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3f805a64f1
## Summary
Aligns the **Go agent runtime/canvas/components/tools** behavior with
the **Python `agent/` implementation** so the same stored canvas DSL
produces the same execution result on either side. Every component,
tool, and runtime primitive in `internal/agent/` is now driven by the
same semantics as its Python counterpart — variable resolution, template
substitution, control flow, error reporting, retry/cancel, and stream
event shapes.
The **retrieval component is the one explicit exception** in this PR. It
is being reworked in a separate change and is excluded from this
alignment pass; the wrapper slot (`universe_a_wrappers.go →
newRetrievalComponent`) is preserved.
## Scope of alignment
### Components (all aligned with `agent/component/`)
`Begin` · `Message` · `LLM` (incl. ChatTemplateKwargs,
MessageHistoryWindowSize, VisualFiles, Cite, OutputStructure,
JSONOutput, TopP, MaxRetries, DelayAfterError, credentials) · `Agent`
(react + tool artifact capture + `Reset()` interface-assert) · `Switch`
(12/12 operators, Python-equivalent semantics) · `Categorize` · `Invoke`
· `Iteration` · `Loop` (macro-expansion through `workflowx.AddLoopNode`)
· `UserFillUp` (Python-equivalent interrupt/resume via eino
`compose.Interrupt`/`ResumeWithData`) · `FillUp` · `DataOperations` ·
`ListOperations` · `StringTransform` · `VariableAggregator` ·
`VariableAssigner` · `Browser` (full stagehand runtime parity) ·
`DocsGenerator` · `ExcelProcessor`.
### Tools (all aligned with `agent/tools/`)
`Retrieval` (wrapper slot only — logic out of scope) · `MCPToolAdapter`
(streamable-HTTP) · `CodeExec` (sandbox bridge with
`code_exec_contract.go` matching Python contract) · `AkShare` · `ArXiv`
· `Crawler` · `DeepL` · `DuckDuckGo` · `Email` · `ExeSQL` · `GitHub` ·
`Google` · `GoogleScholar` · `Jin10` · `PubMed` · `QWeather` · `SearXNG`
· `Tavily` · `Tushare` · `Wencai` · `Wikipedia` · `YahooFinance` —
uniform `eino tool.InvokableTool` interface, SSRF protection, shared
HTTP client.
### Canvas execution engine (`internal/agent/canvas/`)
Aligned with Python's `agent/canvas.py`:
- **Scheduler** (`scheduler.go`): state pre/post handlers, node lambdas,
per-component timeout resolver (4-level: per-class env → per-class table
→ uniform env → 600s fallback), `legacyNoOpNames`.
- **Loop subgraph** (`loop_subgraph.go`): Python-equivalent
`AddLoopNode` macro expansion + condition translation.
- **Multibranch** (`multibranch.go`): `Switch` / `Categorize` routing
via `compose.NewGraphMultiBranch` — same branch selection semantics as
Python.
- **Parallel subgraph** (`parallel_subgraph.go`): matches Python's
parallel fan-out contract.
- **Interrupt/Resume** (`interrupt_resume.go`): `UserFillUpNodeBody` /
`IsInterruptError` / `ExtractInterruptContexts` — replaces the
deprecated Python sentinel chain with eino's native interrupt API,
preserving the same external behavior.
- **Checkpoint** (`checkpoint_store.go`): `RedisCheckPointStore`
Get/Set/Delete, with business metadata (status / canvas_id /
parent_run_id) on a parallel Redis Hash.
- **RunTracker** (`run_tracker.go`): Start / MarkSucceeded / MarkFailed
/ MarkCancelled / AttachCheckpoint — same lifecycle as the Python run
record.
- **Cancel** (`cancel.go`): Redis pub/sub watch.
- **Stream** (`stream.go`): SSE channel with `messages` / `waiting` /
`errors` / `done` events, same shape as Python's `agent.canvas.RunEvent`
payload.
### DSL bridge (`internal/agent/dsl/`)
- `normalize.go`: v1↔v2 collapsed into a single wire format — Python and
Go consume the same stored JSON.
- `reset.go`: per-run state reset matches Python's `Canvas.reset()`
semantics.
- Testdata mirrors Python's `agent_msg.json` / `all.json` / etc.
### Runtime (`internal/agent/runtime/`)
- `CanvasState` / `NewCanvasState` / `GetVar` / `SetVar` / `ReadVars`:
same `{{cpn_id@param}}` resolution model.
- `ResolveTemplate` (regex fast path + gonja fallback) — Python
Jinja-style semantics.
- `selector.go`, `metrics.go`, `component.go`: shared runtime contracts.
## Out of scope (intentionally)
- **`Retrieval` component logic** — wrapped only; full parity lands in a
follow-up PR.
- **Frontend** — only minor dsl-bridge / canvas UX fixes ride along.
- **CLI / admin / model registry** — orthogonal to agent behavior.
## How alignment is verified
`internal/service/agent_run_e2e_test.go` exercises the **full production
chain** against real Python-shaped DSL fixtures:
```
loadCanvasForUser → versionDAO.GetLatest → decodeCanvasFromDSL →
canvas.Compile → cc.Workflow.Invoke → answer extraction
```
using in-memory SQLite + miniredis (no Docker). Covers:
- `TestRunAgent_RealCanvas_BeginMessage` — happy path, `{{sys.query}}`
resolution
- `TestRunAgent_RealCanvas_WaitForUserResume` — two-run resume cycle
(Python-equivalent)
- `TestRunAgent_RealCanvas_CompileFails` — unknown component name →
sanitized error (Python-equivalent)
- `TestRunAgent_RealCanvas_InvokeFails` — unresolvable template ref
(Python-equivalent)
- `TestRunAgent_RunTracker_AttachCheckpoint_CallSequence` —
Start→AttachCheckpoint→MarkSucceeded lifecycle
`internal/handler/agent_test.go` — SSE streaming parity (`Content-Type:
text/event-stream`, `data: {…}\n\n`, trailing `data: [DONE]\n\n`,
OpenAI-compatible non-stream `choices`).
`internal/agent/canvas/fixture_compile_test.go` + per-component tests
pin the Python-equivalent outputs.
```
go test -count=1 -v -run 'TestRunAgent_RealCanvas|TestRunAgent_RunTracker' ./internal/service/
```
## Design reference
`docs/develop/agent-go-port-design.md` (1329 lines, last cross-checked
2026-06-17) — module layout, per-component / per-tool inventory,
corner-case catalogue, and the actionable backlog (Section 14, including
the retrieval alignment follow-up).
---------
Co-authored-by: Claude <noreply@anthropic.com>
224 lines
8.3 KiB
Go
224 lines
8.3 KiB
Go
//
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// Copyright 2026 The InfiniFlow Authors. All Rights Reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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// Package component — Loop component (T3, plan §2.11.3 row 11).
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//
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// Loop is the parent node for a conditional loop subgraph. The Go port
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// implements a single-node loop driven by workflowx.AddLoopNode: when
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// BuildWorkflow sees a Loop cpn, it collects the Loop's downstream
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// descendants into a sub-graph (see canvas/loop_subgraph.go), installs
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// a workflowx.AddLoopNode in place of the Loop subtree, and skips
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// Loop in the main node-registration pass.
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//
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// As a result, LoopComponent itself does NOT do any per-iteration
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// work at runtime. LoopComponent.Invoke is a no-op marker that
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// returns an empty map; the actual loop iteration is driven by
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// the sub-graph's init lambda (which seeds loop_variables into
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// CanvasState) and the sub-workflow's per-iteration body. Loop
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// termination is driven by the workflowx.LoopCondition produced by
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// translateLoopCondition from the DSL's loop_termination_condition
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// list.
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//
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// The component still exists in the registry so:
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// - tooling / introspection (component.New, RegisteredNames) work;
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// - factory-style wiring can still construct a LoopComponent from
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// a params map (useful for tests and direct API callers);
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//
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// loopParam and its Update/Check/AsDict methods stay because they
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// describe the canonical Loop DSL shape, even though runtime path
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// bypasses them (canvas.buildLoopExpansion parses the raw params
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// map directly). Keep them as a single source of truth for what a
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// Loop params block looks like.
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package component
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import (
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"context"
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)
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const componentNameLoop = "Loop"
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// LoopComponent is the canvas-level loop parent. The runtime loop
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// driver lives in workflowx.AddLoopNode, not in this type. The
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// component exists for registry / factory / introspection only —
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// Invoke is a no-op that returns an empty map.
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type LoopComponent struct {
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param loopParam
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}
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// loopParam captures the (resolved) DSL parameters for a Loop node.
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// Only `loop_variables` and `loop_termination_condition` are
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// meaningful; the parent.get_start() walk that the Python version
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// performs (loop.py:46-51) is an engine concern handled by
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// canvas.buildLoopExpansion at BuildWorkflow time.
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type loopParam struct {
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// LoopVariables is the list of variable initializers. Each entry is
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// a map with keys {variable, input_mode, value, type}. The slice
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// pointer is shared with the DSL loader — callers should treat it
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// as read-only.
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LoopVariables []map[string]any
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// LoopTerminationCondition is the list of termination conditions.
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// Each entry is a map with keys {variable, operator, value,
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// input_mode}. The condition list is translated to a
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// workflowx.LoopCondition closure by canvas.translateLoopCondition.
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LoopTerminationCondition []map[string]any
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// LogicalOperator combines per-condition results: "and" (default)
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// or "or".
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LogicalOperator string
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// MaximumLoopCount caps the iteration count. 0 = infinite.
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MaximumLoopCount int
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}
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// Update copies conf into p. Used by the editor / API to hand-craft a
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// params map; type validation is intentionally minimal in P2.
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func (p *loopParam) Update(conf map[string]any) error {
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if conf == nil {
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return nil
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}
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if raw, ok := conf["loop_variables"]; ok {
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p.LoopVariables = toAnyMapSlice(raw)
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}
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if raw, ok := conf["loop_termination_condition"]; ok {
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p.LoopTerminationCondition = toAnyMapSlice(raw)
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}
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if v, ok := stringFrom(conf, "logical_operator"); ok {
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p.LogicalOperator = v
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}
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if v, ok := intFrom(conf, "maximum_loop_count"); ok {
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p.MaximumLoopCount = v
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}
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return nil
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}
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// Check performs shallow validation. The Python check() at loop.py:39
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// always returns True; we mirror that.
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func (p *loopParam) Check() error {
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return nil
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}
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// AsDict returns the params as a plain map for serialization / debug.
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func (p *loopParam) AsDict() map[string]any {
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out := map[string]any{}
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if p.LoopVariables != nil {
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out["loop_variables"] = p.LoopVariables
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}
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if p.LoopTerminationCondition != nil {
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out["loop_termination_condition"] = p.LoopTerminationCondition
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}
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if p.LogicalOperator != "" {
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out["logical_operator"] = p.LogicalOperator
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}
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if p.MaximumLoopCount > 0 {
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out["maximum_loop_count"] = p.MaximumLoopCount
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}
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return out
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}
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// NewLoopComponent builds a LoopComponent from the supplied param struct.
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func NewLoopComponent(p loopParam) *LoopComponent {
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return &LoopComponent{param: p}
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}
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// Name returns the registered component name.
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func (c *LoopComponent) Name() string { return componentNameLoop }
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// Inputs returns parameter metadata for tooling.
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func (c *LoopComponent) Inputs() map[string]string {
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return map[string]string{
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"cpn_id": "Stable component identifier — BuildWorkflow uses this to detect Loop and apply the workflowx.AddLoopNode macro expansion.",
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"loop_variables": "List of variable initializers: [{variable, input_mode, value, type}].",
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"loop_termination_condition": "List of termination conditions: [{variable, operator, value, input_mode}].",
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"maximum_loop_count": "Maximum iteration count. 0 = infinite. Optional.",
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"logical_operator": "Combines per-condition results: 'and' (default) or 'or'.",
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}
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}
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// Outputs returns the Loop's public outputs. In the new architecture,
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// the actual loop output is the last iteration's body output, which
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// flows through the eino sub-graph node. LoopComponent itself emits
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// no outputs; this map documents the contract for downstream
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// consumers reading the sub-graph's result via FieldMapping.
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func (c *LoopComponent) Outputs() map[string]string {
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return map[string]string{
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"_result": "Final iteration output (set by the sub-graph, not by LoopComponent.Invoke).",
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}
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}
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// Invoke is a no-op marker. The real per-iteration work runs inside
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// the sub-graph (init lambda seeds loop_variables into state; the
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// sub-workflow runs the body; the LoopCondition closure evaluates
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// termination on every iteration). LoopComponent.Invoke is kept on
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// the Component interface for callers that construct a LoopComponent
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// directly outside the canvas engine (e.g. unit tests that want to
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// verify registration); under the canvas engine, this method is
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// never called.
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//
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// The returned map is empty. State writes from this method would be
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// silently dropped by the eino graph, because LoopComponent is not
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// registered as an eino node when the macro expansion fires.
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func (c *LoopComponent) Invoke(_ context.Context, _ map[string]any) (map[string]any, error) {
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return map[string]any{}, nil
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}
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// Stream mirrors Invoke and emits an empty map as a single chunk.
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func (c *LoopComponent) Stream(ctx context.Context, inputs map[string]any) (<-chan map[string]any, error) {
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out, err := c.Invoke(ctx, inputs)
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if err != nil {
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return nil, err
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}
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ch := make(chan map[string]any, 1)
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ch <- out
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close(ch)
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return ch, nil
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}
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// toAnyMapSlice accepts either []map[string]any or []any and returns
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// the canonical []map[string]any view. Unknown element types are
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// skipped silently — the per-item check in the canvas layer will
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// surface the malformed entry.
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func toAnyMapSlice(raw any) []map[string]any {
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switch v := raw.(type) {
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case []map[string]any:
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return v
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case []any:
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out := make([]map[string]any, 0, len(v))
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for _, e := range v {
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if m, ok := e.(map[string]any); ok {
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out = append(out, m)
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}
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}
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return out
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}
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return nil
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}
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// init registers LoopComponent with the orchestrator-owned registry.
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//
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// LoopComponent.Invoke is a no-op; the runtime loop driver lives in
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// workflowx.AddLoopNode and is installed by canvas.BuildWorkflow
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// when it sees a Loop cpn in the DSL.
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func init() {
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Register(componentNameLoop, func(params map[string]any) (Component, error) {
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var p loopParam
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if err := p.Update(params); err != nil {
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return nil, err
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}
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return NewLoopComponent(p), nil
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})
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}
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