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-# Copyright 2023 DAMO Academy and The HuggingFace Inc. team. All rights reserved.
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#     http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-import argparse
-import gc
-import json
-import math
-import os
-import shutil
-import warnings
-import torch
-from transformers import LlamaTokenizer
-from .configuration_mplug_docowl import MPLUGDocOwlConfig
-from icecream import ic
-try:
-    from transformers import LlamaTokenizerFast
-except ImportError as e:
-    warnings.warn(e)
-    warnings.warn(
-        "The converted tokenizer will be the `slow` tokenizer. To use the fast, update your `tokenizers` library and re-run the tokenizer conversion"
-    )
-    LlamaTokenizerFast = None
-"""
-Sample usage:
-```
-python3 /pure-mlo-scratch/sfan/model-parallel-trainer/llama2megatron/convert_llama2hf.py \
-    --input_dir /pure-mlo-scratch/llama/ --model_size 7 --output_dir /pure-mlo-scratch/llama/converted_HF_7B
-```
-Thereafter, models can be loaded via:
-```py
-from transformers import LlamaForCausalLM, LlamaTokenizer
-model = LlamaForCausalLM.from_pretrained("/output/path")
-tokenizer = LlamaTokenizer.from_pretrained("/output/path")
-```
-Important note: you need to be able to host the whole model in RAM to execute this script (even if the biggest versions
-come in several checkpoints they each contain a part of each weight of the model, so we need to load them all in RAM).
-"""
-llama_s2layer = {7: 32, 13: 40, 30: 60, 65: 80, 70: 80}
-llama_s2heads = {7: 32, 13: 40, 30: 52, 65: 64, 70: 64}
-llama_s2dense = {7: 11008, 13: 13824, 30: 17920, 65: 22016,
-                 70: 28672}  # should be (2/3)*4*d, but it isn't exaclty that
-llama_s2hidden = {7: 4096, 13: 5120, 32: 6656, 65: 8192, 70: 8192}
-def compute_intermediate_size(n):
-    return int(math.ceil(n * 8 / 3) + 255) // 256 * 256
-def read_json(path):
-    with open(path, "r") as f:
-        return json.load(f)
-def write_json(text, path):
-    with open(path, "w") as f:
-        json.dump(text, f)
-def write_model(model_path,
-                input_base_path,
-                model_size,
-                num_input_shards=1,
-                num_output_shards=2,
-                skip_permute=True,
-                norm_eps=1e-05):
-    # if os.path.exists(model_path):
-    #     shutil.rmtree(model_path)
-    os.makedirs(model_path, exist_ok=True)
-    # tmp_model_path = os.path.join(model_path, "tmp")
-    tmp_model_path = model_path
-    os.makedirs(tmp_model_path, exist_ok=True)
-    num_shards = num_input_shards
-    n_layers = llama_s2layer[model_size]
-    n_heads = llama_s2heads[model_size]
-    n_heads_per_shard = n_heads // num_shards
-    n_dense = llama_s2dense[model_size]
-    n_hidden = llama_s2hidden[model_size]
-    hidden_per_head = n_hidden // n_heads
-    base = 10000.0
-    inv_freq = 1.0 / (base ** (torch.arange(0, hidden_per_head, 2).float() / hidden_per_head))
-    # permute for sliced rotary
-    def permute(w, skip_permute=skip_permute):
-        if skip_permute:
-            return w
-        return w.view(n_heads, n_hidden // n_heads // 2, 2, n_hidden).transpose(1, 2).reshape(n_hidden, n_hidden)
-    print(f"Fetching all parameters from the checkpoint at {input_base_path}.")
-    # Load weights
-    if num_shards==1:
-        # Not sharded
-        # (The sharded implementation would also work, but this is simpler.)
-        # /pure-mlo-scratch/alhernan/megatron-data/checkpoints/llama2-7b-tp4-pp1-optim/release/mp_rank_00/model_optim_rng.pt
-        if os.path.exists(os.path.join(input_base_path, 'release')):
-            filename = os.path.join(input_base_path, 'release', 'mp_rank_00', 'model_optim_rng.pt')
-        elif input_base_path.split('/')[-1].startswith('iter_'):
-            iteration = eval(input_base_path.split('/')[-1].replace('iter_', '').lstrip('0'))
-            load_dir = '/'.join(input_base_path.split('/')[:-1])
-            filename = os.path.join(input_base_path, 'mp_rank_00', 'model_optim_rng.pt')
-            if not os.path.exists(filename):
-                filename = filename.replace('model_optim_rng.pt', 'model_rng.pt')
-        else:
-            tracker_filename = os.path.join(input_base_path, 'latest_checkpointed_iteration.txt')
-            with open(tracker_filename, 'r') as f:
-                metastring = f.read().strip()
-            iteration = 'iter_{:07d}'.format(int(metastring))
-            filename = os.path.join(input_base_path, iteration, 'mp_rank_00', 'model_optim_rng.pt')
-        if not os.path.exists(filename):
-            filename = filename.replace('model_optim_rng.pt', 'model_rng.pt')
-        original_filename = filename
-        loaded = torch.load(filename, map_location="cpu")['model']['language_model']
-    else:
-        # Sharded
-        filenames = []
-        for i in range(num_shards):
-            if os.path.exists(os.path.join(input_base_path, 'release')):
-                filename = os.path.join(input_base_path, 'release', f'mp_rank_{i:02d}', 'model_optim_rng.pt')
-            else:
-                tracker_filename = os.path.join(input_base_path, 'latest_checkpointed_iteration.txt')
-                with open(tracker_filename, 'r') as f:
-                    metastring = f.read().strip()
-                iteration = 'iter_{:07d}'.format(int(metastring))
-                filename = os.path.join(input_base_path, iteration, f'mp_rank_{i:02d}', 'model_optim_rng.pt')
-            if not os.path.exists(filename):
-                filename = filename.replace('model_optim_rng.pt', 'model_rng.pt')
-            filenames.append(filename)
-        loaded = [
-            torch.load(filenames[i], map_location="cpu")['model']['language_model']
-            for i in range(num_shards)
-        ]
-    print('Llama-Megatron Loaded!')
-    param_count = 0
-    index_dict = {"weight_map": {}}
-    print(f'Weighted Converting for {n_layers} layers...')
-    for layer_i in range(n_layers):
-        print(layer_i)
-        filename = f"pytorch_model-{layer_i + 1}-of-{n_layers + 1}.bin"
-        if num_shards == 1:
-            # Unsharded
-            state_dict = {
-                f"model.layers.{layer_i}.self_attn.q_proj.weight": loaded['encoder'][f"layers.{layer_i}.self_attention.q_proj.weight"],
-                f"model.layers.{layer_i}.self_attn.k_proj.multiway.0.weight": loaded['encoder'][f"layers.{layer_i}.self_attention.k_proj.multiway.0.weight"],
-                f"model.layers.{layer_i}.self_attn.v_proj.multiway.0.weight": loaded['encoder'][f"layers.{layer_i}.self_attention.v_proj.multiway.0.weight"],
-                f"model.layers.{layer_i}.self_attn.k_proj.multiway.1.weight": loaded['encoder'][f"layers.{layer_i}.self_attention.k_proj.multiway.1.weight"],
-                f"model.layers.{layer_i}.self_attn.v_proj.multiway.1.weight": loaded['encoder'][f"layers.{layer_i}.self_attention.v_proj.multiway.1.weight"],
-                f"model.layers.{layer_i}.self_attn.o_proj.weight": loaded['encoder'][f"layers.{layer_i}.self_attention.o_proj.weight"],
-                f"model.layers.{layer_i}.mlp.gate_proj.weight": loaded['encoder'][f"layers.{layer_i}.mlp.gate_proj.weight"],
-                f"model.layers.{layer_i}.mlp.down_proj.weight": loaded['encoder'][f"layers.{layer_i}.mlp.down_proj.weight"],
-                f"model.layers.{layer_i}.mlp.up_proj.weight": loaded['encoder'][f"layers.{layer_i}.mlp.up_proj.weight"],
-                f"model.layers.{layer_i}.input_layernorm.multiway.0.weight": loaded['encoder'][f"layers.{layer_i}.input_layernorm.multiway.0.weight"],
-                f"model.layers.{layer_i}.post_attention_layernorm.multiway.0.weight": loaded['encoder'][f"layers.{layer_i}.post_attention_layernorm.multiway.0.weight"],
-                f"model.layers.{layer_i}.input_layernorm.multiway.1.weight": loaded['encoder'][f"layers.{layer_i}.input_layernorm.multiway.1.weight"],
-                f"model.layers.{layer_i}.post_attention_layernorm.multiway.1.weight": loaded['encoder'][f"layers.{layer_i}.post_attention_layernorm.multiway.1.weight"],
-            }
-        else:
-            raise NotImplemented
-        state_dict[f"model.layers.{layer_i}.self_attn.rotary_emb.inv_freq"] = inv_freq
-        for k, v in state_dict.items():
-            index_dict["weight_map"][k] = filename
-            param_count += v.numel()
-        torch.save(state_dict, os.path.join(tmp_model_path, filename))
-        print(f'Sharded file saved to {filename}')
-    filename = f"pytorch_model-{n_layers + 1}-of-{n_layers + 1}.bin"
-    if num_shards==1:
-        # Unsharded
-        state_dict = {
-            "model.embed_tokens.weight": loaded['embedding']['word_embeddings']['weight'],
-            "model.norm.weight": loaded['encoder']['norm.weight'],
-            "lm_head.weight": loaded['encoder']['lm_head.weight'],
-        }
-    else:
-        state_dict = {
-            "model.embed_tokens.weight": loaded[0]['embedding']['word_embeddings']['weight'],
-            "model.norm.weight": loaded[0]['encoder']['norm.weight'],
-            "lm_head.weight": loaded[0]['encoder']['lm_head.weight'],
-        }
-    loaded_all = torch.load(original_filename, map_location="cpu")['model']
-    # Vision Part
-    state_dict.update({
-        "model.vision_model.embeddings.cls_token": loaded_all['vision_model']['cls_token'],
-        "model.vision_model.embeddings.patch_embed.weight": loaded_all['vision_model']['patch_embed']['weight'],
-        "model.vision_model.embeddings.position_embedding": loaded_all['vision_model']['position_embeddings'],
-        "model.vision_model.embeddings.pre_layernorm.bias": loaded_all['vision_model']['pre_layernorm']['bias'],
-        "model.vision_model.embeddings.pre_layernorm.weight": loaded_all['vision_model']['pre_layernorm']['weight'],
-        "model.vision_model.post_layernorm.bias": loaded_all['vision_model']['transformer']['final_layernorm.bias'],
-        "model.vision_model.post_layernorm.weight": loaded_all['vision_model']['transformer']['final_layernorm.weight'],
-    })
-    for v_layer_idx in range(24):
-        state_dict.update({
-            f"model.vision_model.encoder.layers.{v_layer_idx}.input_layernorm.bias": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.input_layernorm.bias'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.input_layernorm.weight": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.input_layernorm.weight'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.mlp.fc1.bias": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.mlp.dense_h_to_4h.bias'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.mlp.fc1.weight": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.mlp.dense_h_to_4h.weight'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.mlp.fc2.bias": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.mlp.dense_4h_to_h.bias'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.mlp.fc2.weight": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.mlp.dense_4h_to_h.weight'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.post_attention_layernorm.bias": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.post_attention_layernorm.bias'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.post_attention_layernorm.weight": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.post_attention_layernorm.weight'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.self_attn.dense.bias": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.self_attention.dense.bias'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.self_attn.dense.weight": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.self_attention.dense.weight'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.self_attn.query_key_value.bias": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.self_attention.query_key_value.bias'],
-            f"model.vision_model.encoder.layers.{v_layer_idx}.self_attn.query_key_value.weight": loaded_all['vision_model']['transformer'][f'layers.{v_layer_idx}.self_attention.query_key_value.weight'],
-        })
-    # Vision2Text Part: HReducer
-    state_dict.update({
-        "model.vision2text.ln_q.weight": loaded_all['hreducer3']['ln_q']['weight'],
-        "model.vision2text.ln_q.bias": loaded_all['hreducer3']['ln_q']['bias'],
-        "model.vision2text.visual_fc.bias": loaded_all['hreducer3']['visual_fc']['bias'],
-        "model.vision2text.visual_fc.weight": loaded_all['hreducer3']['visual_fc']['weight'],
-        "model.vision2text.vit_eos": loaded_all['hreducer3']['vit_eos'],
-    })
-    # reducer_before conv (layer 0) + gleu  (layer 1)
-    state_dict.update({
-        f"model.vision2text.reducer_before.0.weight": loaded_all['hreducer3']['reducer_before']["0.weight"],
-        f"model.vision2text.reducer_before.0.bias": loaded_all['hreducer3']['reducer_before']["0.bias"],
-    })
-    # reducer conv
-    state_dict.update({
-        f"model.vision2text.reducer.weight": loaded_all['hreducer3']['reducer']["weight"],
-        f"model.vision2text.reducer.bias": loaded_all['hreducer3']['reducer']["bias"],
-    })
-    for k, v in state_dict.items():
-        # ic(k, v)
-        index_dict["weight_map"][k] = filename
-        param_count += v.numel()
-    torch.save(state_dict, os.path.join(tmp_model_path, filename))
-    # Write configs
-    index_dict["metadata"] = {"total_size": param_count * 2}
-    write_json(index_dict, os.path.join(tmp_model_path, "pytorch_model.bin.index.json"))
-    config = MPLUGDocOwlConfig()
-    config.save_pretrained(tmp_model_path)
-    # Make space so we can load the model properly now.
-    del state_dict
-    del loaded
-    del loaded_all
-    gc.collect()
-def write_tokenizer(tokenizer_path, input_tokenizer_path):
-    # Initialize the tokenizer based on the `spm` model
-    tokenizer_class = LlamaTokenizer if LlamaTokenizerFast is None else LlamaTokenizerFast
-    print(f"Saving a {tokenizer_class.__name__} to {tokenizer_path}.")
-    tokenizer = tokenizer_class(input_tokenizer_path)
-    tokenizer.save_pretrained(tokenizer_path)
-def main():
-    parser = argparse.ArgumentParser()
-    parser.add_argument(
-        "--input_dir",
-        help="Location of LLaMA_Megatron weights",
-    )
-    parser.add_argument(
-        "--model_size",
-        type=int,
-        default=7,
-        choices=[7, 13, 30, 65, 70],
-    )
-    parser.add_argument(
-        "--num_input_shards",
-        type=int,
-        default=1,
-    )
-    parser.add_argument(
-        "--num_output_shards",
-        type=int,
-        default=1,
-    )
-    parser.add_argument('--skip_permute', action='store_true')
-    parser.add_argument(
-        "--output_dir",
-        help="Location to write HF model and tokenizer",
-    )
-    args = parser.parse_args()
-    write_model(
-        model_path=args.output_dir,
-        input_base_path=args.input_dir,
-        model_size=args.model_size,
-        num_input_shards=args.num_input_shards,
-        num_output_shards=args.num_output_shards,
-        skip_permute=args.skip_permute
-    )
-if __name__ == "__main__":
-    main()