fix(python-backends): parse tool-call arguments for chat templates and split implicit reasoning blocks

Two bugs broke OpenAI-style tool calling on the MLX backend (and any
Python backend sharing backend/python/common), reproduced end-to-end on
LocalAI v4.5.5 with the metal-mlx backend and
mlx-community/Qwen3.5-2B-MLX-8bit.

messages_to_dicts left each tool call's function.arguments as the raw
OpenAI-wire JSON string. HuggingFace chat templates (e.g. Qwen3.5)
iterate arguments as a mapping (.items()), so any request whose history
contained a prior assistant tool_calls message failed with HTTP 500
"Generation failed: Can only get item pairs from a mapping." — breaking
every agent loop on its second turn. Decode the string back into a dict
so the template sees a mapping.

split_reasoning returned ("", text) whenever the opening think tag was
absent. Models like Qwen3.5 open the assistant turn already inside
thinking, so the generated text carries only the closing </think>; the
whole chain-of-thought leaked into content. When the opener is missing
but the closer is present, treat everything before the closer as
reasoning.

Adds platform-independent unit tests under backend/python/common
(stdlib-only, no MLX/venv required, following parent_watch_test.py).

Assisted-by: Claude Code:claude-opus-4-8
This commit is contained in:
Ettore Di Giacinto
2026-07-03 08:06:59 +00:00
parent 715d4ed8e5
commit 4bf73a7e22
4 changed files with 218 additions and 2 deletions

View File

@@ -20,7 +20,15 @@ def split_reasoning(text, think_start, think_end):
Returns ``(reasoning_content, remaining_text)``. When ``think_start`` is
empty or not found, returns ``("", text)`` unchanged.
"""
if not think_start or not text or think_start not in text:
if not think_start or not text:
return "", text
if think_start not in text:
# Models like Qwen3.5 open assistant turns already INSIDE thinking, so
# the generated text carries only the closing tag. Everything before it
# is reasoning that would otherwise leak into the content.
if think_end and think_end in text:
head, _, tail = text.partition(think_end)
return head.strip(), tail.strip()
return "", text
pattern = re.compile(
re.escape(think_start) + r"(.*?)" + re.escape(think_end or ""),

View File

@@ -0,0 +1,75 @@
"""Unit tests for the mlx/mlx-vlm shared helpers (mlx_utils.py).
Run standalone (Python standard library only, no backend venv needed):
python3 -m unittest mlx_utils_test
These mirror the server-less helper tests in backend/python/mlx/test.py
(TestSharedHelpers), but live here so they run on any platform: the mlx
test module imports grpc/backend_pb2 at import time and needs the MLX venv,
whereas mlx_utils only needs the standard library.
"""
import types
import unittest
from mlx_utils import parse_tool_calls, split_reasoning
class TestSplitReasoning(unittest.TestCase):
def test_both_tags(self):
r, c = split_reasoning(
"<think>step 1\nstep 2</think>The answer is 42.", "<think>", "</think>"
)
self.assertEqual(r, "step 1\nstep 2")
self.assertEqual(c, "The answer is 42.")
def test_implicit_opener_only_closing_tag(self):
# Qwen3.5 opens the assistant turn already inside thinking, so the
# output carries only the closing tag; everything before it is reasoning.
r, c = split_reasoning(
"The user is asking about the weather.\n</think>\n\nThe weather in Rome is sunny.",
"<think>",
"</think>",
)
self.assertEqual(r, "The user is asking about the weather.")
self.assertEqual(c, "The weather in Rome is sunny.")
def test_no_tags_at_all(self):
r, c = split_reasoning("just text", "<think>", "</think>")
self.assertEqual(r, "")
self.assertEqual(c, "just text")
def test_empty_think_end_and_no_opener_match(self):
# No think_end to anchor on, and the opener is absent → return unchanged.
r, c = split_reasoning("no opener here", "<think>", "")
self.assertEqual(r, "")
self.assertEqual(c, "no opener here")
def test_empty_text(self):
r, c = split_reasoning("", "<think>", "</think>")
self.assertEqual(r, "")
self.assertEqual(c, "")
class TestParseToolCalls(unittest.TestCase):
def test_with_shim(self):
tm = types.SimpleNamespace(
tool_call_start="<tool_call>",
tool_call_end="</tool_call>",
parse_tool_call=lambda body, tools: {
"name": "get_weather",
"arguments": {"location": body.strip()},
},
)
calls, remaining = parse_tool_calls(
"Sure: <tool_call>Paris</tool_call>", tm, tools=None
)
self.assertEqual(len(calls), 1)
self.assertEqual(calls[0]["name"], "get_weather")
self.assertEqual(calls[0]["arguments"], '{"location": "Paris"}')
self.assertEqual(calls[0]["index"], 0)
self.assertNotIn("<tool_call>", remaining)
if __name__ == "__main__":
unittest.main()

View File

@@ -58,7 +58,18 @@ def messages_to_dicts(proto_messages):
d["reasoning_content"] = msg.reasoning_content
if msg.tool_calls:
try:
d["tool_calls"] = json.loads(msg.tool_calls)
tool_calls = json.loads(msg.tool_calls)
# Chat templates (e.g. Qwen) iterate function.arguments as a
# mapping, but the OpenAI wire format carries it as a JSON
# string — decode it back so the template's .items() works.
for tc in tool_calls:
fn = tc.get("function") if isinstance(tc, dict) else None
if isinstance(fn, dict) and isinstance(fn.get("arguments"), str):
try:
fn["arguments"] = json.loads(fn["arguments"])
except json.JSONDecodeError:
pass
d["tool_calls"] = tool_calls
except json.JSONDecodeError:
pass
result.append(d)

View File

@@ -0,0 +1,122 @@
"""Unit tests for the shared python backend helpers (python_utils.py).
Run standalone (Python standard library only, no backend venv needed):
python3 -m unittest python_utils_test
These mirror the server-less helper tests in backend/python/mlx/test.py
(TestSharedHelpers), but live here so they run on any platform: the mlx
test module imports grpc/backend_pb2 at import time and needs the MLX venv,
whereas python_utils has no third-party dependency. Proto Message objects
are faked with types.SimpleNamespace (real proto fields default to "").
"""
import json
import types
import unittest
from python_utils import messages_to_dicts, parse_options
def _msg(**fields):
"""Fake a proto Message: every unset field is the empty string, as protobuf."""
defaults = {
"role": "",
"content": "",
"name": "",
"tool_call_id": "",
"reasoning_content": "",
"tool_calls": "",
}
defaults.update(fields)
return types.SimpleNamespace(**defaults)
class TestParseOptions(unittest.TestCase):
def test_type_inference(self):
opts = parse_options(
["temperature:0.7", "max_tokens:128", "trust:true", "name:hello", "no_colon_skipped"]
)
self.assertEqual(opts["temperature"], 0.7)
self.assertEqual(opts["max_tokens"], 128)
self.assertIs(opts["trust"], True)
self.assertEqual(opts["name"], "hello")
self.assertNotIn("no_colon_skipped", opts)
class TestMessagesToDicts(unittest.TestCase):
def test_basic_fields(self):
out = messages_to_dicts(
[
_msg(role="user", content="hi"),
_msg(role="tool", content="42", tool_call_id="call_1", name="f"),
]
)
self.assertEqual(out[0], {"role": "user", "content": "hi"})
self.assertEqual(out[1]["tool_call_id"], "call_1")
self.assertEqual(out[1]["name"], "f")
def test_tool_call_arguments_string_decoded_to_mapping(self):
# OpenAI wire format ships function.arguments as a JSON *string*; chat
# templates iterate it as a mapping, so it must come back as a dict.
out = messages_to_dicts(
[
_msg(
role="assistant",
tool_calls=json.dumps(
[
{
"id": "call_1",
"type": "function",
"function": {
"name": "get_weather",
"arguments": '{"location": "Rome"}',
},
}
]
),
)
]
)
args = out[0]["tool_calls"][0]["function"]["arguments"]
self.assertEqual(args, {"location": "Rome"})
self.assertEqual(dict(args.items()), {"location": "Rome"})
def test_tool_call_arguments_already_mapping_is_idempotent(self):
out = messages_to_dicts(
[
_msg(
role="assistant",
tool_calls=json.dumps(
[{"function": {"name": "f", "arguments": {"a": 1}}}]
),
)
]
)
self.assertEqual(out[0]["tool_calls"][0]["function"]["arguments"], {"a": 1})
def test_tool_call_arguments_invalid_json_left_as_string(self):
out = messages_to_dicts(
[
_msg(
role="assistant",
tool_calls=json.dumps(
[{"function": {"name": "f", "arguments": "not-json"}}]
),
)
]
)
self.assertEqual(out[0]["tool_calls"][0]["function"]["arguments"], "not-json")
def test_tool_call_without_function_key(self):
out = messages_to_dicts(
[_msg(role="assistant", tool_calls=json.dumps([{"id": "call_1"}]))]
)
self.assertEqual(out[0]["tool_calls"], [{"id": "call_1"}])
def test_tool_calls_invalid_json_dropped(self):
out = messages_to_dicts([_msg(role="assistant", tool_calls="{not json")])
self.assertNotIn("tool_calls", out[0])
if __name__ == "__main__":
unittest.main()