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sgl-project--sglang/python/sglang/srt/function_call/lfm2_detector.py
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chore: import upstream snapshot with attribution
2026-07-13 12:38:16 +08:00

388 lines
14 KiB
Python

"""
Detector for LFM2 (Liquid Foundation Model 2) function call format.
Format Structure (Pythonic style):
```
<|tool_call_start|>[function_name(arg1="value1", arg2="value2")]<|tool_call_end|>
```
Multiple tool calls:
```
<|tool_call_start|>[func1(arg="val"), func2(arg="val")]<|tool_call_end|>
```
Also supports JSON format:
```
<|tool_call_start|>[{"name": "func_name", "arguments": {...}}]<|tool_call_end|>
```
"""
import ast
import json
import logging
import re
from typing import Any, Dict, List, Optional, Tuple
from sglang.srt.entrypoints.openai.protocol import Tool
from sglang.srt.environ import envs
from sglang.srt.function_call.base_format_detector import BaseFormatDetector
from sglang.srt.function_call.core_types import (
StreamingParseResult,
StructureInfo,
ToolCallItem,
_GetInfoFunc,
)
logger = logging.getLogger(__name__)
class Lfm2Detector(BaseFormatDetector):
"""
Detector for LFM2 (Liquid Foundation Model 2) function call format.
Supports both Pythonic and JSON formats:
Pythonic:
```
<|tool_call_start|>[calculator(expression="5 * 7")]<|tool_call_end|>
```
JSON:
```
<|tool_call_start|>[{"name": "calculator", "arguments": {"expression": "5 * 7"}}]<|tool_call_end|>
```
"""
def __init__(self):
"""
Initializes the detector with necessary state variables.
"""
super().__init__()
self.bot_token = "<|tool_call_start|>"
self.eot_token = "<|tool_call_end|>"
self.tool_call_separator = ""
def has_tool_call(self, text: str) -> bool:
"""Check if the text contains an LFM2 format tool call."""
return self.bot_token in text
def _get_parameter_value(self, val: ast.AST) -> Any:
"""
Extract Python literal value from AST node.
Handles constants, dicts, and lists recursively.
Reuses pattern from PythonicDetector.
"""
if isinstance(val, ast.Constant):
return val.value
elif isinstance(val, ast.Dict):
return {
self._get_parameter_value(k): self._get_parameter_value(v)
for k, v in zip(val.keys, val.values)
if k is not None # Handle {**kwargs} case where key is None
}
elif isinstance(val, ast.List):
return [self._get_parameter_value(v) for v in val.elts]
elif isinstance(val, ast.Tuple):
return tuple(self._get_parameter_value(v) for v in val.elts)
elif isinstance(val, ast.Name):
# Handle True, False, None as names in older Python
if val.id == "True":
return True
elif val.id == "False":
return False
elif val.id == "None":
return None
else:
raise ValueError(f"Unsupported name reference: {val.id}")
elif isinstance(val, ast.UnaryOp) and isinstance(val.op, ast.USub):
# Handle negative numbers like -5
inner = self._get_parameter_value(val.operand)
if isinstance(inner, (int, float)):
return -inner
raise ValueError(f"Cannot negate non-numeric value: {inner}")
else:
raise ValueError(
f"Tool call arguments must be literals, got: {type(val).__name__}"
)
def _parse_pythonic_call(
self, call: ast.Call, call_index: int, tool_indices: Dict[str, int]
) -> Optional[ToolCallItem]:
"""
Parse a single AST Call node into a ToolCallItem.
Args:
call: AST Call node representing a function call
call_index: Index of this call in the list of calls
tool_indices: Mapping of tool names to their indices
Returns:
ToolCallItem if successful, None if the call should be skipped
"""
if not isinstance(call.func, ast.Name):
logger.warning(
f"Tool call function must be a simple name, got: {type(call.func).__name__}"
)
return None
function_name = call.func.id
# Validate that the function exists in the tools
if function_name not in tool_indices:
logger.warning(
f"Model attempted to call undefined function: {function_name}"
)
if not envs.SGLANG_FORWARD_UNKNOWN_TOOLS.get():
return None # Skip unknown tools (default legacy behavior)
# Parse arguments
arguments = {}
for keyword in call.keywords:
if keyword.arg is None:
# **kwargs unpacking - skip for now
logger.warning("Tool call with **kwargs unpacking is not supported")
continue
try:
arguments[keyword.arg] = self._get_parameter_value(keyword.value)
except ValueError as e:
logger.warning(f"Failed to parse argument {keyword.arg}: {e}")
return None
return ToolCallItem(
tool_index=call_index, # Use the call index in the response, not tool position
name=function_name,
parameters=json.dumps(arguments, ensure_ascii=False),
)
def _parse_pythonic_content(
self, content: str, tools: List[Tool]
) -> Tuple[List[ToolCallItem], str]:
"""
Parse Pythonic format tool calls using AST.
Args:
content: The content between tool call tags (without the tags)
tools: List of available tools
Returns:
Tuple of (list of parsed calls, error message if any)
"""
content = content.strip()
tool_indices = self._get_tool_indices(tools)
try:
module = ast.parse(content)
parsed = getattr(module.body[0], "value", None) if module.body else None
if parsed is None:
return [], "Empty or invalid Python expression"
# Handle both single call and list of calls
if isinstance(parsed, ast.List):
call_nodes = parsed.elts
elif isinstance(parsed, ast.Call):
call_nodes = [parsed]
else:
return (
[],
f"Expected function call or list, got: {type(parsed).__name__}",
)
# Validate all elements are calls
if not all(isinstance(e, ast.Call) for e in call_nodes):
return [], "Not all elements in list are function calls"
calls = []
for call_index, call in enumerate(call_nodes):
item = self._parse_pythonic_call(call, call_index, tool_indices)
if item is not None:
calls.append(item)
return calls, ""
except SyntaxError as e:
return [], f"Python syntax error: {e}"
except Exception as e:
logger.exception("Unexpected error in pythonic tool call parsing")
return [], f"Unexpected error: {e}"
def _parse_json_content(
self, content: str, tools: List[Tool]
) -> Tuple[List[ToolCallItem], str]:
"""
Parse JSON format tool calls.
Uses parse_base_json from BaseFormatDetector for consistent handling
of SGLANG_FORWARD_UNKNOWN_TOOLS and tool validation.
Args:
content: The content between tool call tags (without the tags)
tools: List of available tools
Returns:
Tuple of (list of parsed calls, error message if any)
"""
content = content.strip()
try:
parsed = json.loads(content)
# parse_base_json handles list/dict normalization, tool validation,
# and SGLANG_FORWARD_UNKNOWN_TOOLS consistently with other detectors
calls = self.parse_base_json(parsed, tools)
return calls, ""
except json.JSONDecodeError as e:
return [], f"JSON parse error: {e}"
def _parse_tool_calls_content(
self, content: str, tools: List[Tool]
) -> List[ToolCallItem]:
"""
Parse the content between tool call tags.
Handles both JSON and Pythonic formats.
"""
content = content.strip()
# First, try JSON format (faster check)
if content.startswith("[{") or content.startswith("{"):
calls, error = self._parse_json_content(content, tools)
if calls:
return calls
# If JSON parsing failed but it looked like JSON, log the error
if error:
logger.debug(f"JSON parsing failed: {error}, trying Pythonic format")
# Try Pythonic format
calls, error = self._parse_pythonic_content(content, tools)
if calls:
return calls
if error:
logger.warning(f"Failed to parse tool calls: {error}")
return []
def detect_and_parse(self, text: str, tools: List[Tool]) -> StreamingParseResult:
"""
One-time parsing: Detects and parses tool calls in the provided text.
"""
idx = text.find(self.bot_token)
normal_text = text[:idx].strip() if idx != -1 else text
if self.bot_token not in text:
return StreamingParseResult(normal_text=normal_text, calls=[])
# Find all <|tool_call_start|>...<|tool_call_end|> blocks
pattern = rf"{re.escape(self.bot_token)}(.*?){re.escape(self.eot_token)}"
match_result_list = re.findall(pattern, text, re.DOTALL)
calls = []
for match_result in match_result_list:
parsed_calls = self._parse_tool_calls_content(match_result, tools)
calls.extend(parsed_calls)
return StreamingParseResult(normal_text=normal_text, calls=calls)
def _strip_special_tokens(self, text: str) -> str:
"""Remove special tokens from text."""
return text.replace(self.bot_token, "").replace(self.eot_token, "")
def parse_streaming_increment(
self, new_text: str, tools: List[Tool]
) -> StreamingParseResult:
"""
Streaming incremental parsing for LFM2 tool calls.
This implementation properly handles Pythonic format by:
1. Buffering until we see complete <|tool_call_start|>[...]<|tool_call_end|>
2. Emitting normal text before tool calls immediately
3. Parsing complete tool call blocks using detect_and_parse
Based on PythonicDetector streaming logic.
"""
self._buffer += new_text
# Check for partial bot_token at the end
partial_bot = self._ends_with_partial_token(self._buffer, self.bot_token)
partial_eot = self._ends_with_partial_token(self._buffer, self.eot_token)
# Find bot_token position
bot_pos = self._buffer.find(self.bot_token)
if bot_pos == -1:
# No tool call start found
if partial_bot:
# Might be partial bot_token, hold back that part
safe_text = self._buffer[:-partial_bot]
self._buffer = self._buffer[-partial_bot:]
return StreamingParseResult(normal_text=safe_text)
else:
# No tool call, emit all as normal text
normal_text = self._strip_special_tokens(self._buffer)
self._buffer = ""
return StreamingParseResult(normal_text=normal_text)
# We have bot_token - extract any normal text before it
normal_text_before = self._buffer[:bot_pos] if bot_pos > 0 else ""
# Look for the end token
eot_pos = self._buffer.find(self.eot_token, bot_pos + len(self.bot_token))
if eot_pos == -1:
# No end token yet - check if we might have a partial one
if partial_eot:
# Hold back the partial token, but we need to keep buffering
# Just emit any normal text before the tool call
if normal_text_before:
self._buffer = self._buffer[bot_pos:]
return StreamingParseResult(normal_text=normal_text_before)
# Keep buffering
return StreamingParseResult(normal_text="")
# No end token and no partial - keep buffering but emit normal text
if normal_text_before:
self._buffer = self._buffer[bot_pos:]
return StreamingParseResult(normal_text=normal_text_before)
# Just keep buffering
return StreamingParseResult(normal_text="")
# We have a complete tool call block
tool_call_block = self._buffer[bot_pos : eot_pos + len(self.eot_token)]
remaining = self._buffer[eot_pos + len(self.eot_token) :]
# Parse the complete block
result = self.detect_and_parse(tool_call_block, tools)
# Update buffer with remaining text
self._buffer = remaining
# Add any normal text before the tool call
if normal_text_before:
result.normal_text = normal_text_before + (result.normal_text or "")
return result
def supports_structural_tag(self) -> bool:
"""
Return False because LFM2 uses Pythonic format which is not JSON-compatible.
structural_tag only supports JSON-compatible content between begin and end,
so it cannot parse Pythonic function call syntax like `func(arg="val")`.
"""
return False
def structure_info(self) -> _GetInfoFunc:
"""
Return structure info for constrained generation.
Note: This is provided for completeness but won't be used since
supports_structural_tag() returns False.
"""
return lambda name: StructureInfo(
begin="<|tool_call_start|>[" + name + "(",
end=")]<|tool_call_end|>",
trigger="<|tool_call_start|>",
)