mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-11-15 07:19:53 +00:00
9a913110cf
* convert chameleon hf to gguf * add chameleon tokenizer tests * fix lint * implement chameleon graph * add swin norm param * return qk norm weights and biases to original format * implement swin norm * suppress image token output * rem tabs * add comment to conversion * fix ci * check for k norm separately * adapt to new lora implementation * fix layer input for swin norm * move swin_norm in gguf writer * add comment regarding special token regex in chameleon pre-tokenizer * Update src/llama.cpp Co-authored-by: compilade <git@compilade.net> * fix punctuation regex in chameleon pre-tokenizer (@compilade) Co-authored-by: compilade <git@compilade.net> * fix lint * trigger ci --------- Co-authored-by: compilade <git@compilade.net>
913 lines
35 KiB
Python
913 lines
35 KiB
Python
from __future__ import annotations
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import logging
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import os
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import shutil
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import struct
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import tempfile
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from dataclasses import dataclass
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from enum import Enum, auto
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from math import prod
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from pathlib import Path
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from io import BufferedWriter
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from typing import IO, Any, Sequence, Mapping
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from string import ascii_letters, digits
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import numpy as np
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from .constants import (
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GGUF_DEFAULT_ALIGNMENT,
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GGUF_MAGIC,
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GGUF_VERSION,
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GGMLQuantizationType,
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GGUFEndian,
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GGUFValueType,
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Keys,
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RopeScalingType,
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PoolingType,
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TokenType,
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)
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from .quants import quant_shape_from_byte_shape
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logger = logging.getLogger(__name__)
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SHARD_NAME_FORMAT = "{:s}-{:05d}-of-{:05d}.gguf"
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@dataclass
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class TensorInfo:
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shape: Sequence[int]
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dtype: GGMLQuantizationType
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nbytes: int
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tensor: np.ndarray[Any, Any] | None = None
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@dataclass
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class GGUFValue:
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value: Any
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type: GGUFValueType
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class WriterState(Enum):
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NO_FILE = auto()
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EMPTY = auto()
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HEADER = auto()
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KV_DATA = auto()
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TI_DATA = auto()
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WEIGHTS = auto()
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class GGUFWriter:
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fout: list[BufferedWriter] | None
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path: Path | None
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temp_file: tempfile.SpooledTemporaryFile[bytes] | None
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tensors: list[dict[str, TensorInfo]]
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kv_data: list[dict[str, GGUFValue]]
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state: WriterState
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_simple_value_packing = {
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GGUFValueType.UINT8: "B",
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GGUFValueType.INT8: "b",
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GGUFValueType.UINT16: "H",
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GGUFValueType.INT16: "h",
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GGUFValueType.UINT32: "I",
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GGUFValueType.INT32: "i",
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GGUFValueType.FLOAT32: "f",
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GGUFValueType.UINT64: "Q",
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GGUFValueType.INT64: "q",
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GGUFValueType.FLOAT64: "d",
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GGUFValueType.BOOL: "?",
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}
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def __init__(
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self, path: os.PathLike[str] | str | None, arch: str, use_temp_file: bool = False, endianess: GGUFEndian = GGUFEndian.LITTLE,
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split_max_tensors: int = 0, split_max_size: int = 0, dry_run: bool = False, small_first_shard: bool = False
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):
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self.fout = None
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self.path = Path(path) if path else None
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self.arch = arch
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self.endianess = endianess
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self.data_alignment = GGUF_DEFAULT_ALIGNMENT
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self.use_temp_file = use_temp_file
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self.temp_file = None
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self.tensors = [{}]
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self.kv_data = [{}]
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self.split_max_tensors = split_max_tensors
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self.split_max_size = split_max_size
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self.dry_run = dry_run
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self.small_first_shard = small_first_shard
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logger.info("gguf: This GGUF file is for {0} Endian only".format(
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"Big" if self.endianess == GGUFEndian.BIG else "Little",
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))
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self.state = WriterState.NO_FILE
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if self.small_first_shard:
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self.tensors.append({})
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self.add_architecture()
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def get_total_parameter_count(self) -> tuple[int, int, int, int]:
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total_params = 0
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shared_params = 0
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expert_params = 0
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expert_sum = 0
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n_expert_tensors = 0
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last_lora_a: tuple[str, TensorInfo] | None = None
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for tensors in self.tensors:
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for name, info in tensors.items():
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shape = info.shape
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if name.endswith(".lora_a"):
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last_lora_a = (name, info)
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continue
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elif name.endswith(".lora_b"):
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if last_lora_a is None or last_lora_a[0] != name[:-1] + "a":
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# Bail when the LoRA pair can't be found trivially
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logger.warning("can't measure LoRA size correctly, tensor order is unusual")
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return 0, 0, 0, 0
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else:
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shape = (*shape[:-1], last_lora_a[1].shape[-1])
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size = prod(shape)
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if "_exps." in name:
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expert_params += (size // shape[-3])
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expert_sum += shape[-3]
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n_expert_tensors += 1
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else:
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shared_params += size
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total_params += size
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# Hopefully this should work even for variable-expert-count models
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expert_count = (expert_sum // n_expert_tensors) if n_expert_tensors > 0 else 0
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# Negate the total to signal it's likely not exact
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if last_lora_a is not None:
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total_params = -total_params
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# NOTE: keep the output in the same order as accepted by 'size_label' in gguf-py/gguf/utility.py
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return total_params, shared_params, expert_params, expert_count
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def format_shard_names(self, path: Path) -> list[Path]:
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if len(self.tensors) == 1:
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return [path]
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return [path.with_name(SHARD_NAME_FORMAT.format(path.stem, i + 1, len(self.tensors))) for i in range(len(self.tensors))]
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def open_output_file(self, path: Path | None = None) -> None:
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if self.state is WriterState.EMPTY and self.fout is not None and (path is None or path == self.path):
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# allow calling this multiple times as long as the path is the same
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return
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if self.state is not WriterState.NO_FILE:
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raise ValueError(f'Expected output file to be not yet opened, got {self.state}')
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if path is not None:
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self.path = path
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if self.path is not None:
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filenames = self.print_plan()
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self.fout = [open(filename, "wb") for filename in filenames]
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self.state = WriterState.EMPTY
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def print_plan(self) -> list[Path]:
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logger.info("Writing the following files:")
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assert self.path is not None
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filenames = self.format_shard_names(self.path)
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assert len(filenames) == len(self.tensors)
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for name, tensors in zip(filenames, self.tensors):
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logger.info(f"{name}: n_tensors = {len(tensors)}, total_size = {GGUFWriter.format_n_bytes_to_str(sum(ti.nbytes for ti in tensors.values()))}")
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if self.dry_run:
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logger.info("Dry run, not writing files")
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for name in filenames:
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print(name) # noqa: NP100
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exit()
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return filenames
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def add_shard_kv_data(self) -> None:
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if len(self.tensors) == 1:
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return
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total_tensors = sum(len(t) for t in self.tensors)
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assert self.fout is not None
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total_splits = len(self.fout)
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self.kv_data.extend({} for _ in range(len(self.kv_data), total_splits))
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for i, kv_data in enumerate(self.kv_data):
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kv_data[Keys.Split.LLM_KV_SPLIT_NO] = GGUFValue(i, GGUFValueType.UINT16)
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kv_data[Keys.Split.LLM_KV_SPLIT_COUNT] = GGUFValue(total_splits, GGUFValueType.UINT16)
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kv_data[Keys.Split.LLM_KV_SPLIT_TENSORS_COUNT] = GGUFValue(total_tensors, GGUFValueType.INT32)
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def write_header_to_file(self, path: Path | None = None) -> None:
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if len(self.tensors) == 1 and (self.split_max_tensors != 0 or self.split_max_size != 0):
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logger.warning("Model fails split requirements, not splitting")
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self.open_output_file(path)
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if self.state is not WriterState.EMPTY:
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raise ValueError(f'Expected output file to be empty, got {self.state}')
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assert self.fout is not None
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assert len(self.fout) == len(self.tensors)
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assert len(self.kv_data) == 1
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self.add_shard_kv_data()
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for fout, tensors, kv_data in zip(self.fout, self.tensors, self.kv_data):
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fout.write(self._pack("<I", GGUF_MAGIC, skip_pack_prefix = True))
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fout.write(self._pack("I", GGUF_VERSION))
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fout.write(self._pack("Q", len(tensors)))
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fout.write(self._pack("Q", len(kv_data)))
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fout.flush()
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self.state = WriterState.HEADER
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def write_kv_data_to_file(self) -> None:
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if self.state is not WriterState.HEADER:
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raise ValueError(f'Expected output file to contain the header, got {self.state}')
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assert self.fout is not None
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for fout, kv_data in zip(self.fout, self.kv_data):
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kv_bytes = bytearray()
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for key, val in kv_data.items():
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kv_bytes += self._pack_val(key, GGUFValueType.STRING, add_vtype=False)
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kv_bytes += self._pack_val(val.value, val.type, add_vtype=True)
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fout.write(kv_bytes)
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self.flush()
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self.state = WriterState.KV_DATA
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def write_ti_data_to_file(self) -> None:
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if self.state is not WriterState.KV_DATA:
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raise ValueError(f'Expected output file to contain KV data, got {self.state}')
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assert self.fout is not None
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for fout, tensors in zip(self.fout, self.tensors):
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ti_data = bytearray()
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offset_tensor = 0
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for name, ti in tensors.items():
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ti_data += self._pack_val(name, GGUFValueType.STRING, add_vtype=False)
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n_dims = len(ti.shape)
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ti_data += self._pack("I", n_dims)
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for j in range(n_dims):
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ti_data += self._pack("Q", ti.shape[n_dims - 1 - j])
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ti_data += self._pack("I", ti.dtype)
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ti_data += self._pack("Q", offset_tensor)
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offset_tensor += GGUFWriter.ggml_pad(ti.nbytes, self.data_alignment)
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fout.write(ti_data)
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fout.flush()
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self.state = WriterState.TI_DATA
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def add_key_value(self, key: str, val: Any, vtype: GGUFValueType) -> None:
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if any(key in kv_data for kv_data in self.kv_data):
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raise ValueError(f'Duplicated key name {key!r}')
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self.kv_data[0][key] = GGUFValue(value=val, type=vtype)
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def add_uint8(self, key: str, val: int) -> None:
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self.add_key_value(key,val, GGUFValueType.UINT8)
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def add_int8(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.INT8)
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def add_uint16(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.UINT16)
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def add_int16(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.INT16)
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def add_uint32(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.UINT32)
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def add_int32(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.INT32)
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def add_float32(self, key: str, val: float) -> None:
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self.add_key_value(key, val, GGUFValueType.FLOAT32)
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def add_uint64(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.UINT64)
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def add_int64(self, key: str, val: int) -> None:
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self.add_key_value(key, val, GGUFValueType.INT64)
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def add_float64(self, key: str, val: float) -> None:
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self.add_key_value(key, val, GGUFValueType.FLOAT64)
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def add_bool(self, key: str, val: bool) -> None:
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self.add_key_value(key, val, GGUFValueType.BOOL)
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def add_string(self, key: str, val: str) -> None:
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if not val:
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return
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self.add_key_value(key, val, GGUFValueType.STRING)
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def add_array(self, key: str, val: Sequence[Any]) -> None:
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if len(val) == 0:
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return
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self.add_key_value(key, val, GGUFValueType.ARRAY)
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@staticmethod
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def ggml_pad(x: int, n: int) -> int:
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return ((x + n - 1) // n) * n
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def add_tensor_info(
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self, name: str, tensor_shape: Sequence[int], tensor_dtype: np.dtype,
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tensor_nbytes: int, raw_dtype: GGMLQuantizationType | None = None,
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) -> None:
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if self.state is not WriterState.NO_FILE:
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raise ValueError(f'Expected output file to be not yet opened, got {self.state}')
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if any(name in tensors for tensors in self.tensors):
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raise ValueError(f'Duplicated tensor name {name!r}')
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if raw_dtype is None:
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if tensor_dtype == np.float16:
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dtype = GGMLQuantizationType.F16
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elif tensor_dtype == np.float32:
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dtype = GGMLQuantizationType.F32
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elif tensor_dtype == np.float64:
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dtype = GGMLQuantizationType.F64
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elif tensor_dtype == np.int8:
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dtype = GGMLQuantizationType.I8
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elif tensor_dtype == np.int16:
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dtype = GGMLQuantizationType.I16
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elif tensor_dtype == np.int32:
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dtype = GGMLQuantizationType.I32
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elif tensor_dtype == np.int64:
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dtype = GGMLQuantizationType.I64
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else:
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raise ValueError("Only F16, F32, F64, I8, I16, I32, I64 tensors are supported for now")
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else:
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dtype = raw_dtype
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if tensor_dtype == np.uint8:
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tensor_shape = quant_shape_from_byte_shape(tensor_shape, raw_dtype)
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# make sure there is at least one tensor before splitting
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if len(self.tensors[-1]) > 0:
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if ( # split when over tensor limit
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self.split_max_tensors != 0
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and len(self.tensors[-1]) >= self.split_max_tensors
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) or ( # split when over size limit
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self.split_max_size != 0
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and sum(ti.nbytes for ti in self.tensors[-1].values()) + tensor_nbytes > self.split_max_size
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):
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self.tensors.append({})
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self.tensors[-1][name] = TensorInfo(shape=tensor_shape, dtype=dtype, nbytes=tensor_nbytes)
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def add_tensor(
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self, name: str, tensor: np.ndarray[Any, Any], raw_shape: Sequence[int] | None = None,
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raw_dtype: GGMLQuantizationType | None = None,
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) -> None:
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if self.endianess == GGUFEndian.BIG:
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tensor.byteswap(inplace=True)
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if self.use_temp_file and self.temp_file is None:
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fp = tempfile.SpooledTemporaryFile(mode="w+b", max_size=256 * 1024 * 1024)
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fp.seek(0)
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self.temp_file = fp
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shape: Sequence[int] = raw_shape if raw_shape is not None else tensor.shape
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self.add_tensor_info(name, shape, tensor.dtype, tensor.nbytes, raw_dtype=raw_dtype)
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if self.temp_file is None:
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self.tensors[-1][name].tensor = tensor
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return
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tensor.tofile(self.temp_file)
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self.write_padding(self.temp_file, tensor.nbytes)
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def write_padding(self, fp: IO[bytes], n: int, align: int | None = None) -> None:
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pad = GGUFWriter.ggml_pad(n, align if align is not None else self.data_alignment) - n
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if pad != 0:
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fp.write(bytes([0] * pad))
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def write_tensor_data(self, tensor: np.ndarray[Any, Any]) -> None:
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if self.state is not WriterState.TI_DATA and self.state is not WriterState.WEIGHTS:
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raise ValueError(f'Expected output file to contain tensor info or weights, got {self.state}')
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assert self.fout is not None
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if self.endianess == GGUFEndian.BIG:
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tensor.byteswap(inplace=True)
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file_id = -1
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for i, tensors in enumerate(self.tensors):
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if len(tensors) > 0:
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file_id = i
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break
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fout = self.fout[file_id]
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# pop the first tensor info
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# TODO: cleaner way to get the first key
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first_tensor_name = [name for name, _ in zip(self.tensors[file_id].keys(), range(1))][0]
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ti = self.tensors[file_id].pop(first_tensor_name)
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assert ti.nbytes == tensor.nbytes
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self.write_padding(fout, fout.tell())
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tensor.tofile(fout)
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self.write_padding(fout, tensor.nbytes)
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self.state = WriterState.WEIGHTS
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def write_tensors_to_file(self, *, progress: bool = False) -> None:
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self.write_ti_data_to_file()
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assert self.fout is not None
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for fout in self.fout:
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self.write_padding(fout, fout.tell())
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if self.temp_file is None:
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shard_bar = None
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bar = None
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if progress:
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from tqdm import tqdm
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total_bytes = sum(ti.nbytes for t in self.tensors for ti in t.values())
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if len(self.fout) > 1:
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shard_bar = tqdm(desc=f"Shard (0/{len(self.fout)})", total=None, unit="byte", unit_scale=True)
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bar = tqdm(desc="Writing", total=total_bytes, unit="byte", unit_scale=True)
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for i, (fout, tensors) in enumerate(zip(self.fout, self.tensors)):
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if shard_bar is not None:
|
|
shard_bar.set_description(f"Shard ({i + 1}/{len(self.fout)})")
|
|
total = sum(ti.nbytes for ti in tensors.values())
|
|
shard_bar.reset(total=(total if total > 0 else None))
|
|
|
|
# relying on the fact that Python dicts preserve insertion order (since 3.7)
|
|
for ti in tensors.values():
|
|
assert ti.tensor is not None # can only iterate once over the tensors
|
|
assert ti.tensor.nbytes == ti.nbytes
|
|
ti.tensor.tofile(fout)
|
|
if shard_bar is not None:
|
|
shard_bar.update(ti.nbytes)
|
|
if bar is not None:
|
|
bar.update(ti.nbytes)
|
|
self.write_padding(fout, ti.nbytes)
|
|
ti.tensor = None
|
|
else:
|
|
self.temp_file.seek(0)
|
|
|
|
shutil.copyfileobj(self.temp_file, self.fout[0 if not self.small_first_shard else 1])
|
|
self.flush()
|
|
self.temp_file.close()
|
|
|
|
self.state = WriterState.WEIGHTS
|
|
|
|
def flush(self) -> None:
|
|
assert self.fout is not None
|
|
for fout in self.fout:
|
|
fout.flush()
|
|
|
|
def close(self) -> None:
|
|
if self.fout is not None:
|
|
for fout in self.fout:
|
|
fout.close()
|
|
self.fout = None
|
|
|
|
def add_type(self, type_name: str) -> None:
|
|
self.add_string(Keys.General.TYPE, type_name)
|
|
|
|
def add_architecture(self) -> None:
|
|
self.add_string(Keys.General.ARCHITECTURE, self.arch)
|
|
|
|
def add_quantization_version(self, quantization_version: int) -> None:
|
|
self.add_uint32(Keys.General.QUANTIZATION_VERSION, quantization_version)
|
|
|
|
def add_custom_alignment(self, alignment: int) -> None:
|
|
self.data_alignment = alignment
|
|
self.add_uint32(Keys.General.ALIGNMENT, alignment)
|
|
|
|
def add_file_type(self, ftype: int) -> None:
|
|
self.add_uint32(Keys.General.FILE_TYPE, ftype)
|
|
|
|
def add_name(self, name: str) -> None:
|
|
self.add_string(Keys.General.NAME, name)
|
|
|
|
def add_author(self, author: str) -> None:
|
|
self.add_string(Keys.General.AUTHOR, author)
|
|
|
|
def add_version(self, version: str) -> None:
|
|
self.add_string(Keys.General.VERSION, version)
|
|
|
|
def add_organization(self, organization: str) -> None:
|
|
self.add_string(Keys.General.ORGANIZATION, organization)
|
|
|
|
def add_finetune(self, finetune: str) -> None:
|
|
self.add_string(Keys.General.FINETUNE, finetune)
|
|
|
|
def add_basename(self, basename: str) -> None:
|
|
self.add_string(Keys.General.BASENAME, basename)
|
|
|
|
def add_description(self, description: str) -> None:
|
|
self.add_string(Keys.General.DESCRIPTION, description)
|
|
|
|
def add_quantized_by(self, quantized: str) -> None:
|
|
self.add_string(Keys.General.QUANTIZED_BY, quantized)
|
|
|
|
def add_size_label(self, size_label: str) -> None:
|
|
self.add_string(Keys.General.SIZE_LABEL, size_label)
|
|
|
|
def add_license(self, license: str) -> None:
|
|
self.add_string(Keys.General.LICENSE, license)
|
|
|
|
def add_license_name(self, license: str) -> None:
|
|
self.add_string(Keys.General.LICENSE_NAME, license)
|
|
|
|
def add_license_link(self, license: str) -> None:
|
|
self.add_string(Keys.General.LICENSE_LINK, license)
|
|
|
|
def add_url(self, url: str) -> None:
|
|
self.add_string(Keys.General.URL, url)
|
|
|
|
def add_doi(self, doi: str) -> None:
|
|
self.add_string(Keys.General.DOI, doi)
|
|
|
|
def add_uuid(self, uuid: str) -> None:
|
|
self.add_string(Keys.General.UUID, uuid)
|
|
|
|
def add_repo_url(self, repo_url: str) -> None:
|
|
self.add_string(Keys.General.REPO_URL, repo_url)
|
|
|
|
def add_source_url(self, url: str) -> None:
|
|
self.add_string(Keys.General.SOURCE_URL, url)
|
|
|
|
def add_source_doi(self, doi: str) -> None:
|
|
self.add_string(Keys.General.SOURCE_DOI, doi)
|
|
|
|
def add_source_uuid(self, uuid: str) -> None:
|
|
self.add_string(Keys.General.SOURCE_UUID, uuid)
|
|
|
|
def add_source_repo_url(self, repo_url: str) -> None:
|
|
self.add_string(Keys.General.SOURCE_REPO_URL, repo_url)
|
|
|
|
def add_base_model_count(self, source_count: int) -> None:
|
|
self.add_uint32(Keys.General.BASE_MODEL_COUNT, source_count)
|
|
|
|
def add_base_model_name(self, source_id: int, name: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_NAME.format(id=source_id), name)
|
|
|
|
def add_base_model_author(self, source_id: int, author: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_AUTHOR.format(id=source_id), author)
|
|
|
|
def add_base_model_version(self, source_id: int, version: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_VERSION.format(id=source_id), version)
|
|
|
|
def add_base_model_organization(self, source_id: int, organization: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_ORGANIZATION.format(id=source_id), organization)
|
|
|
|
def add_base_model_url(self, source_id: int, url: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_URL.format(id=source_id), url)
|
|
|
|
def add_base_model_doi(self, source_id: int, doi: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_DOI.format(id=source_id), doi)
|
|
|
|
def add_base_model_uuid(self, source_id: int, uuid: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_UUID.format(id=source_id), uuid)
|
|
|
|
def add_base_model_repo_url(self, source_id: int, repo_url: str) -> None:
|
|
self.add_string(Keys.General.BASE_MODEL_REPO_URL.format(id=source_id), repo_url)
|
|
|
|
def add_tags(self, tags: Sequence[str]) -> None:
|
|
self.add_array(Keys.General.TAGS, tags)
|
|
|
|
def add_languages(self, languages: Sequence[str]) -> None:
|
|
self.add_array(Keys.General.LANGUAGES, languages)
|
|
|
|
def add_datasets(self, datasets: Sequence[str]) -> None:
|
|
self.add_array(Keys.General.DATASETS, datasets)
|
|
|
|
def add_tensor_data_layout(self, layout: str) -> None:
|
|
self.add_string(Keys.LLM.TENSOR_DATA_LAYOUT.format(arch=self.arch), layout)
|
|
|
|
def add_vocab_size(self, size: int) -> None:
|
|
self.add_uint32(Keys.LLM.VOCAB_SIZE.format(arch=self.arch), size)
|
|
|
|
def add_context_length(self, length: int) -> None:
|
|
self.add_uint32(Keys.LLM.CONTEXT_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_embedding_length(self, length: int) -> None:
|
|
self.add_uint32(Keys.LLM.EMBEDDING_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_block_count(self, length: int) -> None:
|
|
self.add_uint32(Keys.LLM.BLOCK_COUNT.format(arch=self.arch), length)
|
|
|
|
def add_leading_dense_block_count(self, length: int) -> None:
|
|
self.add_uint32(Keys.LLM.LEADING_DENSE_BLOCK_COUNT.format(arch=self.arch), length)
|
|
|
|
def add_feed_forward_length(self, length: int | Sequence[int]) -> None:
|
|
if isinstance(length, int):
|
|
self.add_uint32(Keys.LLM.FEED_FORWARD_LENGTH.format(arch=self.arch), length)
|
|
else:
|
|
self.add_array(Keys.LLM.FEED_FORWARD_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_expert_feed_forward_length(self, length: int) -> None:
|
|
self.add_uint32(Keys.LLM.EXPERT_FEED_FORWARD_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_expert_shared_feed_forward_length(self, length: int) -> None:
|
|
self.add_uint32(Keys.LLM.EXPERT_SHARED_FEED_FORWARD_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_parallel_residual(self, use: bool) -> None:
|
|
self.add_bool(Keys.LLM.USE_PARALLEL_RESIDUAL.format(arch=self.arch), use)
|
|
|
|
def add_decoder_start_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.LLM.DECODER_START_TOKEN_ID.format(arch=self.arch), id)
|
|
|
|
def add_head_count(self, count: int | Sequence[int]) -> None:
|
|
if isinstance(count, int):
|
|
self.add_uint32(Keys.Attention.HEAD_COUNT.format(arch=self.arch), count)
|
|
else:
|
|
self.add_array(Keys.Attention.HEAD_COUNT.format(arch=self.arch), count)
|
|
|
|
def add_head_count_kv(self, count: int | Sequence[int]) -> None:
|
|
if isinstance(count, int):
|
|
self.add_uint32(Keys.Attention.HEAD_COUNT_KV.format(arch=self.arch), count)
|
|
else:
|
|
self.add_array(Keys.Attention.HEAD_COUNT_KV.format(arch=self.arch), count)
|
|
|
|
def add_key_length(self, length: int) -> None:
|
|
self.add_uint32(Keys.Attention.KEY_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_value_length(self, length: int) -> None:
|
|
self.add_uint32(Keys.Attention.VALUE_LENGTH.format(arch=self.arch), length)
|
|
|
|
def add_max_alibi_bias(self, bias: float) -> None:
|
|
self.add_float32(Keys.Attention.MAX_ALIBI_BIAS.format(arch=self.arch), bias)
|
|
|
|
def add_clamp_kqv(self, value: float) -> None:
|
|
self.add_float32(Keys.Attention.CLAMP_KQV.format(arch=self.arch), value)
|
|
|
|
def add_logit_scale(self, value: float) -> None:
|
|
self.add_float32(Keys.LLM.LOGIT_SCALE.format(arch=self.arch), value)
|
|
|
|
def add_attn_logit_softcapping(self, value: float) -> None:
|
|
self.add_float32(Keys.LLM.ATTN_LOGIT_SOFTCAPPING.format(arch=self.arch), value)
|
|
|
|
def add_final_logit_softcapping(self, value: float) -> None:
|
|
self.add_float32(Keys.LLM.FINAL_LOGIT_SOFTCAPPING.format(arch=self.arch), value)
|
|
|
|
def add_expert_count(self, count: int) -> None:
|
|
self.add_uint32(Keys.LLM.EXPERT_COUNT.format(arch=self.arch), count)
|
|
|
|
def add_expert_used_count(self, count: int) -> None:
|
|
self.add_uint32(Keys.LLM.EXPERT_USED_COUNT.format(arch=self.arch), count)
|
|
|
|
def add_expert_shared_count(self, count: int) -> None:
|
|
self.add_uint32(Keys.LLM.EXPERT_SHARED_COUNT.format(arch=self.arch), count)
|
|
|
|
def add_expert_weights_scale(self, value: float) -> None:
|
|
self.add_float32(Keys.LLM.EXPERT_WEIGHTS_SCALE.format(arch=self.arch), value)
|
|
|
|
def add_swin_norm(self, value: bool) -> None:
|
|
self.add_bool(Keys.LLM.SWIN_NORM.format(arch=self.arch), value)
|
|
|
|
def add_rescale_every_n_layers(self, count: int) -> None:
|
|
self.add_uint32(Keys.LLM.RESCALE_EVERY_N_LAYERS.format(arch=self.arch), count)
|
|
|
|
def add_time_mix_extra_dim(self, dim: int) -> None:
|
|
self.add_uint32(Keys.LLM.TIME_MIX_EXTRA_DIM.format(arch=self.arch), dim)
|
|
|
|
def add_time_decay_extra_dim(self, dim: int) -> None:
|
|
self.add_uint32(Keys.LLM.TIME_DECAY_EXTRA_DIM.format(arch=self.arch), dim)
|
|
|
|
def add_residual_scale(self, value: float) -> None:
|
|
self.add_float32(Keys.LLM.RESIDUAL_SCALE.format(arch=self.arch), value)
|
|
|
|
def add_embedding_scale(self, value: float) -> None:
|
|
self.add_float32(Keys.LLM.EMBEDDING_SCALE.format(arch=self.arch), value)
|
|
|
|
def add_wkv_head_size(self, size: int) -> None:
|
|
self.add_uint32(Keys.WKV.HEAD_SIZE.format(arch=self.arch), size)
|
|
|
|
def add_layer_norm_eps(self, value: float) -> None:
|
|
self.add_float32(Keys.Attention.LAYERNORM_EPS.format(arch=self.arch), value)
|
|
|
|
def add_layer_norm_rms_eps(self, value: float) -> None:
|
|
self.add_float32(Keys.Attention.LAYERNORM_RMS_EPS.format(arch=self.arch), value)
|
|
|
|
def add_causal_attention(self, value: bool) -> None:
|
|
self.add_bool(Keys.Attention.CAUSAL.format(arch=self.arch), value)
|
|
|
|
def add_q_lora_rank(self, length: int) -> None:
|
|
self.add_uint32(Keys.Attention.Q_LORA_RANK.format(arch=self.arch), length)
|
|
|
|
def add_kv_lora_rank(self, length: int) -> None:
|
|
self.add_uint32(Keys.Attention.KV_LORA_RANK.format(arch=self.arch), length)
|
|
|
|
def add_relative_attn_buckets_count(self, value: int) -> None:
|
|
self.add_uint32(Keys.Attention.REL_BUCKETS_COUNT.format(arch=self.arch), value)
|
|
|
|
def add_sliding_window(self, value: int) -> None:
|
|
self.add_uint32(Keys.Attention.SLIDING_WINDOW.format(arch=self.arch), value)
|
|
|
|
def add_attention_scale(self, value: float) -> None:
|
|
self.add_float32(Keys.Attention.SCALE.format(arch=self.arch), value)
|
|
|
|
def add_pooling_type(self, value: PoolingType) -> None:
|
|
self.add_uint32(Keys.LLM.POOLING_TYPE.format(arch=self.arch), value.value)
|
|
|
|
def add_rope_dimension_count(self, count: int) -> None:
|
|
self.add_uint32(Keys.Rope.DIMENSION_COUNT.format(arch=self.arch), count)
|
|
|
|
def add_rope_freq_base(self, value: float) -> None:
|
|
self.add_float32(Keys.Rope.FREQ_BASE.format(arch=self.arch), value)
|
|
|
|
def add_rope_scaling_type(self, value: RopeScalingType) -> None:
|
|
self.add_string(Keys.Rope.SCALING_TYPE.format(arch=self.arch), value.value)
|
|
|
|
def add_rope_scaling_factor(self, value: float) -> None:
|
|
self.add_float32(Keys.Rope.SCALING_FACTOR.format(arch=self.arch), value)
|
|
|
|
def add_rope_scaling_attn_factors(self, value: float) -> None:
|
|
self.add_float32(Keys.Rope.SCALING_ATTN_FACTOR.format(arch=self.arch), value)
|
|
|
|
def add_rope_scaling_orig_ctx_len(self, value: int) -> None:
|
|
self.add_uint32(Keys.Rope.SCALING_ORIG_CTX_LEN.format(arch=self.arch), value)
|
|
|
|
def add_rope_scaling_finetuned(self, value: bool) -> None:
|
|
self.add_bool(Keys.Rope.SCALING_FINETUNED.format(arch=self.arch), value)
|
|
|
|
def add_rope_scaling_yarn_log_mul(self, value: float) -> None:
|
|
self.add_float32(Keys.Rope.SCALING_YARN_LOG_MUL.format(arch=self.arch), value)
|
|
|
|
def add_ssm_conv_kernel(self, value: int) -> None:
|
|
self.add_uint32(Keys.SSM.CONV_KERNEL.format(arch=self.arch), value)
|
|
|
|
def add_ssm_inner_size(self, value: int) -> None:
|
|
self.add_uint32(Keys.SSM.INNER_SIZE.format(arch=self.arch), value)
|
|
|
|
def add_ssm_state_size(self, value: int) -> None:
|
|
self.add_uint32(Keys.SSM.STATE_SIZE.format(arch=self.arch), value)
|
|
|
|
def add_ssm_time_step_rank(self, value: int) -> None:
|
|
self.add_uint32(Keys.SSM.TIME_STEP_RANK.format(arch=self.arch), value)
|
|
|
|
def add_ssm_dt_b_c_rms(self, value: bool) -> None:
|
|
self.add_bool(Keys.SSM.DT_B_C_RMS.format(arch=self.arch), value)
|
|
|
|
def add_tokenizer_model(self, model: str) -> None:
|
|
self.add_string(Keys.Tokenizer.MODEL, model)
|
|
|
|
def add_tokenizer_pre(self, pre: str) -> None:
|
|
self.add_string(Keys.Tokenizer.PRE, pre)
|
|
|
|
def add_token_list(self, tokens: Sequence[str] | Sequence[bytes] | Sequence[bytearray]) -> None:
|
|
self.add_array(Keys.Tokenizer.LIST, tokens)
|
|
|
|
def add_token_merges(self, merges: Sequence[str] | Sequence[bytes] | Sequence[bytearray]) -> None:
|
|
self.add_array(Keys.Tokenizer.MERGES, merges)
|
|
|
|
def add_token_types(self, types: Sequence[TokenType] | Sequence[int]) -> None:
|
|
self.add_array(Keys.Tokenizer.TOKEN_TYPE, types)
|
|
|
|
def add_token_type_count(self, value: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.TOKEN_TYPE_COUNT, value)
|
|
|
|
def add_token_scores(self, scores: Sequence[float]) -> None:
|
|
self.add_array(Keys.Tokenizer.SCORES, scores)
|
|
|
|
def add_bos_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.BOS_ID, id)
|
|
|
|
def add_eos_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.EOS_ID, id)
|
|
|
|
def add_unk_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.UNK_ID, id)
|
|
|
|
def add_sep_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.SEP_ID, id)
|
|
|
|
def add_pad_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.PAD_ID, id)
|
|
|
|
def add_cls_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.CLS_ID, id)
|
|
|
|
def add_mask_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.MASK_ID, id)
|
|
|
|
def add_add_bos_token(self, value: bool) -> None:
|
|
self.add_bool(Keys.Tokenizer.ADD_BOS, value)
|
|
|
|
def add_add_eos_token(self, value: bool) -> None:
|
|
self.add_bool(Keys.Tokenizer.ADD_EOS, value)
|
|
|
|
def add_add_space_prefix(self, value: bool) -> None:
|
|
self.add_bool(Keys.Tokenizer.ADD_PREFIX, value)
|
|
|
|
def add_remove_extra_whitespaces(self, value: bool) -> None:
|
|
self.add_bool(Keys.Tokenizer.REMOVE_EXTRA_WS, value)
|
|
|
|
def add_precompiled_charsmap(self, charsmap: Sequence[bytes]) -> None:
|
|
self.add_array(Keys.Tokenizer.PRECOMPILED_CHARSMAP, charsmap)
|
|
|
|
def add_chat_template(self, value: str | Sequence[Mapping[str, str]]) -> None:
|
|
if not isinstance(value, str):
|
|
template_default = None
|
|
template_names = set()
|
|
|
|
for choice in value:
|
|
name = choice.get('name', '')
|
|
template = choice.get('template')
|
|
|
|
# Allowing non-alphanumerical characters in template name is probably not a good idea, so filter it
|
|
name = ''.join((c if c in ascii_letters + digits else '_' for c in name))
|
|
|
|
if name and template is not None:
|
|
if name == 'default':
|
|
template_default = template
|
|
else:
|
|
template_names.add(name)
|
|
self.add_string(Keys.Tokenizer.CHAT_TEMPLATE_N.format(name=name), template)
|
|
|
|
if template_names:
|
|
self.add_array(Keys.Tokenizer.CHAT_TEMPLATES, list(template_names))
|
|
|
|
if template_default is None:
|
|
return
|
|
|
|
value = template_default
|
|
|
|
self.add_string(Keys.Tokenizer.CHAT_TEMPLATE, value)
|
|
|
|
def add_prefix_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.PREFIX_ID, id)
|
|
|
|
def add_suffix_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.SUFFIX_ID, id)
|
|
|
|
def add_middle_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.MIDDLE_ID, id)
|
|
|
|
def add_eot_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.EOT_ID, id)
|
|
|
|
def add_eom_token_id(self, id: int) -> None:
|
|
self.add_uint32(Keys.Tokenizer.EOM_ID, id)
|
|
|
|
def _pack(self, fmt: str, value: Any, skip_pack_prefix: bool = False) -> bytes:
|
|
pack_prefix = ''
|
|
if not skip_pack_prefix:
|
|
pack_prefix = '<' if self.endianess == GGUFEndian.LITTLE else '>'
|
|
return struct.pack(f'{pack_prefix}{fmt}', value)
|
|
|
|
def _pack_val(self, val: Any, vtype: GGUFValueType, add_vtype: bool) -> bytes:
|
|
kv_data = bytearray()
|
|
|
|
if add_vtype:
|
|
kv_data += self._pack("I", vtype)
|
|
|
|
pack_fmt = self._simple_value_packing.get(vtype)
|
|
if pack_fmt is not None:
|
|
kv_data += self._pack(pack_fmt, val, skip_pack_prefix = vtype == GGUFValueType.BOOL)
|
|
elif vtype == GGUFValueType.STRING:
|
|
encoded_val = val.encode("utf-8") if isinstance(val, str) else val
|
|
kv_data += self._pack("Q", len(encoded_val))
|
|
kv_data += encoded_val
|
|
elif vtype == GGUFValueType.ARRAY:
|
|
|
|
if not isinstance(val, Sequence):
|
|
raise ValueError("Invalid GGUF metadata array, expecting sequence")
|
|
|
|
if len(val) == 0:
|
|
raise ValueError("Invalid GGUF metadata array. Empty array")
|
|
|
|
if isinstance(val, bytes):
|
|
ltype = GGUFValueType.UINT8
|
|
else:
|
|
ltype = GGUFValueType.get_type(val[0])
|
|
if not all(GGUFValueType.get_type(i) is ltype for i in val[1:]):
|
|
raise ValueError("All items in a GGUF array should be of the same type")
|
|
kv_data += self._pack("I", ltype)
|
|
kv_data += self._pack("Q", len(val))
|
|
for item in val:
|
|
kv_data += self._pack_val(item, ltype, add_vtype=False)
|
|
else:
|
|
raise ValueError("Invalid GGUF metadata value type or value")
|
|
|
|
return kv_data
|
|
|
|
@staticmethod
|
|
def format_n_bytes_to_str(num: int) -> str:
|
|
if num == 0:
|
|
return "negligible - metadata only"
|
|
fnum = float(num)
|
|
for unit in ("", "K", "M", "G"):
|
|
if abs(fnum) < 1000.0:
|
|
return f"{fnum:3.1f}{unit}"
|
|
fnum /= 1000.0
|
|
return f"{fnum:.1f}T - over 1TB, split recommended"
|