chore: import upstream snapshot with attribution
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from __future__ import annotations
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import json
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import math
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import re
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from typing import Callable, Iterable, TYPE_CHECKING
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import torch
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if TYPE_CHECKING:
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from torch import Tensor
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from .base import MmprojModel, ModelBase, TextModel, gguf
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@ModelBase.register("Ernie4_5_ForCausalLM", "Ernie4_5ForCausalLM")
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class Ernie4_5Model(TextModel):
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model_arch = gguf.MODEL_ARCH.ERNIE4_5
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def set_vocab(self):
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self._set_vocab_sentencepiece()
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tokenizer_config_file = self.dir_model / 'tokenizer_config.json'
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if tokenizer_config_file.is_file():
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with open(tokenizer_config_file, "r", encoding="utf-8") as f:
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tokenizer_config_json = json.load(f)
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if "add_prefix_space" in tokenizer_config_json:
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self.gguf_writer.add_add_space_prefix(tokenizer_config_json["add_prefix_space"])
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def set_gguf_parameters(self):
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super().set_gguf_parameters()
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@classmethod
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def filter_tensors(cls, item: tuple[str, Callable[[], Tensor]]) -> tuple[str, Callable[[], Tensor]] | None:
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name, gen = item
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if "ernie." in name:
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name = name.replace("ernie.", "model.")
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return super().filter_tensors((name, gen))
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def modify_tensors(self, data_torch: Tensor, name: str, bid: int | None) -> Iterable[tuple[str, Tensor]]:
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num_heads = self.hparams["num_attention_heads"]
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num_kv_heads = self.hparams["num_key_value_heads"]
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if (head_dim := self.hparams.get("head_dim")) is None:
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head_dim = self.hparams["hidden_size"] // num_heads
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# split the qkv weights
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# qkv_proj shape: [(num_heads + 2 * num_kv_heads) * head_dim, hidden_size]
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if "qkv_proj" in name:
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name_q = name.replace("qkv_proj.weight", "q_proj.weight")
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name_k = name.replace("qkv_proj.weight", "k_proj.weight")
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name_v = name.replace("qkv_proj.weight", "v_proj.weight")
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total_q_dim = num_heads * head_dim
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total_k_dim = num_kv_heads * head_dim
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total_v_dim = num_kv_heads * head_dim
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q_proj_weight, k_proj_weight, v_proj_weight = data_torch.split([total_q_dim, total_k_dim, total_v_dim], dim=0)
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yield from super().modify_tensors(q_proj_weight, name_q, bid)
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yield from super().modify_tensors(k_proj_weight, name_k, bid)
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yield from super().modify_tensors(v_proj_weight, name_v, bid)
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# split the up_gate_proj into gate and up
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# up_gate_proj shape: [2 * intermediate_size, hidden_size]
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elif "up_gate_proj" in name:
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name_up = name.replace("up_gate_proj.weight", "up_proj.weight")
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name_gate = name.replace("up_gate_proj.weight", "gate_proj.weight")
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dim_half = data_torch.shape[0] // 2
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gate_proj_weight, up_proj_weight = data_torch.split(dim_half, dim=0)
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yield from super().modify_tensors(gate_proj_weight, name_gate, bid)
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yield from super().modify_tensors(up_proj_weight, name_up, bid)
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else:
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yield from super().modify_tensors(data_torch, name, bid)
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@ModelBase.register("Ernie4_5_MoeForCausalLM")
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class Ernie4_5MoeModel(Ernie4_5Model):
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model_arch = gguf.MODEL_ARCH.ERNIE4_5_MOE
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_experts: list[dict[str, Tensor]] | None = None
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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self._experts = [{} for _ in range(self.block_count)]
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def set_gguf_parameters(self):
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super().set_gguf_parameters()
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self.gguf_writer.add_expert_count(self.hparams["moe_num_experts"])
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self.gguf_writer.add_expert_used_count(self.hparams["moe_k"])
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self.gguf_writer.add_interleave_moe_layer_step(self.hparams["moe_layer_interval"])
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self.gguf_writer.add_leading_dense_block_count(self.hparams["moe_layer_start_index"])
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if (moe_intermediate_size := self.hparams.get("moe_intermediate_size")) is not None:
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self.gguf_writer.add_expert_feed_forward_length(moe_intermediate_size)
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if (shared_expert_count := self.hparams.get('moe_num_shared_experts')) is not None:
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self.gguf_writer.add_expert_shared_count(shared_expert_count)
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if shared_expert_count > 0 and (shared_expert_intermediate_size := self.hparams.get('intermediate_size')) is not None and (num_key_value_heads := self.hparams.get('num_key_value_heads')) is not None:
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self.gguf_writer.add_expert_shared_feed_forward_length(shared_expert_intermediate_size // num_key_value_heads)
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@classmethod
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def filter_tensors(cls, item: tuple[str, Callable[[], Tensor]]) -> tuple[str, Callable[[], Tensor]] | None:
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name, gen = item
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# skip Multi-Token Prediction (MTP) layers (again, same as DeepseekV2)
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match = re.match(r"model.mtp_block.(\d+)", name)
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if match:
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return None
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# skip all other MTP tensors for now
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match = re.match(r"model.mtp_emb_norm.(\d+)", name)
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if match:
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return None
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match = re.match(r"model.mtp_hidden_norm.(\d+)", name)
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if match:
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return None
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match = re.match(r"model.mtp_linear_proj.(\d+)", name)
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if match:
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return None
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return super().filter_tensors(item)
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def modify_tensors(self, data_torch: Tensor, name: str, bid: int | None) -> Iterable[tuple[str, Tensor]]:
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# process the experts separately
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if name.find("mlp.experts") != -1:
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n_experts = self.hparams["moe_num_experts"]
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assert bid is not None
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if self._experts is None:
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self._experts = [{} for _ in range(self.block_count)]
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self._experts[bid][name] = data_torch
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if len(self._experts[bid]) >= n_experts * 3:
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# merge the experts into a single 3d tensor
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for w_name in ["gate_proj", "up_proj", "down_proj"]:
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datas: list[Tensor] = []
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for xid in range(n_experts):
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ename_to_retrieve = f"model.layers.{bid}.mlp.experts.{xid}.{w_name}.weight"
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datas.append(self._experts[bid][ename_to_retrieve])
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del self._experts[bid][ename_to_retrieve]
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data_torch = torch.stack(datas, dim=0)
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merged_name = f"model.layers.{bid}.mlp.experts.{w_name}.weight"
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yield from super().modify_tensors(data_torch, merged_name, bid)
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else:
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yield from ModelBase.modify_tensors(self, data_torch, name, bid)
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def prepare_tensors(self):
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super().prepare_tensors()
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if self._experts is not None:
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# flatten `list[dict[str, Tensor]]` into `list[str]`
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experts = [k for d in self._experts for k in d.keys()]
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if len(experts) > 0:
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raise ValueError(f"Unprocessed experts: {experts}")
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@ModelBase.register("PaddleOCRVLForConditionalGeneration")
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class PaddleOCRModel(Ernie4_5Model):
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model_arch = gguf.MODEL_ARCH.PADDLEOCR
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@ModelBase.register("PaddleOCRVisionModel")
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class PaddleOCRVisionModel(MmprojModel):
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# PaddleOCR-VL uses a modified version of Siglip
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min_pixels: int = 0
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max_pixels: int = 0
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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assert self.hparams_vision is not None
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self.min_pixels = self.preprocessor_config["min_pixels"]
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self.max_pixels = self.preprocessor_config["max_pixels"]
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self.hparams_vision["image_size"] = int(math.sqrt(self.max_pixels))
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def set_gguf_parameters(self):
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super().set_gguf_parameters()
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assert self.hparams_vision is not None
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hparams = self.hparams_vision
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self.gguf_writer.add_clip_projector_type(gguf.VisionProjectorType.PADDLEOCR)
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self.gguf_writer.add_vision_max_pixels(self.max_pixels)
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self.gguf_writer.add_vision_min_pixels(self.min_pixels)
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self.gguf_writer.add_vision_use_gelu(True)
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self.gguf_writer.add_vision_attention_layernorm_eps(hparams.get("rms_norm_eps", 1e-6))
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@classmethod
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def filter_tensors(cls, item: tuple[str, Callable[[], Tensor]]) -> tuple[str, Callable[[], Tensor]] | None:
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name, gen = item
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if "vision_model" not in name and "mlp_AR" not in name:
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return None
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name = name.replace("visual.", "model.")
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if "packing_position_embedding" in name:
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# unused
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return None
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if "vision_model.head" in name:
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# we don't yet support image embeddings for this model
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return None
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return super().filter_tensors((name, gen))
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