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import os
import queue
import threading
import time
from contextlib import nullcontext
from dataclasses import dataclass
from pathlib import Path
from typing import Literal, Optional, Tuple, Union
import click
import hydra
import numpy as np
import torch
import torch._dynamo.config
import torch._inductor.config
from loguru import logger
from tqdm import tqdm
from fish_speech.conversation import CODEBOOK_PAD_TOKEN_ID
from fish_speech.text import clean_text, split_text
os.environ["TOKENIZERS_PARALLELISM"] = "false"
torch._inductor.config.coordinate_descent_tuning = True
torch._inductor.config.triton.unique_kernel_names = True
if hasattr(torch._inductor.config, "fx_graph_cache"):
# Experimental feature to reduce compilation times, will be on by default in future
torch._inductor.config.fx_graph_cache = True
from fish_speech.models.text2semantic.llama import (
BaseTransformer,
DualARTransformer,
NaiveTransformer,
)
def multinomial_sample_one_no_sync(
probs_sort,
): # Does multinomial sampling without a cuda synchronization
q = torch.empty_like(probs_sort).exponential_(1)
return torch.argmax(probs_sort / q, dim=-1, keepdim=True).to(dtype=torch.int)
def logits_to_probs(
logits,
previous_tokens: Optional[torch.Tensor] = None,
temperature: torch.Tensor = 1.0,
top_p: torch.Tensor = 1.0,
repetition_penalty: torch.Tensor = 1.0,
) -> torch.Tensor:
# Apply repetition penalty
if previous_tokens is not None:
previous_tokens = previous_tokens.long()
score = torch.gather(logits, dim=0, index=previous_tokens)
score = torch.where(
score < 0, score * repetition_penalty, score / repetition_penalty
)
logits.scatter_(dim=0, index=previous_tokens, src=score)
# Apply top-p sampling
sorted_logits, sorted_indices = torch.sort(logits, descending=True)
cum_probs = torch.cumsum(torch.nn.functional.softmax(sorted_logits, dim=-1), dim=-1)
sorted_indices_to_remove = cum_probs > top_p
sorted_indices_to_remove[0] = False # keep at least one option
indices_to_remove = sorted_indices_to_remove.scatter(
dim=0, index=sorted_indices, src=sorted_indices_to_remove
)
logits = logits.masked_fill(indices_to_remove, -float("Inf"))
logits = logits / max(temperature, 1e-5)
probs = torch.nn.functional.softmax(logits, dim=-1)
return probs
def sample(
logits,
previous_tokens: Optional[torch.Tensor] = None,
**sampling_kwargs,
) -> Tuple[torch.Tensor, torch.Tensor]:
probs = logits_to_probs(
logits=logits[0, -1], previous_tokens=previous_tokens, **sampling_kwargs
)
idx_next = multinomial_sample_one_no_sync(probs)
return idx_next, probs
def decode_one_token_ar(
model: DualARTransformer,
x: torch.Tensor,
input_pos: torch.Tensor,
previous_tokens: torch.Tensor = None,
**sampling_kwargs,
) -> torch.Tensor:
x = model.forward_generate(x, input_pos)
sampling_kwargs_main = sampling_kwargs.copy()
sampling_kwargs_main["temperature"] = 0.1
sampling_kwargs_main["top_p"] = 0.1
sampling_kwargs_main["repetition_penalty"] = 1.0
codebooks = [
sample(
x.logits,
previous_tokens=None, # Disable repetition penalty for the token codebook
**sampling_kwargs_main,
)[0]
]
x = x.hidden_states
# Cleanup the cache
for layer in model.fast_layers:
layer.attention.kv_cache.k_cache.fill_(0)
layer.attention.kv_cache.v_cache.fill_(0)
for codebook_idx in range(model.config.num_codebooks):
input_pos = torch.tensor([codebook_idx], device=x.device, dtype=torch.long)
logits = model.forward_generate_fast(x, input_pos)
a = sample(
logits,
previous_tokens=(
previous_tokens[codebook_idx + 1]
if previous_tokens is not None
else None
),
**sampling_kwargs,
)[0]
x = model.fast_embeddings(a)
codebooks.append(a)
return torch.stack(codebooks, dim=0)
def decode_one_token_naive(
model: NaiveTransformer,
x: torch.Tensor,
input_pos: torch.Tensor,
previous_tokens: torch.Tensor = None,
**sampling_kwargs,
) -> torch.Tensor:
x = model.forward_generate(x, input_pos)
sampling_kwargs_main = sampling_kwargs.copy()
sampling_kwargs_main["temperature"] = 0.1
sampling_kwargs_main["top_p"] = 0.1
sampling_kwargs_main["repetition_penalty"] = 1.0
codebooks = [
sample(
x.logits,
previous_tokens=None, # Disable repetition penalty for the token codebook
**sampling_kwargs_main,
)[0]
]
for i in range(model.config.num_codebooks):
codebooks.append(
sample(
x.codebook_logits[:, :, i],
previous_tokens=(
previous_tokens[i + 1] if previous_tokens is not None else None
),
**sampling_kwargs,
)[0]
)
return torch.stack(codebooks, dim=0)
def decode_n_tokens(
model: NaiveTransformer,
cur_token: torch.Tensor,
input_pos: torch.Tensor,
num_new_tokens: int,
im_end_id: int = 4,
decode_one_token=decode_one_token_naive,
**sampling_kwargs,
):
previous_tokens = torch.zeros(
(model.config.num_codebooks + 1, model.config.max_seq_len),
dtype=torch.int,
device=cur_token.device,
)
for i in tqdm(range(num_new_tokens)):
# We need to get windowed repeat penalty
win_size = 16
if i < win_size:
window = previous_tokens[:, :win_size]
else:
window = previous_tokens[:, i - win_size : i]
with (
torch.backends.cuda.sdp_kernel(
enable_flash=False, enable_mem_efficient=False, enable_math=True
)
if torch.cuda.is_available()
else nullcontext()
): # Actually better for Inductor to codegen attention here
next_token = decode_one_token(
model=model,
x=cur_token,
input_pos=input_pos,
previous_tokens=window,
**sampling_kwargs,
)
input_pos += 1
cur_token = next_token.view(1, model.config.num_codebooks + 1, -1)
previous_tokens[:, i : i + 1] = next_token.view(
model.config.num_codebooks + 1, -1
)
if cur_token[0, 0, -1] == im_end_id:
break
return previous_tokens[:, : i + 1]
@torch.no_grad()
@torch.inference_mode()
def generate(
*,
model: NaiveTransformer,
prompt: torch.Tensor,
max_new_tokens: int,
im_end_id: int = 4,
decode_one_token=decode_one_token_naive,
**sampling_kwargs,
) -> torch.Tensor:
"""
Takes a conditioning sequence (prompt) as input and continues to generate as many tokens as requested.
"""
# create an empty tensor of the expected final shape and fill in the current tokens
T = prompt.size(1)
if max_new_tokens:
if T + max_new_tokens > model.config.max_seq_len:
max_new_tokens = model.config.max_seq_len - T
logger.info(f"Truncating max_new_tokens to {max_new_tokens}")
T_new = T + max_new_tokens
else:
T_new = model.config.max_seq_len
max_new_tokens = T_new - T
device, dtype = prompt.device, prompt.dtype
with torch.device(device):
model.setup_caches(
max_batch_size=1,
max_seq_len=model.config.max_seq_len,
dtype=next(model.parameters()).dtype,
)
codebook_dim = 1 + model.config.num_codebooks
# create an empty tensor of the expected final shape and fill in the current tokens
empty = torch.empty((codebook_dim, T_new), dtype=dtype, device=device)
empty[:, :T] = prompt
seq = empty
input_pos = torch.arange(0, T, device=device)
# Use non-accelerated version for now, to avoid compilation overhead
prefill_decode = (
decode_one_token_naive
if isinstance(model, NaiveTransformer)
else decode_one_token_ar
)
next_token = prefill_decode(
model, prompt.view(1, codebook_dim, -1), input_pos, **sampling_kwargs
)
seq[:, T : T + 1] = next_token
input_pos = torch.tensor([T], device=device, dtype=torch.int)
x = decode_n_tokens(
model,
next_token.view(1, codebook_dim, -1),
input_pos,
max_new_tokens - 1,
im_end_id=im_end_id,
decode_one_token=decode_one_token,
**sampling_kwargs,
)
# x = torch.cat(generated_tokens, dim=1)
seq = seq[:, : T + 1 + x.size(1)]
seq[:, T + 1 :] = x
return seq
def encode_tokens(
tokenizer,
string,
device="cuda",
prompt_tokens=None,
num_codebooks=4,
):
string = clean_text(string)
string = f"<|im_start|>user\n{string}<|im_end|><|im_start|>assistant\n"
new_tokens = tokenizer.encode(
string,
add_special_tokens=False,
max_length=10**6,
truncation=False,
)
tokens = torch.tensor([new_tokens], dtype=torch.int, device=device)
# Codebooks
zeros = (
torch.ones((num_codebooks, tokens.size(1)), dtype=torch.int, device=device)
* CODEBOOK_PAD_TOKEN_ID
)
prompt = torch.cat((tokens, zeros), dim=0)
if prompt_tokens is None:
return prompt
# Get prompt tokens
if prompt_tokens.ndim == 3:
assert (
prompt_tokens.shape[0] == 1
), f"3 dim prompt tokens should have shape (1, num_codebooks, seq_len)"
prompt_tokens = prompt_tokens[0]
assert prompt_tokens.ndim == 2
data = prompt_tokens + 1
if prompt_tokens.shape[0] > num_codebooks:
logger.warning(
f"Prompt tokens shape {prompt_tokens.shape} is larger than num_codebooks {num_codebooks}, getting first {num_codebooks} codebooks"
)
data = data[:num_codebooks]
# Add pad token for each codebook
data = torch.cat(
(data, torch.zeros((data.size(0), 1), dtype=torch.int, device=device)),
dim=1,
)
# Since 1.0, we use <|semantic|>
s0_token_id = tokenizer.convert_tokens_to_ids("<|semantic|>")
end_token_id = tokenizer.convert_tokens_to_ids("<|im_end|>")
main_token_ids = (
torch.ones((1, data.size(1)), dtype=torch.int, device=device) * s0_token_id
)
main_token_ids[0, -1] = end_token_id
data = torch.cat((main_token_ids, data), dim=0)
prompt = torch.cat((prompt, data), dim=1)
return prompt
def load_model(checkpoint_path, device, precision, compile=False):
model: Union[NaiveTransformer, DualARTransformer] = BaseTransformer.from_pretrained(
checkpoint_path, load_weights=True
)
model = model.to(device=device, dtype=precision)
logger.info(f"Restored model from checkpoint")
if isinstance(model, DualARTransformer):
decode_one_token = decode_one_token_ar
logger.info("Using DualARTransformer")
else:
decode_one_token = decode_one_token_naive
logger.info("Using NaiveTransformer")
if compile:
logger.info("Compiling function...")
decode_one_token = torch.compile(
decode_one_token,
fullgraph=True,
backend="inductor" if torch.cuda.is_available() else "aot_eager",
mode="reduce-overhead" if torch.cuda.is_available() else None,
)
return model.eval(), decode_one_token
@dataclass
class GenerateResponse:
action: Literal["sample", "next"]
codes: Optional[torch.Tensor] = None
text: Optional[str] = None
def generate_long(
*,
model,
device: str | torch.device,
decode_one_token: callable,
text: str,
num_samples: int = 1,
max_new_tokens: int = 0,
top_p: int = 0.7,
repetition_penalty: float = 1.5,
temperature: float = 0.7,
compile: bool = False,
iterative_prompt: bool = True,
max_length: int = 2048,
chunk_length: int = 150,
prompt_text: Optional[str | list[str]] = None,
prompt_tokens: Optional[torch.Tensor | list[torch.Tensor]] = None,
):
assert 0 < top_p <= 1, "top_p must be in (0, 1]"
assert 0 < repetition_penalty < 2, "repetition_penalty must be in (0, 2)"
assert 0 < temperature < 2, "temperature must be in (0, 2)"
use_prompt = prompt_text is not None and prompt_tokens is not None
if use_prompt and isinstance(prompt_text, str):
prompt_text = [prompt_text]
prompt_tokens = [prompt_tokens]
assert use_prompt is False or len(prompt_text) == len(
prompt_tokens
), "Prompt text and tokens must have the same length"
model_size = sum(p.numel() for p in model.parameters() if p.requires_grad)
tokenizer = model.tokenizer
im_end_id = tokenizer.convert_tokens_to_ids("<|im_end|>")
encoded = []
texts = split_text(text, chunk_length) if iterative_prompt else [text]
encoded_prompts = []
if use_prompt:
for idx, (t, c) in enumerate(zip(prompt_text, prompt_tokens)):
encoded_prompts.append(
encode_tokens(
tokenizer,
string=t,
device=device,
prompt_tokens=c,
num_codebooks=model.config.num_codebooks,
)
)
for idx, text in enumerate(texts):
encoded.append(
encode_tokens(
tokenizer,
string=text,
device=device,
num_codebooks=model.config.num_codebooks,
)
)
logger.info(f"Encoded text: {text}")
# Move temperature, top_p, repetition_penalty to device
# This is important so that changing params doesn't trigger recompile
temperature = torch.tensor(temperature, device=device, dtype=torch.float)
top_p = torch.tensor(top_p, device=device, dtype=torch.float)
repetition_penalty = torch.tensor(
repetition_penalty, device=device, dtype=torch.float
)
for sample_idx in range(num_samples):
if torch.cuda.is_available():
torch.cuda.synchronize()
global_encoded = []
seg_idx = 0
while seg_idx < len(encoded):
logger.info(
f"Generating sentence {seg_idx + 1}/{len(encoded)} of sample {sample_idx + 1}/{num_samples}"
)
seg = encoded[seg_idx]
global_encoded.append(seg)
lengths = reversed([seg.size(1) for seg in global_encoded])
# Pick last 2000 tokens
count = 0
for i, length in enumerate(lengths):
count += length
if count + length > max_length - 1024 - sum(
t.shape[1] for t in encoded_prompts
):
break
if i != 0 and i % 2 == 0:
i -= 1
# Rotate the list, always make sure first segment is included to avoid drift
if i < len(global_encoded) - 2:
partial_encoded = global_encoded[:2] + global_encoded[-i:]
else:
partial_encoded = global_encoded
if use_prompt:
partial_encoded = encoded_prompts + partial_encoded
cat_encoded = torch.cat(partial_encoded, dim=1)
prompt_length = cat_encoded.size(1)
t0 = time.perf_counter()
y = generate(
model=model,
prompt=cat_encoded,
max_new_tokens=max_new_tokens,
im_end_id=im_end_id,
decode_one_token=decode_one_token,
temperature=temperature,
top_p=top_p,
repetition_penalty=repetition_penalty,
)
if sample_idx == 0 and seg_idx == 0 and compile:
logger.info(f"Compilation time: {time.perf_counter() - t0:.2f} seconds")
if torch.cuda.is_available():
torch.cuda.synchronize()
t = time.perf_counter() - t0
tokens_generated = y.size(1) - prompt_length
tokens_sec = tokens_generated / t
logger.info(
f"Generated {tokens_generated} tokens in {t:.02f} seconds, {tokens_sec:.02f} tokens/sec"
)
logger.info(
f"Bandwidth achieved: {model_size * tokens_sec / 1e9:.02f} GB/s"
)
if torch.cuda.is_available():
logger.info(
f"GPU Memory used: {torch.cuda.max_memory_reserved() / 1e9:.02f} GB"
)
# Put the generated tokens
# since there is <im_end> and <eos> tokens, we remove last 2 tokens
codes = y[1:, prompt_length:-1].clone()
codes = codes - 1
assert (codes >= 0).all(), f"Negative code found"
decoded = y[:, prompt_length:-1].clone()
# But for global encoding, we should keep the <im_end> token
global_encoded.append(decoded)
assert (codes >= 0).all(), f"Negative code found: {codes}"
yield GenerateResponse(action="sample", codes=codes, text=texts[seg_idx])
seg_idx += 1
# This indicates the end of the current sample
yield GenerateResponse(action="next")
@dataclass
class WrappedGenerateResponse:
status: Literal["success", "error"]
response: Optional[GenerateResponse | Exception] = None
@dataclass
class GenerateRequest:
request: dict
response_queue: queue.Queue
def launch_thread_safe_queue(
checkpoint_path,
device,
precision,
compile: bool = False,
):
input_queue = queue.Queue()
init_event = threading.Event()
def worker():
model, decode_one_token = load_model(
checkpoint_path, device, precision, compile=compile
)
init_event.set()
while True:
item: GenerateRequest | None = input_queue.get()
if item is None:
break
kwargs = item.request
response_queue = item.response_queue
try:
for chunk in generate_long(
model=model, decode_one_token=decode_one_token, **kwargs
):
response_queue.put(
WrappedGenerateResponse(status="success", response=chunk)
)
except Exception as e:
response_queue.put(WrappedGenerateResponse(status="error", response=e))
threading.Thread(target=worker, daemon=True).start()
init_event.wait()
return input_queue
@click.command()
@click.option(
"--text",
type=str,
default="你说的对, 但是原神是一款由米哈游自主研发的开放世界手游.",
)
@click.option("--prompt-text", type=str, default=None, multiple=True)
@click.option(
"--prompt-tokens",
type=click.Path(path_type=Path, exists=True),
default=None,
multiple=True,
)
@click.option("--num-samples", type=int, default=1)
@click.option("--max-new-tokens", type=int, default=0)
@click.option("--top-p", type=float, default=0.7)
@click.option("--repetition-penalty", type=float, default=1.2)
@click.option("--temperature", type=float, default=0.7)
@click.option(
"--checkpoint-path",
type=click.Path(path_type=Path, exists=True),
default="checkpoints/fish-speech-1.4",
)
@click.option("--device", type=str, default="cuda")
@click.option("--compile/--no-compile", default=False)
@click.option("--seed", type=int, default=42)
@click.option("--half/--no-half", default=False)
@click.option("--iterative-prompt/--no-iterative-prompt", default=True)
@click.option("--chunk-length", type=int, default=100)
def main(
text: str,
prompt_text: Optional[list[str]],
prompt_tokens: Optional[list[Path]],
num_samples: int,
max_new_tokens: int,
top_p: int,
repetition_penalty: float,
temperature: float,
checkpoint_path: Path,
device: str,
compile: bool,
seed: int,
half: bool,
iterative_prompt: bool,
chunk_length: int,
) -> None:
precision = torch.half if half else torch.bfloat16
if prompt_text is not None and len(prompt_text) != len(prompt_tokens):
raise ValueError(
f"Number of prompt text ({len(prompt_text)}) and prompt tokens ({len(prompt_tokens)}) should be the same"
)
logger.info("Loading model ...")
t0 = time.time()
model, decode_one_token = load_model(
checkpoint_path, device, precision, compile=compile
)
if torch.cuda.is_available():
torch.cuda.synchronize()
logger.info(f"Time to load model: {time.time() - t0:.02f} seconds")
if prompt_tokens is not None:
prompt_tokens = [torch.from_numpy(np.load(p)).to(device) for p in prompt_tokens]
torch.manual_seed(seed)
if torch.cuda.is_available():
torch.cuda.manual_seed(seed)
generator = generate_long(
model=model,
device=device,
decode_one_token=decode_one_token,
text=text,
num_samples=num_samples,
max_new_tokens=max_new_tokens,
top_p=top_p,
repetition_penalty=repetition_penalty,
temperature=temperature,
compile=compile,
iterative_prompt=iterative_prompt,
chunk_length=chunk_length,
prompt_text=prompt_text,
prompt_tokens=prompt_tokens,
)
idx = 0
codes = []
for response in generator:
if response.action == "sample":
codes.append(response.codes)
logger.info(f"Sampled text: {response.text}")
elif response.action == "next":
if codes:
np.save(f"codes_{idx}.npy", torch.cat(codes, dim=1).cpu().numpy())
logger.info(f"Saved codes to codes_{idx}.npy")
logger.info(f"Next sample")
codes = []
idx += 1
else:
logger.error(f"Error: {response}")
if __name__ == "__main__":
main()
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