use rust_bert::pipelines::summarization::{SummarizationConfig, SummarizationModel}; use rust_bert::pipelines::common::{ModelResource, ModelType}; use rust_bert::prophetnet::{ ProphetNetConfigResources, ProphetNetModelResources, ProphetNetVocabResources, }; use rust_bert::resources::RemoteResource; use tch::Device; #[test] fn prophetnet_summarization_greedy() -> anyhow::Result<()> { // Set-up model let config_resource = Box::new(RemoteResource::from_pretrained( ProphetNetConfigResources::PROPHETNET_LARGE_CNN_DM, )); let vocab_resource = Box::new(RemoteResource::from_pretrained( ProphetNetVocabResources::PROPHETNET_LARGE_CNN_DM, )); let weights_resource = Box::new(RemoteResource::from_pretrained( ProphetNetModelResources::PROPHETNET_LARGE_CNN_DM, )); let summarization_config = SummarizationConfig { model_type: ModelType::ProphetNet, model_resource: ModelResource::Torch(weights_resource), config_resource, vocab_resource, merges_resource: None, length_penalty: 1.2, num_beams: 4, no_repeat_ngram_size: 3, device: Device::cuda_if_available(), ..Default::default() }; let summarization_model = SummarizationModel::new(summarization_config)?; let input = ["In findings published Tuesday in Cornell University's arXiv by a team of scientists \ from the University of Montreal and a separate report published Wednesday in Nature Astronomy by a team \ from University College London (UCL), the presence of water vapour was confirmed in the atmosphere of K2-18b, \ a planet circling a star in the constellation Leo. This is the first such discovery in a planet in its star's \ habitable zone — not too hot and not too cold for liquid water to exist. The Montreal team, led by Björn Benneke, \ used data from the NASA's Hubble telescope to assess changes in the light coming from K2-18b's star as the planet \ passed between it and Earth. They found that certain wavelengths of light, which are usually absorbed by water, \ weakened when the planet was in the way, indicating not only does K2-18b have an atmosphere, but the atmosphere \ contains water in vapour form. The team from UCL then analyzed the Montreal team's data using their own software \ and confirmed their conclusion. This was not the first time scientists have found signs of water on an exoplanet, \ but previous discoveries were made on planets with high temperatures or other pronounced differences from Earth. \ \"This is the first potentially habitable planet where the temperature is right and where we now know there is water,\" \ said UCL astronomer Angelos Tsiaras. \"It's the best candidate for habitability right now.\" \"It's a good sign\", \ said Ryan Cloutier of the Harvard–Smithsonian Center for Astrophysics, who was not one of either study's authors. \ \"Overall,\" he continued, \"the presence of water in its atmosphere certainly improves the prospect of K2-18b being \ a potentially habitable planet, but further observations will be required to say for sure. \" \ K2-18b was first identified in 2015 by the Kepler space telescope. It is about 110 light-years from Earth and larger \ but less dense. Its star, a red dwarf, is cooler than the Sun, but the planet's orbit is much closer, such that a year \ on K2-18b lasts 33 Earth days. According to The Guardian, astronomers were optimistic that NASA's James Webb space \ telescope — scheduled for launch in 2021 — and the European Space Agency's 2028 ARIEL program, could reveal more \ about exoplanets like K2-18b."]; // Credits: WikiNews, CC BY 2.5 license (https://en.wikinews.org/wiki/Astronomers_find_water_vapour_in_atmosphere_of_exoplanet_K2-18b) let output = summarization_model.summarize(&input)?; assert_eq!(output.len(), 1); assert_eq!( output[0], "scientists have confirmed the presence of water in the atmosphere of k2 - 18b. \ this is the first such discovery in a planet in its star's habitable zone. \ the planet is 110 light - years from earth and has a star in the constellation leo." ); Ok(()) }