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convert_legacy_llama.py
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convert_legacy_llama.py
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#!/usr/bin/env python3
from __future__ import annotations
import logging
import argparse
import concurrent.futures
import enum
import faulthandler
import functools
import itertools
import json
import math
import mmap
import os
import pickle
import re
import signal
import struct
import sys
import textwrap
import time
import zipfile
from abc import ABC, abstractmethod
from concurrent.futures import ProcessPoolExecutor, ThreadPoolExecutor
from dataclasses import dataclass
from pathlib import Path
from typing import TYPE_CHECKING, Any, Callable, IO, Iterable, Literal, TypeVar
import numpy as np
if 'NO_LOCAL_GGUF' not in os.environ:
# use .parent.parent since we are in "examples" directory
sys.path.insert(1, str(Path(__file__).parent.parent / 'gguf-py'))
import gguf
from gguf import BaseVocab, Vocab, NoVocab, BpeVocab, SentencePieceVocab, LlamaHfVocab
if TYPE_CHECKING:
from typing_extensions import Self, TypeAlias
logger = logging.getLogger("convert")
if hasattr(faulthandler, 'register') and hasattr(signal, 'SIGUSR1'):
faulthandler.register(signal.SIGUSR1)
NDArray: TypeAlias = 'np.ndarray[Any, Any]'
ARCH = gguf.MODEL_ARCH.LLAMA
DEFAULT_CONCURRENCY = 8
ADDED_TOKENS_FILE = 'added_tokens.json'
FAST_TOKENIZER_FILE = 'tokenizer.json'
#
# data types
#
@dataclass(frozen=True)
class DataType:
name: str
dtype: np.dtype[Any]
valid_conversions: list[str]
def elements_to_bytes(self, n_elements: int) -> int:
return n_elements * self.dtype.itemsize
@dataclass(frozen=True)
class UnquantizedDataType(DataType):
pass
DT_F16 = UnquantizedDataType('F16', dtype = np.dtype(np.float16), valid_conversions = ['F32', 'Q8_0'])
DT_F32 = UnquantizedDataType('F32', dtype = np.dtype(np.float32), valid_conversions = ['F16', 'Q8_0'])
DT_I32 = UnquantizedDataType('I32', dtype = np.dtype(np.int16), valid_conversions = [])
DT_BF16 = UnquantizedDataType('BF16', dtype = np.dtype(np.uint16), valid_conversions = ['F32', 'F16', 'Q8_0'])
@dataclass(frozen=True)
class QuantizedDataType(DataType):
block_size: int
quantized_dtype: np.dtype[Any]
ggml_type: gguf.GGMLQuantizationType
def quantize(self, arr: NDArray) -> NDArray:
raise NotImplementedError(f'Quantization for {self.name} not implemented')
def elements_to_bytes(self, n_elements: int) -> int:
assert n_elements % self.block_size == 0, f'Invalid number of elements {n_elements} for {self.name} with block size {self.block_size}'
return self.quantized_dtype.itemsize * (n_elements // self.block_size)
@dataclass(frozen=True)
class Q8_0QuantizedDataType(QuantizedDataType):
# Mini Q8_0 quantization in Python!
def quantize(self, arr: NDArray) -> NDArray:
assert arr.size % self.block_size == 0 and arr.size != 0, f'Bad array size {arr.size}'
assert arr.dtype == np.float32, f'Bad array type {arr.dtype}'
n_blocks = arr.size // self.block_size
blocks = arr.reshape((n_blocks, self.block_size))
# Much faster implementation of block quantization contributed by @Cebtenzzre
def quantize_blocks_q8_0(blocks: NDArray) -> Iterable[tuple[Any, Any]]:
d = abs(blocks).max(axis = 1) / np.float32(127)
with np.errstate(divide = 'ignore'):
qs = (blocks / d[:, None]).round()
qs[d == 0] = 0
yield from zip(d, qs)
return np.fromiter(quantize_blocks_q8_0(blocks), count = n_blocks, dtype = self.quantized_dtype)
DT_Q8_0 = Q8_0QuantizedDataType('Q8_0',
dtype = np.dtype(np.float32), valid_conversions = [],
ggml_type = gguf.GGMLQuantizationType.Q8_0, block_size = 32,
quantized_dtype = np.dtype([('d', '<f2'), ('qs', 'i1', (32,))]))
# Quantized types skipped here because they may also map to np.float32
NUMPY_TYPE_TO_DATA_TYPE: dict[np.dtype[Any], DataType] = {}
for dt in (DT_BF16, DT_F16, DT_F32, DT_I32):
if dt.dtype in NUMPY_TYPE_TO_DATA_TYPE:
raise ValueError(f'Invalid duplicate data type {dt}')
NUMPY_TYPE_TO_DATA_TYPE[dt.dtype] = dt
SAFETENSORS_DATA_TYPES: dict[str, DataType] = {
'BF16': DT_BF16,
'F16': DT_F16,
'F32': DT_F32,
'I32': DT_I32,
}
# TODO: match this with `llama_ftype`
# TODO: rename to LLAMAFileType
# TODO: move to `gguf.py`
class GGMLFileType(enum.IntEnum):
AllF32 = 0
MostlyF16 = 1 # except 1d tensors
MostlyQ8_0 = 7 # except 1d tensors
def type_for_tensor(self, name: str, tensor: LazyTensor) -> DataType:
dt = GGML_FILE_TYPE_TO_DATA_TYPE.get(self)
if dt is None:
raise ValueError(self)
# Convert all 1D tensors to F32. Most of the codebase that takes in 1D tensors only handles F32 tensors, and most of the outputs tensors are F32.
# Also The 1d tensors aren't much of a performance/size issue. So instead of having to have separate F32 and F16 implementations of both, just convert everything to F32 for now.
return dt if len(tensor.shape) > 1 else DT_F32
GGML_FILE_TYPE_TO_DATA_TYPE: dict[GGMLFileType, DataType] = {
GGMLFileType.AllF32 : DT_F32,
GGMLFileType.MostlyF16 : DT_F16,
GGMLFileType.MostlyQ8_0: DT_Q8_0,
}
#
# hparams loading
#
@dataclass
class Params:
n_vocab: int
n_embd: int
n_layer: int
n_ctx: int
n_ff: int
n_head: int
n_head_kv: int
n_experts: int | None = None
n_experts_used: int | None = None
f_norm_eps: float | None = None
rope_scaling_type: gguf.RopeScalingType | None = None
f_rope_freq_base: float | None = None
f_rope_scale: float | None = None
n_ctx_orig: int | None = None
rope_finetuned: bool | None = None
ftype: GGMLFileType | None = None
# path to the directory containing the model files
path_model: Path | None = None
@staticmethod
def guessed(model: LazyModel) -> Params:
# try transformer naming first
n_vocab, n_embd = model["model.embed_tokens.weight"].shape if "model.embed_tokens.weight" in model else model["tok_embeddings.weight"].shape
# try transformer naming first
if "model.layers.0.self_attn.q_proj.weight" in model:
n_layer = next(i for i in itertools.count() if f"model.layers.{i}.self_attn.q_proj.weight" not in model)
elif "model.layers.0.self_attn.W_pack.weight" in model: # next: try baichuan naming
n_layer = next(i for i in itertools.count() if f"model.layers.{i}.self_attn.W_pack.weight" not in model)
else:
n_layer = next(i for i in itertools.count() if f"layers.{i}.attention.wq.weight" not in model)
if n_layer < 1:
msg = """\
failed to guess 'n_layer'. This model is unknown or unsupported.
Suggestion: provide 'config.json' of the model in the same directory containing model files."""
raise KeyError(textwrap.dedent(msg))
n_head = n_embd // 128 # guessed
n_mult = 256 # guessed
# TODO: verify this
n_ff = int(2 * (4 * n_embd) / 3)
n_ff = n_mult * ((n_ff + n_mult - 1) // n_mult)
return Params(
n_vocab = n_vocab,
n_embd = n_embd,
n_layer = n_layer,
n_ctx = -1,
n_ff = n_ff,
n_head = n_head,
n_head_kv = n_head,
f_norm_eps = 1e-5,
)
@staticmethod
def loadHFTransformerJson(model: LazyModel, config_path: Path) -> Params:
with open(config_path) as f:
config = json.load(f)
rope_scaling_type = f_rope_scale = n_ctx_orig = rope_finetuned = None
rope_scaling = config.get("rope_scaling")
if rope_scaling is not None and (typ := rope_scaling.get("type")):
rope_factor = rope_scaling.get("factor")
f_rope_scale = rope_factor
if typ == "linear":
rope_scaling_type = gguf.RopeScalingType.LINEAR
elif typ == "yarn":
rope_scaling_type = gguf.RopeScalingType.YARN
n_ctx_orig = rope_scaling['original_max_position_embeddings']
rope_finetuned = rope_scaling['finetuned']
else:
raise NotImplementedError(f'Unknown rope scaling type: {typ}')
if "max_sequence_length" in config:
n_ctx = config["max_sequence_length"]
elif "max_position_embeddings" in config:
n_ctx = config["max_position_embeddings"]
else:
msg = """\
failed to guess 'n_ctx'. This model is unknown or unsupported.
Suggestion: provide 'config.json' of the model in the same directory containing model files."""
raise KeyError(textwrap.dedent(msg))
n_experts = None
n_experts_used = None
if "num_local_experts" in config:
n_experts = config["num_local_experts"]
n_experts_used = config["num_experts_per_tok"]
return Params(
n_vocab = config["vocab_size"],
n_embd = config["hidden_size"],
n_layer = config["num_hidden_layers"],
n_ctx = n_ctx,
n_ff = config["intermediate_size"],
n_head = (n_head := config["num_attention_heads"]),
n_head_kv = config.get("num_key_value_heads", n_head),
n_experts = n_experts,
n_experts_used = n_experts_used,
f_norm_eps = config["rms_norm_eps"],
f_rope_freq_base = config.get("rope_theta"),
rope_scaling_type = rope_scaling_type,
f_rope_scale = f_rope_scale,
n_ctx_orig = n_ctx_orig,
rope_finetuned = rope_finetuned,
)
# LLaMA v2 70B params.json
# {"dim": 8192, "multiple_of": 4096, "ffn_dim_multiplier": 1.3, "n_heads": 64, "n_kv_heads": 8, "n_layers": 80, "norm_eps": 1e-05, "vocab_size": -1}
@staticmethod
def loadOriginalParamsJson(model: LazyModel, config_path: Path) -> Params:
with open(config_path) as f:
config = json.load(f)
n_experts = None
n_experts_used = None
f_rope_freq_base = None
n_ff = None
# hack to determine LLaMA v1 vs v2 vs CodeLlama
if config.get("moe"):
# Mixtral
n_ctx = 32768
elif config.get("rope_theta") == 1000000:
# CodeLlama
n_ctx = 16384
elif config["norm_eps"] == 1e-05:
# LLaMA v2
n_ctx = 4096
else:
# LLaMA v1
n_ctx = 2048
if "layers.0.feed_forward.w1.weight" in model:
n_ff = model["layers.0.feed_forward.w1.weight"].shape[0]
if config.get("moe"):
n_ff = model["layers.0.feed_forward.experts.0.w1.weight"].shape[0]
n_experts = config["moe"]["num_experts"]
n_experts_used = config["moe"]["num_experts_per_tok"]
f_rope_freq_base = 1e6
assert n_ff is not None
return Params(
n_vocab = model["tok_embeddings.weight"].shape[0],
n_embd = config["dim"],
n_layer = config["n_layers"],
n_ctx = n_ctx,
n_ff = n_ff,
n_head = (n_head := config["n_heads"]),
n_head_kv = config.get("n_kv_heads", n_head),
n_experts = n_experts,
n_experts_used = n_experts_used,
f_norm_eps = config["norm_eps"],
f_rope_freq_base = config.get("rope_theta", f_rope_freq_base),
)
@staticmethod
def load(model_plus: ModelPlus) -> Params:
hf_config_path = model_plus.paths[0].parent / "config.json"
orig_config_path = model_plus.paths[0].parent / "params.json"
if hf_config_path.exists():
params = Params.loadHFTransformerJson(model_plus.model, hf_config_path)
elif orig_config_path.exists():
params = Params.loadOriginalParamsJson(model_plus.model, orig_config_path)
elif model_plus.format != 'none':
params = Params.guessed(model_plus.model)
else:
raise ValueError('Cannot guess params when model format is none')
params.path_model = model_plus.paths[0].parent
return params
#
# data loading
# TODO: reuse (probably move to gguf.py?)
#
def permute(weights: NDArray, n_head: int, n_head_kv: int) -> NDArray:
if n_head_kv is not None and n_head != n_head_kv:
n_head = n_head_kv
return (weights.reshape(n_head, 2, weights.shape[0] // n_head // 2, *weights.shape[1:])
.swapaxes(1, 2)
.reshape(weights.shape))
class Tensor(ABC):
ndarray: NDArray
data_type: DataType
@abstractmethod
def astype(self, data_type: DataType) -> Self: ...
@abstractmethod
def permute(self, n_head: int, n_head_kv: int) -> Self: ...
@abstractmethod
def permute_part(self, n_part: int, n_head: int, n_head_kv: int) -> Self: ...
@abstractmethod
def part(self, n_part: int) -> Self: ...
@abstractmethod
def to_ggml(self) -> GGMLCompatibleTensor: ...
def bf16_to_fp32(bf16_arr: np.ndarray[Any, np.dtype[np.uint16]]) -> NDArray:
assert bf16_arr.dtype == np.uint16, f"Input array should be of dtype uint16, but got {bf16_arr.dtype}"
fp32_arr = bf16_arr.astype(np.uint32) << 16
return fp32_arr.view(np.float32)
class UnquantizedTensor(Tensor):
def __init__(self, ndarray: NDArray):
assert isinstance(ndarray, np.ndarray)
self.ndarray = ndarray
self.data_type = NUMPY_TYPE_TO_DATA_TYPE[ndarray.dtype]
def astype(self, data_type: DataType) -> UnquantizedTensor:
dtype = data_type.dtype
if self.data_type == DT_BF16:
self.ndarray = bf16_to_fp32(self.ndarray)
return UnquantizedTensor(self.ndarray.astype(dtype))
def to_ggml(self) -> Self:
return self
def permute_part(self, n_part: int, n_head: int, n_head_kv: int) -> UnquantizedTensor:
r = self.ndarray.shape[0] // 3
return UnquantizedTensor(permute(self.ndarray[r * n_part : r * n_part + r, ...], n_head, n_head_kv))
def part(self, n_part: int) -> UnquantizedTensor:
r = self.ndarray.shape[0] // 3
return UnquantizedTensor(self.ndarray[r * n_part : r * n_part + r, ...])
def permute(self, n_head: int, n_head_kv: int) -> UnquantizedTensor:
return UnquantizedTensor(permute(self.ndarray, n_head, n_head_kv))
def load_unquantized(lazy_tensor: LazyTensor, expected_dtype: Any = None, convert: bool = False) -> NDArray:
tensor = lazy_tensor.load()
assert isinstance(tensor, UnquantizedTensor)
# double-check:
actual_shape = list(tensor.ndarray.shape)
assert actual_shape == lazy_tensor.shape, (actual_shape, lazy_tensor.shape)
if expected_dtype is not None and expected_dtype != tensor.ndarray.dtype:
if convert:
tensor.ndarray = tensor.ndarray.astype(expected_dtype)
else:
raise ValueError(f'expected this tensor to have dtype {expected_dtype}, got {tensor.ndarray.dtype}')
return tensor.ndarray
GGMLCompatibleTensor = UnquantizedTensor
@dataclass
class LazyTensor:
_load: Callable[[], Tensor]
shape: list[int]
data_type: DataType
description: str
def load(self) -> Tensor:
ret = self._load()
# Should be okay if it maps to the same numpy type?
assert ret.data_type == self.data_type or (self.data_type.dtype == ret.data_type.dtype), \
(self.data_type, ret.data_type, self.description)
return ret
def astype(self, data_type: DataType) -> LazyTensor:
self.validate_conversion_to(data_type)
def load() -> Tensor:
return self.load().astype(data_type)
return LazyTensor(load, self.shape, data_type, f'convert({data_type}) {self.description}')
def validate_conversion_to(self, data_type: DataType) -> None:
if data_type != self.data_type and data_type.name not in self.data_type.valid_conversions:
raise ValueError(f'Cannot validate conversion from {self.data_type} to {data_type}.')
LazyModel: TypeAlias = 'dict[str, LazyTensor]'
ModelFormat: TypeAlias = Literal['ggml', 'torch', 'safetensors', 'none']
@dataclass
class ModelPlus:
model: LazyModel
paths: list[Path] # Where this was read from.
format: ModelFormat
vocab: BaseVocab | None # For GGML models (which have vocab built in), the vocab.
def merge_sharded(models: list[LazyModel]) -> LazyModel:
# Original LLaMA models have each file contain one part of each tensor.
# Use a dict instead of a set to preserve order.
names = {name: None for model in models for name in model}
def convert(name: str) -> LazyTensor:
lazy_tensors = [model[name] for model in models]
if len(lazy_tensors) == 1:
# only one file; don't go through this procedure since there might
# be quantized tensors
return lazy_tensors[0]
if len(lazy_tensors[0].shape) == 1:
# the tensor is just duplicated in every file
return lazy_tensors[0]
if name.startswith('tok_embeddings.') or \
name.endswith('.attention.wo.weight') or \
name.endswith('.feed_forward.w2.weight'):
# split by columns
axis = 1
else:
# split by rows
axis = 0
concatenated_shape = list(lazy_tensors[0].shape)
concatenated_shape[axis] = sum(tensor.shape[axis] for tensor in lazy_tensors)
def load() -> UnquantizedTensor:
ndarrays = [load_unquantized(tensor) for tensor in lazy_tensors]
concatenated = np.concatenate(ndarrays, axis=axis)
return UnquantizedTensor(concatenated)
description = 'concatenated[[' + '] | ['.join(lt.description for lt in lazy_tensors) + ']]'
return LazyTensor(load, concatenated_shape, lazy_tensors[0].data_type, description)
return {name: convert(name) for name in names}
def merge_multifile_models(models_plus: list[ModelPlus]) -> ModelPlus:
formats: set[ModelFormat] = set(mp.format for mp in models_plus)
assert len(formats) == 1, "different formats?"
format = formats.pop()
paths = [path for mp in models_plus for path in mp.paths]
# Use the first non-None vocab, if any.
try:
vocab = next(mp.vocab for mp in models_plus if mp.vocab is not None)
except StopIteration:
vocab = None
if any("model.embed_tokens.weight" in mp.model for mp in models_plus):
# Transformers models put different tensors in different files, but
# don't split individual tensors between files.
model: LazyModel = {}
for mp in models_plus:
model.update(mp.model)
else:
model = merge_sharded([mp.model for mp in models_plus])
return ModelPlus(model, paths, format, vocab)
def permute_lazy(lazy_tensor: LazyTensor, n_head: int, n_head_kv: int) -> LazyTensor:
def load() -> Tensor:
return lazy_tensor.load().permute(n_head, n_head_kv)
return LazyTensor(load, lazy_tensor.shape, lazy_tensor.data_type, f'permute({n_head}, {n_head_kv}) ' + lazy_tensor.description)
def permute_part_lazy(lazy_tensor: LazyTensor, n_part: int, n_head: int, n_head_kv: int) -> LazyTensor:
def load() -> Tensor:
return lazy_tensor.load().permute_part(n_part, n_head, n_head_kv)
s = lazy_tensor.shape.copy()
s[0] = s[0] // 3
return LazyTensor(load, s, lazy_tensor.data_type, f'permute({n_head}, {n_head_kv}) ' + lazy_tensor.description)
def part_lazy(lazy_tensor: LazyTensor, n_part: int) -> LazyTensor:
def load() -> Tensor:
return lazy_tensor.load().part(n_part)
s = lazy_tensor.shape.copy()
s[0] = s[0] // 3
return LazyTensor(load, s, lazy_tensor.data_type, 'part ' + lazy_tensor.description)
def pack_experts_lazy(lazy_tensors: list[LazyTensor]) -> LazyTensor:
def load() -> Tensor:
tensors = [lazy_tensor.load() for lazy_tensor in lazy_tensors]
return UnquantizedTensor(np.array([tensor.ndarray for tensor in tensors]))
s = lazy_tensors[0].shape.copy()
s.insert(0, len(lazy_tensors))
return LazyTensor(load, s, lazy_tensors[0].data_type, 'pack_experts ' + ' | '.join(lt.description for lt in lazy_tensors))
# Functionality that simulates `torch.load` but where individual tensors are
# only loaded into memory on demand, not all at once.
# PyTorch can't do this natively as of time of writing:
# - https://github.com/pytorch/pytorch/issues/64327
# This allows us to de-shard without multiplying RAM usage, and also
# conveniently drops the PyTorch dependency (though we still need numpy).
@dataclass
class LazyStorageKind:
data_type: DataType
@dataclass
class LazyStorage:
load: Callable[[int, int], NDArray]
kind: LazyStorageKind
description: str
class LazyUnpickler(pickle.Unpickler):
def __init__(self, fp: IO[bytes], data_base_path: str, zip_file: zipfile.ZipFile):
super().__init__(fp)
self.data_base_path = data_base_path
self.zip_file = zip_file
def persistent_load(self, pid: Any) -> Any:
assert pid[0] == 'storage'
assert isinstance(pid[1], LazyStorageKind)
data_type = pid[1].data_type
filename_stem = pid[2]
filename = f'{self.data_base_path}/{filename_stem}'
info = self.zip_file.getinfo(filename)
def load(offset: int, elm_count: int) -> NDArray:
dtype = data_type.dtype
with self.zip_file.open(info) as fp:
fp.seek(offset * dtype.itemsize)
size = elm_count * dtype.itemsize
data = fp.read(size)
assert len(data) == size
return np.frombuffer(data, dtype)
description = f'storage data_type={data_type} path-in-zip={filename} path={self.zip_file.filename}'
return LazyStorage(load=load, kind=pid[1], description=description)
@staticmethod
def lazy_rebuild_tensor_v2(storage: Any, storage_offset: Any, size: Any, stride: Any,
requires_grad: Any, backward_hooks: Any, metadata: Any = None) -> LazyTensor:
assert isinstance(storage, LazyStorage)
def load() -> UnquantizedTensor:
elm_count = stride[0] * size[0]
return UnquantizedTensor(storage.load(storage_offset, elm_count).reshape(size))
description = f'pickled storage_offset={storage_offset} in {storage.description}'
return LazyTensor(load, list(size), storage.kind.data_type, description)
@staticmethod
def rebuild_from_type_v2(func, new_type, args, state):
return func(*args)
CLASSES: dict[tuple[str, str], type[LazyTensor] | LazyStorageKind] = {
# getattr used here as a workaround for mypy not being smart enough to determine
# the staticmethods have a __func__ attribute.
('torch._tensor', '_rebuild_from_type_v2'): getattr(rebuild_from_type_v2, '__func__'),
('torch._utils', '_rebuild_tensor_v2'): getattr(lazy_rebuild_tensor_v2, '__func__'),
('torch', 'BFloat16Storage'): LazyStorageKind(DT_BF16),
('torch', 'HalfStorage'): LazyStorageKind(DT_F16),
('torch', 'FloatStorage'): LazyStorageKind(DT_F32),
('torch', 'IntStorage'): LazyStorageKind(DT_I32),
('torch', 'Tensor'): LazyTensor,
}
def find_class(self, module: str, name: str) -> Any:
if not module.startswith('torch'):
return super().find_class(module, name)
return self.CLASSES[(module, name)]
def lazy_load_torch_file(outer_fp: IO[bytes], path: Path) -> ModelPlus:
zf = zipfile.ZipFile(outer_fp)
pickle_paths = [name for name in zf.namelist() if name.endswith('.pkl')]
assert len(pickle_paths) == 1, pickle_paths
pickle_fp = zf.open(pickle_paths[0], 'r')
unpickler = LazyUnpickler(pickle_fp,
data_base_path=pickle_paths[0][:-4],
zip_file=zf)
model = unpickler.load()
if 'model' in model: model = model['model']
as_dict = dict(model.items())
return ModelPlus(model=as_dict, paths=[path], format='torch', vocab=None)
def lazy_load_safetensors_file(fp: IO[bytes], path: Path) -> ModelPlus:
header_size, = struct.unpack('<Q', fp.read(8))
header: dict[str, dict[str, Any]] = json.loads(fp.read(header_size))
# Use mmap for the actual data to avoid race conditions with the file offset.
mapped = memoryview(mmap.mmap(fp.fileno(), 0, access=mmap.ACCESS_READ))
byte_buf = mapped[8 + header_size:]
def convert(info: dict[str, Any]) -> LazyTensor:
data_type = SAFETENSORS_DATA_TYPES[info['dtype']]
numpy_dtype = data_type.dtype
shape: list[int] = info['shape']
begin, end = info['data_offsets']
assert 0 <= begin <= end <= len(byte_buf)
assert end - begin == math.prod(shape) * numpy_dtype.itemsize
buf = byte_buf[begin:end]
def load() -> UnquantizedTensor:
return UnquantizedTensor(np.frombuffer(buf, dtype=numpy_dtype).reshape(shape))
description = f'safetensors begin={begin} end={end} type={data_type} path={path}'
return LazyTensor(load, shape, data_type, description)
model = {name: convert(info) for (name, info) in header.items() if name != '__metadata__'}
return ModelPlus(model=model, paths=[path], format='safetensors', vocab=None)
def must_read(fp: IO[bytes], length: int) -> bytes:
ret = fp.read(length)
if len(ret) < length:
raise EOFError("unexpectedly reached end of file")
return ret
@functools.lru_cache(maxsize=None)
def lazy_load_file(path: Path) -> ModelPlus:
fp = open(path, 'rb')
first8 = fp.read(8)
fp.seek(0)
if first8[:2] == b'PK':
# A zip file, i.e. PyTorch format
return lazy_load_torch_file(fp, path)
elif struct.unpack('<Q', first8)[0] < 16 * 1024 * 1024:
# Probably safetensors
return lazy_load_safetensors_file(fp, path)
else:
raise ValueError(f"unknown format: {path}")
In = TypeVar('In')
Out = TypeVar('Out')
def bounded_parallel_map(func: Callable[[In], Out], iterable: Iterable[In], concurrency: int, max_workers: int | None = None, use_processpool_executor: bool = False) -> Iterable[Out]:
'''Parallel map, but with backpressure. If the caller doesn't call `next`
fast enough, this will stop calling `func` at some point rather than
letting results pile up in memory. Specifically, there is a max of one
output value buffered per thread.'''
if concurrency < 2:
yield from map(func, iterable)
# Not reached.
iterable = iter(iterable)
executor_class: type[ThreadPoolExecutor] | type[ProcessPoolExecutor]
if use_processpool_executor:
executor_class = ProcessPoolExecutor
else:
executor_class = ThreadPoolExecutor
with executor_class(max_workers=max_workers) as executor:
futures: list[concurrent.futures.Future[Out]] = []
done = False
for _ in range(concurrency):
try:
futures.append(executor.submit(func, next(iterable)))
except StopIteration:
done = True
break
while futures:
result = futures.pop(0).result()
while not done and len(futures) < concurrency:
try:
futures.append(executor.submit(func, next(iterable)))
except StopIteration:
done = True
break
yield result
def check_vocab_size(params: Params, vocab: BaseVocab, pad_vocab: bool = False) -> None:
# Handle special case where the model's vocab size is not set
if params.n_vocab == -1:
raise ValueError(
"The model's vocab size is set to -1 in params.json. Please update it manually."
+ (f" Maybe {vocab.vocab_size}?" if isinstance(vocab, Vocab) else ""),
)
if not isinstance(vocab, Vocab):
return # model has no vocab
# Check for a vocab size mismatch
if params.n_vocab == vocab.vocab_size:
logger.warning("Ignoring added_tokens.json since model matches vocab size without it.")
return
if pad_vocab and params.n_vocab > vocab.vocab_size:
pad_count = params.n_vocab - vocab.vocab_size
logger.debug(
f"Padding vocab with {pad_count} token(s) - <dummy00001> through <dummy{pad_count:05}>"
)
for i in range(1, pad_count + 1):
vocab.added_tokens_dict[f"<dummy{i:05}>"] = -1
vocab.added_tokens_list.append(f"<dummy{i:05}>")
vocab.vocab_size = params.n_vocab
return
msg = f"Vocab size mismatch (model has {params.n_vocab}, but {vocab.fname_tokenizer} has {vocab.vocab_size})."
if vocab.vocab_size < params.n_vocab < vocab.vocab_size + 20:
msg += f" Most likely you are missing added_tokens.json (should be in {vocab.fname_tokenizer.parent})."
if vocab.vocab_size < params.n_vocab:
msg += " Add the --pad-vocab option and try again."
raise ValueError(msg)
class OutputFile:
def __init__(self, fname_out: Path, endianess:gguf.GGUFEndian = gguf.GGUFEndian.LITTLE):
self.gguf = gguf.GGUFWriter(fname_out, gguf.MODEL_ARCH_NAMES[ARCH], endianess=endianess)
def add_meta_model(self, params: Params, metadata: gguf.Metadata | None) -> None:
# Metadata About The Model And Its Provenence
name = "LLaMA"
if metadata is not None and metadata.name is not None:
name = metadata.name
elif params.path_model is not None:
name = params.path_model.name
elif params.n_ctx == 4096:
# Heuristic detection of LLaMA v2 model
name = "LLaMA v2"
self.gguf.add_name(name)
if metadata is not None:
if metadata.author is not None:
self.gguf.add_author(metadata.author)
if metadata.version is not None:
self.gguf.add_version(metadata.version)
if metadata.organization is not None:
self.gguf.add_organization(metadata.organization)
if metadata.finetune is not None:
self.gguf.add_finetune(metadata.finetune)
if metadata.basename is not None:
self.gguf.add_basename(metadata.basename)
if metadata.description is not None:
self.gguf.add_description(metadata.description)
if metadata.quantized_by is not None:
self.gguf.add_quantized_by(metadata.quantized_by)
if metadata.size_label is not None:
self.gguf.add_size_label(metadata.size_label)
if metadata.license is not None:
self.gguf.add_license(metadata.license)
if metadata.license_name is not None:
self.gguf.add_license_name(metadata.license_name)
if metadata.license_link is not None:
self.gguf.add_license_link(metadata.license_link)
if metadata.url is not None:
self.gguf.add_url(metadata.url)
if metadata.doi is not None:
self.gguf.add_doi(metadata.doi)
if metadata.uuid is not None:
self.gguf.add_uuid(metadata.uuid)
if metadata.repo_url is not None:
self.gguf.add_repo_url(metadata.repo_url)
if metadata.source_url is not None:
self.gguf.add_source_url(metadata.source_url)
if metadata.source_doi is not None:
self.gguf.add_source_doi(metadata.source_doi)
if metadata.source_uuid is not None:
self.gguf.add_source_uuid(metadata.source_uuid)
if metadata.source_repo_url is not None:
self.gguf.add_source_repo_url(metadata.source_repo_url)
if metadata.base_models is not None:
self.gguf.add_base_model_count(len(metadata.base_models))
for key, base_model_entry in enumerate(metadata.base_models):
if "name" in base_model_entry:
self.gguf.add_base_model_name(key, base_model_entry["name"])
if "author" in base_model_entry:
self.gguf.add_base_model_author(key, base_model_entry["author"])
if "version" in base_model_entry:
self.gguf.add_base_model_version(key, base_model_entry["version"])
if "organization" in base_model_entry:
self.gguf.add_base_model_organization(key, base_model_entry["organization"])
if "url" in base_model_entry:
self.gguf.add_base_model_url(key, base_model_entry["url"])
if "doi" in base_model_entry:
self.gguf.add_base_model_doi(key, base_model_entry["doi"])
if "uuid" in base_model_entry:
self.gguf.add_base_model_uuid(key, base_model_entry["uuid"])
if "repo_url" in base_model_entry:
self.gguf.add_base_model_repo_url(key, base_model_entry["repo_url"])
if metadata.tags is not None:
self.gguf.add_tags(metadata.tags)
if metadata.languages is not None:
self.gguf.add_languages(metadata.languages)
if metadata.datasets is not None:
self.gguf.add_datasets(metadata.datasets)
def add_meta_arch(self, params: Params) -> None:
# Metadata About The Neural Architecture Itself
self.gguf.add_vocab_size(params.n_vocab)
self.gguf.add_context_length(params.n_ctx)
self.gguf.add_embedding_length(params.n_embd)
self.gguf.add_block_count(params.n_layer)
self.gguf.add_feed_forward_length(params.n_ff)
self.gguf.add_rope_dimension_count(params.n_embd // params.n_head)
self.gguf.add_head_count (params.n_head)
self.gguf.add_head_count_kv (params.n_head_kv)
if params.n_experts:
self.gguf.add_expert_count(params.n_experts)
if params.n_experts_used:
self.gguf.add_expert_used_count(params.n_experts_used)
if params.f_norm_eps:
self.gguf.add_layer_norm_rms_eps(params.f_norm_eps)
else:
raise ValueError('f_norm_eps is None')
if params.f_rope_freq_base is not None:
self.gguf.add_rope_freq_base(params.f_rope_freq_base)
if params.rope_scaling_type:
assert params.f_rope_scale is not None
self.gguf.add_rope_scaling_type(params.rope_scaling_type)
self.gguf.add_rope_scaling_factor(params.f_rope_scale)
if params.n_ctx_orig is not None:
self.gguf.add_rope_scaling_orig_ctx_len(params.n_ctx_orig)
if params.rope_finetuned is not None:
self.gguf.add_rope_scaling_finetuned(params.rope_finetuned)
if params.ftype is not None:
self.gguf.add_file_type(params.ftype)
def extract_vocabulary_from_model(self, vocab: Vocab) -> tuple[list[bytes], list[float], list[gguf.TokenType]]:
tokens = []
scores = []
toktypes = []
# NOTE: `all_tokens` returns the base vocabulary and added tokens
for text, score, toktype in vocab.all_tokens():
tokens.append(text)
scores.append(score)
toktypes.append(toktype)
assert len(tokens) == vocab.vocab_size
return tokens, scores, toktypes
def add_meta_vocab(self, vocab: Vocab) -> None:
# Ensure that tokenizer_model is added to the GGUF model
self.gguf.add_tokenizer_model(vocab.tokenizer_model)
# Extract model vocabulary for model conversion
tokens, scores, toktypes = self.extract_vocabulary_from_model(vocab)
# Add extracted token information for model conversion
self.gguf.add_token_list(tokens)
self.gguf.add_token_scores(scores)
self.gguf.add_token_types(toktypes)
def add_meta_special_vocab(self, svocab: gguf.SpecialVocab) -> None:
svocab.add_to_gguf(self.gguf)
def add_tensor_info(self, name: str, tensor: LazyTensor) -> None:
n_elements = int(np.prod(tensor.shape))
raw_dtype = getattr(tensor.data_type, 'ggml_type', None)
data_type = getattr(tensor.data_type, 'quantized_type', None) or tensor.data_type.dtype
data_nbytes = tensor.data_type.elements_to_bytes(n_elements)
self.gguf.add_tensor_info(name, tensor.shape, data_type, data_nbytes, raw_dtype=raw_dtype)
def write_meta(self) -> None:
self.gguf.write_header_to_file()
self.gguf.write_kv_data_to_file()
def write_tensor_info(self) -> None:
self.gguf.write_ti_data_to_file()
def write_tensor_data(self, ftype: GGMLFileType, model: LazyModel, concurrency: int) -> None:
ndarrays_inner = bounded_parallel_map(OutputFile.do_item, model.items(), concurrency=concurrency)
if ftype == GGMLFileType.MostlyQ8_0:
ndarrays = bounded_parallel_map(
OutputFile.maybe_do_quantize, ndarrays_inner, concurrency=concurrency, max_workers=concurrency,
use_processpool_executor=True,
)
else:
ndarrays = map(OutputFile.maybe_do_quantize, ndarrays_inner)
start = time.time()
for i, ((name, lazy_tensor), ndarray) in enumerate(zip(model.items(), ndarrays)):
elapsed = time.time() - start
size = ' x '.join(f"{dim:6d}" for dim in lazy_tensor.shape)
padi = len(str(len(model)))
logger.info(
f"[{i + 1:{padi}d}/{len(model)}] Writing tensor {name:38s} | size {size:16} | type {lazy_tensor.data_type.name:4} | T+{int(elapsed):4}"
)
self.gguf.write_tensor_data(ndarray)
def close(self) -> None:
self.gguf.close()
@staticmethod
def write_vocab_only(
fname_out: Path, params: Params, vocab: Vocab, svocab: gguf.SpecialVocab,
endianess: gguf.GGUFEndian = gguf.GGUFEndian.LITTLE, pad_vocab: bool = False, metadata: gguf.Metadata | None = None,
) -> None:
check_vocab_size(params, vocab, pad_vocab=pad_vocab)
of = OutputFile(fname_out, endianess=endianess)
# meta data
of.add_meta_model(params, metadata)
of.add_meta_arch(params)
of.add_meta_vocab(vocab)
of.add_meta_special_vocab(svocab)
of.write_meta()
of.close()
@staticmethod
def do_item(item: tuple[str, LazyTensor]) -> tuple[DataType, NDArray]:
name, lazy_tensor = item
tensor = lazy_tensor.load().to_ggml()
return (lazy_tensor.data_type, tensor.ndarray)
@staticmethod
def maybe_do_quantize(item: tuple[DataType, NDArray]) -> NDArray:
dt, arr = item
if not isinstance(dt, QuantizedDataType):
return arr
return dt.quantize(arr)
@staticmethod
def write_all(
fname_out: Path, ftype: GGMLFileType, params: Params, model: LazyModel, vocab: BaseVocab, svocab: gguf.SpecialVocab,
concurrency: int = DEFAULT_CONCURRENCY, endianess: gguf.GGUFEndian = gguf.GGUFEndian.LITTLE,