From 621d7fee0ace729f8d44126032d2c6e13f72ee7f Mon Sep 17 00:00:00 2001 From: t Date: Tue, 7 Jul 2026 11:29:23 -0600 Subject: Move libpanto projects to libpantograph dependency Remove the in-repo libpanto sources and binding projects from pantograph. Consume libpantograph through the Zig package URL at code.tjp.lol/libpantograph.git, including the Lua module artifact used by CLI extensions. --- libpanto/src/provider_openai_chat.zig | 1306 --------------------------------- 1 file changed, 1306 deletions(-) delete mode 100644 libpanto/src/provider_openai_chat.zig (limited to 'libpanto/src/provider_openai_chat.zig') diff --git a/libpanto/src/provider_openai_chat.zig b/libpanto/src/provider_openai_chat.zig deleted file mode 100644 index 4ac1e11..0000000 --- a/libpanto/src/provider_openai_chat.zig +++ /dev/null @@ -1,1306 +0,0 @@ -//! OpenAI Chat Completions streaming provider. -//! -//! Wire format reference: https://platform.openai.com/docs/api-reference/chat/streaming -//! -//! Responsibilities: -//! - Convert `Conversation` → request JSON (delegated to openai_chat_json.zig) -//! - POST to `{base_url}/chat/completions` with `stream: true` -//! - Read the chunked body, feed bytes through SSEParser -//! - Parse each event payload, drive the block boundary state machine, -//! and emit Receiver callbacks -//! - Assemble the final Message and emit onMessageComplete - -const std = @import("std"); -const Allocator = std.mem.Allocator; -const Io = std.Io; -const http = std.http; -const Uri = std.Uri; - -const conversation = @import("conversation.zig"); -const provider_mod = @import("provider.zig"); -const stream_mod = @import("stream.zig"); -const sse_mod = @import("sse.zig"); -const json_mod = @import("openai_chat_json.zig"); -const config_mod = @import("config.zig"); - -const Event = stream_mod.Event; -const EventQueue = stream_mod.EventQueue; - -const decodeNameInPlace = provider_mod.decodeNameInPlace; - -/// Active streaming block type tracked by the state machine. Mirrors the -/// `ContentBlock` union variants but adds `.none` for "no block open yet". -const ActiveBlock = enum { none, text, thinking, tool_use }; - -/// A single OpenAI Chat streaming request. Transient: constructed per -/// `streamStep`, holds only borrowed state (allocator, io, the global HTTP -/// client, and the active config). Carries nothing across requests, so it -/// is created inline by the free `streamStep` entry point below. -pub const OpenAIChatRequest = struct { - allocator: Allocator, - io: Io, - config: *const config_mod.OpenAIChatConfig, - http_client: *http.Client, - /// Optional diagnostic side-channel. When non-null, classified failures - /// stash the HTTP status code and any `Retry-After` here for the agent's - /// retry policy. Strings written here are not owned by the diagnostic; - /// they live only as long as this request object. - diag: ?*provider_mod.ProviderDiagnostic = null, - - /// Open the streaming HTTP request and return a heap-allocated - /// resumable response. Performs the POST and reads response headers - /// (classifying any >=400 status into a provider error), but does NOT - /// pump the body — that happens lazily in `ResumableResponse.produce`. - /// - /// On success the caller owns the returned `*ResumableResponse` and must - /// `deinit` it. On failure nothing is allocated. - pub fn open( - self: *OpenAIChatRequest, - conv: *conversation.Conversation, - tools: *const provider_mod.ToolRegistry, - ) !*ResumableResponse { - const rr = try self.allocator.create(ResumableResponse); - errdefer self.allocator.destroy(rr); - rr.* = .{ - .allocator = self.allocator, - .conv = conv, - .parser = sse_mod.SSEParser.init(self.allocator), - .state = .init(self.allocator), - }; - errdefer { - rr.parser.deinit(); - rr.state.deinit(); - } - - // Build URL: "{base_url}/chat/completions" - const url = try std.fmt.allocPrint( - self.allocator, - "{s}/chat/completions", - .{self.config.base_url}, - ); - defer self.allocator.free(url); - - const uri = try Uri.parse(url); - - // Build the request body. - const body = try json_mod.serializeRequest(self.allocator, self.config, conv, tools); - defer self.allocator.free(body); - std.log.debug("openai_chat => {s}", .{body}); - - // Auth header - const auth_value = try std.fmt.allocPrint( - self.allocator, - "Bearer {s}", - .{self.config.api_key}, - ); - defer self.allocator.free(auth_value); - - const base_headers = [_]http.Header{ - .{ .name = "content-type", .value = "application/json" }, - .{ .name = "accept", .value = "text/event-stream" }, - .{ .name = "authorization", .value = auth_value }, - }; - // Merge provider `extra_headers` (e.g. Copilot editor identity, or - // auth-exchange-derived headers) onto the base set. Freed at the end - // of `open` — after the request body has been flushed. - const extra_headers = try provider_mod.mergeHeaders( - self.allocator, - &base_headers, - self.config.extra_headers, - ); - defer self.allocator.free(extra_headers); - - // Open the request. We can't use `fetch()` because it buffers the - // response; we want to stream the body as it arrives. The request - // is moved into the heap struct so the body reader (which borrows - // `&rr.response`) stays valid across `produce` calls. - rr.response = try provider_mod.sendRequest(self.http_client, uri, extra_headers, body, &rr.req); - rr.req_open = true; - errdefer { - rr.req.deinit(); - rr.req_open = false; - } - - // A >=400 status classifies into a retryable/terminal provider error. - // HTTP 400 with a context marker becomes `ContextOverflow` so the - // caller can compact and retry rather than hard-fail. - if (@intFromEnum(rr.response.head.status) >= 400) { - return provider_mod.classifyErrorResponse(self.allocator, &rr.response, &rr.transfer_buf, self.diag, "openai_chat"); - } - - // Bind the streaming body reader. Valid for the lifetime of `rr` - // (it borrows `&rr.response` and `&rr.transfer_buf`, both pinned). - rr.body_reader = rr.response.reader(&rr.transfer_buf); - return rr; - } -}; - -/// A resumable OpenAI Chat streaming response. Owns the pinned HTTP -/// request/response, the body reader's transfer buffer, the `SSEParser`, -/// and the block-assembly `StreamState`. `produce` pumps just enough bytes -/// to emit one or more events into the queue, or reports the response is -/// complete (its assistant message committed to the conversation). -/// -/// Must be heap-allocated and never moved: `body_reader` borrows -/// `&self.response`. -pub const ResumableResponse = struct { - allocator: Allocator, - conv: *conversation.Conversation, - parser: sse_mod.SSEParser, - state: StreamState, - - req: http.Client.Request = undefined, - response: http.Client.Response = undefined, - /// Transfer buffer backing `body_reader`. Pinned in the heap struct. - transfer_buf: [4096]u8 = undefined, - /// The streaming body reader, bound in `open` after a 2xx response. - body_reader: *std.Io.Reader = undefined, - /// Chunk scratch for `readVec`. - chunk: [4096]u8 = undefined, - - /// True once `req` has been initialized (so `deinit` knows to free it). - req_open: bool = false, - /// Set once the response is fully decoded and finalized. - done: bool = false, - - pub const ProduceStatus = provider_mod.ProviderStream.ProduceStatus; - - /// Wrap this response in the provider-agnostic `ProviderStream` the agent - /// loop drives. - pub fn providerStream(self: *ResumableResponse) provider_mod.ProviderStream { - return .{ .ptr = self, .vtable = &vtable }; - } - - const vtable: provider_mod.ProviderStream.VTable = .{ - .produce = produceVT, - .deinit = deinitVT, - .last_error = lastErrorVT, - }; - - fn lastErrorVT(ptr: *anyopaque) ?[]const u8 { - const self: *ResumableResponse = @ptrCast(@alignCast(ptr)); - return self.state.stream_error_message; - } - - fn produceVT(ptr: *anyopaque, out: *EventQueue) anyerror!ProduceStatus { - const self: *ResumableResponse = @ptrCast(@alignCast(ptr)); - return self.produce(out); - } - - fn deinitVT(ptr: *anyopaque) void { - const self: *ResumableResponse = @ptrCast(@alignCast(ptr)); - self.deinit(); - } - - pub fn deinit(self: *ResumableResponse) void { - if (self.req_open) self.req.deinit(); - self.parser.deinit(); - self.state.deinit(); - self.allocator.destroy(self); - } - - /// Pump the response: read one chunk, feed it through the SSE parser, - /// and decode each SSE event into zero or more `Event`s appended to - /// `out`. Returns `.more` if the caller should pump again, or - /// `.response_complete` once the terminal (`[DONE]` or EOF) has been - /// reached and the assistant message has been committed + a final - /// `message_complete` pushed. - /// - /// Reading and finalizing here means a single `produce` call may push - /// several events; the `Stream` drains the queue before pumping again. - pub fn produce(self: *ResumableResponse, out: *EventQueue) !ProduceStatus { - if (self.done) return .response_complete; - - var vecs: [1][]u8 = .{&self.chunk}; - const n = self.body_reader.readVec(&vecs) catch |err| switch (err) { - // Stream ended without [DONE]. Some servers and proxies omit it - // (or drop the trailing usage chunk). Finalize with whatever - // we've got — usage will be null in that case, which is fine. - error.EndOfStream => { - try self.finishStream(out); - return .response_complete; - }, - // A transport read failure mid-stream (reset, TLS, timeout) - // before `[DONE]` means no assistant message was committed. - // Surface it as a retryable malformed-stream error. - else => return error.ProviderStreamMalformed, - }; - if (n == 0) return .more; - - const events = try self.parser.feed(self.chunk[0..n]); - defer self.parser.freeEvents(events); - - for (events) |ev_payload| { - std.log.debug("openai_chat <= {s}", .{ev_payload}); - if (std.mem.eql(u8, ev_payload, "[DONE]")) { - try self.finishStream(out); - return .response_complete; - } - try handleEvent(self.allocator, ev_payload, &self.state, out); - // Note: we do NOT bail when state.end_of_stream is set. - // OpenAI emits the terminating `usage` chunk *after* the - // chunk carrying finish_reason, then sends `[DONE]`. If - // we returned on finish_reason we'd never capture usage. - // `[DONE]` is the authoritative end-of-stream marker. - } - return .more; - } - - fn finishStream(self: *ResumableResponse, out: *EventQueue) !void { - if (self.done) return; - self.done = true; - try self.state.finalize(out, self.conv); - } -}; - -/// State maintained across the streaming response: which block is currently -/// being assembled, accumulated content, and the assistant message being -/// built up for the final `onMessageComplete` callback. -/// -/// We model the assistant message as a sequence of blocks, exactly one of -/// which is active at a time. Text/thinking transitions are inferred from -/// which field a delta carries. Tool_use blocks arrive as a per-call wire -/// `index`; the OpenAI Chat Completions streaming spec does not formally -/// promise that all fragments for a given index arrive contiguously, but in -/// practice every well-behaved backend (and the official Node SDK's own -/// reassembly logic) treats a delta for a new index as the implicit close -/// of the previous one. We do the same: seeing a delta for an index that -/// differs from `current_tool_index` closes the prior tool_use and opens a -/// new one. `finish_reason` closes the last still-open tool_use. A delta -/// arriving for an index that has already been closed is a degenerate -/// backend behavior (e.g. vLLM with speculative decoding under some -/// configurations) — we log an error and drop the fragment. -const StreamState = struct { - allocator: Allocator, - started: bool = false, - /// Set when the wire stream signals end-of-turn (finish_reason or [DONE]). - /// Tells the outer read loop to stop pulling more events. - end_of_stream: bool = false, - /// Set once `finalize` has run, to make it idempotent. - finalized: bool = false, - active: ActiveBlock = .none, - /// Block index reported to the receiver. Increments per block boundary. - block_index: usize = 0, - - /// Buffer for the currently-streaming text/thinking block. Owned by - /// this state until the block is completed, at which point ownership - /// transfers to the assembled Message. - current_buf: conversation.TextualBlock = .empty, - - /// Assembled blocks for the final message, in stream order. - blocks: std.ArrayList(conversation.ContentBlock) = .empty, - - /// The currently-streaming tool_use, if any. Closed when a delta for - /// a different wire index arrives, or at finalize. - active_tool: ?ToolUseInProgress = null, - /// Wire index of `active_tool` (when non-null). - current_tool_index: ?usize = null, - /// Wire indices that have already been closed. Used solely to detect - /// (and report) the degenerate case of a delta arriving for an index - /// whose block we've already emitted. - closed_tool_indices: std.AutoHashMap(usize, void), - - /// Token counts from the terminating chunk's `usage` block. Only - /// populated when the server sent `usage` (i.e. the request used - /// `stream_options.include_usage: true` AND the server honored it). - usage: ?provider_mod.Usage = null, - - /// Owned, human-readable description of a mid-stream error embedded in an - /// HTTP-200 SSE body, surfaced to the agent via `ProviderStream.lastError` - /// so the retry notice can explain *why*. - stream_error_message: ?[]u8 = null, - - const ToolUseInProgress = struct { - /// Block index emitted to the receiver for this tool call's - /// onBlockStart / onContentDelta / onBlockComplete callbacks. - block_index: usize, - /// id/name are buffered as TextualBlocks because lenient providers - /// (OpenRouter passthroughs, some self-hosted backends) may stream - /// either field as fragments across multiple deltas. OpenAI itself - /// sends them whole on the first delta, but the structural cost of - /// supporting fragments is small and worth the robustness. - id_buf: conversation.TextualBlock = .empty, - name_buf: conversation.TextualBlock = .empty, - arguments: conversation.TextualBlock = .empty, - /// Set once we've emitted `onBlockStart(.ToolUse, ...)` for this - /// block. We defer until either the first argument fragment - /// arrives or the block is closed — not for identity reasons - /// (identity is no longer passed at start) but to keep block - /// indices clean: a tool_call that turns out to lack id or name - /// is dropped silently rather than producing an empty - /// start/complete pair. - started: bool = false, - /// Set once we've emitted `onToolDetails` for this block. Fired - /// as soon as both id and name are non-empty, which may be on - /// the first delta (the common case) or partway through arg - /// deltas (fragmented-identity providers). - details_emitted: bool = false, - - fn deinit(self: *ToolUseInProgress, allocator: Allocator) void { - self.id_buf.deinit(allocator); - self.name_buf.deinit(allocator); - self.arguments.deinit(allocator); - } - }; - - fn init(allocator: Allocator) StreamState { - return .{ - .allocator = allocator, - .closed_tool_indices = std.AutoHashMap(usize, void).init(allocator), - }; - } - - fn deinit(self: *StreamState) void { - self.current_buf.deinit(self.allocator); - for (self.blocks.items) |*b| b.deinit(self.allocator); - self.blocks.deinit(self.allocator); - if (self.active_tool) |*tu| tu.deinit(self.allocator); - self.closed_tool_indices.deinit(); - if (self.stream_error_message) |s| self.allocator.free(s); - } - - /// Record a readable description of an embedded stream error, combining - /// the error `type` and `message` into one owned string (either may be - /// absent). Replaces any previous value. - fn setStreamErrorMessage(self: *StreamState, kind: ?[]const u8, message: ?[]const u8) !void { - if (self.stream_error_message) |old| self.allocator.free(old); - self.stream_error_message = try provider_mod.formatStreamError(self.allocator, kind, message); - } - - /// Close the active text/thinking block (if any) and emit - /// onBlockComplete. Ownership of `current_buf` transfers into the - /// appended block. - fn closeActive(self: *StreamState, out: *EventQueue) !void { - if (self.active == .none) return; - - const block: conversation.ContentBlock = switch (self.active) { - .text => .{ .Text = self.current_buf }, - .thinking => .{ .Thinking = .{ .text = self.current_buf } }, - .tool_use, .none => unreachable, - }; - self.current_buf = .empty; - - try self.blocks.append(self.allocator, block); - try out.push(.{ .block_complete = .{ - .index = self.block_index, - .block = self.blocks.items[self.blocks.items.len - 1], - } }); - - self.active = .none; - } - - /// Open a new text/thinking block, possibly closing a prior one. - fn openBlock( - self: *StreamState, - new_active: ActiveBlock, - out: *EventQueue, - ) !void { - std.debug.assert(new_active == .text or new_active == .thinking); - if (self.active == new_active) return; - if (self.active != .none) { - try self.closeActive(out); - self.block_index += 1; - } - self.active = new_active; - const block_type: provider_mod.ContentBlockType = switch (new_active) { - .text => .Text, - .thinking => .Thinking, - .tool_use, .none => unreachable, - }; - try out.push(.{ .block_start = .{ .block_type = block_type, .index = self.block_index } }); - } - - fn appendDelta( - self: *StreamState, - out: *EventQueue, - delta: []const u8, - ) !void { - try self.current_buf.appendSlice(self.allocator, delta); - // Dupe into the queue arena: the raw `delta` borrows the transient - // SSE payload that `produce` frees before `next()` reads the queue. - try out.push(.{ .content_delta = .{ - .index = self.block_index, - .delta = try out.dupeBytes(delta), - } }); - } - - /// Apply one streaming tool_call delta. Opens a new tool_use on the - /// first sight of a wire index, closing any prior tool_use (or active - /// text/thinking block) first. A delta for an already-closed index is - /// a malformed stream — we log and drop it. - fn applyToolCallDelta( - self: *StreamState, - out: *EventQueue, - d: json_mod.ToolCallDelta, - ) !void { - // Degenerate backend: a delta arrived for an index whose block we - // already finalized. Drop the fragment so we don't reopen a closed - // block, but log loudly enough to make this diagnosable. - if (self.closed_tool_indices.contains(d.index)) { - if (!@import("builtin").is_test) { - std.log.err( - "openai_chat: dropping tool_call delta for already-closed wire index {d} (non-contiguous tool_call stream); id={?s} name={?s} args={?s}", - .{ d.index, d.id, d.name, d.arguments }, - ); - } - return; - } - - // Wire-index change closes the previously-active tool_use. This is - // the only signal openai_chat gives us for mid-stream tool_use - // boundaries; see the StreamState doc-comment for the rationale. - if (self.current_tool_index) |cur| { - if (cur != d.index) try self.closeActiveTool(out); - } - - if (self.active_tool == null) { - // Opening a new tool_use. First close any open text/thinking - // block so the tool_use gets its own block_index. - if (self.active != .none) { - try self.closeActive(out); - self.block_index += 1; - } - self.active_tool = .{ .block_index = self.block_index }; - self.current_tool_index = d.index; - self.block_index += 1; - } - const tu = &self.active_tool.?; - - // Some OpenAI-compatible backends send identity as fragments - // (`call_` then `xyz`), while others resend the cumulative/full value - // on later argument chunks. Accept both without turning repeats into - // runaway ids like `call_xyzcall_xyz...`. - if (d.id) |s| try mergeStreamingField(self.allocator, &tu.id_buf, s); - if (d.name) |s| try mergeStreamingField(self.allocator, &tu.name_buf, s); - - // Defer `onBlockStart` until args begin. The first argument - // fragment is our signal that identity is likely settled enough - // to render. If the block closes before any args arrive (zero-arg - // tool), `closeActiveTool` emits the start there. - if (d.arguments) |a| { - try self.emitStartIfNeeded(out, tu); - // Fire `tool_details` as soon as both id and name are - // known. We can't know identity is *final* until the block - // closes (a later delta could append more bytes), but in - // practice OpenAI sends each whole on the first delta. A - // pathological backend that streams id/name across many - // chunks would have us emit a truncated value here. We - // accept that trade-off: consumers that need the canonical - // value can read it from the assembled ContentBlock at - // block_complete. - try self.emitDetailsIfReady(out, tu); - try tu.arguments.appendSlice(self.allocator, a); - // Dupe into the queue arena (the SSE payload is freed before - // `next()` reads the queue). - try out.push(.{ .content_delta = .{ - .index = tu.block_index, - .delta = try out.dupeBytes(a), - } }); - } else { - // Identity-only chunk (no args yet). Still try to emit - // details, in case both fields are now populated. - if (tu.started) try self.emitDetailsIfReady(out, tu); - } - } - - /// Fire `tool_details` once both id and name are non-empty. No-op if - /// already fired or if either field is still empty. Requires that - /// `block_start` has already been emitted. Slices are duped into the - /// queue arena because `id_buf`/`name_buf` may still grow (and realloc) - /// on later fragments. - fn emitDetailsIfReady( - self: *StreamState, - out: *EventQueue, - tu: *ToolUseInProgress, - ) !void { - _ = self; - if (tu.details_emitted) return; - if (!tu.started) return; - if (tu.id_buf.items.len == 0 or tu.name_buf.items.len == 0) return; - tu.details_emitted = true; - try out.push(.{ .tool_details = .{ - .index = tu.block_index, - .id = try out.dupeBytes(tu.id_buf.items), - .name = try out.dupeBytes(tu.name_buf.items), - } }); - } - - /// Close the currently-active tool_use (if any), emitting block_start - /// (if it wasn't already), block_complete, and recording the wire - /// index as closed. No-op if there's no active tool_use. - fn closeActiveTool(self: *StreamState, out: *EventQueue) !void { - var tu = self.active_tool orelse return; - self.active_tool = null; - const wire_index = self.current_tool_index.?; - self.current_tool_index = null; - try self.closed_tool_indices.put(wire_index, {}); - - // Drop entries lacking id or name. The stream closed the block - // before the provider sent enough to identify which tool was - // being called — there's nothing we can dispatch. - if (tu.id_buf.items.len == 0 or tu.name_buf.items.len == 0) { - if (!@import("builtin").is_test) { - std.log.err( - "openai_chat: dropping incomplete tool_use at wire index {d}: id={d} bytes, name=\"{s}\", args={d} bytes", - .{ - wire_index, - tu.id_buf.items.len, - tu.name_buf.items, - tu.arguments.items.len, - }, - ); - } - tu.deinit(self.allocator); - return; - } - - // The model echoes the wire-encoded tool name (`__` for `.`). - // Decode in place now that the full name is assembled, so the - // conversation, receiver callbacks, and dispatch all see the - // internal (dotted) name. Decoding never grows the buffer. - decodeNameInPlace(&tu.name_buf); - - // If no arguments ever arrived, we haven't emitted block_start - // yet — do it now so the consumer sees a balanced start/complete. - try self.emitStartIfNeeded(out, &tu); - // Last chance to fire details if a fragmented-identity provider - // only finished id/name accumulation at the very end. - try self.emitDetailsIfReady(out, &tu); - - const id_owned = try tu.id_buf.toOwnedSlice(self.allocator); - const name_owned = try tu.name_buf.toOwnedSlice(self.allocator); - const block: conversation.ContentBlock = .{ .ToolUse = .{ - .id = id_owned, - .name = name_owned, - .input = tu.arguments, - } }; - // Ownership has moved into `block`; clear the local before it - // goes out of scope so deinit doesn't double-free. - tu.arguments = .empty; - - try self.blocks.append(self.allocator, block); - try out.push(.{ .block_complete = .{ - .index = tu.block_index, - .block = self.blocks.items[self.blocks.items.len - 1], - } }); - } - - /// Emit `block_start(.ToolUse, ...)` once per in-progress tool use. - /// Callers must invoke this before the first `content_delta` or - /// `block_complete` for the block. Identity (id/name) is *not* passed at - /// start — consumers get identity from `tool_details` or the assembled - /// ContentBlock at block_complete time. - fn emitStartIfNeeded( - self: *StreamState, - out: *EventQueue, - tu: *ToolUseInProgress, - ) !void { - _ = self; - if (tu.started) return; - tu.started = true; - try out.push(.{ .block_start = .{ .block_type = .ToolUse, .index = tu.block_index } }); - } - - fn mergeStreamingField( - allocator: Allocator, - buf: *conversation.TextualBlock, - piece: []const u8, - ) !void { - if (piece.len == 0) return; - if (buf.items.len == 0) { - try buf.appendSlice(allocator, piece); - } else if (std.mem.eql(u8, buf.items, piece)) { - return; - } else if (std.mem.startsWith(u8, piece, buf.items)) { - buf.clearRetainingCapacity(); - try buf.appendSlice(allocator, piece); - } else { - try buf.appendSlice(allocator, piece); - } - } - - /// End the stream: close any open text/thinking block, close the still- - /// active tool_use (if any), then commit the assembled assistant - /// Message to the conversation and push the terminal `message_complete`. - fn finalize( - self: *StreamState, - out: *EventQueue, - conv: *conversation.Conversation, - ) !void { - if (self.finalized) return; - self.finalized = true; - - try self.closeActive(out); - try self.closeActiveTool(out); - - // Move blocks into a fresh conversation message. - const moved_blocks = try self.blocks.toOwnedSlice(self.allocator); - defer self.allocator.free(moved_blocks); - - try conv.addAssistantMessage(moved_blocks, self.usage); - - const msg = conv.messages.items[conv.messages.items.len - 1]; - try out.push(.{ .message_complete = .{ .message = msg, .usage = self.usage } }); - } -}; - -fn handleEvent( - allocator: Allocator, - payload: []const u8, - state: *StreamState, - out: *EventQueue, -) !void { - var parsed = try json_mod.parseStreamEvent(allocator, payload); - defer parsed.deinit(); - const d = parsed.delta; - - // Usage block arrives in the terminating chunk (after finish_reason, - // with an empty `choices` array). Capture it; `finalize` delivers it - // as part of `onMessageComplete`. OpenAI bills `prompt_tokens` as - // the *total* input including cached tokens; we split them so - // callers don't have to. - if (d.usage) |u| { - const prompt: u64 = u.prompt_tokens orelse 0; - const cached: u64 = u.cached_prompt_tokens orelse 0; - const fresh: u64 = if (cached > prompt) 0 else prompt - cached; - state.usage = .{ - .input = fresh, - .output = u.completion_tokens orelse 0, - .cache_read = cached, - .cache_write = 0, // OpenAI doesn't bill a cache-write premium. - .reasoning = u.reasoning_tokens orelse 0, - }; - } - - // Mid-stream provider error: some OpenAI-compatible endpoints (and - // OpenAI itself on rare transient failures) return HTTP 200 with an - // error embedded in the SSE stream. Treat the turn as failed. - if (d.error_message != null or d.error_type != null) { - if (!@import("builtin").is_test) { - std.log.err("openai_chat stream error: {?s}: {?s}", .{ - d.error_type, d.error_message, - }); - } - // Stash a readable description so the agent's retry notice can - // explain *why* the stream failed. Owned by `state`. - state.setStreamErrorMessage(d.error_type, d.error_message) catch {}; - return error.ProviderStreamMalformed; - } - - if (!state.started and d.role != null) { - state.started = true; - try out.push(.{ .message_start = .assistant }); - } - - if (d.reasoning_content) |rc| if (rc.len > 0) { - if (!state.started) { - state.started = true; - try out.push(.{ .message_start = .assistant }); - } - try state.openBlock(.thinking, out); - try state.appendDelta(out, rc); - }; - - if (d.content) |c| if (c.len > 0) { - if (!state.started) { - state.started = true; - try out.push(.{ .message_start = .assistant }); - } - try state.openBlock(.text, out); - try state.appendDelta(out, c); - }; - - if (d.tool_calls.len > 0) { - if (!state.started) { - state.started = true; - try out.push(.{ .message_start = .assistant }); - } - for (d.tool_calls) |tc| try state.applyToolCallDelta(out, tc); - } - - if (d.finish_reason) |_| { - state.end_of_stream = true; - } -} - -// ----------------------------------------------------------------------------- -// Tests -// ----------------------------------------------------------------------------- - -const testing = std.testing; - -/// Feed a sequence of SSE event payloads through the state machine as if -/// they had been delivered by the wire, finalizing into `conv`. The decoded -/// `Event`s are recorded as compact strings (the same schema the old -/// RecordingReceiver used) so callback-ordering assertions are preserved. -fn runStreamedTurn( - allocator: Allocator, - conv: *conversation.Conversation, - rec: ?*EventRecorder, - events: []const []const u8, -) !void { - var state: StreamState = .init(allocator); - defer state.deinit(); - - var queue = EventQueue.init(allocator); - defer queue.deinit(); - - for (events) |payload| { - if (std.mem.eql(u8, payload, "[DONE]")) break; - // Process every chunk through to [DONE], including the - // post-finish_reason usage chunk. Mirrors the production pump in - // ResumableResponse.produce. - try handleEvent(allocator, payload, &state, &queue); - } - try state.finalize(&queue, conv); - - // Drain into the recorder before the arena resets. The queue holds all - // events from this turn; popping records each, and the final null-pop - // resets the arena. - while (queue.pop()) |ev| { - if (rec) |r| try r.record(ev); - } -} - -/// Records decoded `Event`s as compact strings for ordering assertions. -const EventRecorder = struct { - allocator: Allocator, - events: std.ArrayList([]const u8) = .empty, - - fn deinit(self: *EventRecorder) void { - for (self.events.items) |e| self.allocator.free(e); - self.events.deinit(self.allocator); - } - - fn push(self: *EventRecorder, comptime fmt: []const u8, args: anytype) !void { - const owned = try std.fmt.allocPrint(self.allocator, fmt, args); - try self.events.append(self.allocator, owned); - } - - fn record(self: *EventRecorder, ev: Event) !void { - switch (ev) { - .message_start => try self.push("msg_start", .{}), - .block_start => |b| try self.push("block_start[{d}]:{s}", .{ b.index, @tagName(b.block_type) }), - .tool_details => |t| try self.push("tool_details[{d}]:{s}:{s}", .{ t.index, t.id, t.name }), - .content_delta => |d| try self.push("delta[{d}]:{s}", .{ d.index, d.delta }), - .block_complete => |b| try self.push("block_complete[{d}]", .{b.index}), - .message_complete => |m| { - if (m.usage) |u| { - try self.push( - "msg_complete[usage:in={d},out={d},cr={d},cw={d},rsn={d}]", - .{ u.input, u.output, u.cache_read, u.cache_write, u.reasoning }, - ); - } else { - try self.push("msg_complete[usage:null]", .{}); - } - }, - else => {}, - } - } -}; - -/// Test helper: append a single-text user message. `addUserMessage` now -/// takes a block slice (symmetric with `addAssistantMessage`); this wraps -/// the common plain-text case the tests below use. -fn addUserText(conv: *conversation.Conversation, text: []const u8) !void { - const tb = try conversation.textualBlockFromSlice(conv.allocator, text); - var block: conversation.ContentBlock = .{ .Text = tb }; - errdefer block.deinit(conv.allocator); - try conv.addUserMessage(&.{block}); -} - -test "two streamed turns persist assistant replies in the conversation" { - // Regression test for the bug where `finish_reason` arrived before - // `[DONE]` and `finalize` early-returned without appending the assistant - // message, so follow-up turns were sent without prior responses. - - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - - try conv.addSystemMessage("You are a helpful assistant."); - try addUserText(&conv, "hello!"); - - const turn1 = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"content":"Hello! "}}]} - , - \\{"choices":[{"delta":{"content":"How can I help you today?"}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"stop"}]} - , - "[DONE]", - }; - try runStreamedTurn(allocator, &conv, null, &turn1); - - try testing.expectEqual(@as(usize, 3), conv.messages.items.len); - try testing.expectEqual(conversation.MessageRole.assistant, conv.messages.items[2].role); - try testing.expectEqualStrings( - "Hello! How can I help you today?", - conv.messages.items[2].content.items[0].Text.items, - ); - - // Second user turn: the assistant must still see its prior response. - try addUserText(&conv, "how did you respond to my greeting just now?"); - - const turn2 = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"content":"I replied: \"Hello! How can I help you today?\""}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"stop"}]} - , - "[DONE]", - }; - try runStreamedTurn(allocator, &conv, null, &turn2); - - // System + user + assistant + user + assistant = 5 messages. - try testing.expectEqual(@as(usize, 5), conv.messages.items.len); - try testing.expectEqual(conversation.MessageRole.assistant, conv.messages.items[4].role); - try testing.expectEqualStrings( - "I replied: \"Hello! How can I help you today?\"", - conv.messages.items[4].content.items[0].Text.items, - ); -} - -test "openai_chat: terminating usage chunk lands on message_complete with split cache_read" { - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "hi"); - - var rec = EventRecorder{ .allocator = allocator }; - defer rec.deinit(); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"content":"hi"}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"stop"}]} - , - // OpenAI's terminating chunk: empty choices, top-level usage. - \\{"choices":[],"usage":{"prompt_tokens":150,"completion_tokens":42,"prompt_tokens_details":{"cached_tokens":120},"completion_tokens_details":{"reasoning_tokens":18}}} - , - "[DONE]", - }; - try runStreamedTurn(allocator, &conv, &rec, &events); - - var found: ?[]const u8 = null; - for (rec.events.items) |s| { - if (std.mem.startsWith(u8, s, "msg_complete[")) found = s; - } - try testing.expect(found != null); - // 150 prompt - 120 cached = 30 fresh input. - try testing.expectEqualStrings("msg_complete[usage:in=30,out=42,cr=120,cw=0,rsn=18]", found.?); -} - -test "openai_chat: omitted stream usage yields null on message_complete" { - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "hi"); - - var rec = EventRecorder{ .allocator = allocator }; - defer rec.deinit(); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"content":"hi"}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"stop"}]} - , - "[DONE]", - }; - try runStreamedTurn(allocator, &conv, &rec, &events); - - var found: ?[]const u8 = null; - for (rec.events.items) |s| { - if (std.mem.startsWith(u8, s, "msg_complete")) found = s; - } - try testing.expect(found != null); - try testing.expectEqualStrings("msg_complete[usage:null]", found.?); -} - -test "openai_chat: empty content alongside reasoning does not split thinking block" { - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "think"); - - var rec = EventRecorder{ .allocator = allocator }; - defer rec.deinit(); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"reasoning_content":"rea","content":""}}]} - , - \\{"choices":[{"delta":{"reasoning_content":"son","content":""}}]} - , - \\{"choices":[{"delta":{"reasoning_content":"ing","content":""}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"stop"}]} - , - "[DONE]", - }; - try runStreamedTurn(allocator, &conv, &rec, &events); - - const expected = [_][]const u8{ - "msg_start", - "block_start[0]:Thinking", - "delta[0]:rea", - "delta[0]:son", - "delta[0]:ing", - "block_complete[0]", - "msg_complete[usage:null]", - }; - try testing.expectEqual(expected.len, rec.events.items.len); - for (expected, rec.events.items) |want, got| { - try testing.expectEqualStrings(want, got); - } - - const asst = conv.messages.items[1]; - try testing.expectEqual(@as(usize, 1), asst.content.items.len); - try testing.expectEqualStrings("reasoning", asst.content.items[0].Thinking.text.items); -} - -test "fragmented tool_call id and name are reassembled" { - // Lenient OpenAI-compatible providers occasionally split `id` and - // `function.name` across multiple deltas instead of sending them whole - // on the first chunk. Verify the state machine appends both correctly - // and emits a complete identity to the receiver. - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "call something"); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"call_","type":"function","function":{"name":"pi"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"xyz","function":{"name":"ng"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"function":{"arguments":"{\"host\":\"a.com\"}"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, null, &events); - - const asst = conv.messages.items[1]; - try testing.expectEqual(@as(usize, 1), asst.content.items.len); - const tu = asst.content.items[0].ToolUse; - try testing.expectEqualStrings("call_xyz", tu.id); - try testing.expectEqualStrings("ping", tu.name); - try testing.expectEqualStrings("{\"host\":\"a.com\"}", tu.input.items); -} - -test "repeated full tool_call id and name do not accumulate" { - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "read it"); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"chatcmpl-tool-abc","type":"function","function":{"name":"std__read","arguments":"{\"path\""}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"chatcmpl-tool-abc","function":{"name":"std__read","arguments":":\"a\"}"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, null, &events); - - const tu = conv.messages.items[1].content.items[0].ToolUse; - try testing.expectEqualStrings("chatcmpl-tool-abc", tu.id); - try testing.expectEqualStrings("std.read", tu.name); - try testing.expectEqualStrings("{\"path\":\"a\"}", tu.input.items); -} - -test "cumulative tool_call id and name replace their prefix" { - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "read it"); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"chatcmpl-tool-","type":"function","function":{"name":"std_","arguments":"{\"path\""}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"chatcmpl-tool-abc","function":{"name":"std__read","arguments":":\"a\"}"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, null, &events); - - const tu = conv.messages.items[1].content.items[0].ToolUse; - try testing.expectEqualStrings("chatcmpl-tool-abc", tu.id); - try testing.expectEqualStrings("std.read", tu.name); - try testing.expectEqualStrings("{\"path\":\"a\"}", tu.input.items); -} - -test "inbound wire tool name is decoded to dotted form (even split across __)" { - // The model echoes the wire name it was given (`std__read`). It is - // decoded to the internal `std.read` for the conversation/session/ - // dispatch. The decode happens after full assembly, so a `__` split - // across two deltas (`std_` + `_read`) decodes correctly. - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "read a file"); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"c1","type":"function","function":{"name":"std_"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"function":{"name":"_read"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"function":{"arguments":"{}"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, null, &events); - - const tu = conv.messages.items[1].content.items[0].ToolUse; - try testing.expectEqualStrings("std.read", tu.name); -} - -test "parallel tool_calls emit one complete start/delta/complete cycle per block" { - // Regression test: previously, the OpenAI provider deferred ALL - // tool_use onBlockComplete callbacks to finalize, so a four-tool - // parallel batch produced start/start/start/start/delta*/complete/ - // complete/complete/complete — the receiver couldn't render each tool - // as its own discrete block. With the new contiguity-driven close-on- - // next-index logic, each tool_use should produce a contiguous - // start → delta(s) → complete trio. - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "ping four hosts"); - - var rec: EventRecorder = .{ .allocator = allocator }; - defer rec.deinit(); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"c0","type":"function","function":{"name":"ping","arguments":"{\"host\":\"a\"}"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":1,"id":"c1","type":"function","function":{"name":"ping","arguments":"{\"host\":\"b\"}"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":2,"id":"c2","type":"function","function":{"name":"ping","arguments":"{\"host\":\"c\"}"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":3,"id":"c3","type":"function","function":{"name":"ping","arguments":"{\"host\":\"d\"}"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, &rec, &events); - - const expected = [_][]const u8{ - "msg_start", - "block_start[0]:ToolUse", - "tool_details[0]:c0:ping", - "delta[0]:{\"host\":\"a\"}", - "block_complete[0]", - "block_start[1]:ToolUse", - "tool_details[1]:c1:ping", - "delta[1]:{\"host\":\"b\"}", - "block_complete[1]", - "block_start[2]:ToolUse", - "tool_details[2]:c2:ping", - "delta[2]:{\"host\":\"c\"}", - "block_complete[2]", - "block_start[3]:ToolUse", - "tool_details[3]:c3:ping", - "delta[3]:{\"host\":\"d\"}", - "block_complete[3]", - // No usage chunk in this fixture (older test data) — record - // shows null. - "msg_complete[usage:null]", - }; - - // Identity arrives in the assembled ContentBlock at completion time. - const asst = conv.messages.items[1]; - try testing.expectEqual(@as(usize, 4), asst.content.items.len); - for (asst.content.items) |b| { - try testing.expectEqualStrings("ping", b.ToolUse.name); - } - try testing.expectEqual(expected.len, rec.events.items.len); - for (expected, rec.events.items) |want, got| { - try testing.expectEqualStrings(want, got); - } -} - -test "non-contiguous tool_call deltas: re-emission of a closed index is dropped" { - // Degenerate backend behavior: a delta for an already-closed wire - // index. We must not reopen the block; instead drop the fragment and - // log. The successfully-closed prior blocks remain intact. - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "go"); - - var rec: EventRecorder = .{ .allocator = allocator }; - defer rec.deinit(); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"c0","type":"function","function":{"name":"ping","arguments":"{\"x\":1}"}}]}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":1,"id":"c1","type":"function","function":{"name":"ping","arguments":"{\"y\":2}"}}]}}]} - , - // Delta for already-closed index 0: must be dropped. - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"function":{"arguments":",extra"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, &rec, &events); - - // Two well-formed tool_use blocks in the final message, args unaffected - // by the dropped fragment. - const asst = conv.messages.items[1]; - try testing.expectEqual(@as(usize, 2), asst.content.items.len); - try testing.expectEqualStrings("{\"x\":1}", asst.content.items[0].ToolUse.input.items); - try testing.expectEqualStrings("{\"y\":2}", asst.content.items[1].ToolUse.input.items); - - // Callback sequence: index 0 closed cleanly before any stray delta. - // There must be exactly one block_complete[0] in the event log - // (i.e. the stray delta did not produce a second open/close cycle). - var n_complete_0: usize = 0; - for (rec.events.items) |e| { - if (std.mem.eql(u8, e, "block_complete[0]")) n_complete_0 += 1; - } - try testing.expectEqual(@as(usize, 1), n_complete_0); -} - -test "onToolDetails fires after id+name complete, even mid-arg-stream" { - // Fragmented-identity provider: id arrives split across two chunks, - // and an arg fragment appears between them. `onToolDetails` must - // wait until both id and name are non-empty (i.e. on the chunk that - // completes id), and must fire exactly once, before block_complete. - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "go"); - - var rec: EventRecorder = .{ .allocator = allocator }; - defer rec.deinit(); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - // Identity-only chunk: name arrives whole, id starts. No args yet, - // so onBlockStart hasn't fired and details can't either. - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"call_","type":"function","function":{"name":"ping"}}]}}]} - , - // First arg chunk: onBlockStart fires. id is still "call_" — not - // empty — and name is non-empty, so onToolDetails fires here - // with whatever id we have so far (`call_`). - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"function":{"arguments":"{\"x\":"}}]}}]} - , - // Mid-stream id completion + second arg chunk. onToolDetails has - // already fired so it does NOT fire again, even though id grew. - // The final ContentBlock will carry the full "call_xyz" id. - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"xyz","function":{"arguments":"1}"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, &rec, &events); - - // Exactly one tool_details event, fired with the id-prefix that was - // current at first-args-arrival, and ordered between block_start and - // block_complete. - var n_details: usize = 0; - var details_pos: ?usize = null; - var block_start_pos: ?usize = null; - var block_complete_pos: ?usize = null; - for (rec.events.items, 0..) |e, i| { - if (std.mem.startsWith(u8, e, "tool_details[")) { - n_details += 1; - details_pos = i; - try testing.expectEqualStrings("tool_details[0]:call_:ping", e); - } else if (std.mem.eql(u8, e, "block_start[0]:ToolUse")) { - block_start_pos = i; - } else if (std.mem.eql(u8, e, "block_complete[0]")) { - block_complete_pos = i; - } - } - try testing.expectEqual(@as(usize, 1), n_details); - try testing.expect(block_start_pos.? < details_pos.?); - try testing.expect(details_pos.? < block_complete_pos.?); - - // Final ContentBlock has the full id assembled from both fragments. - const asst = conv.messages.items[1]; - try testing.expectEqualStrings("call_xyz", asst.content.items[0].ToolUse.id); - try testing.expectEqualStrings("ping", asst.content.items[0].ToolUse.name); - try testing.expectEqualStrings("{\"x\":1}", asst.content.items[0].ToolUse.input.items); -} - -test "tool_call with no arguments still finalizes a well-formed ToolUse" { - // Some providers may emit a tool call with no arguments at all (e.g. a - // zero-arg tool). The state machine should still emit onBlockStart - // exactly once at finalize time and produce a ToolUse with empty input. - const allocator = testing.allocator; - - var conv = conversation.Conversation.init(allocator); - defer conv.deinit(); - try addUserText(&conv, "ring it"); - - const events = [_][]const u8{ - \\{"choices":[{"delta":{"role":"assistant"}}]} - , - \\{"choices":[{"delta":{"tool_calls":[{"index":0,"id":"c1","type":"function","function":{"name":"ring"}}]}}]} - , - \\{"choices":[{"delta":{},"finish_reason":"tool_calls"}]} - , - "[DONE]", - }; - - try runStreamedTurn(allocator, &conv, null, &events); - - const asst = conv.messages.items[1]; - try testing.expectEqual(@as(usize, 1), asst.content.items.len); - const tu = asst.content.items[0].ToolUse; - try testing.expectEqualStrings("c1", tu.id); - try testing.expectEqualStrings("ring", tu.name); - try testing.expectEqual(@as(usize, 0), tu.input.items.len); -} -- cgit v1.3