[][src]Struct rust_bert::t5::T5ForConditionalGeneration

pub struct T5ForConditionalGeneration { /* fields omitted */ }

T5 Model for conditional generation

T5 model with a vocabulary decoding head It is made of the following blocks:

  • base_model: T5Model Base T5 model
  • model_dim: f64 representation of the model dimension for scaling of the generated logits

Implementations

impl T5ForConditionalGeneration[src]

pub fn new<'p, P>(
    p: P,
    config: &T5Config,
    output_attentions: bool,
    output_hidden_states: bool
) -> T5ForConditionalGeneration where
    P: Borrow<Path<'p>>, [src]

Build a new T5ForConditionalGeneration

Arguments

  • p - Variable store path for the root of the BART model
  • config - T5Config object defining the model architecture
  • output_attention - flag indicating if the model should output the attention weights of intermediate layers
  • output_hidden_states - flag indicating if the model should output the hidden states weights of intermediate layers

Example

use rust_bert::t5::{T5Config, T5ForConditionalGeneration};
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 = T5Config::from_file(config_path);
let output_attentions = true;
let output_hidden_states = true;
let t5 = T5ForConditionalGeneration::new(
    &p.root() / "t5",
    &config,
    output_attentions,
    output_hidden_states,
);

pub fn forward_t(
    &self,
    input_ids: Option<&Tensor>,
    attention_mask: Option<&Tensor>,
    encoder_outputs: Option<(Tensor, Option<Vec<Tensor>>, Option<Vec<Tensor>>)>,
    decoder_input_ids: Option<&Tensor>,
    decoder_attention_mask: Option<&Tensor>,
    input_embeds: Option<Tensor>,
    decoder_input_embeds: Option<Tensor>,
    old_layer_states: Option<Vec<(Option<LayerState>, Option<LayerState>)>>,
    train: bool
) -> (Tensor, Tensor, Option<Vec<(Option<LayerState>, Option<LayerState>)>>, Option<Vec<Tensor>>, Option<Vec<Tensor>>, Option<Vec<Tensor>>, Option<Vec<Tensor>>)[src]

Forward pass through the model

Arguments

  • input_ids - Optional input tensor of shape (batch size, source_sequence_length). This or input_embeds must be provided.
  • 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.
  • decoder_input_ids - Optional input tensor of shape (batch size, target_sequence_length). This or decoder_input_embeds must be provided.
  • 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_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.
  • input_embeds - Optional input tensor of shape (batch size, source_sequence_length, embeddings dimension). This or input_ids must be provided.
  • decoder_input_embeds - Optional input tensor of shape (batch size, target_sequence_length, embeddings dimension). This or decoder_input_ids must be provided.
  • old_layer_states - Optional vector of length num_layers containing tuples of optional LayerStates containing th elast calculated key and value pairs for the decoder. This avoids recomputing attention weights at past positions and speeds up decoding.
  • train - boolean flag to turn on/off the dropout layers in the model. Should be set to false for inference.

Returns

  • decoder_output - Tensor of shape (batch size, target_sequence_length, hidden_size) representing the activations of the last decoder hidden state
  • encoder_hidden_states - Tensor of shape (batch size, source_sequence_length, hidden_size) representing the activations of the last encoder hidden state
  • decoder_cache - 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.
  • 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::t5::{T5Config, T5ForConditionalGeneration};
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 (
    decoder_output,
    encoder_hidden_states,
    decoder_cache,
    all_encoder_hidden_states,
    all_encoder_attentions,
    all_decoder_hidden_states,
    all_decoder_attentions,
) = no_grad(|| {
    t5_model.forward_t(
        Some(&input_tensor),
        Some(&encoder_attention_mask),
        None,
        Some(&target_tensor),
        Some(&decoder_attention_mask),
        None,
        None,
        None,
        false,
    )
});

pub fn encode(
    &self,
    input_ids: &Tensor,
    attention_mask: Option<&Tensor>
) -> Tensor[src]

Trait Implementations

impl LMHeadModel for T5ForConditionalGeneration[src]

fn forward_t(
    &self,
    input_ids: &Option<Tensor>,
    cache: Cache,
    attention_mask: &Option<Tensor>,
    _token_type_ids: &Option<Tensor>,
    _position_ids: &Option<Tensor>,
    _input_embeds: &Option<Tensor>,
    encoder_outputs: Option<&Tensor>,
    decoder_input_ids: &Option<Tensor>,
    train: bool
) -> Result<(Tensor, Option<Tensor>, Cache, Option<Vec<Tensor>>, Option<Vec<Tensor>>), &'static str>[src]

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 th elast 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 T5
  • token_type_ids - Unused for T5
  • position_ids - Unused for T5
  • 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).
  • train - boolean flag to turn on/off the dropout layers in the model. Should be set to false for inference.

Returns

  • lm_logits - Tensor of shape (batch size, sequence_length, vocab_size) representing the logits for each vocab item and position
  • past - T5Cache 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.
  • encoder_hidden_states - Option<Tensor> Hidden states for the encoder
  • hidden_states - None
  • attentions - None

Example

use rust_bert::t5::{T5Config, T5ForConditionalGeneration};
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 (
    decoder_output,
    encoder_hidden_states,
    decoder_cache,
    all_encoder_hidden_states,
    all_encoder_attentions,
    all_decoder_hidden_states,
    all_decoder_attentions,
) = no_grad(|| {
    t5_model.forward_t(
        Some(&input_tensor),
        Some(&encoder_attention_mask),
        None,
        Some(&target_tensor),
        Some(&decoder_attention_mask),
        None,
        None,
        None,
        false,
    )
});

impl LanguageGenerator<T5ForConditionalGeneration, T5Vocab, T5Tokenizer> for T5Generator[src]

Auto Trait Implementations

Blanket Implementations

impl<T> Any for T where
    T: 'static + ?Sized[src]

impl<T> Borrow<T> for T where
    T: ?Sized[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized[src]

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, [src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, [src]

type Error = Infallible

The type returned in the event of a conversion error.

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, [src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

impl<V, T> VZip<V> for T where
    V: MultiLane<T>,