# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project import ast import json import uuid from collections.abc import Sequence from typing import Any, List, Optional, Union import regex as re from vllm.entrypoints.openai.chat_completion.protocol import ( ChatCompletionRequest, ChatCompletionToolsParam, ) from vllm.entrypoints.openai.engine.protocol import ( DeltaFunctionCall, DeltaMessage, DeltaToolCall, ExtractedToolCallInformation, FunctionCall, ToolCall, ) from vllm.tool_parsers.abstract_tool_parser import ( ToolParser, ToolParserManager, ) from vllm.logger import init_logger from vllm.tokenizers import TokenizerLike as AnyTokenizer logger = init_logger(__name__) @ToolParserManager.register_module("qwen3_coder") class Qwen3CoderToolParser(ToolParser): def __init__(self, tokenizer: AnyTokenizer): super().__init__(tokenizer) self.current_tool_name_sent: bool = False self.prev_tool_call_arr: list[dict] = [] self.current_tool_id: int = -1 self.streamed_args_for_tool: list[str] = [] # Sentinel tokens for streaming mode self.tool_call_start_token: str = "" self.tool_call_end_token: str = "" self.tool_call_prefix: str = "(.*?)", re.DOTALL) self.tool_call_regex = re.compile( r"(.*?)|(.*?)$", re.DOTALL) self.tool_call_function_regex = re.compile( r"||(?=)|$)", 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) if self.tool_call_start_token_id is None or self.tool_call_end_token_id is None: raise RuntimeError( "Qwen3 XML Tool parser could not locate tool call start/end " "tokens in the tokenizer!") logger.info( f"vLLM Successfully import tool parser {self.__class__.__name__} !" ) def _generate_tool_call_id(self) -> str: """Generate a unique tool call ID.""" return f"call_{uuid.uuid4().hex[:24]}" def _reset_streaming_state(self): """Reset all streaming state.""" self.current_tool_index = 0 self.is_tool_call_started = False self.header_sent = False self.current_tool_id = None self.current_function_name = None self.current_param_name = None self.current_param_value = "" self.param_count = 0 self.in_param = False self.in_function = False self.accumulated_text = "" self.json_started = False self.json_closed = False # Store accumulated parameters for type conversion self.accumulated_params = {} self.streaming_request = None def _get_arguments_config( self, func_name: str, tools: Optional[list[ChatCompletionToolsParam]]) -> dict: """Extract argument configuration for a function.""" if tools is None: return {} for config in tools: if not hasattr(config, "type") or not (hasattr( config, "function") and hasattr(config.function, "name")): continue if config.type == "function" and config.function.name == func_name: if not hasattr(config.function, "parameters"): return {} params = config.function.parameters if isinstance(params, dict) and "properties" in params: return params["properties"] elif isinstance(params, dict): return params else: return {} logger.warning(f"Tool '{func_name}' is not defined in the tools list.") return {} def _convert_param_value(self, param_value: str, param_name: str, param_config: dict, func_name: str) -> Any: """Convert parameter value based on its type in the schema.""" # Handle null value for any type if param_value.lower() == "null": return None if param_name not in param_config: if param_config != {}: logger.warning( f"Parsed parameter '{param_name}' is not defined in the tool " f"parameters for tool '{func_name}', directly returning the string value." ) return param_value if isinstance(param_config[param_name], dict) and "type" in param_config[param_name]: param_type = str(param_config[param_name]["type"]).strip().lower() else: param_type = "string" if param_type in ["string", "str", "text", "varchar", "char", "enum"]: return param_value elif param_type.startswith("int") or param_type.startswith( "uint") or param_type.startswith( "long") or param_type.startswith( "short") or param_type.startswith("unsigned"): try: param_value = int(param_value) except: logger.warning( f"Parsed value '{param_value}' of parameter '{param_name}' is not an integer in tool " f"'{func_name}', degenerating to string.") return param_value elif param_type.startswith("num") or param_type.startswith("float"): try: maybe_convert = False if "." in param_value or "e" in param_value.lower() else True param_value: float = float(param_value) if maybe_convert and param_value.is_integer(): param_value = int(param_value) except: logger.warning( f"Parsed value '{param_value}' of parameter '{param_name}' is not a float in tool " f"'{func_name}', degenerating to string.") return param_value elif param_type in ["boolean", "bool", "binary"]: param_value = param_value.lower() if param_value not in ["true", "false"]: logger.warning( f"Parsed value '{param_value}' of parameter '{param_name}' is not a boolean (`true` of `false`) in tool '{func_name}', degenerating to false." ) return param_value == "true" else: if param_type in ["object", "array", "arr" ] or param_type.startswith( "dict") or param_type.startswith("list"): try: param_value = json.loads(param_value) return param_value except: logger.warning( f"Parsed value '{param_value}' of parameter '{param_name}' cannot be parsed with json.loads in tool " f"'{func_name}', will try other methods to parse it.") try: param_value = ast.literal_eval(param_value) # safer except: logger.warning( f"Parsed value '{param_value}' of parameter '{param_name}' cannot be converted via Python `ast.literal_eval()` in tool '{func_name}', degenerating to string." ) return param_value def _parse_xml_function_call( self, function_call_str: str, tools: Optional[list[ChatCompletionToolsParam]] ) -> Optional[ToolCall]: # Extract function name end_index = function_call_str.index(">") function_name = function_call_str[:end_index] param_config = self._get_arguments_config(function_name, tools) parameters = function_call_str[end_index + 1:] param_dict = {} for match_text in self.tool_call_parameter_regex.findall(parameters): idx = match_text.index(">") param_name = match_text[:idx] param_value = str(match_text[idx + 1:]) # Remove prefix and trailing \n if param_value.startswith("\n"): param_value = param_value[1:] if param_value.endswith("\n"): param_value = param_value[:-1] param_dict[param_name] = self._convert_param_value( param_value, param_name, param_config, function_name) return ToolCall( type="function", function=FunctionCall(name=function_name, arguments=json.dumps(param_dict, ensure_ascii=False)), ) def _get_function_calls(self, model_output: str) -> List[str]: # Find all tool calls matched_ranges = self.tool_call_regex.findall(model_output) raw_tool_calls = [ match[0] if match[0] else match[1] for match in matched_ranges ] # Back-off strategy if no tool_call tags found if len(raw_tool_calls) == 0: raw_tool_calls = [model_output] raw_function_calls = [] for tool_call in raw_tool_calls: raw_function_calls.extend( self.tool_call_function_regex.findall(tool_call)) function_calls = [ match[0] if match[0] else match[1] for match in raw_function_calls ] return function_calls def extract_tool_calls( self, model_output: str, request: ChatCompletionRequest, ) -> ExtractedToolCallInformation: # Quick check to avoid unnecessary processing if self.tool_call_prefix not in model_output: return ExtractedToolCallInformation(tools_called=False, tool_calls=[], content=model_output) try: function_calls = self._get_function_calls(model_output) if len(function_calls) == 0: return ExtractedToolCallInformation(tools_called=False, tool_calls=[], content=model_output) tool_calls = [ self._parse_xml_function_call(function_call_str, request.tools) for function_call_str in function_calls ] # Populate prev_tool_call_arr for serving layer to set finish_reason self.prev_tool_call_arr.clear() # Clear previous calls for tool_call in tool_calls: if tool_call: self.prev_tool_call_arr.append({ "name": tool_call.function.name, "arguments": tool_call.function.arguments, }) # Extract content before tool calls content_index = model_output.find(self.tool_call_start_token) content_index = content_index if content_index >= 0 else model_output.find( self.tool_call_prefix) content = model_output[:content_index] # .rstrip() return ExtractedToolCallInformation( tools_called=(len(tool_calls) > 0), tool_calls=tool_calls, content=content if content 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]: # Store request for type conversion if not previous_text: self._reset_streaming_state() self.streaming_request = request # If no delta text, return None unless it's an EOS token after tool calls if not delta_text: # Check if this is an EOS token after all tool calls are complete # We check for tool calls in the text even if is_tool_call_started is False # because it might have been reset after processing all tools if delta_token_ids and self.tool_call_end_token_id not in delta_token_ids: # Count complete tool calls complete_calls = len( self.tool_call_complete_regex.findall(current_text)) # If we have completed tool calls and populated prev_tool_call_arr if complete_calls > 0 and len(self.prev_tool_call_arr) > 0: # Check if all tool calls are closed open_calls = current_text.count( self.tool_call_start_token) - current_text.count( self.tool_call_end_token) if open_calls == 0: # Return empty delta message to allow finish_reason processing return DeltaMessage(content="") elif not self.is_tool_call_started and current_text: # This is a regular content response that's now complete return DeltaMessage(content="") return None # Update accumulated text self.accumulated_text = current_text # Check if we need to advance to next tool if self.json_closed and not self.in_function: # Check if this tool call has ended tool_ends = current_text.count(self.tool_call_end_token) if tool_ends > self.current_tool_index: # This tool has ended, advance to next self.current_tool_index += 1 self.header_sent = False self.param_count = 0 self.json_started = False self.json_closed = False self.accumulated_params = {} # Check if there are more tool calls tool_starts = current_text.count(self.tool_call_start_token) if self.current_tool_index >= tool_starts: # No more tool calls self.is_tool_call_started = False # Continue processing next tool return None # Handle normal content before tool calls if not self.is_tool_call_started: # Check if tool call is starting if self.tool_call_start_token_id in delta_token_ids or self.tool_call_start_token in delta_text: self.is_tool_call_started = True # Return any content before the tool call if self.tool_call_start_token in delta_text: content_before = delta_text[:delta_text.index( self.tool_call_start_token)] if content_before: return DeltaMessage(content=content_before) return None else: # Check if we're between tool calls - skip whitespace if current_text.rstrip().endswith(self.tool_call_end_token): # We just ended a tool call, skip whitespace if delta_text.strip() == "": return None # Normal content, no tool call return DeltaMessage(content=delta_text) # Check if we're between tool calls (waiting for next one) # Count tool calls we've seen vs processed tool_starts_count = current_text.count(self.tool_call_start_token) if self.current_tool_index >= tool_starts_count: # We're past all tool calls, shouldn't be here return None # We're in a tool call, find the current tool call portion # Need to find the correct tool call based on current_tool_index tool_starts = [] idx = 0 while True: idx = current_text.find(self.tool_call_start_token, idx) if idx == -1: break tool_starts.append(idx) idx += len(self.tool_call_start_token) if self.current_tool_index >= len(tool_starts): # No more tool calls to process yet return None tool_start_idx = tool_starts[self.current_tool_index] # Find where this tool call ends (or current position if not ended yet) tool_end_idx = current_text.find(self.tool_call_end_token, tool_start_idx) if tool_end_idx == -1: tool_text = current_text[tool_start_idx:] else: tool_text = current_text[tool_start_idx:tool_end_idx + len(self.tool_call_end_token)] # Looking for function header if not self.header_sent: if self.tool_call_prefix in tool_text: func_start = tool_text.find(self.tool_call_prefix) + len( self.tool_call_prefix) func_end = tool_text.find(">", func_start) if func_end != -1: # Found complete function name self.current_function_name = tool_text[func_start:func_end] self.current_tool_id = self._generate_tool_call_id() self.header_sent = True self.in_function = True # IMPORTANT: Add to prev_tool_call_arr immediately when we detect a tool call # This ensures finish_reason="tool_calls" even if parsing isn't complete already_added = any( tool.get("name") == self.current_function_name for tool in self.prev_tool_call_arr) if not already_added: self.prev_tool_call_arr.append({ "name": self.current_function_name, "arguments": "{}", # Placeholder, will be updated later }) # Send header with function info return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_index, id=self.current_tool_id, function=DeltaFunctionCall( name=self.current_function_name, arguments=""), type="function", ) ]) return None # We've sent header, now handle function body if self.in_function: # Send opening brace if not sent yet if not self.json_started and self.parameter_prefix not in delta_text: self.json_started = True return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_index, function=DeltaFunctionCall(arguments="{"), ) ]) # Make sure json_started is set if we're processing parameters if not self.json_started: self.json_started = True # Check for function end in accumulated text if not self.json_closed and self.function_end_token in tool_text: # Close JSON self.json_closed = True # Extract the complete tool call to update prev_tool_call_arr with final arguments # Find the function content func_start = tool_text.find(self.tool_call_prefix) + len( self.tool_call_prefix) func_content_end = tool_text.find(self.function_end_token, func_start) if func_content_end != -1: func_content = tool_text[func_start:func_content_end] # Parse to get the complete arguments try: parsed_tool = self._parse_xml_function_call( func_content, self.streaming_request.tools if self.streaming_request else None) if parsed_tool: # Update existing entry in prev_tool_call_arr with complete arguments for i, tool in enumerate(self.prev_tool_call_arr): if tool.get( "name") == parsed_tool.function.name: self.prev_tool_call_arr[i][ "arguments"] = parsed_tool.function.arguments break except Exception: pass # Ignore parsing errors during streaming result = DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_index, function=DeltaFunctionCall(arguments="}"), ) ]) # Reset state for next tool self.in_function = False self.json_closed = True self.accumulated_params = {} return result # Look for parameters # Find all parameter starts param_starts = [] idx = 0 while True: idx = tool_text.find(self.parameter_prefix, idx) if idx == -1: break param_starts.append(idx) idx += len(self.parameter_prefix) # Check if we should start a new parameter if not self.in_param and self.param_count < len(param_starts): if len(param_starts) > self.param_count: # Process the next parameter param_idx = param_starts[self.param_count] param_start = param_idx + len(self.parameter_prefix) remaining = tool_text[param_start:] if ">" in remaining: # We have the complete parameter name name_end = remaining.find(">") self.current_param_name = remaining[:name_end] # Find the parameter value value_start = param_start + name_end + 1 value_text = tool_text[value_start:] if value_text.startswith("\n"): value_text = value_text[1:] # Find where this parameter ends param_end_idx = value_text.find( self.parameter_end_token) if param_end_idx == -1: # No closing tag, look for next parameter or function end next_param_idx = value_text.find( self.parameter_prefix) func_end_idx = value_text.find( self.function_end_token) if next_param_idx != -1 and (func_end_idx == -1 or next_param_idx < func_end_idx): param_end_idx = next_param_idx elif func_end_idx != -1: param_end_idx = func_end_idx else: # Neither found, check if tool call is complete if self.tool_call_end_token in tool_text: # Tool call is complete, so parameter must be complete too # Use all remaining text before function end as value param_end_idx = len(value_text) else: # Still streaming, wait for more content return None if param_end_idx != -1: # Complete parameter found param_value = value_text[:param_end_idx] if param_value.endswith("\n"): param_value = param_value[:-1] # Store raw value for later processing self.accumulated_params[ self.current_param_name] = param_value # Get parameter configuration for type conversion param_config = self._get_arguments_config( self.current_function_name, self.streaming_request.tools if self.streaming_request else None) # Convert the parameter value to the appropriate type converted_value = self._convert_param_value( param_value, self.current_param_name, param_config, self.current_function_name) # Build JSON fragment based on the converted type # Use json.dumps to properly serialize the value serialized_value = json.dumps(converted_value, ensure_ascii=False) if self.param_count == 0: json_fragment = f'"{self.current_param_name}": {serialized_value}' else: json_fragment = f', "{self.current_param_name}": {serialized_value}' self.param_count += 1 return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_index, function=DeltaFunctionCall( arguments=json_fragment), ) ]) # Continue parameter value - Not used in the current implementation # since we process complete parameters above if self.in_param: if self.parameter_end_token in delta_text: # End of parameter end_idx = delta_text.find(self.parameter_end_token) value_chunk = delta_text[:end_idx] # Skip past > if at start if not self.current_param_value and ">" in value_chunk: gt_idx = value_chunk.find(">") value_chunk = value_chunk[gt_idx + 1:] if not self.current_param_value and value_chunk.startswith( "\n"): value_chunk = value_chunk[1:] # Store complete value full_value = self.current_param_value + value_chunk self.accumulated_params[ self.current_param_name] = full_value # Get parameter configuration for type conversion param_config = self._get_arguments_config( self.current_function_name, self.streaming_request.tools if self.streaming_request else None) # Convert the parameter value to the appropriate type converted_value = self._convert_param_value( full_value, self.current_param_name, param_config, self.current_function_name) # Serialize the converted value serialized_value = json.dumps(converted_value, ensure_ascii=False) # Since we've been streaming the quoted version, we need to close it properly # This is complex - for now just complete the value self.in_param = False self.current_param_value = "" # Just close the current parameter string return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_index, function=DeltaFunctionCall( arguments='"'), # Close the string quote ) ]) else: # Continue accumulating value value_chunk = delta_text # Handle first chunk after param name if not self.current_param_value and ">" in value_chunk: gt_idx = value_chunk.find(">") value_chunk = value_chunk[gt_idx + 1:] if not self.current_param_value and value_chunk.startswith( "\n"): value_chunk = value_chunk[1:] if value_chunk: # Stream the escaped delta prev_escaped = json.dumps( self.current_param_value, ensure_ascii=False )[1:-1] if self.current_param_value else "" self.current_param_value += value_chunk full_escaped = json.dumps(self.current_param_value, ensure_ascii=False)[1:-1] delta_escaped = full_escaped[len(prev_escaped):] if delta_escaped: return DeltaMessage(tool_calls=[ DeltaToolCall( index=self.current_tool_index, function=DeltaFunctionCall( arguments=delta_escaped), ) ]) return None