scenario where the known laws of physics do not apply as we understand them on Earth or within its atmosphere and surface might intrigue some people, it remains purely speculative without substantial evidence to support such a claim. Our current understanding is grounded in extensive scientific research and observation, which leads
Model Used
microsoft/Phi-3-mini-4k-instruct-gguf
Script Name
fact_checker_mongodb.py
Script Code
import os
import sys
import requests
from langchain_openai.llms import OpenAI
from langchain.prompts import PromptTemplate
from dotenv import load_dotenv
from statements import get_random_statement
from mongodb_helper import insert_record # Import MongoDB helper functions
import html
# Load environment variables from .env file
load_dotenv()
# Define category IDs
CATEGORY_IDS = {
"True": 2,
"False": 3,
"Debatable": 4,
"Unknown": 6
}
def create_wordpress_post(title, content, category):
data = {
"title": title,
"content": content,
"status": "publish",
"categories": [CATEGORY_IDS[category]]
}
response = requests.post(
os.getenv("WORDPRESS_POSTS_URL"),
json=data,
auth=(os.getenv("WORDPRESS_USERNAME"), os.getenv("WORDPRESS_PASSWORD"))
)
if response.status_code == 201:
print("Blog post created successfully.")
else:
print(f"Failed to create blog post: {response.status_code} - {response.text}")
def fact_check(assertion):
llm = OpenAI(temperature=0.7, model=os.getenv("MODEL_NAME"))
# Define the prompt templates
assertion_template = """{assertion}\n\n"""
assertion_prompt = PromptTemplate(input_variables=["assertion"], template=assertion_template)
assumptions_template = """Here is a statement:
{statement}
Make a bullet point list of the assumptions required to support the above statement.\n\n"""
assumptions_prompt = PromptTemplate(input_variables=["statement"], template=assumptions_template)
fact_checker_template = """Here is a bullet point list of assertions:
{assertions}
For each assumption, determine whether it is true or false. Explain your reasoning.\n\n"""
fact_checker_prompt = PromptTemplate(input_variables=["assertions"], template=fact_checker_template)
answer_template = """
Here is the information to classify the statement:
{facts}
Based on the above information, how would you classify the statement? Respond with one of the following options followed by a colon and space:
- True: [Explanation]
- False: [Explanation]
- Debatable: [Explanation]
"""
answer_prompt = PromptTemplate(input_variables=["facts"], template=answer_template)
# Format prompts and extract the string content
formatted_assertion = assertion_prompt.format_prompt(assertion=assertion).text
assertion_output = llm.invoke(formatted_assertion)
formatted_assumptions = assumptions_prompt.format_prompt(statement=assertion_output).text
assumptions_output = llm.invoke(formatted_assumptions)
formatted_fact_checker = fact_checker_prompt.format_prompt(assertions=assumptions_output).text
fact_checker_output = llm.invoke(formatted_fact_checker)
formatted_answer = answer_prompt.format_prompt(facts=fact_checker_output).text
final_output = llm.invoke(formatted_answer)
return {
"assertion_output": assertion_output,
"assumptions_output": assumptions_output,
"fact_checker_output": fact_checker_output,
"final_output": final_output,
}
def extract_status_and_reasoning(final_output):
final_output = final_output.strip()
if "True:" in final_output:
status_start = final_output.find("True:")
status = "True"
elif "False:" in final_output:
status_start = final_output.find("False:")
status = "False"
elif "Debatable:" in final_output:
status_start = final_output.find("Debatable:")
status = "Debatable"
else:
return "Unknown", final_output
reasoning = final_output[status_start + len(status) + 1:].strip()
return status, reasoning
if __name__ == "__main__":
if len(sys.argv) > 1:
assertion = sys.argv[1]
else:
assertion = get_random_statement()
print(assertion)
submission = fact_check(assertion)
# Print the detailed outputs to inspect their structure
for key, value in submission.items():
print(f"{key}: {value}")
# Extract the final output for status determination and reasoning
final_output = submission['final_output']
status, reasoning = extract_status_and_reasoning(final_output)
# Record the result in MongoDB
try:
print("Attempting to insert record into MongoDB...")
insert_record(
script_name="fact_checker_mongodb.py",
script_code=html.escape(open(__file__).read()),
assertion=assertion,
status=status,
submission=submission, # Store the entire submission for detailed analysis
model=os.getenv("MODEL_NAME")
)
print("Record inserted into MongoDB successfully.")
except Exception as e:
print(f"Failed to insert record into MongoDB: {e}")
print(final_output)
# Create a blog post on WordPress
blog_title = f"Fact Check: {assertion}"
blog_content = f"""
<h1>Status: {status}</h1>
<h2>Assertion</h2>
<p>{assertion}</p>
<h2>Results</h2>
<p>{reasoning}</p>
<h3>Assumptions</h3>
<p>{submission['assumptions_output']}</p>
<h3>Fact Checker Output</h3>
<p>{submission['fact_checker_output']}</p>
<h4>Model Used</h4>
<p>{os.getenv("MODEL_NAME")}</p>
<h4>Script Name</h4>
<p>fact_checker_mongodb.py</p>
<h4>Script Code</h4>
<pre>{html.escape(open(__file__).read())}</pre>
"""
create_wordpress_post(blog_title, blog_content, status)
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