# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project # code modified from deepseekv3_tool_parser.py from collections.abc import Sequence from typing import Union import regex as re from vllm.entrypoints.openai.protocol import (ChatCompletionRequest, DeltaFunctionCall, DeltaMessage, DeltaToolCall, ExtractedToolCallInformation, FunctionCall, ToolCall) from vllm.entrypoints.openai.tool_parsers.abstract_tool_parser import ( ToolParser, ToolParserManager) from vllm.logger import init_logger from vllm.transformers_utils.tokenizer import AnyTokenizer logger = init_logger(__name__) @ToolParserManager.register_module("glm4_moe") class Glm4MoeModelToolParser(ToolParser): def __init__(self, tokenizer: AnyTokenizer): super().__init__(tokenizer) self.current_tool_name_sent = False self.prev_tool_call_arr: list[dict] = [] self.current_tool_id = -1 self.streamed_args_for_tool: list[str] = [] self.tool_call_start_token = "" self.tool_call_end_token = "" self.tool_calls_start_token = self.tool_call_start_token # Updated regex for the XML-based format self.tool_call_regex = re.compile( r"\s*" r"(?P[^\n<]+)\s*" # 函数名（到换行或 <） r"(?P(?:\s*[^<]+\s*" r"[^<]*\s*)*)\s*" r"", re.DOTALL, ) # Regex for parsing individual arguments self.arg_regex = re.compile( r"(?P[^<]+)\s*(?P[^<]*)", re.DOTALL, ) # Streaming regex self.stream_tool_call_portion_regex = re.compile( r"(?P[^\n<]+)\s*" r"(?P(?:\s*[^<]+\s*" r"[^<]*\s*)*)", re.DOTALL, ) # For streaming, we also need a regex to match just the function name self.stream_tool_call_name_regex = re.compile( r"(?P[^\n<]+)", re.DOTALL, ) if not self.model_tokenizer: raise ValueError( "The model tokenizer must be passed to the ToolParser " "constructor during construction.") self.tool_call_start_token_id = self.vocab.get( self.tool_call_start_token) self.tool_call_end_token_id = self.vocab.get(self.tool_call_end_token) def _parse_arguments(self, args_text: str) -> str: """Parse XML-based arguments into JSON format.""" if not args_text or not args_text.strip(): return "{}" args_dict = {} matches = self.arg_regex.findall(args_text) for key, value in matches: args_dict[key.strip()] = value.strip() import json return json.dumps(args_dict, ensure_ascii=False) def extract_tool_calls( self, model_output: str, request: ChatCompletionRequest, ) -> ExtractedToolCallInformation: # sanity check; avoid unnecessary processing if self.tool_calls_start_token not in model_output: return ExtractedToolCallInformation(tools_called=False, tool_calls=[], content=model_output) try: # Find all tool calls in the output function_call_matches = self.tool_call_regex.findall(model_output) logger.debug("function_call_matches: %s", function_call_matches) if not function_call_matches: return ExtractedToolCallInformation( tools_called=False, tool_calls=[], content=model_output, ) tool_calls = [] for i, match in enumerate(function_call_matches): function_name, function_args_xml = match function_name = function_name.strip() # Parse XML arguments to JSON function_args_json = self._parse_arguments(function_args_xml) tool_calls.append( ToolCall( id=f"call_{i}", type='function', function=FunctionCall(name=function_name, arguments=function_args_json), )) # Extract content before the first tool call content = model_output[:model_output.find(self. tool_calls_start_token)] return ExtractedToolCallInformation( tools_called=bool(tool_calls), tool_calls=tool_calls, content=content.strip() if content.strip() else None, ) except Exception: logger.exception("Error in extracting tool call from response.") return ExtractedToolCallInformation(tools_called=False, tool_calls=[], content=model_output) def extract_tool_calls_streaming( self, previous_text: str, current_text: str, delta_text: str, previous_token_ids: Sequence[int], current_token_ids: Sequence[int], delta_token_ids: Sequence[int], request: ChatCompletionRequest, ) -> Union[DeltaMessage, None]: logger.debug("delta_text: %s", delta_text) logger.debug("delta_token_ids: %s", delta_token_ids) # check to see if we should be streaming a tool call - is there a if self.tool_call_start_token_id not in current_token_ids: logger.debug("No tool call tokens found!") return DeltaMessage(content=delta_text) delta_text = delta_text.replace(self.tool_calls_start_token, "").replace(self.tool_call_end_token, "") try: # figure out where we are in the parsing by counting tool call # start & end tags prev_tool_start_count = previous_token_ids.count( self.tool_call_start_token_id) prev_tool_end_count = previous_token_ids.count( self.tool_call_end_token_id) cur_tool_start_count = current_token_ids.count( self.tool_call_start_token_id) cur_tool_end_count = current_token_ids.count( self.tool_call_end_token_id) tool_call_portion = None text_portion = None # case: if we're generating text, OR rounding out a tool call if (cur_tool_start_count == cur_tool_end_count and prev_tool_end_count == cur_tool_end_count and self.tool_call_end_token not in delta_text): logger.debug("Generating text content! skipping tool parsing.") return DeltaMessage(content=delta_text) if self.tool_call_end_token in delta_text: logger.debug("tool_call_end_token in delta_text") full_text = current_text + delta_text tool_call_portion = full_text.split( self.tool_call_start_token)[-1].split( self.tool_call_end_token)[0].rstrip() delta_text = delta_text.split( self.tool_call_end_token)[0].rstrip() text_portion = delta_text.split( self.tool_call_end_token)[-1].lstrip() # case -- we're starting a new tool call if (cur_tool_start_count > cur_tool_end_count and cur_tool_start_count > prev_tool_start_count): if len(delta_token_ids) > 1: tool_call_portion = current_text.split( self.tool_call_start_token)[-1] else: tool_call_portion = None delta = None text_portion = None # set cursors and state appropriately self.current_tool_id += 1 self.current_tool_name_sent = False self.streamed_args_for_tool.append("") logger.debug("Starting on a new tool %s", self.current_tool_id) # case -- we're updating an existing tool call elif (cur_tool_start_count > cur_tool_end_count and cur_tool_start_count == prev_tool_start_count): # get the portion of the text that's the tool call tool_call_portion = current_text.split( self.tool_call_start_token)[-1] text_portion = None # case -- the current tool call is being closed. elif (cur_tool_start_count == cur_tool_end_count and cur_tool_end_count >= prev_tool_end_count): if self.prev_tool_call_arr is None or len( self.prev_tool_call_arr) == 0: logger.debug( "attempting to close tool call, but no tool call") return None diff = self.prev_tool_call_arr[self.current_tool_id].get( "arguments") if diff: diff = (diff.encode("utf-8").decode("unicode_escape") if diff is str else diff) if '"}' not in delta_text: return None end_loc = delta_text.rindex('"}') diff = delta_text[:end_loc] + '"}' logger.debug( "Finishing tool and found diff that had not " "been streamed yet: %s", diff, ) self.streamed_args_for_tool[self.current_tool_id] += diff return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_id, function=DeltaFunctionCall( arguments=diff).model_dump(exclude_none=True), ) ]) # case -- otherwise we're just generating text else: text = delta_text.replace(self.tool_call_start_token, "") text = text.replace(self.tool_call_end_token, "") delta = DeltaMessage(tool_calls=[], content=text) return delta current_tool_call = dict() if tool_call_portion: current_tool_call_matches = ( self.stream_tool_call_portion_regex.match( tool_call_portion)) if current_tool_call_matches: tool_id, tool_args = (current_tool_call_matches.groups()) tool_name = tool_id.split('.')[1].split(':')[0] current_tool_call['id'] = tool_id current_tool_call["name"] = tool_name current_tool_call["arguments"] = tool_args else: current_tool_call_name_matches = ( self.stream_tool_call_name_regex.match( tool_call_portion)) if current_tool_call_name_matches: tool_id_str, = current_tool_call_name_matches.groups() tool_name = tool_id_str.split('.')[1].split(':')[0] current_tool_call['id'] = tool_id_str current_tool_call["name"] = tool_name current_tool_call["arguments"] = "" else: logger.debug("Not enough token") return None # case - we haven't sent the tool name yet. If it's available, send # it. otherwise, wait until it's available. if not self.current_tool_name_sent: if current_tool_call is None: return None function_name: Union[str, None] = current_tool_call.get("name") tool_id = current_tool_call.get("id") if function_name: self.current_tool_name_sent = True return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_id, type="function", id=tool_id, function=DeltaFunctionCall( name=function_name).model_dump( exclude_none=True), ) ]) else: return None # case -- otherwise, send the tool call delta # if the tool call portion is None, send the delta as text if tool_call_portion is None: # if there's text but not tool calls, send that - # otherwise None to skip chunk delta = (DeltaMessage( content=delta_text) if text_portion is not None else None) return delta # now, the nitty-gritty of tool calls # now we have the portion to parse as tool call. logger.debug("Trying to parse current tool call with ID %s", self.current_tool_id) # if we're starting a new tool call, push an empty object in as # a placeholder for the arguments if len(self.prev_tool_call_arr) <= self.current_tool_id: self.prev_tool_call_arr.append({}) # main logic for tool parsing here - compare prev. partially-parsed # JSON to the current partially-parsed JSON prev_arguments = self.prev_tool_call_arr[self.current_tool_id].get( "arguments") cur_arguments = current_tool_call.get("arguments") logger.debug("diffing old arguments: %s", prev_arguments) logger.debug("against new ones: %s", cur_arguments) # case -- no arguments have been created yet. skip sending a delta. if not cur_arguments and not prev_arguments: logger.debug("Skipping text %s - no arguments", delta_text) delta = None # case -- prev arguments are defined, but non are now. # probably impossible, but not a fatal error - just keep going elif not cur_arguments and prev_arguments: logger.error("should be impossible to have arguments reset " "mid-call. skipping streaming anything.") delta = None # case -- we now have the first info about arguments available from # autocompleting the JSON elif cur_arguments and not prev_arguments: delta = DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_id, function=DeltaFunctionCall( arguments=cur_arguments).model_dump( exclude_none=True), ) ]) self.streamed_args_for_tool[ self.current_tool_id] = cur_arguments # last case -- we have an update to existing arguments. elif cur_arguments and prev_arguments: if (isinstance(delta_text, str) and cur_arguments != prev_arguments and len(cur_arguments) > len(prev_arguments) and cur_arguments.startswith(prev_arguments)): delta_arguments = cur_arguments[len(prev_arguments):] logger.debug("got diff %s", delta_text) delta = DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_id, function=DeltaFunctionCall( arguments=delta_arguments).model_dump( exclude_none=True), ) ]) self.streamed_args_for_tool[ self.current_tool_id] = cur_arguments else: delta = None # handle saving the state for the current tool into # the "prev" list for use in diffing for the next iteration if self.current_tool_id == len(self.prev_tool_call_arr) - 1: self.prev_tool_call_arr[ self.current_tool_id] = current_tool_call else: self.prev_tool_call_arr.append(current_tool_call) return delta except Exception: logger.exception("Error trying to handle streaming tool call.") return None # do not stream a delta. skip this token ID.