from abc import ABC, abstractmethod from enum import Enum, auto import os import pathlib import copy import re from typing import Dict, Iterable, List, Tuple, Union, Type, Callable from utils.log import quick_log from fastapi import HTTPException from pydantic import BaseModel, Field from routes import state_cache import global_var os.environ["TORCH_EXTENSIONS_DIR"] = f"{pathlib.Path(__file__).parent.parent.resolve()}" class RWKVType(Enum): NoneType = auto() Raven = auto() World = auto() Music = auto() class AbstractRWKV(ABC): def __init__(self, model, pipeline): self.EOS_ID = 0 self.name = "rwkv" self.model = model self.pipeline = pipeline self.model_state = None self.model_tokens = [] self.rwkv_type: RWKVType = RWKVType.NoneType self.tokenizer_len = len(model.w["emb.weight"]) self.max_tokens_per_generation = 500 self.temperature = 1 self.top_p = 0.3 self.top_k = 0 self.penalty_alpha_presence = 0 self.penalty_alpha_frequency = 1 self.penalty_decay = 0.996 self.global_penalty = False @abstractmethod def adjust_occurrence(self, occurrence: Dict, token: int): pass @abstractmethod def adjust_forward_logits(self, logits: List[float], occurrence: Dict, i: int): pass # Model only saw '\n\n' as [187, 187] before, but the tokenizer outputs [535] for it at the end @abstractmethod def fix_tokens(self, tokens) -> List[int]: pass @abstractmethod def run_rnn( self, _tokens: List[str], newline_adj: int = 0 ) -> Tuple[List[float], int]: pass @abstractmethod def delta_postprocess(self, delta: str) -> str: pass def get_embedding(self, input: str, fast_mode: bool) -> Tuple[List[float], int]: import numpy as np if fast_mode: embedding, token_len = self.__fast_embedding( self.fix_tokens(self.pipeline.encode(input)), None ) else: self.model_state = None self.model_tokens = [] _, token_len = self.run_rnn(self.fix_tokens(self.pipeline.encode(input))) embedding = self.model_state[-11].tolist() embedding = (embedding / np.linalg.norm(embedding)).tolist() return embedding, token_len def __fast_embedding(self, tokens: List[str], state): import torch tokens = [int(x) for x in tokens] token_len = len(tokens) self = self.model with torch.no_grad(): w = self.w args = self.args if state == None: state = [None] * args.n_layer * 5 for i in range( args.n_layer ): # state: 0=att_xx 1=att_aa 2=att_bb 3=att_pp 4=ffn_xx dd = self.strategy[i] dev = dd.device atype = dd.atype state[i * 5 + 0] = torch.zeros( args.n_embd, dtype=atype, requires_grad=False, device=dev ).contiguous() state[i * 5 + 1] = torch.zeros( args.n_embd, dtype=torch.float, requires_grad=False, device=dev ).contiguous() state[i * 5 + 2] = torch.zeros( args.n_embd, dtype=torch.float, requires_grad=False, device=dev ).contiguous() state[i * 5 + 3] = ( torch.zeros( args.n_embd, dtype=torch.float, requires_grad=False, device=dev, ).contiguous() - 1e30 ) state[i * 5 + 4] = torch.zeros( args.n_embd, dtype=atype, requires_grad=False, device=dev ).contiguous() break seq_mode = len(tokens) > 1 x = w["emb.weight"][tokens if seq_mode else tokens[0]] for i in range(args.n_layer): bbb = f"blocks.{i}." att = f"blocks.{i}.att." ffn = f"blocks.{i}.ffn." dd = self.strategy[i] dev = dd.device atype = dd.atype wtype = dd.wtype if seq_mode: if "cuda" in str(dev) and os.environ["RWKV_CUDA_ON"] == "1": ATT = ( self.cuda_att_seq if wtype != torch.uint8 else self.cuda_att_seq_i8 ) else: ATT = self.att_seq if wtype != torch.uint8 else self.att_seq_i8 FFN = self.ffn_seq if wtype != torch.uint8 else self.ffn_seq_i8 else: ATT = self.att_one if wtype != torch.uint8 else self.att_one_i8 FFN = self.ffn_one if wtype != torch.uint8 else self.ffn_one_i8 x = x.to(dtype=atype, device=dev) kw = w[f"{att}key.weight"] vw = w[f"{att}value.weight"] rw = w[f"{att}receptance.weight"] ow = w[f"{att}output.weight"] if dd.stream: kw = kw.to(device=dev, non_blocking=True) vw = vw.to(device=dev, non_blocking=True) rw = rw.to(device=dev, non_blocking=True) ow = ow.to(device=dev, non_blocking=True) kmx = w[f"{att}key.weight_mx"] if wtype == torch.uint8 else x krx = w[f"{att}key.weight_rx"] if wtype == torch.uint8 else x kmy = w[f"{att}key.weight_my"] if wtype == torch.uint8 else x kry = w[f"{att}key.weight_ry"] if wtype == torch.uint8 else x vmx = w[f"{att}value.weight_mx"] if wtype == torch.uint8 else x vrx = w[f"{att}value.weight_rx"] if wtype == torch.uint8 else x vmy = w[f"{att}value.weight_my"] if wtype == torch.uint8 else x vry = w[f"{att}value.weight_ry"] if wtype == torch.uint8 else x rmx = w[f"{att}receptance.weight_mx"] if wtype == torch.uint8 else x rrx = w[f"{att}receptance.weight_rx"] if wtype == torch.uint8 else x rmy = w[f"{att}receptance.weight_my"] if wtype == torch.uint8 else x rry = w[f"{att}receptance.weight_ry"] if wtype == torch.uint8 else x omx = w[f"{att}output.weight_mx"] if wtype == torch.uint8 else x orx = w[f"{att}output.weight_rx"] if wtype == torch.uint8 else x omy = w[f"{att}output.weight_my"] if wtype == torch.uint8 else x ory = w[f"{att}output.weight_ry"] if wtype == torch.uint8 else x ( x, state[i * 5 + 0], state[i * 5 + 1], state[i * 5 + 2], state[i * 5 + 3], ) = ATT( x, state[i * 5 + 0], state[i * 5 + 1], state[i * 5 + 2], state[i * 5 + 3], w[f"{bbb}ln1.weight"], w[f"{bbb}ln1.bias"], w[f"{att}time_mix_k"], w[f"{att}time_mix_v"], w[f"{att}time_mix_r"], w[f"{att}time_decay"], w[f"{att}time_first"], kw, vw, rw, ow, kmx, krx, kmy, kry, vmx, vrx, vmy, vry, rmx, rrx, rmy, rry, omx, orx, omy, ory, ) return state[0].tolist(), token_len def generate( self, prompt: str, stop: Union[str, List[str], None] = None ) -> Iterable[Tuple[str, str, int, int]]: import numpy as np quick_log(None, None, "Generation Prompt:\n" + prompt) cache = None delta_prompt = prompt try: cache = state_cache.longest_prefix_state( state_cache.LongestPrefixStateBody(prompt=prompt), None ) except HTTPException: pass if cache is None or cache["prompt"] == "" or cache["state"] is None: self.model_state = None self.model_tokens = [] else: delta_prompt = prompt[len(cache["prompt"]) :] self.model_state = cache["state"] self.model_tokens = cache["tokens"] logits = cache["logits"] prompt_token_len = 0 if delta_prompt != "": logits, prompt_token_len = self.run_rnn( self.fix_tokens(self.pipeline.encode(delta_prompt)) ) try: state_cache.add_state( state_cache.AddStateBody( prompt=prompt, tokens=self.model_tokens, state=self.model_state, logits=logits, ) ) except HTTPException: pass begin = len(self.model_tokens) out_last = begin occurrence: Dict = {} completion_token_len = 0 response = "" for i in range(self.max_tokens_per_generation): self.adjust_forward_logits(logits, occurrence, i) token = self.pipeline.sample_logits( logits, temperature=self.temperature, top_p=self.top_p, top_k=self.top_k ) if token == self.EOS_ID: try: state_cache.add_state( state_cache.AddStateBody( prompt=prompt + response, tokens=self.model_tokens, state=self.model_state, logits=logits, ) ) except HTTPException: pass yield response, "", prompt_token_len, completion_token_len break self.adjust_occurrence(occurrence, token) logits, _ = self.run_rnn([token]) completion_token_len = completion_token_len + 1 delta: str = self.delta_postprocess( self.pipeline.decode(self.model_tokens[out_last:]) ) if "\ufffd" not in delta: # avoid utf-8 display issues response += delta if stop is not None: if type(stop) == str: if stop in response: try: state_cache.add_state( state_cache.AddStateBody( prompt=prompt + response, tokens=self.model_tokens, state=self.model_state, logits=logits, ) ) except HTTPException: pass response = response.split(stop)[0] yield response, "", prompt_token_len, completion_token_len break elif type(stop) == list: stop_exist_regex = "|".join(stop) matched = re.search(stop_exist_regex, response) if matched: try: state_cache.add_state( state_cache.AddStateBody( prompt=prompt + response, tokens=self.model_tokens, state=self.model_state, logits=logits, ) ) except HTTPException: pass response = response.split(matched.group())[0] yield response, "", prompt_token_len, completion_token_len break out_last = begin + i + 1 if i == self.max_tokens_per_generation - 1: try: state_cache.add_state( state_cache.AddStateBody( prompt=prompt + response, tokens=self.model_tokens, state=self.model_state, logits=logits, ) ) except HTTPException: pass yield response, delta, prompt_token_len, completion_token_len class TextRWKV(AbstractRWKV): def __init__(self, model, pipeline) -> None: super().__init__(model, pipeline) self.CHUNK_LEN = 256 self.max_tokens_per_generation = 500 self.temperature = 1 self.top_p = 0.3 self.top_k = 0 self.penalty_alpha_presence = 0 self.penalty_alpha_frequency = 1 self.interface = ":" if self.tokenizer_len < 65536: self.rwkv_type = RWKVType.Raven self.user = "Bob" self.bot = "Alice" self.END_OF_LINE = 187 else: self.rwkv_type = RWKVType.World self.user = "User" self.bot = "Assistant" self.END_OF_LINE = 11 self.AVOID_REPEAT_TOKENS = set() AVOID_REPEAT = ",:?!" for i in AVOID_REPEAT: dd = self.pipeline.encode(i) assert len(dd) == 1 self.AVOID_REPEAT_TOKENS.add(dd[0]) self.AVOID_PENALTY_TOKENS = set() AVOID_PENALTY = '\n,.:?!,。:?!"“”<>[]{}/\\|;;~`@#$%^&*()_+-=0123456789 ' for i in AVOID_PENALTY: dd = self.pipeline.encode(i) if len(dd) == 1: self.AVOID_PENALTY_TOKENS.add(dd[0]) self.__preload() def adjust_occurrence(self, occurrence: Dict, token: int): for xxx in occurrence: occurrence[xxx] *= self.penalty_decay if token not in occurrence: occurrence[token] = 1 else: occurrence[token] += 1 def adjust_forward_logits(self, logits: List[float], occurrence: Dict, i: int): for n in occurrence: # if n not in self.AVOID_PENALTY_TOKENS: logits[n] -= ( self.penalty_alpha_presence + occurrence[n] * self.penalty_alpha_frequency ) # set global_penalty to False to get the same generated results as the official RWKV Gradio if self.global_penalty and i == 0: for token in self.model_tokens: token = int(token) if token not in self.AVOID_PENALTY_TOKENS: self.adjust_occurrence(occurrence, token) # Model only saw '\n\n' as [187, 187] before, but the tokenizer outputs [535] for it at the end def fix_tokens(self, tokens) -> List[int]: if self.rwkv_type == RWKVType.World: return tokens if len(tokens) > 0 and tokens[-1] == 535: tokens = tokens[:-1] + [self.END_OF_LINE, self.END_OF_LINE] return tokens def run_rnn( self, _tokens: List[str], newline_adj: int = 0 ) -> Tuple[List[float], int]: tokens = [int(x) for x in _tokens] token_len = len(tokens) self.model_tokens += tokens while len(tokens) > 0: out, self.model_state = self.model.forward( tokens[: self.CHUNK_LEN], self.model_state ) tokens = tokens[self.CHUNK_LEN :] out[self.END_OF_LINE] += newline_adj # adjust \n probability if self.model_tokens[-1] in self.AVOID_REPEAT_TOKENS: out[self.model_tokens[-1]] = -999999999 return out, token_len def delta_postprocess(self, delta: str) -> str: return delta def __preload(self): interface = self.interface user = self.user bot = self.bot preset_system = ( f""" The following is a coherent verbose detailed conversation between a girl named {bot} and her friend {user}. \ {bot} is very intelligent, creative and friendly. \ {bot} is unlikely to disagree with {user}, and {bot} doesn't like to ask {user} questions. \ {bot} likes to tell {user} a lot about herself and her opinions. \ {bot} usually gives {user} kind, helpful and informative advices.\n """ if self.rwkv_type == RWKVType.Raven else ( f"{user}{interface} hi\n\n{bot}{interface} Hi. " + "I am your assistant and I will provide expert full response in full details. Please feel free to ask any question and I will always answer it.\n\n" ) ) logits, _ = self.run_rnn(self.fix_tokens(self.pipeline.encode(preset_system))) try: state_cache.add_state( state_cache.AddStateBody( prompt=preset_system, tokens=self.model_tokens, state=self.model_state, logits=logits, ) ) except HTTPException: pass class MusicMidiRWKV(AbstractRWKV): def __init__(self, model, pipeline): super().__init__(model, pipeline) self.max_tokens_per_generation = 500 self.temperature = 1 self.top_p = 0.8 self.top_k = 8 self.rwkv_type = RWKVType.Music def adjust_occurrence(self, occurrence: Dict, token: int): for n in occurrence: occurrence[n] *= 0.997 #### decay repetition penalty if token >= 128 or token == 127: occurrence[token] = 1 + (occurrence[token] if token in occurrence else 0) else: occurrence[token] = 0.3 + (occurrence[token] if token in occurrence else 0) def adjust_forward_logits(self, logits: List[float], occurrence: Dict, i: int): for n in occurrence: logits[n] -= 0 + occurrence[n] * 0.5 logits[0] += (i - 2000) / 500 # try not to be too short or too long logits[127] -= 1 # avoid "t125" def fix_tokens(self, tokens) -> List[int]: return tokens def run_rnn( self, _tokens: List[str], newline_adj: int = 0 ) -> Tuple[List[float], int]: tokens = [int(x) for x in _tokens] token_len = len(tokens) self.model_tokens += tokens out, self.model_state = self.model.forward(tokens, self.model_state) return out, token_len def delta_postprocess(self, delta: str) -> str: return " " + delta class MusicAbcRWKV(AbstractRWKV): def __init__(self, model, pipeline): super().__init__(model, pipeline) self.EOS_ID = 3 self.max_tokens_per_generation = 500 self.temperature = 1 self.top_p = 0.8 self.top_k = 8 self.rwkv_type = RWKVType.Music def adjust_occurrence(self, occurrence: Dict, token: int): pass def adjust_forward_logits(self, logits: List[float], occurrence: Dict, i: int): pass def fix_tokens(self, tokens) -> List[int]: return tokens def run_rnn( self, _tokens: List[str], newline_adj: int = 0 ) -> Tuple[List[float], int]: tokens = [int(x) for x in _tokens] token_len = len(tokens) self.model_tokens += tokens out, self.model_state = self.model.forward(tokens, self.model_state) return out, token_len def delta_postprocess(self, delta: str) -> str: return delta def get_tokenizer(tokenizer_len: int): tokenizer_dir = f"{pathlib.Path(__file__).parent.parent.resolve()}/rwkv_pip/" if tokenizer_len < 2176: return "abc_tokenizer" if tokenizer_len < 20096: return tokenizer_dir + "tokenizer-midipiano.json" if tokenizer_len < 50277: return tokenizer_dir + "tokenizer-midi.json" elif tokenizer_len < 65536: return tokenizer_dir + "20B_tokenizer.json" else: return "rwkv_vocab_v20230424" def get_model_path(model_path: str) -> str: if os.path.isabs(model_path): return model_path working_dir: pathlib.Path = pathlib.Path(os.path.abspath(os.getcwd())) parent_paths: List[pathlib.Path] = [ working_dir, # [cwd](RWKV-Runner)/models/xxx working_dir.parent, # [cwd](backend-python)/../models/xxx pathlib.Path( os.path.abspath(__file__) ).parent.parent, # backend-python/models/xxx pathlib.Path( os.path.abspath(__file__) ).parent.parent.parent, # RWKV-Runner/models/xxx ] child_paths: List[Callable[[pathlib.Path], pathlib.Path]] = [ lambda p: p / model_path, lambda p: p / "build" / "bin" / model_path, # for dev ] for parent_path in parent_paths: for child_path in child_paths: full_path: pathlib.Path = child_path(parent_path) if os.path.isfile(full_path): return str(full_path) return model_path def RWKV(model: str, strategy: str, tokenizer: Union[str, None]) -> AbstractRWKV: model = get_model_path(model) rwkv_beta = global_var.get(global_var.Args).rwkv_beta rwkv_cpp = getattr(global_var.get(global_var.Args), "rwkv.cpp") webgpu = global_var.get(global_var.Args).webgpu if "midi" in model.lower() or "abc" in model.lower(): os.environ["RWKV_RESCALE_LAYER"] = "999" # dynamic import to make RWKV_CUDA_ON work if rwkv_beta: print("Using rwkv-beta") from rwkv_pip.beta.model import ( RWKV as Model, ) elif rwkv_cpp: print("Using rwkv.cpp, strategy is ignored") from rwkv_pip.cpp.model import ( RWKV as Model, ) elif webgpu: print("Using webgpu") from rwkv_pip.webgpu.model import ( RWKV as Model, ) else: from rwkv_pip.model import ( RWKV as Model, ) from rwkv_pip.utils import PIPELINE filename, _ = os.path.splitext(os.path.basename(model)) model = Model(model, strategy) if not tokenizer: tokenizer = get_tokenizer(len(model.w["emb.weight"])) pipeline = PIPELINE(model, tokenizer) rwkv_map: dict[str, Type[AbstractRWKV]] = { "20B_tokenizer": TextRWKV, "rwkv_vocab_v20230424": TextRWKV, "tokenizer-midi": MusicMidiRWKV, "tokenizer-midipiano": MusicMidiRWKV, "abc_tokenizer": MusicAbcRWKV, } tokenizer_name = os.path.splitext(os.path.basename(tokenizer))[0] global_var.set( global_var.Midi_Vocab_Config_Type, ( global_var.MidiVocabConfig.Piano if tokenizer_name == "tokenizer-midipiano" else global_var.MidiVocabConfig.Default ), ) rwkv: AbstractRWKV if tokenizer_name in rwkv_map: rwkv = rwkv_map[tokenizer_name](model, pipeline) else: tokenizer_name = tokenizer_name.lower() if "music" in tokenizer_name or "midi" in tokenizer_name: rwkv = MusicMidiRWKV(model, pipeline) elif "abc" in tokenizer_name: rwkv = MusicAbcRWKV(model, pipeline) else: rwkv = TextRWKV(model, pipeline) rwkv.name = filename return rwkv class ModelConfigBody(BaseModel): max_tokens: int = Field(default=None, gt=0, le=102400) temperature: float = Field(default=None, ge=0, le=3) top_p: float = Field(default=None, ge=0, le=1) presence_penalty: float = Field(default=None, ge=-2, le=2) frequency_penalty: float = Field(default=None, ge=-2, le=2) penalty_decay: float = Field(default=None, ge=0.99, le=0.999) top_k: int = Field(default=None, ge=0, le=25) global_penalty: bool = Field(default=None) model_config = { "json_schema_extra": { "example": { "max_tokens": 1000, "temperature": 1, "top_p": 0.3, "presence_penalty": 0, "frequency_penalty": 1, "penalty_decay": 0.996, "global_penalty": False, } } } def set_rwkv_config(model: AbstractRWKV, body: ModelConfigBody): if body.max_tokens is not None: model.max_tokens_per_generation = body.max_tokens if body.temperature is not None: if body.temperature < 0.1: model.temperature = 0.1 else: model.temperature = body.temperature if body.top_p is not None: model.top_p = body.top_p if body.presence_penalty is not None: model.penalty_alpha_presence = body.presence_penalty if body.frequency_penalty is not None: model.penalty_alpha_frequency = body.frequency_penalty if body.penalty_decay is not None: model.penalty_decay = body.penalty_decay if body.top_k is not None: model.top_k = body.top_k if body.global_penalty is not None: model.global_penalty = body.global_penalty def get_rwkv_config(model: AbstractRWKV) -> ModelConfigBody: return ModelConfigBody( max_tokens=model.max_tokens_per_generation, temperature=model.temperature, top_p=model.top_p, presence_penalty=model.penalty_alpha_presence, frequency_penalty=model.penalty_alpha_frequency, penalty_decay=model.penalty_decay, top_k=model.top_k, global_penalty=model.global_penalty, )