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hf_text-generation-inference/router/src/validation.rs

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use crate::config::Config;
/// Payload validation logic
use crate::validation::ValidationError::{BestOfSampling, BestOfSeed, EmptyInput};
use crate::{GenerateParameters, GenerateRequest, GrammarType};
use jsonschema::{Draft, JSONSchema};
use rand::{thread_rng, Rng};
use serde_json::Value;
use std::io::Cursor;
use text_generation_client::{
GrammarType as ProtoGrammarType, NextTokenChooserParameters, StoppingCriteriaParameters,
};
use thiserror::Error;
use tokenizers::tokenizer::Tokenizer;
// use tokenizers::TruncationDirection;
use base64::{engine::general_purpose::STANDARD, Engine};
use image::{io::Reader as ImageReader, ImageFormat};
use tokio::sync::mpsc;
use tokio::sync::oneshot;
use tracing::{instrument, Span};
use {once_cell::sync::Lazy, regex::Regex};
/// Validation
#[derive(Debug, Clone)]
pub struct Validation {
/// Validation parameters
max_best_of: usize,
max_stop_sequences: usize,
max_top_n_tokens: u32,
max_input_length: usize,
max_total_tokens: usize,
disable_grammar_support: bool,
/// Channel to communicate with the background tokenization task
sender: Option<mpsc::UnboundedSender<TokenizerRequest>>,
}
impl Validation {
#[allow(clippy::too_many_arguments)]
pub(crate) fn new(
workers: usize,
tokenizer: Option<Tokenizer>,
config: Option<Config>,
max_best_of: usize,
max_stop_sequences: usize,
max_top_n_tokens: u32,
max_input_length: usize,
max_total_tokens: usize,
disable_grammar_support: bool,
) -> Self {
// If we have a fast tokenizer
let sender = if let Some(tokenizer) = tokenizer {
// Create round robin channel
let (validation_sender, validation_round_robin_receiver) = mpsc::unbounded_channel();
let mut senders = Vec::with_capacity(workers);
// Create workers
for _ in 0..workers {
let tokenizer_clone = tokenizer.clone();
let config_clone = config.clone();
let (tokenizer_sender, tokenizer_receiver) = mpsc::unbounded_channel();
senders.push(tokenizer_sender);
// Spawn worker
tokio::task::spawn_blocking(move || {
tokenizer_worker(tokenizer_clone, config_clone, tokenizer_receiver)
});
}
// Create tokenization round robin task
tokio::spawn(round_robin_task(validation_round_robin_receiver, senders));
Some(validation_sender)
} else {
None
};
Self {
max_best_of,
sender,
max_stop_sequences,
max_top_n_tokens,
max_input_length,
max_total_tokens,
disable_grammar_support,
}
}
#[instrument(skip(self, inputs))]
pub async fn tokenize(
&self,
inputs: String,
truncate: Option<usize>,
) -> Result<Option<(tokenizers::Encoding, String)>, ValidationError> {
// If we have a fast tokenizer
if let Some(sender) = &self.sender {
// Create response channel
let (response_sender, response_receiver) = oneshot::channel();
// Send request to the background validation task
// Unwrap is safe here
sender
.send(((inputs, truncate), response_sender, Span::current()))
.unwrap();
// Await on response channel
// Unwrap is safe here
let encoding = response_receiver.await.unwrap()?;
Ok(Some(encoding))
} else {
Ok(None)
}
}
#[instrument(skip(self, inputs))]
async fn validate_input(
&self,
inputs: String,
truncate: Option<usize>,
max_new_tokens: Option<u32>,
) -> Result<(String, usize, u32), ValidationError> {
// If we have a fast tokenizer
if let Some((encoding, inputs)) = self.tokenize(inputs.clone(), truncate).await? {
// Create response channel
let input_length = encoding.len();
// Get total tokens
let max_new_tokens: u32 = if let Some(max_new_tokens) = max_new_tokens {
max_new_tokens
} else {
self.max_total_tokens.saturating_sub(input_length) as u32
};
let total_tokens = input_length + max_new_tokens as usize;
// Validate MaxTotalTokens
if total_tokens > self.max_total_tokens {
return Err(ValidationError::MaxTotalTokens(
self.max_total_tokens,
input_length,
max_new_tokens,
));
}
// Validate InputLength
if input_length > self.max_input_length {
return Err(ValidationError::InputLength(
self.max_input_length,
input_length,
));
}
metrics::histogram!("tgi_request_input_length", input_length as f64);
Ok((inputs, input_length, max_new_tokens))
}
// Return inputs without validation
else {
// In this case, we don't know the real length in tokens of the inputs
// However, the inputs will be truncated by the python servers
// We make sure that truncate + max_new_tokens <= self.max_total_tokens
let max_new_tokens: u32 = if let Some(max_new_tokens) = max_new_tokens {
max_new_tokens
} else if let Some(truncate) = truncate {
self.max_total_tokens.saturating_sub(truncate) as u32
} else {
return Err(ValidationError::UnsetMaxNewTokens);
};
let mut input_length = truncate.unwrap_or(self.max_input_length);
// We don't have a tokenizer, therefore we have no idea how long is the query, let
// them through and hope for the best.
// Validate MaxNewTokens
if (input_length as u32 + max_new_tokens) > self.max_total_tokens as u32 {
input_length = input_length.saturating_sub(max_new_tokens as usize);
// return Err(ValidationError::MaxNewTokens(
// self.max_total_tokens - self.max_input_length,
// max_new_tokens,
// ));
}
Ok((inputs, input_length, max_new_tokens))
}
}
/// Validate a payload and get the number of tokens in the input
#[instrument(skip_all)]
pub(crate) async fn validate(
&self,
request: GenerateRequest,
) -> Result<ValidGenerateRequest, ValidationError> {
let GenerateParameters {
best_of,
temperature,
repetition_penalty,
frequency_penalty,
top_k,
top_p,
typical_p,
do_sample,
max_new_tokens,
stop: stop_sequences,
truncate,
seed,
watermark,
decoder_input_details,
top_n_tokens,
grammar,
..
} = request.parameters;
// sampling must be true when best_of > 1
let best_of = best_of.unwrap_or(1);
let sampling = do_sample
|| temperature.is_some()
|| top_k.is_some()
|| top_p.is_some()
|| typical_p.is_some();
if best_of > 1 && !sampling {
return Err(BestOfSampling);
}
let temperature = temperature.unwrap_or(1.0);
if temperature <= 0.0 {
return Err(ValidationError::Temperature);
}
let repetition_penalty = repetition_penalty.unwrap_or(1.0);
if repetition_penalty <= 0.0 {
return Err(ValidationError::RepetitionPenalty);
}
let frequency_penalty = frequency_penalty.unwrap_or(0.0);
if !(-2.0..=2.0).contains(&frequency_penalty) {
return Err(ValidationError::FrequencyPenalty);
}
// Different because the proto default value is not a valid value
// for the user
let top_p = top_p
.map(|value| {
if value <= 0.0 || value >= 1.0 {
return Err(ValidationError::TopP);
}
Ok(value)
})
.unwrap_or(Ok(1.0))?;
let typical_p = typical_p
.map(|value| {
if value <= 0.0 || value >= 1.0 {
return Err(ValidationError::TypicalP);
}
Ok(value)
})
.unwrap_or(Ok(1.0))?;
let top_k: u32 = top_k
.map(|value| {
if value <= 0 {
return Err(ValidationError::TopK);
}
Ok(value as u32)
})
.unwrap_or(Ok(0))?;
if max_new_tokens == Some(0) {
return Err(ValidationError::NegativeMaxNewTokens);
}
if stop_sequences.len() > self.max_stop_sequences {
return Err(ValidationError::StopSequence(
self.max_stop_sequences,
stop_sequences.len(),
));
}
// If seed is None, assign a random one
let seed = match seed {
None => thread_rng().gen(),
Some(seed) => {
if best_of > 1 {
return Err(BestOfSeed);
}
seed
}
};
let top_n_tokens = top_n_tokens
.map(|value| {
if value > self.max_top_n_tokens {
return Err(ValidationError::TopNTokens(self.max_top_n_tokens, value));
}
Ok(value)
})
.unwrap_or(Ok(0))?;
// Check if inputs is empty
if request.inputs.is_empty() {
return Err(EmptyInput);
}
// Check if truncate is strictly positive and less than max_input_length
let truncate = truncate
.map(|value| {
if value == 0 || value > self.max_input_length {
return Err(ValidationError::Truncate(self.max_input_length, value));
}
Ok(Some(value))
})
.unwrap_or(Ok(None))?;
// Validate inputs
let (inputs, input_length, max_new_tokens) = self
.validate_input(request.inputs, truncate, max_new_tokens)
.await?;
// TODO: we should build the FSM here and pass the compiled FSM instead of the grammar
// NOTE: this is currently difficult because we need the tokenizer in Python to build
// the FSM and we'd have to load a copy of the tokenizer into our Pyo3 instance which
// may be slow and memory intensive. Best case is to have a Rust implementation of the FSM
// compiler and use that to build the FSM here.
// Validate grammar and unpack the grammar and type for the proto message
let (grammar, grammar_type) = match grammar {
Some(grammar) => {
// Ensure that grammar is not set if it's not supported
if self.disable_grammar_support {
return Err(ValidationError::Grammar);
}
match grammar {
GrammarType::Json(json) => {
let json = match json {
// if value is a string, we need to parse it again to make sure its
// a valid json
Value::String(s) => serde_json::from_str(&s)
.map_err(|e| ValidationError::InvalidGrammar(e.to_string())),
Value::Object(_) => Ok(json),
_ => Err(ValidationError::Grammar),
}?;
// Check if the json is a valid JSONSchema
JSONSchema::options()
.with_draft(Draft::Draft202012)
.compile(&json)
.map_err(|e| ValidationError::InvalidGrammar(e.to_string()))?;
(
// Serialize json to string
serde_json::to_string(&json)
.map_err(|e| ValidationError::InvalidGrammar(e.to_string()))?,
ProtoGrammarType::Json.into(),
)
}
GrammarType::Regex(regex) => (regex, ProtoGrammarType::Regex.into()),
}
}
None => (String::new(), ProtoGrammarType::None.into()),
};
let parameters = NextTokenChooserParameters {
temperature,
repetition_penalty,
frequency_penalty,
top_k,
top_p,
typical_p,
do_sample,
seed,
watermark,
grammar,
grammar_type,
};
let stopping_parameters = StoppingCriteriaParameters {
max_new_tokens,
stop_sequences,
ignore_eos_token: false,
};
metrics::histogram!("tgi_request_max_new_tokens", max_new_tokens as f64);
Ok(ValidGenerateRequest {
inputs,
decoder_input_details,
input_length: input_length as u32,
truncate: truncate.unwrap_or(self.max_input_length) as u32,
parameters,
stopping_parameters,
top_n_tokens,
})
}
/// Validate the best_of parameter
#[instrument(skip_all)]
pub(crate) fn validate_best_of(&self, best_of: usize) -> Result<usize, ValidationError> {
if self.max_best_of == 1 && best_of != 1 {
return Err(ValidationError::BestOfDisabled);
}
if best_of > self.max_best_of {
return Err(ValidationError::BestOf(self.max_best_of, best_of));
}
Ok(best_of)
}
}
/// Round robin tokenization task
async fn round_robin_task(
mut receiver: mpsc::UnboundedReceiver<TokenizerRequest>,
senders: Vec<mpsc::UnboundedSender<TokenizerRequest>>,
) {
loop {
for sender in &senders {
match receiver.recv().await {
None => return,
Some(request) => sender.send(request).unwrap(),
};
}
}
}
/// Start tokenization workers
fn tokenizer_worker(
tokenizer: Tokenizer,
config: Option<Config>,
mut receiver: mpsc::UnboundedReceiver<TokenizerRequest>,
) {
// Loop over requests
while let Some(((inputs, truncate), response_tx, parent_span)) = receiver.blocking_recv() {
parent_span.in_scope(|| {
response_tx
.send(prepare_input(inputs, truncate, &tokenizer, &config))
.unwrap_or(())
})
}
}
fn format_from_mimetype(mimetype: &str) -> Option<ImageFormat> {
match mimetype {
"image/png" => Some(ImageFormat::Png),
"image/jpeg" => Some(ImageFormat::Jpeg),
"image/jpg" => Some(ImageFormat::Jpeg),
"image/gif" => Some(ImageFormat::Gif),
"image/webp" => Some(ImageFormat::WebP),
"image/tiff" => Some(ImageFormat::Tiff),
// "image/pnm"=>Some(ImageFormat::Pnm),
// "image/tga"=>Some(ImageFormat::Tga),
// "image/dds"=>Some(ImageFormat::Dds),
// "image/bmp"=>Some(ImageFormat::Bmp),
// "image/ico"=>Some(ImageFormat::Ico),
// "image/x-exr"=>Some(ImageFormat::OpenExr),
_ => None,
}
}
fn format_to_mimetype(format: ImageFormat) -> String {
match format {
ImageFormat::Png => "image/png",
ImageFormat::Jpeg => "image/jpeg",
ImageFormat::Gif => "image/gif",
ImageFormat::WebP => "image/webp",
ImageFormat::Tiff => "image/tiff",
_ => "application/octet-stream",
}
.to_string()
}
fn fetch_image(input: &str) -> Result<(String, usize, usize), ValidationError> {
if input.starts_with("![](http://") || input.starts_with("![](https://") {
let url = &input["![](".len()..input.len() - 1];
let data = reqwest::blocking::get(url)?.bytes()?;
let format = image::guess_format(&data)?;
// TODO Remove this clone
let img = ImageReader::with_format(Cursor::new(data.clone()), format).decode()?;
let height: usize = img.height().try_into()?;
let width: usize = img.width().try_into()?;
let mimetype = format_to_mimetype(format);
let encoded = STANDARD.encode(data);
let data_uri = format!("![](data:{mimetype};base64,{encoded})");
Ok((data_uri, height, width))
} else if input.starts_with("![](data:") {
// Remove ![](....)
let content = &input["![](data:".len()..input.len() - 1];
let tokens: Vec<_> = content.split(';').collect();
if tokens.len() != 2 {
return Err(ValidationError::InvalidImageContent(content.to_string()));
}
let mimetype = tokens[0];
let content = tokens[1];
if !content.starts_with("base64,") {
return Err(ValidationError::InvalidImageContent(content.to_string()));
}
let data = STANDARD.decode(content["base64,".len()..].as_bytes())?;
let img = if let Some(format) = format_from_mimetype(mimetype) {
ImageReader::with_format(Cursor::new(data), format).decode()?
} else {
ImageReader::new(Cursor::new(data))
.with_guessed_format()
.map_err(|_io_error| ValidationError::InvalidImageContent(content.to_string()))?
.decode()?
};
let height: usize = img.height().try_into()?;
let width: usize = img.width().try_into()?;
Ok((input.to_string(), height, width))
} else {
Err(ValidationError::InvalidImageContent(input.to_string()))
}
}
/// Get input length and optionally truncate it
fn prepare_input(
mut inputs: String,
_truncate: Option<usize>,
tokenizer: &Tokenizer,
config: &Option<Config>,
) -> Result<(tokenizers::Encoding, String), ValidationError> {
static RE: Lazy<Regex> = Lazy::new(|| Regex::new(r"!\[\]\([^\)]*\)").unwrap());
let tokenizer_query = match config {
Some(Config::LlavaNext(config)) => {
let mut modified_inputs = String::with_capacity(inputs.len());
let mut tokenizer_query = String::with_capacity(inputs.len());
let mut start = 0;
for chunk in RE.find_iter(&inputs) {
let chunk_start = chunk.start();
let chunk_end = chunk.end();
if chunk_start != start {
modified_inputs.push_str(&inputs[start..chunk_start]);
tokenizer_query.push_str(&inputs[start..chunk_start]);
}
let (image_uri, height, width) = fetch_image(&inputs[chunk_start..chunk_end])?;
let slots = config.get_number_of_features(height, width);
tokenizer_query.push_str(&"<image>".repeat(slots));
modified_inputs.push_str(&image_uri);
start = chunk_end;
}
if start != inputs.len() - 1 {
modified_inputs.push_str(&inputs[start..]);
tokenizer_query.push_str(&inputs[start..]);
}
inputs = modified_inputs;
tokenizer_query
}
Some(Config::Idefics) => RE.replace_all(&inputs, "<image>").into(),
_ => inputs.clone(),
};
// Get the number of tokens in the input
let encoding = tokenizer
.encode(tokenizer_query, true)
.map_err(|err| ValidationError::Tokenizer(err.to_string()))?;
Ok((encoding, inputs))
}
type TokenizerRequest = (
(String, Option<usize>),
oneshot::Sender<Result<(tokenizers::Encoding, String), ValidationError>>,
Span,
);
#[derive(Debug, Clone)]
pub(crate) struct ValidGenerateRequest {
pub inputs: String,
pub input_length: u32,
pub truncate: u32,
pub decoder_input_details: bool,
pub parameters: NextTokenChooserParameters,
pub stopping_parameters: StoppingCriteriaParameters,
pub top_n_tokens: u32,
}
#[derive(Error, Debug)]
pub enum ValidationError {
#[error("`best_of` must be > 0 and <= {0}. Given: {1}")]
BestOf(usize, usize),
#[error("`best_of` != 1 is not allowed for this endpoint")]
BestOfDisabled,
#[error("you must use sampling when `best_of` is > 1")]
BestOfSampling,
#[error("`seed` must not be set when `best_of` > 1")]
BestOfSeed,
#[error("`best_of` != 1 is not supported when streaming tokens")]
BestOfStream,
#[error("`top_n_tokens` must be >= 0 and <= {0}. Given: {1}")]
TopNTokens(u32, u32),
#[error("`top_n_tokens` != 0 is not allowed for this endpoint")]
TopNTokensDisabled,
#[error("`decoder_input_details` == true is not supported when streaming tokens")]
PrefillDetailsStream,
#[error("`temperature` must be strictly positive")]
Temperature,
#[error("`repetition_penalty` must be strictly positive")]
RepetitionPenalty,
#[error("`frequency_penalty` must be >= -2.0 and <= 2.0")]
FrequencyPenalty,
#[error("`top_p` must be > 0.0 and < 1.0")]
TopP,
#[error("`top_k` must be strictly positive")]
TopK,
#[error("`truncate` must be strictly positive and less than {0}. Given: {1}")]
Truncate(usize, usize),
#[error("`typical_p` must be > 0.0 and < 1.0")]
TypicalP,
#[error("one of `max_new_tokens` or `truncate` must be set if a fast tokenizer is not in use")]
UnsetMaxNewTokens,
#[error("`max_new_tokens` must be strictly positive")]
NegativeMaxNewTokens,
#[error("`max_new_tokens` must be <= {0}. Given: {1}")]
MaxNewTokens(usize, u32),
#[error("`inputs` tokens + `max_new_tokens` must be <= {0}. Given: {1} `inputs` tokens and {2} `max_new_tokens`")]
MaxTotalTokens(usize, usize, u32),
#[error("`inputs` must have less than {0} tokens. Given: {1}")]
InputLength(usize, usize),
#[error("`inputs` cannot be empty")]
EmptyInput,
#[error("`stop` supports up to {0} stop sequences. Given: {1}")]
StopSequence(usize, usize),
#[error("tokenizer error {0}")]
Tokenizer(String),
#[error("grammar is not supported")]
Grammar,
#[error("grammar is not valid: {0}")]
InvalidGrammar(String),
#[error("base64 encoding is invalid: {0}")]
InvalidBase64(#[from] base64::DecodeError),
#[error("invalid image: {0}")]
InvalidImage(#[from] image::ImageError),
#[error("invalid integer: {0}")]
InvalidInt(#[from] core::num::TryFromIntError),
#[error("invalid image content: {0}")]
InvalidImageContent(String),
#[error("Could not fetch image: {0}")]
FailedFetchImage(#[from] reqwest::Error),
}
#[cfg(test)]
mod tests {
use super::*;
use crate::default_parameters;
use crate::tests::get_tokenizer;
#[tokio::test]
async fn test_validation_max_new_tokens() {
let tokenizer = None;
let max_best_of = 2;
let max_stop_sequence = 3;
let max_top_n_tokens = 4;
let max_input_length = 5;
let max_total_tokens = 6;
let workers = 1;
let disable_grammar_support = true;
let config = None;
let validation = Validation::new(
workers,
tokenizer,
config,
max_best_of,
max_stop_sequence,
max_top_n_tokens,
max_input_length,
max_total_tokens,
disable_grammar_support,
);
let max_new_tokens = 10;
match validation
.validate_input("Hello".to_string(), None, Some(max_new_tokens))
.await
{
// Err(ValidationError::MaxNewTokens(1, 10)) => (),
Ok((_s, 0, 10)) => (),
r => panic!("Unexpected not max new tokens: {r:?}"),
}
}
#[tokio::test]
async fn test_validation_input_length() {
let tokenizer = Some(get_tokenizer().await);
let max_best_of = 2;
let max_stop_sequence = 3;
let max_top_n_tokens = 4;
let max_input_length = 5;
let max_total_tokens = 6;
let disable_grammar_support = true;
let workers = 1;
let config = None;
let validation = Validation::new(
workers,
tokenizer,
config,
max_best_of,
max_stop_sequence,
max_top_n_tokens,
max_input_length,
max_total_tokens,
disable_grammar_support,
);
let max_new_tokens = 10;
match validation
.validate_input("Hello".to_string(), None, Some(max_new_tokens))
.await
{
Err(ValidationError::MaxTotalTokens(6, 1, 10)) => (),
_ => panic!("Unexpected not max new tokens"),
}
}
#[tokio::test]
async fn test_validation_best_of_sampling() {
let tokenizer = Some(get_tokenizer().await);
let max_best_of = 2;
let max_stop_sequence = 3;
let max_top_n_tokens = 4;
let max_input_length = 5;
let max_total_tokens = 6;
let workers = 1;
let disable_grammar_support = true;
let config = None;
let validation = Validation::new(
workers,
tokenizer,
config,
max_best_of,
max_stop_sequence,
max_top_n_tokens,
max_input_length,
max_total_tokens,
disable_grammar_support,
);
match validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
best_of: Some(2),
do_sample: false,
..default_parameters()
},
})
.await
{
Err(ValidationError::BestOfSampling) => (),
_ => panic!("Unexpected not best of sampling"),
}
}
#[tokio::test]
async fn test_validation_top_p() {
let tokenizer = Some(get_tokenizer().await);
let max_best_of = 2;
let max_stop_sequence = 3;
let max_top_n_tokens = 4;
let max_input_length = 5;
let max_total_tokens = 106;
let workers = 1;
let disable_grammar_support = true;
let config = None;
let validation = Validation::new(
workers,
tokenizer,
config,
max_best_of,
max_stop_sequence,
max_top_n_tokens,
max_input_length,
max_total_tokens,
disable_grammar_support,
);
match validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_p: Some(1.0),
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
{
Err(ValidationError::TopP) => (),
_ => panic!("Unexpected top_p"),
}
match validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_p: Some(0.99),
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
{
Ok(_) => (),
_ => panic!("Unexpected top_p error"),
}
let valid_request = validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_p: None,
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
.unwrap();
// top_p == 1.0 is invalid for users to ask for but it's the default resolved value.
assert_eq!(valid_request.parameters.top_p, 1.0);
}
#[tokio::test]
async fn test_validation_top_n_tokens() {
let tokenizer = Some(get_tokenizer().await);
let max_best_of = 2;
let max_stop_sequences = 3;
let max_top_n_tokens = 4;
let max_input_length = 5;
let max_total_tokens = 106;
let workers = 1;
let disable_grammar_support = true;
let config = None;
let validation = Validation::new(
workers,
tokenizer,
config,
max_best_of,
max_stop_sequences,
max_top_n_tokens,
max_input_length,
max_total_tokens,
disable_grammar_support,
);
match validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_n_tokens: Some(5),
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
{
Err(ValidationError::TopNTokens(4, 5)) => (),
_ => panic!("Unexpected top_n_tokens"),
}
validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_n_tokens: Some(4),
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
.unwrap();
validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_n_tokens: Some(0),
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
.unwrap();
let valid_request = validation
.validate(GenerateRequest {
inputs: "Hello".to_string(),
parameters: GenerateParameters {
top_n_tokens: None,
max_new_tokens: Some(5),
..default_parameters()
},
})
.await
.unwrap();
assert_eq!(valid_request.top_n_tokens, 0);
}
}
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