Struct rust_bert::bart::BartForConditionalGeneration[][src]

pub struct BartForConditionalGeneration { /* fields omitted */ }
Expand description

BART Model for conditional generation

BART model with a vocabulary decoding head It is made of the following blocks:

  • base_model: BartModel Base BART model
  • linear: Linear layer without bias tied to the weights of the token id embeddings

Implementations

Build a new BartForConditionalGeneration

Arguments
  • p - Variable store path for the root of the BART model
  • config - BartConfig object defining the model architecture
Example
use rust_bert::bart::{BartConfig, BartForConditionalGeneration};
use rust_bert::Config;
use std::path::Path;
use tch::{nn, Device};

let config_path = Path::new("path/to/config.json");
let device = Device::Cpu;
let p = nn::VarStore::new(device);
let config = BartConfig::from_file(config_path);
let bart: BartForConditionalGeneration =
    BartForConditionalGeneration::new(&p.root() / "bart", &config);

Forward pass through the model

Arguments
  • input_ids - Optional input tensor of shape (batch size, source_sequence_length). Must be provided when not running in generation mode
  • attention_mask - Optional attention mask of shape (batch size, source_sequence_length) for the encoder positions. Positions with a mask with value 0 will be masked.
  • encoder_outputs - Optional tuple made of a tensor of shape (batch size, source_sequence_length, encoder_hidden_dim) and optional vectors of tensors of length num_encoder_layers with shape (batch size, source_sequence_length, hidden_size). These correspond to the encoder last hidden state and optional hidden states/attention weights for encoder layers. When provided, the encoder hidden state will not be recalculated. Useful for generation tasks.
  • decoder_input_ids - Optional input tensor of shape (batch size, target_sequence_length). Must be provided when running in generation mode (e.g. initialized with a BOS token)
  • decoder_attention_mask - Optional attention mask of shape (batch size, target_sequence_length) for the decoder positions. Positions with a mask with value 0 will be masked.
  • train - boolean flag to turn on/off the dropout layers in the model. Should be set to false for inference.
Returns
  • BartModelOutput containing:
    • decoder_output - Tensor of shape (batch size, target_sequence_length, vocab_size) representing the logits for each vocabulary item and position
    • encoder_hidden_states - Tensor of shape (batch size, source_sequence_length, hidden_size) representing the activations of the last encoder hidden state
    • cache - (Option<Tensor>, Option<Vec<&LayerState, &LayerState>>) of length n_layer containing the encoder padding mask and past keys and values for both the self attention and the encoder cross attention of each layer of the decoder.
    • all_encoder_hidden_states - Option<Vec<Tensor>> of length num_encoder_layers with shape (batch size, source_sequence_length, hidden_size)
    • all_encoder_attentions - Option<Vec<Tensor>> of length num_encoder_layers with shape (batch size, source_sequence_length, hidden_size)
    • all_decoder_hidden_states - Option<Vec<Tensor>> of length num_decoder_layers with shape (batch size, target_sequence_length, hidden_size)
    • all_decoder_attentions - Option<Vec<Tensor>> of length num_decoder_layers with shape (batch size, target_sequence_length, hidden_size)
Example
use rust_bert::bart::{BartConfig, BartForConditionalGeneration};
 let (batch_size, source_sequence_length, target_sequence_length) = (64, 128, 56);
 let input_tensor = Tensor::rand(&[batch_size, source_sequence_length], (Int64, device));
 let target_tensor = Tensor::rand(&[batch_size, target_sequence_length], (Int64, device));
 let encoder_attention_mask = Tensor::ones(&[batch_size, source_sequence_length], (Int64, device));
 let decoder_attention_mask = Tensor::ones(&[batch_size, source_sequence_length], (Int64, device));

 let model_output = no_grad(|| {
   bart_model
        .forward_t(Some(&input_tensor),
                   Some(&encoder_attention_mask),
                   None,
                   Some(&target_tensor),
                   Some(&decoder_attention_mask),
                   None,
                   false)
   });

Trait Implementations

Forward pass through the model

Arguments
  • input_ids - Optional input tensor of shape (batch size, sequence_length). If None, pre-computed embeddings must be provided (see input_embeds)
  • layer_past - Optional vector of length num_layers containing tuples of optional LayerStates containing the last calculated key and value pairs for the decoder. This avoids recomputing attention weights at past positions and speeds up decoding.
  • attention_mask - Optional mask of shape (batch size, sequence_length). Masked position have value 0, non-masked value 1. If None set to 1
  • input_embeds - Unused for BART
  • token_type_ids - Unused for BART
  • position_ids - Unused for BART
  • encoder_outputs - Optional tensor of shape (batch size, source_sequence_length, hidden_size). When provided, the encoder hidden state will not be recalculated. Useful for generation tasks.
  • decoder_input_ids - Optional input tensor of shape (batch size, target_sequence_length). Must be provided when running in generation mode (e.g. initialized with a BOS token)
  • train - boolean flag to turn on/off the dropout layers in the model. Should be set to false for inference.
Returns
  • LMModelOutput containing:
    • lm_logits - Tensor of shape (batch size, sequence_length, vocab_size) representing the logits for each vocab item and position
    • cache - BartCache made of Option<Vec<(Option<Vec<&LayerState, &LayerState>>)>> of length n_layer containing the encoder past keys and values for both the self attention and the encoder cross attention of each layer of the decoder.
Example
use rust_bert::pipelines::generation_utils::LMHeadModel;
use rust_bert::bart::{BartForConditionalGeneration, BartConfig};
 let (batch_size, source_sequence_length, target_sequence_length) = (64, 128, 56);
 let input_tensor = Tensor::rand(&[batch_size, source_sequence_length], (Int64, device));
 let target_tensor = Tensor::rand(&[batch_size, target_sequence_length], (Int64, device));
 let encoder_attention_mask = Tensor::ones(&[batch_size, source_sequence_length], (Int64, device));
 let decoder_attention_mask = Tensor::ones(&[batch_size, source_sequence_length], (Int64, device));

 let model_output = no_grad(|| {
   bart_model
        .forward_t(Some(&input_tensor),
                   Some(&encoder_attention_mask),
                   None,
                   Some(&target_tensor),
                   Some(&decoder_attention_mask),
                   None,
                   false)
   });

Generate text based on a vector of promp texts. Read more

Generate token indices without decoding (useful for token-level operations before returning final text or as validation step during training). Read more

Generate token indices given a list of indices (useful when the input has been pre-tokenized). Returns a list of output tokens that need to be decoded using a tokenizer. Read more

Returns a reference to the text generator’s tokenizer Read more

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