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* feat(editor): add / slash-command palette for invoking agent skills Adds a `/` trigger in the chat box that opens a popover listing the active agent's skills. Selecting an item inserts a `[/label](slash://skill/<id>)` token; the daemon extracts those IDs in `buildChatPrompt` and emits an "Explicitly selected skills:" block using the canonical names from the agent's skill registry — labels are display-only and never trusted. Built on Tiptap's `Mention` extension so the suggestion lifecycle, keyboard routing, and IME handling mirror the existing `@` mention UX. Item list is sourced from the React Query workspace cache (no per-keystroke fetch). Gated behind a new `enableSlashCommands` prop so only `chat-input` opts in; other `ContentEditor` consumers (issue editor, comments) are unaffected. Read-only markdown surfaces render the token as a `.slash-command` pill via a custom link renderer + sanitize-schema/url-transform allowlists. Closes #3108 * fix(i18n): add slash_command editor copy for ko/ja The PR added slash_command popover empty-state keys to en + zh-Hans only; locales/parity.test.ts requires every locale to cover every EN key, so ko and ja failed CI. Add the two keys (no_skills_configured, no_results) matching existing skill terminology (스킬 / スキル). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> --------- Co-authored-by: Naiyuan Qing <145280634+NevilleQingNY@users.noreply.github.com> Co-authored-by: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
273 lines
19 KiB
Go
273 lines
19 KiB
Go
package daemon
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import (
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"fmt"
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"strings"
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"github.com/multica-ai/multica/server/internal/daemon/execenv"
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)
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// BuildPrompt constructs the task prompt for an agent CLI.
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// Keep this minimal — detailed instructions live in CLAUDE.md / AGENTS.md
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// injected by execenv.InjectRuntimeConfig. The provider string is used by
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// comment-triggered tasks: Codex's per-turn reply template needs the
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// platform-aware "stdin or file" variant, every other provider gets a
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// lightweight inline template (or Windows file for any provider on
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// Windows).
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func BuildPrompt(task Task, provider string) string {
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if task.ChatSessionID != "" {
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return buildChatPrompt(task)
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}
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if task.TriggerCommentID != "" {
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return buildCommentPrompt(task, provider)
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}
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if task.AutopilotRunID != "" {
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return buildAutopilotPrompt(task)
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}
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if task.QuickCreatePrompt != "" {
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return buildQuickCreatePrompt(task)
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}
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var b strings.Builder
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b.WriteString("You are running as a local coding agent for a Multica workspace.\n\n")
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fmt.Fprintf(&b, "Your assigned issue ID is: %s\n\n", task.IssueID)
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fmt.Fprintf(&b, "Start by running `multica issue get %s --output json` to understand your task, then complete it.\n", task.IssueID)
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fmt.Fprintf(&b, "For comment history, follow the rule in your runtime workflow file (assignment-triggered tasks treat the read as mandatory). `multica issue comment list %s --output json` returns all comments for the issue (server caps at 2000). On long-running issues use `--recent 20 --output json` to read the 20 most recently active threads, then page older threads via the stderr `Next thread cursor: ...` line and the matching `--before` / `--before-id` until you have enough history. `--since <RFC3339>` is still available for incremental polling and may combine with `--recent`.\n", task.IssueID)
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return b.String()
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}
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// buildQuickCreatePrompt constructs a prompt for quick-create tasks. The
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// user typed a single natural-language sentence in the create-issue modal;
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// the agent's job is to translate it into one `multica issue create` CLI
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// invocation, using its judgment to decide whether fetching referenced URLs
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// would produce a better issue. No issue exists yet, so the agent must NOT
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// call `multica issue get` or attempt to comment — there's nothing to read
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// or reply to.
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func buildQuickCreatePrompt(task Task) string {
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var b strings.Builder
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b.WriteString("You are running as a quick-create assistant for a Multica workspace.\n\n")
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b.WriteString("A user captured the following input via the quick-create modal. There is NO existing issue. Your job is to create a well-formed issue from this input with a single `multica issue create` command.\n\n")
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fmt.Fprintf(&b, "User input:\n> %s\n\n", task.QuickCreatePrompt)
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b.WriteString("Field rules:\n\n")
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// title
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b.WriteString("- **title**: required. A concise but semantically rich summary. If the input references external resources (PRs, issues, URLs), use your judgment on whether fetching the resource would produce a meaningfully better title — e.g. \"review PR #123\" → \"Review PR #123: Refactor auth module to OAuth2\". Strip filler words but preserve key semantic information.\n\n")
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// description — the core optimization
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b.WriteString("- **description**: The description is the executing agent's primary context. Aim for high fidelity — they should grasp the user's intent as if they had read the raw input themselves. Use a two-section structure:\n\n")
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b.WriteString(" 1. **User request** — Faithfully restate what the user wants in their own words. Preserve specific names, identifiers, file paths, code snippets, and technical terms verbatim. Strip non-spec material before writing it (this is removal, not paraphrasing): verbal routing wrappers about creating the issue or routing it (e.g. \"create an issue\", \"分配给 X\", \"让 @X 处理\") and pure conversational fillers (e.g. \"对吧?\"). When in doubt, keep it.\n\n")
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b.WriteString(" CC exception: `multica issue create` has no `--subscriber` flag, and the platform auto-subscribes members whose `[@Name](mention://member/<uuid>)` link appears in the description. When the user wrote \"cc @Y\", strip the verbal \"cc\" wrapper from the User request body and append a final `CC: <mention link(s)>` line to the description so the cc routing still fires.\n\n")
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b.WriteString(" 2. **Context** — include ONLY when the input cited external resources AND you successfully fetched them AND they produced verifiable facts worth recording. Summarize facts only (e.g. \"PR #45 changes auth to JWT\"), not interpretation or unsolicited reference implementations. If you have nothing factual to add, omit the section entirely — never use it as an apology log for resources you could not fetch.\n\n")
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b.WriteString(" Hard rules: never invent requirements, implementation details, or acceptance criteria the user did not express; never reduce multi-sentence input to a single vague sentence; never echo the title.\n\n")
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// priority
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b.WriteString("- **priority**: one of `urgent`, `high`, `medium`, `low`, or omit. Map P0/P1 → urgent/high; \"asap\" → urgent. If unspecified, omit.\n\n")
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// assignee
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b.WriteString("- **assignee**:\n")
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b.WriteString(" - When the user names someone (\"assign to X\" / \"@X\"), call `multica workspace member list --output json`, `multica agent list --output json`, and `multica squad list --output json` and find the matching entity by display name. Squads are first-class assignees too — a squad name (e.g. \"Super Human\") routes work to the squad leader, who then delegates. On a clean unambiguous match, prefer `--assignee-id <uuid>` using the `user_id` (member) or `id` (agent or squad) from that JSON — UUID matching is exact and robust to name collisions in workspaces with overlapping names. `--assignee <name>` (fuzzy) is acceptable as a fallback when names are unambiguous. On no match or ambiguous match, do NOT pass either flag — instead append a final line to the description: `Unrecognized assignee: X`.\n")
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b.WriteString(" - Treat bare @-routing as an assignee directive even when the user did not write the English word \"assign\". This includes Chinese imperatives like `让 @独立团 review 这个 PR`, `给 @X 处理`, or `交给 @X`; strip the leading `@`/`@` before matching display names. Do not keep that routing wrapper or `@Name` in the description unless it is a true CC-style notification rather than ownership. If the matched entity is a squad, pass the squad's `id` as `--assignee-id`, not the leader agent's id.\n")
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agentID := ""
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agentName := ""
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if task.Agent != nil {
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agentID = task.Agent.ID
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agentName = task.Agent.Name
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}
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switch {
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case task.SquadID != "":
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// The user opened quick-create with a SQUAD selected. The task
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// runs on the squad's leader agent, but the squad is the expected
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// owner — assigning to the leader would mask the squad's
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// delegation flow. Always point the default at the squad UUID.
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if task.SquadName != "" {
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fmt.Fprintf(&b, " - When the user did NOT name an assignee, default to the picker SQUAD %q: pass `--assignee-id %q` (the squad's UUID). The user opened quick-create with the squad selected; you (the leader agent) are running on the squad's behalf, so the squad — not you — is the expected owner. Never leave the issue unassigned, and do not assign it to your own agent UUID.\n\n", task.SquadName, task.SquadID)
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} else {
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fmt.Fprintf(&b, " - When the user did NOT name an assignee, default to the picker SQUAD: pass `--assignee-id %q` (the squad's UUID). The user opened quick-create with the squad selected; you (the leader agent) are running on the squad's behalf, so the squad — not you — is the expected owner. Never leave the issue unassigned, and do not assign it to your own agent UUID.\n\n", task.SquadID)
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}
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case agentID != "":
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fmt.Fprintf(&b, " - When the user did NOT name an assignee, default to YOURSELF: pass `--assignee-id %q` (your agent UUID). The picker agent is the expected owner because the user opened quick-create with you selected — never leave the issue unassigned. Use the UUID flag, not `--assignee <name>`, so the assignment is unambiguous even when other agents share part of your name.\n\n", agentID)
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case agentName != "":
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fmt.Fprintf(&b, " - When the user did NOT name an assignee, default to YOURSELF: pass `--assignee %q`. The picker agent is the expected owner because the user opened quick-create with you selected — never leave the issue unassigned.\n\n", agentName)
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default:
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b.WriteString(" - When the user did NOT name an assignee, default to YOURSELF (the picker agent): pass `--assignee-id <your agent UUID>` (preferred) or `--assignee <your agent name>`. Never leave the issue unassigned.\n\n")
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}
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// project — pinned by the modal when the user picked one, otherwise
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// omitted so the platform routes to the workspace default. Always pass
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// the UUID (never a name) so the issue lands in the right project even
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// when several share a title.
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if task.ProjectID != "" {
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if task.ProjectTitle != "" {
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fmt.Fprintf(&b, "- **project**: required for this run. Pass `--project %q` so the new issue lands in project %q (the user picked it in the quick-create modal). Do not infer a different project from the prompt text — the modal selection is authoritative.\n", task.ProjectID, task.ProjectTitle)
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} else {
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fmt.Fprintf(&b, "- **project**: required for this run. Pass `--project %q` so the new issue lands in the project the user picked in the quick-create modal. Do not infer a different project from the prompt text — the modal selection is authoritative.\n", task.ProjectID)
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}
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} else {
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b.WriteString("- **project**: omit. The platform will route the issue to the workspace default.\n")
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}
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// parent — pinned by the modal when the user opened it from "Add sub
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// issue" on an existing issue. Pass the UUID (never the identifier) so
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// the create lands the sub-issue under the right parent even when the
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// workspace prefix changes; the identifier is included in the prose
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// purely as human-readable context for the agent.
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if task.ParentIssueID != "" {
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if task.ParentIssueIdentifier != "" {
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fmt.Fprintf(&b, "- **parent**: required for this run. Pass `--parent %q` so the new issue is filed as a sub-issue of %s (the user opened quick-create from that issue's \"Add sub issue\" entry). Do not infer a different parent from the prompt text — the modal entry point is authoritative.\n", task.ParentIssueID, task.ParentIssueIdentifier)
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} else {
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fmt.Fprintf(&b, "- **parent**: required for this run. Pass `--parent %q` so the new issue is filed as a sub-issue of the parent the user picked in the quick-create modal. Do not infer a different parent from the prompt text — the modal entry point is authoritative.\n", task.ParentIssueID)
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}
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}
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b.WriteString("- **status**: omit (defaults to `todo`).\n")
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b.WriteString("- **attachments**: do NOT pass `--attachment`. The flag only accepts LOCAL file paths. Any image URL in the user input is already markdown — keep it inline in `--description` instead.\n\n")
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// output format
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b.WriteString("Output format:\n")
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b.WriteString("- Run exactly one `multica issue create --output json` invocation. Do not retry for any reason — even on non-zero exit. The issue may already exist; another attempt would create a duplicate.\n")
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b.WriteString("- Parse the JSON response to read the created issue's `identifier` (preferred) or `id` (fallback). Do not scrape human output and do not assume any workspace issue prefix such as `MUL-`; workspaces can use custom prefixes.\n")
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b.WriteString("- After success, print exactly one line: `Created <identifier-or-id>: <title>` and exit. No commentary, no follow-up tool calls.\n")
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b.WriteString("- Do NOT call `multica issue get` or `multica issue comment add` — there is no issue to query or comment on.\n")
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b.WriteString("- On CLI error or JSON parse error, exit with the error as the only output. The platform writes a failure notification automatically.\n")
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return b.String()
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}
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// buildCommentPrompt constructs a prompt for comment-triggered tasks.
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// The triggering comment content is embedded directly so the agent cannot
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// miss it, even when stale output files exist in a reused workdir.
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// The reply instructions (including the current TriggerCommentID as --parent)
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// are re-emitted on every turn so resumed sessions cannot carry forward a
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// previous turn's --parent UUID.
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func buildCommentPrompt(task Task, provider string) string {
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var b strings.Builder
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b.WriteString("You are running as a local coding agent for a Multica workspace.\n\n")
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fmt.Fprintf(&b, "Your assigned issue ID is: %s\n\n", task.IssueID)
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if task.TriggerCommentContent != "" {
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authorLabel := "A user"
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if task.TriggerAuthorType == "agent" {
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name := task.TriggerAuthorName
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if name == "" {
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name = "another agent"
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}
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authorLabel = fmt.Sprintf("Another agent (%s)", name)
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}
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fmt.Fprintf(&b, "[NEW COMMENT] %s just left a new comment. Focus on THIS comment — do not confuse it with previous ones:\n\n", authorLabel)
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fmt.Fprintf(&b, "> %s\n\n", task.TriggerCommentContent)
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if task.TriggerAuthorType == "agent" {
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b.WriteString("⚠️ The triggering comment was posted by another agent. Decide whether a reply is warranted. If you produced actual work this turn (investigated, fixed something, answered a real question), post the result as a normal reply — that is NOT a noise comment, and the standard rule that final results must be delivered via comment still applies. If the triggering comment was a pure acknowledgment, thanks, or sign-off AND you produced no work this turn, do NOT reply — and do NOT post a comment saying 'No reply needed' or similar. Simply exit with no output. Silence is the preferred way to end agent-to-agent threads. If you do reply, do not @mention the other agent as a sign-off (that re-triggers them and starts a loop).\n\n")
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}
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if task.Agent != nil && strings.Contains(task.Agent.Instructions, "## Squad Operating Protocol") {
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fmt.Fprintf(&b, "⚠️ **Squad leader no_action rule:** If you decide no action is needed, call `multica squad activity %s no_action --reason \"...\"` and EXIT. DO NOT post any comment — not even one that says \"no action needed\" or \"exiting silently\". The squad activity call records your decision; a comment is redundant noise.\n\n", task.IssueID)
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}
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}
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fmt.Fprintf(&b, "Start by running `multica issue get %s --output json` to understand your task, then decide how to proceed.\n\n", task.IssueID)
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// Comment-reading pointer. Warm path with new comments: issue-wide
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// since-delta count, but steer the agent to read the triggering thread
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// first. Warm resumed path with no new comments: the trigger is already
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// injected, so don't force a duplicate thread read. Cold path: read the
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// triggering thread, not the flat timeline. Final fallback (no trigger id,
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// shouldn't happen here): plain read.
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if hint := execenv.BuildNewCommentsHint(task.IssueID, task.TriggerCommentID, task.NewCommentsSince, task.NewCommentCount); hint != "" {
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b.WriteString(hint)
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} else if task.PriorSessionID != "" {
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b.WriteString(execenv.BuildResumedCommentsHint(task.IssueID, task.TriggerCommentID))
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} else if cold := execenv.BuildColdCommentsHint(task.IssueID, task.TriggerCommentID); cold != "" {
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b.WriteString(cold)
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} else {
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fmt.Fprintf(&b, "Read the discussion: `multica issue comment list %s --output json` (long issue? use `--recent 20`).\n\n", task.IssueID)
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}
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b.WriteString(execenv.BuildCommentReplyInstructions(provider, task.IssueID, task.TriggerCommentID))
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return b.String()
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}
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// buildChatPrompt constructs a prompt for interactive chat tasks.
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func buildChatPrompt(task Task) string {
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var b strings.Builder
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b.WriteString("You are running as a chat assistant for a Multica workspace.\n")
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b.WriteString("A user is chatting with you directly. Respond to their message.\n\n")
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if task.Agent != nil && len(task.Agent.Skills) > 0 {
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refs := ExtractSlashSkills(task.ChatMessage)
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if len(refs) > 0 {
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agentSkills := make(map[string]string, len(task.Agent.Skills))
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for _, s := range task.Agent.Skills {
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agentSkills[s.ID] = s.Name
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}
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selected := make([]string, 0, len(refs))
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seen := make(map[string]struct{}, len(refs))
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for _, ref := range refs {
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name, ok := agentSkills[ref.ID]
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if !ok {
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continue
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}
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if _, ok := seen[ref.ID]; ok {
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continue
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}
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seen[ref.ID] = struct{}{}
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selected = append(selected, name)
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}
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if len(selected) > 0 {
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b.WriteString("Explicitly selected skills:\n")
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for _, name := range selected {
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fmt.Fprintf(&b, "- %s\n", name)
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}
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b.WriteString("\n")
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}
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}
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}
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fmt.Fprintf(&b, "User message:\n%s\n", task.ChatMessage)
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// List attachments by id + filename so the agent can fetch them via
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// the CLI. We deliberately do NOT inline the URL: chat attachments
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// live behind a signed CDN with a short TTL, so by the time the agent
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// has finished thinking the URL embedded in the markdown body may
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// have expired. `multica attachment download <id>` re-signs at click
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// time and is the only reliable path.
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if len(task.ChatMessageAttachments) > 0 {
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b.WriteString("\nAttachments on this message:\n")
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for _, a := range task.ChatMessageAttachments {
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if a.ContentType != "" {
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fmt.Fprintf(&b, "- id=%s filename=%q content_type=%s\n", a.ID, a.Filename, a.ContentType)
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} else {
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fmt.Fprintf(&b, "- id=%s filename=%q\n", a.ID, a.Filename)
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}
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}
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b.WriteString("Use `multica attachment download <id>` to fetch each file locally before referring to it.\n")
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}
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return b.String()
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}
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// buildAutopilotPrompt constructs a prompt for run_only autopilot tasks.
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func buildAutopilotPrompt(task Task) string {
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var b strings.Builder
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b.WriteString("You are running as a local coding agent for a Multica workspace.\n\n")
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b.WriteString("This task was triggered by an Autopilot in run-only mode. There is no assigned Multica issue for this run.\n\n")
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fmt.Fprintf(&b, "Autopilot run ID: %s\n", task.AutopilotRunID)
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if task.AutopilotID != "" {
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fmt.Fprintf(&b, "Autopilot ID: %s\n", task.AutopilotID)
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}
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if task.AutopilotTitle != "" {
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fmt.Fprintf(&b, "Autopilot title: %s\n", task.AutopilotTitle)
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}
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if task.AutopilotSource != "" {
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fmt.Fprintf(&b, "Trigger source: %s\n", task.AutopilotSource)
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}
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if strings.TrimSpace(string(task.AutopilotTriggerPayload)) != "" {
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fmt.Fprintf(&b, "Trigger payload:\n%s\n", strings.TrimSpace(string(task.AutopilotTriggerPayload)))
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}
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b.WriteString("\nAutopilot instructions:\n")
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if strings.TrimSpace(task.AutopilotDescription) != "" {
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b.WriteString(task.AutopilotDescription)
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b.WriteString("\n\n")
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} else if task.AutopilotTitle != "" {
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fmt.Fprintf(&b, "%s\n\n", task.AutopilotTitle)
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} else {
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b.WriteString("No additional autopilot instructions were provided. Inspect the autopilot configuration before proceeding.\n\n")
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}
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if task.AutopilotID != "" {
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fmt.Fprintf(&b, "Start by running `multica autopilot get %s --output json` if you need the full autopilot configuration, then complete the instructions above.\n", task.AutopilotID)
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} else {
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b.WriteString("Complete the instructions above.\n")
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}
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b.WriteString("Do not run `multica issue get`; this run does not have an issue ID.\n")
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return b.String()
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}
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