model: fix qwen3 tool calling in thinking (#14477)

Align Qwen parser behavior with Transformers serve by allowing <tool_call> parsing while still in thinking collection.

Changes:

- qwen3vl: detect <tool_call> before </think> in thinking state and transition to tool parsing

- qwen3: same thinking-state tool detection and partial-tag overlap handling

- tests: update qwen3vl thinking/tool interleaving expectations

- tests: add qwen3 cases for tool call before </think> and split <tool_call> streaming

app/cmd/app/app.go

@@ -296,8 +296,15 @@ func main() {
 
 	// Check for pending updates on startup (show tray notification if update is ready)
 	if updater.IsUpdatePending() {
-		slog.Debug("update pending on startup, showing tray notification")
-		UpdateAvailable("")
+		// On Windows, the tray is initialized in osRun(). Calling UpdateAvailable
+		// before that would dereference a nil tray callback.
+		// TODO: refactor so the update check runs after platform init on all platforms.
+		if runtime.GOOS == "windows" {
+			slog.Debug("update pending on startup, deferring tray notification until tray initialization")
+		} else {
+			slog.Debug("update pending on startup, showing tray notification")
+			UpdateAvailable("")
+		}
 	}
 
 	hasCompletedFirstRun, err := st.HasCompletedFirstRun()

app/cmd/app/app_windows.go

@@ -154,6 +154,10 @@ func handleURLSchemeRequest(urlScheme string) {
 }
 
 func UpdateAvailable(ver string) error {
+	if app.t == nil {
+		slog.Debug("tray not yet initialized, skipping update notification")
+		return nil
+	}
 	return app.t.UpdateAvailable(ver)
 }
 
@@ -165,6 +169,14 @@ func osRun(shutdown func(), hasCompletedFirstRun, startHidden bool) {
 		log.Fatalf("Failed to start: %s", err)
 	}
 
+	// Check for pending updates now that the tray is initialized.
+	// The platform-independent check in app.go fires before osRun,
+	// when app.t is still nil, so we must re-check here.
+	if updater.IsUpdatePending() {
+		slog.Debug("update pending on startup, showing tray notification")
+		UpdateAvailable("")
+	}
+
 	signals := make(chan os.Signal, 1)
 	signal.Notify(signals, syscall.SIGINT, syscall.SIGTERM)
 

model/parsers/qwen3.go

@@ -204,6 +204,24 @@ func (p *Qwen3Parser) eat() ([]qwen3Event, bool) {
 			p.maybeThinkingOpenAtBOL = false
 		}
 
+		thinkingCloseIdx := strings.Index(acc, qwen3ThinkingCloseTag)
+		toolOpenIdx := strings.Index(acc, qwen3ToolOpenTag)
+
+		// If a tool call starts before </think>, treat that as the end of thinking
+		// for parsing purposes and continue in tool-call mode.
+		if toolOpenIdx != -1 && (thinkingCloseIdx == -1 || toolOpenIdx < thinkingCloseIdx) {
+			before, after := p.splitAtTag(qwen3ToolOpenTag, true)
+			if len(before) > 0 {
+				events = append(events, qwen3EventThinkingContent{content: before})
+			}
+			if after == "" {
+				p.state = qwen3ParserStateToolStartedEatingWhitespace
+			} else {
+				p.state = qwen3ParserStateCollectingToolContent
+			}
+			return events, true
+		}
+
 		if strings.Contains(acc, qwen3ThinkingCloseTag) {
 			thinking, remaining := p.splitAtTag(qwen3ThinkingCloseTag, true)
 			if len(thinking) > 0 {
@@ -215,7 +233,7 @@ func (p *Qwen3Parser) eat() ([]qwen3Event, bool) {
 				p.state = qwen3ParserStateCollectingContent
 			}
 			return events, true
-		} else if overlapLen := overlap(acc, qwen3ThinkingCloseTag); overlapLen > 0 {
+		} else if overlapLen := max(overlap(acc, qwen3ThinkingCloseTag), overlap(acc, qwen3ToolOpenTag)); overlapLen > 0 {
 			beforePartialTag := acc[:len(acc)-overlapLen]
 			trailingWsLen := trailingWhitespaceLen(beforePartialTag)
 			ambiguousStart := len(beforePartialTag) - trailingWsLen

model/parsers/qwen3_test.go

@@ -146,6 +146,68 @@ func TestQwen3ParserToolCall(t *testing.T) {
 	}
 }
 
+func TestQwen3ParserThinkingWithToolCallBeforeThinkingClose(t *testing.T) {
+	parser := &Qwen3Parser{hasThinkingSupport: true, defaultThinking: true}
+	parser.Init(nil, nil, &api.ThinkValue{Value: true})
+
+	input := "Let me think<tool_call>{\"name\":\"get_weather\",\"arguments\":{\"location\":\"San Francisco\",\"unit\":\"celsius\"}}</tool_call>"
+	content, thinking, calls, err := parser.Add(input, true)
+	if err != nil {
+		t.Fatalf("parse failed: %v", err)
+	}
+
+	if content != "" {
+		t.Fatalf("expected empty content, got %q", content)
+	}
+	if thinking != "Let me think" {
+		t.Fatalf("expected thinking %q, got %q", "Let me think", thinking)
+	}
+	if len(calls) != 1 {
+		t.Fatalf("expected 1 tool call, got %d", len(calls))
+	}
+	if calls[0].Function.Name != "get_weather" {
+		t.Fatalf("expected tool name %q, got %q", "get_weather", calls[0].Function.Name)
+	}
+}
+
+func TestQwen3ParserThinkingWithSplitToolOpenTag(t *testing.T) {
+	parser := &Qwen3Parser{hasThinkingSupport: true, defaultThinking: true}
+	parser.Init(nil, nil, &api.ThinkValue{Value: true})
+
+	content, thinking, calls, err := parser.Add("Let me think<tool_ca", false)
+	if err != nil {
+		t.Fatalf("parse failed on first chunk: %v", err)
+	}
+	if content != "" || thinking != "Let me think" || len(calls) != 0 {
+		t.Fatalf(
+			"expected content=%q thinking=%q calls=%d, got content=%q thinking=%q calls=%d",
+			"",
+			"Let me think",
+			0,
+			content,
+			thinking,
+			len(calls),
+		)
+	}
+
+	content, thinking, calls, err = parser.Add("ll>{\"name\":\"get_weather\",\"arguments\":{\"location\":\"SF\"}}</tool_call>", true)
+	if err != nil {
+		t.Fatalf("parse failed on second chunk: %v", err)
+	}
+	if content != "" {
+		t.Fatalf("expected empty content, got %q", content)
+	}
+	if thinking != "" {
+		t.Fatalf("expected no additional thinking on second chunk, got %q", thinking)
+	}
+	if len(calls) != 1 {
+		t.Fatalf("expected 1 tool call, got %d", len(calls))
+	}
+	if calls[0].Function.Name != "get_weather" {
+		t.Fatalf("expected tool name %q, got %q", "get_weather", calls[0].Function.Name)
+	}
+}
+
 func TestQwen35ParserRespectsNoThink(t *testing.T) {
 	parser := ParserForName("qwen3.5")
 	if parser == nil {

model/parsers/qwen3vl.go

@@ -180,7 +180,22 @@ func (p *Qwen3VLParser) eat() ([]qwenEvent, bool) {
 			return events, false
 		}
 	case CollectingThinkingContent:
-		if strings.Contains(p.buffer.String(), thinkingCloseTag) {
+		acc := p.buffer.String()
+		thinkingCloseIdx := strings.Index(acc, thinkingCloseTag)
+		toolOpenIdx := strings.Index(acc, toolOpenTag)
+
+		// If a tool call starts before </think>, treat that as the end of thinking
+		// for parsing purposes and continue in tool-call mode.
+		if toolOpenIdx != -1 && (thinkingCloseIdx == -1 || toolOpenIdx < thinkingCloseIdx) {
+			before, _ := splitAtTag(&p.buffer, toolOpenTag, false)
+			if len(before) > 0 {
+				events = append(events, qwenEventThinkingContent{content: before})
+			}
+			p.state = CollectingToolContent
+			return events, true
+		}
+
+		if strings.Contains(acc, thinkingCloseTag) {
 			thinking, remaining := splitAtTag(&p.buffer, thinkingCloseTag, true)
 			if len(thinking) > 0 {
 				events = append(events, qwenEventThinkingContent{content: thinking})
@@ -191,13 +206,13 @@ func (p *Qwen3VLParser) eat() ([]qwenEvent, bool) {
 				p.state = CollectingContent
 			}
 			return events, true
-		} else if overlapLen := overlap(p.buffer.String(), thinkingCloseTag); overlapLen > 0 {
-			beforePartialTag := p.buffer.String()[:len(p.buffer.String())-overlapLen]
+		} else if overlapLen := max(overlap(acc, thinkingCloseTag), overlap(acc, toolOpenTag)); overlapLen > 0 {
+			beforePartialTag := acc[:len(acc)-overlapLen]
 			trailingWhitespaceLen := trailingWhitespaceLen(beforePartialTag)
 			ambiguousStart := len(beforePartialTag) - trailingWhitespaceLen
 
-			unambiguous := p.buffer.String()[:ambiguousStart]
-			ambiguous := p.buffer.String()[ambiguousStart:]
+			unambiguous := acc[:ambiguousStart]
+			ambiguous := acc[ambiguousStart:]
 			p.buffer.Reset()
 			p.buffer.WriteString(ambiguous)
 			if len(unambiguous) > 0 {
@@ -205,11 +220,11 @@ func (p *Qwen3VLParser) eat() ([]qwenEvent, bool) {
 			}
 			return events, false
 		} else {
-			whitespaceLen := trailingWhitespaceLen(p.buffer.String())
-			ambiguousStart := len(p.buffer.String()) - whitespaceLen
+			whitespaceLen := trailingWhitespaceLen(acc)
+			ambiguousStart := len(acc) - whitespaceLen
 
-			unambiguous := p.buffer.String()[:ambiguousStart]
-			ambiguous := p.buffer.String()[ambiguousStart:]
+			unambiguous := acc[:ambiguousStart]
+			ambiguous := acc[ambiguousStart:]
 			p.buffer.Reset()
 			p.buffer.WriteString(ambiguous)
 			if len(unambiguous) > 0 {

model/parsers/qwen3vl_thinking_test.go

@@ -98,8 +98,12 @@ func TestQwen3VLThinkingParserStreaming(t *testing.T) {
 			desc: "nested thinking and tool call (outside thinking, inside tool call)",
 			steps: []step{
 				{
-					input:      "I'm thinking<tool_call>I'm nested tool call</tool_call></think>",
-					wantEvents: []qwenEvent{qwenEventThinkingContent{content: "I'm thinking<tool_call>I'm nested tool call</tool_call>"}},
+					input: "I'm thinking<tool_call>I'm nested tool call</tool_call></think>",
+					wantEvents: []qwenEvent{
+						qwenEventThinkingContent{content: "I'm thinking"},
+						qwenEventRawToolCall{raw: "I'm nested tool call"},
+						qwenEventContent{content: "</think>"},
+					},
 				},
 			},
 		},
@@ -109,8 +113,7 @@ func TestQwen3VLThinkingParserStreaming(t *testing.T) {
 				{
 					input: "<tool_call>I'm nested tool call<think>I'm thinking</think></tool_call>",
 					wantEvents: []qwenEvent{
-						qwenEventThinkingContent{content: "<tool_call>I'm nested tool call<think>I'm thinking"},
-						qwenEventContent{content: "</tool_call>"},
+						qwenEventRawToolCall{raw: "I'm nested tool call<think>I'm thinking</think>"},
 					},
 				},
 			},
@@ -121,8 +124,8 @@ func TestQwen3VLThinkingParserStreaming(t *testing.T) {
 				{
 					input: "I'm thinking<tool_call>I'm NOT a nested tool call</think></tool_call><tool_call>I'm nested tool call 2<think></tool_call></think>",
 					wantEvents: []qwenEvent{
-						qwenEventThinkingContent{content: "I'm thinking<tool_call>I'm NOT a nested tool call"},
-						qwenEventContent{content: "</tool_call>"},
+						qwenEventThinkingContent{content: "I'm thinking"},
+						qwenEventRawToolCall{raw: "I'm NOT a nested tool call</think>"},
 						qwenEventRawToolCall{raw: "I'm nested tool call 2<think>"},
 						qwenEventContent{content: "</think>"},
 					},