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vtcode_exec_events/
atif.rs

1//! Agent Trajectory Interchange Format (ATIF) types and builder.
2//!
3//! Implements the [ATIF specification](https://github.com/laude-institute/harbor/blob/main/docs/rfcs/0001-trajectory-format.md)
4//! v1.4 for logging complete agent interaction histories in a standardized,
5//! JSON-based format usable across debugging, visualization, SFT, and RL
6//! pipelines.
7//!
8//! # Overview
9//!
10//! ATIF provides a complete session trajectory: user messages, agent responses,
11//! tool executions, observations, and per-step/aggregate LLM metrics. The
12//! [`AtifTrajectoryBuilder`] converts live [`ThreadEvent`]
13//! streams into a finished [`Trajectory`].
14//!
15//! # Example
16//!
17//! ```rust
18//! use vtcode_exec_events::atif::*;
19//!
20//! let agent = AtifAgent::new("vtcode", env!("CARGO_PKG_VERSION"));
21//! let mut builder = AtifTrajectoryBuilder::new(agent);
22//!
23//! // Feed ThreadEvents as they arrive …
24//! // builder.process_event(&event);
25//!
26//! let trajectory = builder.finish(None);
27//! let json = serde_json::to_string_pretty(&trajectory).unwrap();
28//! ```
29
30use chrono::{DateTime, Utc};
31use serde::{Deserialize, Serialize};
32use serde_json::Value;
33
34use crate::{ThreadEvent, ThreadItemDetails, ToolCallStatus};
35
36/// Current ATIF schema version supported by this implementation.
37pub const ATIF_SCHEMA_VERSION: &str = "ATIF-v1.4";
38
39// ============================================================================
40// Core ATIF Types
41// ============================================================================
42
43/// Root-level ATIF trajectory object.
44#[derive(Debug, Clone, Serialize, Deserialize)]
45pub struct Trajectory {
46    /// ATIF schema version (e.g., "ATIF-v1.4").
47    pub schema_version: String,
48    /// Unique identifier for the entire agent run.
49    pub session_id: String,
50    /// Agent configuration for this trajectory.
51    pub agent: AtifAgent,
52    /// Ordered interaction steps.
53    pub steps: Vec<Step>,
54    /// Optional developer notes.
55    #[serde(skip_serializing_if = "Option::is_none")]
56    pub notes: Option<String>,
57    /// Aggregate metrics for the full trajectory.
58    #[serde(skip_serializing_if = "Option::is_none")]
59    pub final_metrics: Option<FinalMetrics>,
60    /// Optional custom root-level metadata.
61    #[serde(skip_serializing_if = "Option::is_none")]
62    pub extra: Option<Value>,
63}
64
65/// Agent configuration metadata.
66#[derive(Debug, Clone, Serialize, Deserialize)]
67pub struct AtifAgent {
68    /// Agent system name (e.g., "vtcode").
69    pub name: String,
70    /// Agent system version.
71    pub version: String,
72    /// Default LLM model used. Step-level `model_name` overrides this.
73    #[serde(skip_serializing_if = "Option::is_none")]
74    pub model_name: Option<String>,
75    /// Optional custom agent metadata.
76    #[serde(skip_serializing_if = "Option::is_none")]
77    pub extra: Option<Value>,
78}
79
80impl AtifAgent {
81    /// Create a new agent descriptor.
82    pub fn new(name: impl Into<String>, version: impl Into<String>) -> Self {
83        Self {
84            name: name.into(),
85            version: version.into(),
86            model_name: None,
87            extra: None,
88        }
89    }
90
91    /// Create a vtcode agent descriptor using the crate version.
92    pub fn vtcode() -> Self {
93        Self::new("vtcode", env!("CARGO_PKG_VERSION"))
94    }
95
96    /// Set the default model name.
97    pub fn with_model(mut self, model: impl Into<String>) -> Self {
98        self.model_name = Some(model.into());
99        self
100    }
101}
102
103/// The originator of a step.
104#[derive(Debug, Clone, Copy, Serialize, Deserialize, PartialEq, Eq)]
105#[serde(rename_all = "lowercase")]
106pub enum StepSource {
107    /// System prompt or system-initiated operation.
108    System,
109    /// User message.
110    User,
111    /// Agent response.
112    Agent,
113}
114
115/// Individual interaction step.
116#[derive(Debug, Clone, Serialize, Deserialize)]
117pub struct Step {
118    /// Ordinal index (starting from 1).
119    pub step_id: u64,
120    /// ISO 8601 timestamp.
121    #[serde(skip_serializing_if = "Option::is_none")]
122    pub timestamp: Option<String>,
123    /// Originator of this step.
124    pub source: StepSource,
125    /// LLM model used for this step (agent steps only).
126    #[serde(skip_serializing_if = "Option::is_none")]
127    pub model_name: Option<String>,
128    /// Step content — text message or array.
129    #[serde(skip_serializing_if = "Option::is_none")]
130    pub message: Option<String>,
131    /// Agent internal reasoning content.
132    #[serde(skip_serializing_if = "Option::is_none")]
133    pub reasoning_content: Option<String>,
134    /// Tool/function invocations (agent steps only).
135    #[serde(skip_serializing_if = "Option::is_none")]
136    pub tool_calls: Option<Vec<AtifToolCall>>,
137    /// Environment feedback after actions.
138    #[serde(skip_serializing_if = "Option::is_none")]
139    pub observation: Option<Observation>,
140    /// LLM operational metrics (agent steps only).
141    #[serde(skip_serializing_if = "Option::is_none")]
142    pub metrics: Option<StepMetrics>,
143    /// Custom step-level metadata.
144    #[serde(skip_serializing_if = "Option::is_none")]
145    pub extra: Option<Value>,
146}
147
148impl Step {
149    /// Create a user step.
150    pub fn user(step_id: u64, message: impl Into<String>) -> Self {
151        Self {
152            step_id,
153            timestamp: Some(Utc::now().to_rfc3339()),
154            source: StepSource::User,
155            model_name: None,
156            message: Some(message.into()),
157            reasoning_content: None,
158            tool_calls: None,
159            observation: None,
160            metrics: None,
161            extra: None,
162        }
163    }
164
165    /// Create an agent step.
166    pub fn agent(step_id: u64, message: impl Into<String>) -> Self {
167        Self {
168            step_id,
169            timestamp: Some(Utc::now().to_rfc3339()),
170            source: StepSource::Agent,
171            model_name: None,
172            message: Some(message.into()),
173            reasoning_content: None,
174            tool_calls: None,
175            observation: None,
176            metrics: None,
177            extra: None,
178        }
179    }
180
181    /// Create a system step.
182    pub fn system(step_id: u64, message: impl Into<String>) -> Self {
183        Self {
184            step_id,
185            timestamp: Some(Utc::now().to_rfc3339()),
186            source: StepSource::System,
187            model_name: None,
188            message: Some(message.into()),
189            reasoning_content: None,
190            tool_calls: None,
191            observation: None,
192            metrics: None,
193            extra: None,
194        }
195    }
196}
197
198/// Structured tool/function invocation.
199#[derive(Debug, Clone, Serialize, Deserialize)]
200pub struct AtifToolCall {
201    /// Unique identifier for the tool call.
202    pub tool_call_id: String,
203    /// Function/tool name.
204    pub function_name: String,
205    /// Arguments passed to the tool.
206    #[serde(skip_serializing_if = "Option::is_none")]
207    pub arguments: Option<Value>,
208}
209
210/// Environment feedback container.
211#[derive(Debug, Clone, Serialize, Deserialize)]
212pub struct Observation {
213    /// Results from tool calls or system operations.
214    pub results: Vec<ObservationResult>,
215}
216
217/// Individual observation result tied to a tool call.
218#[derive(Debug, Clone, Serialize, Deserialize)]
219pub struct ObservationResult {
220    /// Identifier of the originating tool call.
221    pub source_call_id: String,
222    /// Content/output of the observation.
223    pub content: String,
224}
225
226/// Per-step LLM operational metrics.
227#[derive(Debug, Clone, Serialize, Deserialize)]
228pub struct StepMetrics {
229    /// Total input tokens for this step (cached + non-cached).
230    #[serde(skip_serializing_if = "Option::is_none")]
231    pub prompt_tokens: Option<u64>,
232    /// Completion tokens generated.
233    #[serde(skip_serializing_if = "Option::is_none")]
234    pub completion_tokens: Option<u64>,
235    /// Subset of prompt_tokens that were cache hits.
236    #[serde(skip_serializing_if = "Option::is_none")]
237    pub cached_tokens: Option<u64>,
238    /// Estimated cost in USD for this step.
239    #[serde(skip_serializing_if = "Option::is_none")]
240    pub cost_usd: Option<f64>,
241    /// Log probabilities for completion tokens.
242    #[serde(skip_serializing_if = "Option::is_none")]
243    pub logprobs: Option<Vec<f64>>,
244    /// Completion token IDs for RL training.
245    #[serde(skip_serializing_if = "Option::is_none")]
246    pub completion_token_ids: Option<Vec<u64>>,
247    /// Prompt token IDs.
248    #[serde(skip_serializing_if = "Option::is_none")]
249    pub prompt_token_ids: Option<Vec<u64>>,
250    /// Custom metrics.
251    #[serde(skip_serializing_if = "Option::is_none")]
252    pub extra: Option<Value>,
253}
254
255impl StepMetrics {
256    /// Create metrics from vtcode Usage.
257    pub fn from_usage(usage: &crate::Usage) -> Self {
258        Self {
259            prompt_tokens: Some(usage.input_tokens),
260            completion_tokens: Some(usage.output_tokens),
261            cached_tokens: if usage.cached_input_tokens > 0 {
262                Some(usage.cached_input_tokens)
263            } else {
264                None
265            },
266            cost_usd: None,
267            logprobs: None,
268            completion_token_ids: None,
269            prompt_token_ids: None,
270            extra: if usage.cache_creation_tokens > 0 {
271                Some(serde_json::json!({
272                    "cache_creation_tokens": usage.cache_creation_tokens
273                }))
274            } else {
275                None
276            },
277        }
278    }
279}
280
281/// Trajectory-level aggregate metrics.
282#[derive(Debug, Clone, Default, Serialize, Deserialize)]
283pub struct FinalMetrics {
284    /// Sum of all prompt tokens across steps.
285    #[serde(skip_serializing_if = "Option::is_none")]
286    pub total_prompt_tokens: Option<u64>,
287    /// Sum of all completion tokens across steps.
288    #[serde(skip_serializing_if = "Option::is_none")]
289    pub total_completion_tokens: Option<u64>,
290    /// Sum of all cached tokens across steps.
291    #[serde(skip_serializing_if = "Option::is_none")]
292    pub total_cached_tokens: Option<u64>,
293    /// Total estimated cost in USD.
294    #[serde(skip_serializing_if = "Option::is_none")]
295    pub total_cost_usd: Option<f64>,
296    /// Total number of steps.
297    #[serde(skip_serializing_if = "Option::is_none")]
298    pub total_steps: Option<u64>,
299    /// Custom aggregate metrics.
300    #[serde(skip_serializing_if = "Option::is_none")]
301    pub extra: Option<Value>,
302}
303
304// ============================================================================
305// Builder — converts live ThreadEvent streams into ATIF Trajectory
306// ============================================================================
307
308/// Stateful collector that converts a live [`ThreadEvent`] stream into an
309/// ATIF-compliant [`Trajectory`].
310///
311/// Feed events via [`process_event`](Self::process_event) (timestamps at
312/// observation time) or [`process_event_at`](Self::process_event_at)
313/// (deterministic timestamps for tests). Call [`finish`](Self::finish) to
314/// produce the final trajectory.
315pub struct AtifTrajectoryBuilder {
316    agent: AtifAgent,
317    session_id: Option<String>,
318    steps: Vec<Step>,
319    next_step_id: u64,
320    // Running token accumulators for final metrics
321    total_input_tokens: u64,
322    total_output_tokens: u64,
323    total_cached_tokens: u64,
324    num_turns: usize,
325    /// Pending tool invocations awaiting matching ToolOutput.
326    pending_tool_calls: Vec<PendingToolCall>,
327}
328
329struct PendingToolCall {
330    call_id: String,
331    tool_call_id: Option<String>,
332    tool_name: String,
333    arguments: Option<Value>,
334    timestamp: String,
335}
336
337impl AtifTrajectoryBuilder {
338    /// Create a new builder for the given agent.
339    pub fn new(agent: AtifAgent) -> Self {
340        Self {
341            agent,
342            session_id: None,
343            steps: Vec::new(),
344            next_step_id: 1,
345            total_input_tokens: 0,
346            total_output_tokens: 0,
347            total_cached_tokens: 0,
348            num_turns: 0,
349            pending_tool_calls: Vec::new(),
350        }
351    }
352
353    /// Set the session ID explicitly. If not set, it will be derived from
354    /// `ThreadStarted` or `ThreadCompleted` events.
355    pub fn set_session_id(&mut self, id: impl Into<String>) {
356        self.session_id = Some(id.into());
357    }
358
359    /// Process a thread event using the current wall-clock time.
360    pub fn process_event(&mut self, event: &ThreadEvent) {
361        self.process_event_at(event, Utc::now());
362    }
363
364    /// Process a thread event with an explicit timestamp (for deterministic tests).
365    pub fn process_event_at(&mut self, event: &ThreadEvent, ts: DateTime<Utc>) {
366        let ts_str = ts.to_rfc3339();
367        match event {
368            ThreadEvent::ThreadStarted(e) => {
369                if self.session_id.is_none() {
370                    self.session_id = Some(e.thread_id.clone());
371                }
372            }
373            ThreadEvent::ThreadCompleted(e) => {
374                if self.session_id.is_none() {
375                    self.session_id = Some(e.session_id.clone());
376                }
377                // Accumulate aggregate usage
378                self.total_input_tokens =
379                    self.total_input_tokens.saturating_add(e.usage.input_tokens);
380                self.total_output_tokens =
381                    self.total_output_tokens.saturating_add(e.usage.output_tokens);
382                self.total_cached_tokens =
383                    self.total_cached_tokens.saturating_add(e.usage.cached_input_tokens);
384                self.num_turns = e.num_turns;
385            }
386            ThreadEvent::TurnCompleted(e) => {
387                self.total_input_tokens =
388                    self.total_input_tokens.saturating_add(e.usage.input_tokens);
389                self.total_output_tokens =
390                    self.total_output_tokens.saturating_add(e.usage.output_tokens);
391                self.total_cached_tokens =
392                    self.total_cached_tokens.saturating_add(e.usage.cached_input_tokens);
393                self.num_turns += 1;
394
395                let mut step = Step::system(self.next_step_id, "turn_completed");
396                step.timestamp = Some(ts_str);
397                step.metrics = Some(StepMetrics::from_usage(&e.usage));
398                self.push_step(step);
399            }
400            ThreadEvent::TurnFailed(e) => {
401                if let Some(usage) = &e.usage {
402                    self.total_input_tokens =
403                        self.total_input_tokens.saturating_add(usage.input_tokens);
404                    self.total_output_tokens =
405                        self.total_output_tokens.saturating_add(usage.output_tokens);
406                }
407                let mut step = Step::system(self.next_step_id, &e.message);
408                step.timestamp = Some(ts_str);
409                step.metrics = e.usage.as_ref().map(StepMetrics::from_usage);
410                self.push_step(step);
411            }
412            ThreadEvent::ItemCompleted(e) => {
413                self.process_item_completed(&e.item.id, &e.item.details, &ts_str);
414            }
415            ThreadEvent::ThreadCompactBoundary(e) => {
416                let msg = format!(
417                    "context_compaction: {} messages -> {} messages ({})",
418                    e.original_message_count,
419                    e.compacted_message_count,
420                    e.trigger.as_str()
421                );
422                let mut step = Step::system(self.next_step_id, msg);
423                step.timestamp = Some(ts_str);
424                self.push_step(step);
425            }
426            ThreadEvent::Error(e) => {
427                let mut step = Step::system(self.next_step_id, &e.message);
428                step.timestamp = Some(ts_str);
429                self.push_step(step);
430            }
431            // Skip streaming/lifecycle events that don't map to ATIF steps
432            ThreadEvent::TurnStarted(_)
433            | ThreadEvent::ItemStarted(_)
434            | ThreadEvent::ItemUpdated(_)
435            | ThreadEvent::PlanDelta(_)
436            | ThreadEvent::Unknown => {}
437        }
438    }
439
440    fn process_item_completed(&mut self, item_id: &str, details: &ThreadItemDetails, ts: &str) {
441        match details {
442            ThreadItemDetails::AgentMessage(msg) => {
443                let mut step = Step::agent(self.next_step_id, &msg.text);
444                step.timestamp = Some(ts.to_string());
445                self.push_step(step);
446            }
447            ThreadItemDetails::Plan(plan) => {
448                let mut step = Step::agent(self.next_step_id, &plan.text);
449                step.timestamp = Some(ts.to_string());
450                step.extra = Some(serde_json::json!({ "vtcode_item_type": "plan" }));
451                self.push_step(step);
452            }
453            ThreadItemDetails::Reasoning(r) => {
454                let mut step = Step::agent(self.next_step_id, "");
455                step.timestamp = Some(ts.to_string());
456                step.reasoning_content = Some(r.text.clone());
457                step.message = None;
458                self.push_step(step);
459            }
460            ThreadItemDetails::ToolInvocation(inv) => {
461                // Buffer the invocation; we'll pair it with the ToolOutput
462                self.pending_tool_calls.push(PendingToolCall {
463                    call_id: item_id.to_string(),
464                    tool_call_id: inv.tool_call_id.clone(),
465                    tool_name: inv.tool_name.clone(),
466                    arguments: inv.arguments.clone(),
467                    timestamp: ts.to_string(),
468                });
469            }
470            ThreadItemDetails::ToolOutput(output) => {
471                // Find the matching pending invocation
472                let pending_idx =
473                    self.pending_tool_calls.iter().position(|p| p.call_id == output.call_id);
474
475                let (tool_name, arguments, tool_call_id, inv_ts) = if let Some(idx) = pending_idx {
476                    let p = self.pending_tool_calls.remove(idx);
477                    (p.tool_name, p.arguments, p.tool_call_id, p.timestamp)
478                } else {
479                    ("unknown".to_string(), None, output.tool_call_id.clone(), ts.to_string())
480                };
481
482                let call_id = tool_call_id.clone().unwrap_or_else(|| output.call_id.clone());
483
484                let mut step = Step::agent(self.next_step_id, "");
485                step.timestamp = Some(inv_ts);
486                step.message = None;
487                step.tool_calls = Some(vec![AtifToolCall {
488                    tool_call_id: call_id.clone(),
489                    function_name: tool_name,
490                    arguments,
491                }]);
492
493                let status_suffix = match output.status {
494                    ToolCallStatus::Failed => " [FAILED]",
495                    ToolCallStatus::InProgress => " [IN_PROGRESS]",
496                    ToolCallStatus::Completed => "",
497                };
498                let content = format!("{}{}", output.output, status_suffix);
499                step.observation = Some(Observation {
500                    results: vec![ObservationResult { source_call_id: call_id, content }],
501                });
502                self.push_step(step);
503            }
504            ThreadItemDetails::CommandExecution(cmd) => {
505                let call_id = item_id.to_string();
506                let mut step = Step::agent(self.next_step_id, "");
507                step.timestamp = Some(ts.to_string());
508                step.message = None;
509                step.tool_calls = Some(vec![AtifToolCall {
510                    tool_call_id: call_id.clone(),
511                    function_name: "command_execution".to_string(),
512                    arguments: Some(serde_json::json!({
513                        "command": cmd.command,
514                        "arguments": cmd.arguments,
515                    })),
516                }]);
517                step.observation = Some(Observation {
518                    results: vec![ObservationResult {
519                        source_call_id: call_id,
520                        content: cmd.aggregated_output.clone(),
521                    }],
522                });
523                if let Some(exit_code) = cmd.exit_code {
524                    step.extra = Some(serde_json::json!({ "exit_code": exit_code }));
525                }
526                self.push_step(step);
527            }
528            ThreadItemDetails::McpToolCall(mcp) => {
529                let call_id = item_id.to_string();
530                let mut step = Step::agent(self.next_step_id, "");
531                step.timestamp = Some(ts.to_string());
532                step.message = None;
533                step.tool_calls = Some(vec![AtifToolCall {
534                    tool_call_id: call_id.clone(),
535                    function_name: mcp.tool_name.clone(),
536                    arguments: mcp.arguments.clone(),
537                }]);
538                if let Some(result) = &mcp.result {
539                    step.observation = Some(Observation {
540                        results: vec![ObservationResult {
541                            source_call_id: call_id,
542                            content: result.clone(),
543                        }],
544                    });
545                }
546                self.push_step(step);
547            }
548            ThreadItemDetails::FileChange(fc) => {
549                let changes: Vec<String> =
550                    fc.changes.iter().map(|c| format!("{}: {:?}", c.path, c.kind)).collect();
551                let msg = format!("file_changes: {}", changes.join(", "));
552                let mut step = Step::system(self.next_step_id, msg);
553                step.timestamp = Some(ts.to_string());
554                self.push_step(step);
555            }
556            ThreadItemDetails::WebSearch(ws) => {
557                let mut step = Step::system(self.next_step_id, format!("web_search: {}", ws.query));
558                step.timestamp = Some(ts.to_string());
559                if let Some(results) = &ws.results {
560                    step.observation = Some(Observation {
561                        results: results
562                            .iter()
563                            .enumerate()
564                            .map(|(i, r)| ObservationResult {
565                                source_call_id: format!("search_{i}"),
566                                content: r.clone(),
567                            })
568                            .collect(),
569                    });
570                }
571                self.push_step(step);
572            }
573            ThreadItemDetails::Harness(h) => {
574                let msg = format!("harness: {:?}", h.event);
575                let mut step = Step::system(self.next_step_id, msg);
576                step.timestamp = Some(ts.to_string());
577                if let Some(m) = &h.message {
578                    step.extra = Some(serde_json::json!({ "harness_message": m }));
579                }
580                self.push_step(step);
581            }
582            ThreadItemDetails::Error(e) => {
583                let mut step = Step::system(self.next_step_id, &e.message);
584                step.timestamp = Some(ts.to_string());
585                self.push_step(step);
586            }
587        }
588    }
589
590    fn push_step(&mut self, step: Step) {
591        self.next_step_id = step.step_id + 1;
592        self.steps.push(step);
593    }
594
595    /// Consume the builder and produce the final ATIF trajectory.
596    ///
597    /// Pass optional `FinalMetrics` to override the accumulated values.
598    /// If `None`, final metrics are derived from observed events.
599    pub fn finish(self, override_metrics: Option<FinalMetrics>) -> Trajectory {
600        let final_metrics = override_metrics.unwrap_or_else(|| FinalMetrics {
601            total_prompt_tokens: Some(self.total_input_tokens),
602            total_completion_tokens: Some(self.total_output_tokens),
603            total_cached_tokens: if self.total_cached_tokens > 0 {
604                Some(self.total_cached_tokens)
605            } else {
606                None
607            },
608            total_cost_usd: None,
609            total_steps: Some(self.steps.len() as u64),
610            extra: Some(serde_json::json!({ "num_turns": self.num_turns })),
611        });
612
613        Trajectory {
614            schema_version: ATIF_SCHEMA_VERSION.to_string(),
615            session_id: self.session_id.unwrap_or_else(|| uuid::Uuid::new_v4().to_string()),
616            agent: self.agent,
617            steps: self.steps,
618            notes: None,
619            final_metrics: Some(final_metrics),
620            extra: None,
621        }
622    }
623
624    /// Returns the number of steps collected so far.
625    pub fn step_count(&self) -> usize {
626        self.steps.len()
627    }
628}
629
630impl crate::EventEmitter for AtifTrajectoryBuilder {
631    fn emit(&mut self, event: &ThreadEvent) {
632        self.process_event(event);
633    }
634}
635
636#[cfg(test)]
637mod tests {
638    use super::*;
639    use crate::{
640        AgentMessageItem, ItemCompletedEvent, ThreadItem, ThreadStartedEvent, ToolInvocationItem,
641        ToolOutputItem, TurnCompletedEvent, TurnStartedEvent, Usage,
642    };
643
644    fn fixed_ts() -> DateTime<Utc> {
645        "2025-01-15T10:30:00Z".parse().unwrap()
646    }
647
648    #[test]
649    fn trajectory_round_trip() {
650        let trajectory = Trajectory {
651            schema_version: ATIF_SCHEMA_VERSION.to_string(),
652            session_id: "test-session".to_string(),
653            agent: AtifAgent::vtcode(),
654            steps: vec![Step::user(1, "hello")],
655            notes: None,
656            final_metrics: None,
657            extra: None,
658        };
659
660        let json = serde_json::to_string_pretty(&trajectory).unwrap();
661        let restored: Trajectory = serde_json::from_str(&json).unwrap();
662        assert_eq!(restored.schema_version, ATIF_SCHEMA_VERSION);
663        assert_eq!(restored.session_id, "test-session");
664        assert_eq!(restored.steps.len(), 1);
665    }
666
667    #[test]
668    fn builder_thread_started_sets_session_id() {
669        let mut builder = AtifTrajectoryBuilder::new(AtifAgent::vtcode());
670        let event =
671            ThreadEvent::ThreadStarted(ThreadStartedEvent { thread_id: "thread-abc".to_string() });
672        builder.process_event_at(&event, fixed_ts());
673        let trajectory = builder.finish(None);
674        assert_eq!(trajectory.session_id, "thread-abc");
675    }
676
677    #[test]
678    fn builder_agent_message_step() {
679        let mut builder = AtifTrajectoryBuilder::new(AtifAgent::vtcode());
680        let event = ThreadEvent::ItemCompleted(ItemCompletedEvent {
681            item: ThreadItem {
682                id: "msg-1".to_string(),
683                details: ThreadItemDetails::AgentMessage(AgentMessageItem {
684                    text: "Hello, world!".to_string(),
685                }),
686            },
687        });
688        builder.process_event_at(&event, fixed_ts());
689        let trajectory = builder.finish(None);
690
691        assert_eq!(trajectory.steps.len(), 1);
692        let step = &trajectory.steps[0];
693        assert_eq!(step.step_id, 1);
694        assert_eq!(step.source, StepSource::Agent);
695        assert_eq!(step.message.as_deref(), Some("Hello, world!"));
696    }
697
698    #[test]
699    fn builder_tool_invocation_with_output() {
700        let mut builder = AtifTrajectoryBuilder::new(AtifAgent::vtcode());
701        let ts = fixed_ts();
702
703        // Tool invocation
704        let inv_event = ThreadEvent::ItemCompleted(ItemCompletedEvent {
705            item: ThreadItem {
706                id: "tool_1".to_string(),
707                details: ThreadItemDetails::ToolInvocation(ToolInvocationItem {
708                    tool_name: "read_file".to_string(),
709                    arguments: Some(serde_json::json!({"path": "README.md"})),
710                    tool_call_id: Some("tc_0".to_string()),
711                    status: ToolCallStatus::Completed,
712                }),
713            },
714        });
715        builder.process_event_at(&inv_event, ts);
716
717        // Tool output
718        let out_event = ThreadEvent::ItemCompleted(ItemCompletedEvent {
719            item: ThreadItem {
720                id: "tool_1:output".to_string(),
721                details: ThreadItemDetails::ToolOutput(ToolOutputItem {
722                    call_id: "tool_1".to_string(),
723                    tool_call_id: Some("tc_0".to_string()),
724                    spool_path: None,
725                    output: "file contents here".to_string(),
726                    exit_code: Some(0),
727                    status: ToolCallStatus::Completed,
728                }),
729            },
730        });
731        builder.process_event_at(&out_event, ts);
732
733        let trajectory = builder.finish(None);
734        // Only one step: the invocation is buffered until output arrives
735        assert_eq!(trajectory.steps.len(), 1);
736        let step = &trajectory.steps[0];
737        assert_eq!(step.source, StepSource::Agent);
738
739        let calls = step.tool_calls.as_ref().unwrap();
740        assert_eq!(calls.len(), 1);
741        assert_eq!(calls[0].function_name, "read_file");
742        assert_eq!(calls[0].tool_call_id, "tc_0");
743
744        let obs = step.observation.as_ref().unwrap();
745        assert_eq!(obs.results.len(), 1);
746        assert_eq!(obs.results[0].content, "file contents here");
747    }
748
749    #[test]
750    fn builder_turn_completed_accumulates_metrics() {
751        let mut builder = AtifTrajectoryBuilder::new(AtifAgent::vtcode());
752        let event = ThreadEvent::TurnCompleted(TurnCompletedEvent {
753            usage: Usage {
754                input_tokens: 500,
755                cached_input_tokens: 100,
756                cache_creation_tokens: 0,
757                output_tokens: 200,
758            },
759        });
760        builder.process_event_at(&event, fixed_ts());
761
762        let trajectory = builder.finish(None);
763        let fm = trajectory.final_metrics.as_ref().unwrap();
764        assert_eq!(fm.total_prompt_tokens, Some(500));
765        assert_eq!(fm.total_completion_tokens, Some(200));
766        assert_eq!(fm.total_cached_tokens, Some(100));
767    }
768
769    #[test]
770    fn step_metrics_from_usage() {
771        let usage = Usage {
772            input_tokens: 1000,
773            cached_input_tokens: 200,
774            cache_creation_tokens: 50,
775            output_tokens: 300,
776        };
777        let metrics = StepMetrics::from_usage(&usage);
778        assert_eq!(metrics.prompt_tokens, Some(1000));
779        assert_eq!(metrics.completion_tokens, Some(300));
780        assert_eq!(metrics.cached_tokens, Some(200));
781        assert!(metrics.extra.is_some());
782    }
783
784    #[test]
785    fn builder_implements_event_emitter() {
786        let mut builder = AtifTrajectoryBuilder::new(AtifAgent::vtcode());
787        let event = ThreadEvent::ThreadStarted(ThreadStartedEvent { thread_id: "t-1".to_string() });
788        // Use EventEmitter trait
789        crate::EventEmitter::emit(&mut builder, &event);
790        assert_eq!(builder.step_count(), 0); // ThreadStarted doesn't create a step
791    }
792
793    #[test]
794    fn skips_lifecycle_events() {
795        let mut builder = AtifTrajectoryBuilder::new(AtifAgent::vtcode());
796        builder.process_event(&ThreadEvent::TurnStarted(TurnStartedEvent::default()));
797        assert_eq!(builder.step_count(), 0);
798    }
799}