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klubhaus:main klubhaus:feature/sideline-plugin-system klubhaus:feature/graph-dsl klubhaus:feature/capability-based-deps klubhaus:integration/sidekick klubhaus:feature/vector_display klubhaus:effects_plugins klubhaus:docs/update-readme klubhaus:enhance_portability klubhaus:feat/ntfy-sse klubhaus:feat/display klubhaus:feat/font-picker klubhaus:feat/scalability klubhaus:drift klubhaus:feat/mod_poetry klubhaus:feat/ntfy-local klubhaus:feat/arduino klubhaus:feat/stdout klubhaus:init genewildish:main genewildish:feat/figment genewildish:docs/update-readme genewildish:chore/plugin-migration genewildish:feat/display genewildish:feat/color-pick genewildish:feat/code-scroll genewildish:effects_plugins genewildish:testability_modularization genewildish:enhance_portability genewildish:feat/ntfy-sse genewildish:feat/font-picker genewildish:feat/scalability genewildish:drift genewildish:feat/mod_poetry genewildish:feat/ntfy-local genewildish:feat/arduino genewildish:feat/stdout genewildish:init
klubhaus:backup/main-2026-03-20 klubhaus:backup/feature-caps-2026-03-20
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compare: klubhaus:feature/vector_display
Branches Tags
klubhaus:feature/sideline-plugin-system klubhaus:feature/graph-dsl klubhaus:feature/capability-based-deps klubhaus:integration/sidekick klubhaus:feature/vector_display klubhaus:main klubhaus:effects_plugins klubhaus:docs/update-readme klubhaus:enhance_portability klubhaus:feat/ntfy-sse klubhaus:feat/display klubhaus:feat/font-picker klubhaus:feat/scalability klubhaus:drift klubhaus:feat/mod_poetry klubhaus:feat/ntfy-local klubhaus:feat/arduino klubhaus:feat/stdout klubhaus:init genewildish:main genewildish:feat/figment genewildish:docs/update-readme genewildish:chore/plugin-migration genewildish:feat/display genewildish:feat/color-pick genewildish:feat/code-scroll genewildish:effects_plugins genewildish:testability_modularization genewildish:enhance_portability genewildish:feat/ntfy-sse genewildish:feat/font-picker genewildish:feat/scalability genewildish:drift genewildish:feat/mod_poetry genewildish:feat/ntfy-local genewildish:feat/arduino genewildish:feat/stdout genewildish:init
klubhaus:backup/main-2026-03-20 klubhaus:backup/feature-caps-2026-03-20

53 Commits
feat/font- ... feature/ve

Author SHA1 Message Date
David Gwilliam
828b8489e1 feat(pipeline): improve new pipeline architecture 
- Add TransformDataSource for filtering/mapping source items
- Add MetricsDataSource for rendering live pipeline metrics as ASCII art
- Fix display stage registration in StageRegistry
- Register sources with both class name and simple name aliases
- Fix DisplayStage.init() to pass reuse parameter
- Simplify create_default_pipeline to use DataSourceStage wrapper
- Set pygame as default display
- Remove old pipeline tasks from mise.toml
- Add tests for new pipeline architecture
 2026-03-16 11:30:21 -07:00
David Gwilliam
31cabe9128 feat(pipeline): add metrics collection and v2 run mode 
- Add RenderStage adapter that handles rendering pipeline
- Add EffectPluginStage with proper EffectContext
- Add DisplayStage with init handling
- Add ItemsStage for pre-fetched items
- Add metrics collection to Pipeline (StageMetrics, FrameMetrics)
- Add get_metrics_summary() and reset_metrics() methods
- Add --pipeline and --pipeline-preset flags for v2 mode
- Add PipelineNode.metrics for self-documenting introspection
- Add introspect_new_pipeline() method with performance data
- Add mise tasks: run-v2, run-v2-demo, run-v2-poetry, run-v2-websocket, run-v2-firehose
 2026-03-16 03:39:29 -07:00
David Gwilliam
bcb4ef0cfe feat(pipeline): add unified pipeline architecture with Stage abstraction 
- Add engine/pipeline/ module with Stage ABC, PipelineContext, PipelineParams
- Stage provides unified interface for sources, effects, displays, cameras
- Pipeline class handles DAG-based execution with dependency resolution
- PipelinePreset for pre-configured pipelines (demo, poetry, pipeline, etc.)
- Add PipelineParams as params layer for animation-driven config
- Add StageRegistry for unified stage registration
- Add sources_v2.py with DataSource.is_dynamic property
- Add animation.py with Preset and AnimationController
- Skip ntfy integration tests by default (require -m integration)
- Skip e2e tests by default (require -m e2e)
- Update pipeline.py with comprehensive introspection methods
 2026-03-16 03:11:24 -07:00
David Gwilliam
996ba14b1d feat(demo): use beautiful-mermaid for pipeline visualization 
- Add beautiful-mermaid library (single-file ASCII renderer)
- Update pipeline_viz to generate mermaid graphs and render with beautiful-mermaid
- Creates dimensional network visualization with arrows connecting nodes
- Animates through effects and highlights active camera mode
 2026-03-16 02:12:03 -07:00
David Gwilliam
a1dcceac47 feat(demo): add pipeline visualization demo mode 
- Add --pipeline-demo flag for ASCII pipeline animation
- Create engine/pipeline_viz.py with animated pipeline graphics
- Shows data flow, camera modes, FPS counter
- Run with: python mainline.py --pipeline-demo --display pygame
 2026-03-16 02:04:53 -07:00
David Gwilliam
c2d77ee358 feat(mise): add run-pipeline task 2026-03-16 01:59:59 -07:00
David Gwilliam
8e27f89fa4 feat(pipeline): add self-documenting pipeline introspection 
- Add --pipeline-diagram flag to generate mermaid diagrams
- Create engine/pipeline.py with PipelineIntrospector
- Outputs flowchart, sequence diagram, and camera state diagram
- Run with: python mainline.py --pipeline-diagram
 2026-03-16 01:58:54 -07:00
David Gwilliam
4d28f286db docs: add pipeline documentation with mermaid diagrams 
- Add docs/PIPELINE.md with comprehensive pipeline flowchart
- Document camera modes (vertical, horizontal, omni, floating)
- Update AGENTS.md with pipeline documentation instructions
 2026-03-16 01:54:05 -07:00
David Gwilliam
9b139a40f7 feat(core): add Camera abstraction for viewport scrolling 
- Add Camera class with modes: vertical, horizontal, omni, floating
- Refactor scroll.py and demo to use Camera abstraction
- Add vis_offset for horizontal scrolling support
- Add camera_x to EffectContext for effects
- Add pygame window resize handling
- Add HUD effect plugin for demo mode
- Add --demo flag to run demo mode
- Add tests for Camera and vis_offset
 2026-03-16 01:46:21 -07:00
David Gwilliam
e1408dcf16 feat(demo): add HUD effect, resize handling, and tests 
- Add HUD effect plugin showing FPS, effect name, intensity bar, pipeline
- Add pygame window resize handling (VIDEORESIZE event)
- Move HUD to end of chain so it renders on top
- Fix monitor stats API (returns dict, not object)
- Add tests/test_hud.py for HUD effect verification
 2026-03-16 01:25:08 -07:00
David Gwilliam
0152e32115 feat(app): update demo mode to use real content 
- Fetch real news/poetry content instead of random letters
- Render full ticker zone with scroll, gradients, firehose
- Demo now shows actual effect behavior on real content
 2026-03-16 01:10:13 -07:00
David Gwilliam
dc1adb2558 fix(display): ensure backends are registered before create 2026-03-16 00:59:46 -07:00
David Gwilliam
fada11b58d feat(mise): add run-demo task 2026-03-16 00:54:37 -07:00
David Gwilliam
3e9c1be6d2 feat(app): add demo mode with HUD effect plugin 
- Add --demo flag that runs effect showcase with pygame display
- Add HUD effect plugin (effects_plugins/hud.py) that displays:
  - FPS and frame time
  - Current effect name with intensity bar
  - Pipeline order
- Demo mode cycles through noise, fade, glitch, firehose effects
- Ramps intensity 0→1→0 over 5 seconds per effect
 2026-03-16 00:53:13 -07:00
David Gwilliam
0f2d8bf5c2 refactor(display): extract shared rendering logic into renderer.py 
- Add renderer.py with parse_ansi(), get_default_font_path(), render_to_pil()
- Update KittyDisplay and SixelDisplay to use shared renderer
- Enhance parse_ansi to handle full ANSI color codes (4-bit, 256-color)
- Update tests to use shared renderer functions
 2026-03-16 00:43:23 -07:00
David Gwilliam
f5de2c62e0 feat(display): add reuse flag to Display protocol 
- Add reuse parameter to Display.init() for all backends
- PygameDisplay: reuse existing SDL window via class-level flag
- TerminalDisplay: skip re-init when reuse=True
- WebSocketDisplay: skip server start when reuse=True
- SixelDisplay, KittyDisplay, NullDisplay: ignore reuse (not applicable)
- MultiDisplay: pass reuse to child displays
- Update benchmark.py to reuse pygame display for effect benchmarks
- Add test_websocket_e2e.py with e2e marker
- Register e2e marker in pyproject.toml
 2026-03-16 00:30:52 -07:00
David Gwilliam
f9991c24af feat(display): add Pygame native window display backend 
- Add PygameDisplay for rendering in native application window
- Add pygame to optional dependencies
- Add run-pygame mise task
 2026-03-16 00:00:53 -07:00
David Gwilliam
20ed014491 feat(display): add Kitty graphics backend and improve font detection 
- Add KittyDisplay using kitty's native graphics protocol
- Improve cross-platform font detection for SixelDisplay
- Add run-kitty mise task for testing kitty backend
- Add kitty_test.py for testing graphics protocol
 2026-03-15 23:56:48 -07:00
David Gwilliam
9e4d54a82e feat(tests): improve coverage to 56%, add benchmark regression tests 
- Add EffectPlugin ABC with @abstractmethod decorators for interface enforcement
- Add runtime interface checking in discover_plugins() with issubclass()
- Add EffectContext factory with sensible defaults
- Standardize Display __init__ (remove redundant init in TerminalDisplay)
- Document effect behavior when ticker_height=0
- Evaluate legacy effects: document coexistence, no deprecation needed
- Research plugin patterns (VST, Python entry points)
- Fix pysixel dependency (removed broken dependency)

Test coverage improvements:
- Add DisplayRegistry tests
- Add MultiDisplay tests
- Add SixelDisplay tests
- Add controller._get_display tests
- Add effects controller command handling tests
- Add benchmark regression tests (@pytest.mark.benchmark)
- Add pytest marker for benchmark tests in pyproject.toml

Documentation updates:
- Update AGENTS.md with 56% coverage stats and effect plugin docs
- Update README.md with Sixel display mode and benchmark commands
- Add new modules to architecture section
 2026-03-15 23:26:10 -07:00
David Gwilliam
dcd31469a5 feat(benchmark): add hook mode with baseline cache for pre-push checks 
- Fix lint errors and LSP issues in benchmark.py
- Add --hook mode to compare against saved baseline
- Add --baseline flag to save results as baseline
- Add --threshold to configure degradation threshold (default 20%)
- Add benchmark step to pre-push hook in hk.pkl
- Update AGENTS.md with hk documentation links and benchmark runner docs
 2026-03-15 22:57:55 -07:00
David Gwilliam
829c4ab63d refactor: modularize display backends and add benchmark runner 
- Create engine/display/ package with registry pattern
- Move displays to engine/display/backends/ (terminal, null, websocket, sixel)
- Add DisplayRegistry with auto-discovery
- Add benchmark.py for performance testing effects × displays matrix
- Add mise tasks: benchmark, benchmark-json, benchmark-report
- Update controller to use new display module
 2026-03-15 22:25:28 -07:00
David Gwilliam
22dd063baa feat: add SixelDisplay backend for terminal graphics 
- Implement pure Python Sixel encoder (no C dependency)
- Add SixelDisplay class to display.py with ANSI parsing
- Update controller._get_display() to handle sixel mode
- Add --display sixel CLI flag
- Add mise run-sixel task
- Update docs with display modes
 2026-03-15 22:13:44 -07:00
David Gwilliam
0f7203e4e0 feat: enable C&C, compact mise tasks, update docs 
- Cherry-pick C&C support (ntfy poller for commands, response handling)
- Compact mise.toml with native dependency chaining
- Update AGENTS.md with C&C documentation
- Update README.md with display modes and C&C usage
 2026-03-15 21:55:26 -07:00
David Gwilliam
ba050ada24 feat(cmdline): C&C with separate topics and rich output 2026-03-15 21:47:53 -07:00
David Gwilliam
d7b044ceae feat(display): add configurable multi-backend display system 2026-03-15 21:17:16 -07:00
David Gwilliam
ac1306373d feat(websocket): add WebSocket display backend for browser client 2026-03-15 20:54:03 -07:00
David Gwilliam
2650f7245e merge: effects_plugins 2026-03-15 19:20:53 -07:00
David Gwilliam
b1f2b9d2be feat(daemon): add display abstraction and daemon mode with C&C 2026-03-15 19:20:47 -07:00
David Gwilliam
c08a7d3cb0 feat(cmdline): add command-line interface for mainline control 2026-03-15 19:20:47 -07:00
David Gwilliam
d5a3edba97 feat(effects): add plugin architecture with performance monitoring 2026-03-15 19:20:47 -07:00
David Gwilliam
fb35458718 merge: testability_modularization 2026-03-15 19:20:43 -07:00
David Gwilliam
15de46722a refactor: phase 4 - event-driven architecture foundation 
- Add EventBus class with pub/sub messaging (thread-safe)
- Add emitter Protocol classes (EventEmitter, Startable, Stoppable)
- Add event emission to NtfyPoller (NtfyMessageEvent)
- Add event emission to MicMonitor (MicLevelEvent)
- Update StreamController to publish stream start/end events
- Add comprehensive tests for eventbus and emitters modules
 2026-03-15 19:15:08 -07:00
David Gwilliam
35e5c8d38b refactor: phase 3 - API efficiency improvements 
Add typed dataclasses for tuple returns:
- types.py: HeadlineItem, FetchResult, Block dataclasses with legacy tuple converters
- fetch.py: Add type hints and HeadlineTuple type alias

Add pyright for static type checking:
- Add pyright to dependencies
- Verify type coverage with pyright (0 errors in core modules)

This enables:
- Named types instead of raw tuples (better IDE support, self-documenting)
- Type-safe APIs across modules
- Backward compatibility via to_tuple/from_tuple methods

Note: Lazy imports skipped for render.py - startup impact is minimal.
 2026-03-15 19:13:32 -07:00
David Gwilliam
cdc8094de2 refactor: phase 2 - modularization of scroll engine 
Split monolithic scroll.py into focused modules:
- viewport.py: terminal size (tw/th), ANSI positioning helpers
- frame.py: FrameTimer class, scroll step calculation
- layers.py: message overlay, ticker zone, firehose rendering
- scroll.py: simplified orchestrator, imports from new modules

Add stream controller and event types for future event-driven architecture:
- controller.py: StreamController for source initialization and stream lifecycle
- events.py: EventType enum and event dataclasses (HeadlineEvent, FrameTickEvent, etc.)

Added tests for new modules:
- test_viewport.py: 8 tests for viewport utilities
- test_frame.py: 10 tests for frame timing
- test_layers.py: 13 tests for layer compositing
- test_events.py: 11 tests for event types
- test_controller.py: 6 tests for stream controller

This enables:
- Testable chunks with clear responsibilities
- Reusable viewport utilities across modules
- Better separation of concerns in render pipeline
- Foundation for future event-driven architecture

Also includes Phase 1 documentation updates in code comments.
 2026-03-15 19:13:32 -07:00
David Gwilliam
f170143939 refactor: phase 1 - testability improvements 
- Add Config dataclass with get_config()/set_config() for injection
- Add Config.from_args() for CLI argument parsing (testable)
- Add platform font path detection (Darwin/Linux)
- Bound translate cache with @lru_cache(maxsize=500)
- Add fixtures for external dependencies (network, feeds, config)
- Add 15 tests for Config class, from_args, and platform detection

This enables testability by:
- Allowing config injection instead of global mutable state
- Supporting custom argv in from_args() for testing
- Providing reusable fixtures for mocking network/filesystem
- Preventing unbounded memory growth in translation cache

Fixes: _arg_value/_arg_int not accepting custom argv
 2026-03-15 19:13:32 -07:00
genewildish
19fb4bc4fe Merge pull request 'docs/update-readme' (#23) from docs/update-readme into main 
Reviewed-on: genewildish/Mainline#23
 2026-03-16 00:09:10 +00:00
Gene Johnson
ae10fd78ca refactor: Restructure README, add uv and mise commands, and detail component extension and development workflows. 2026-03-15 17:08:32 -07:00
Gene Johnson
4afab642f7 docs: add README update design spec 
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-03-15 16:56:58 -07:00
genewildish
f6f177590b Merge pull request 'Modernize project with uv, pytest, ruff, and git hooks' (#21) from enhance_portability into main 
Reviewed-on: genewildish/Mainline#21
 2026-03-15 23:21:35 +00:00
David Gwilliam
9ae4dc2b07 fix: update ntfy tests for SSE API (reconnect_delay) 2026-03-15 15:16:37 -07:00
David Gwilliam
1ac2dec3b0 fix: use native hk staging in pre-commit hook 
fix: add explicit check command to pre-push hook
 2026-03-15 15:16:37 -07:00
David Gwilliam
757c854584 fix: apply ruff auto-fixes and add hk git hooks 
- Fix pre-existing lint errors in engine/ modules using ruff --unsafe-fixes
- Add hk.pkl with pre-commit and pre-push hooks using ruff builtin
- Configure hooks to use 'uv run' prefix for tool execution
- Update mise.toml to include hk and pkl tools
- All 73 tests pass

fix: apply ruff auto-fixes and add hk git hooks

- Fix pre-existing lint errors in engine/ modules using ruff --unsafe-fixes
- Add hk.pkl with pre-commit and pre-push hooks using ruff builtin
- Configure hooks to use 'uv run' prefix for tool execution
- Update mise.toml to include hk and pkl tools
- Use 'hk install --mise' for proper mise integration
- All 73 tests pass
 2026-03-15 15:16:37 -07:00
David Gwilliam
4844a64203 style: apply ruff auto-fixes across codebase 
- Fix import sorting (isort) across all engine modules
- Fix SIM105 try-except-pass patterns (contextlib.suppress)
- Fix nested with statements in tests
- Fix unused loop variables

Run 'uv run pytest' to verify tests still pass.
 2026-03-15 15:16:37 -07:00
David Gwilliam
9201117096 feat: modernize project with uv, add pytest test suite 
- Add pyproject.toml with modern Python packaging (PEP 517/518)
- Add uv-based dependency management replacing inline venv bootstrap
- Add requirements.txt and requirements-dev.txt for compatibility
- Add mise.toml with dev tasks (test, lint, run, sync, ci)
- Add .python-version pinned to Python 3.12
- Add comprehensive pytest test suite (73 tests) for:
  - engine/config, filter, terminal, sources, mic, ntfy modules
- Configure pytest with coverage reporting (16% total, 100% on tested modules)
- Configure ruff for linting with Python 3.10+ target
- Remove redundant venv bootstrap code from mainline.py
- Update .gitignore for uv/venv artifacts

Run 'uv sync' to install dependencies, 'uv run pytest' to test.
 2026-03-15 15:16:37 -07:00
genewildish
d758541156 Merge pull request 'feat: migrate Ntfy message retrieval from polling to SSE streaming, replacing poll_interval with reconnect_delay for continuous updates.' (#20) from feat/ntfy-sse into main 
Reviewed-on: genewildish/Mainline#20
 2026-03-15 20:50:08 +00:00
genewildish
b979621dd4 Merge branch 'main' into feat/ntfy-sse 2026-03-15 20:50:02 +00:00
genewildish
f91cc9844e Merge pull request 'feat: add new font files to the fonts directory' (#19) from feat/display into main 
Reviewed-on: genewildish/Mainline#19
 2026-03-15 20:47:16 +00:00
genewildish
bddbd69371 Merge branch 'main' into feat/display 2026-03-15 20:45:54 +00:00
Gene Johnson
6e39a2dad2 feat: migrate Ntfy message retrieval from polling to SSE streaming, replacing poll_interval with reconnect_delay for continuous updates. 2026-03-15 13:44:26 -07:00
Gene Johnson
1ba3848bed feat: add new font files to the fonts directory 2026-03-15 13:30:08 -07:00
genewildish
a986df344a Merge pull request 'doc: Document new font selection command-line arguments, environment variables, and a dedicated font management section.' (#18) from docs/update-readme into main 
Reviewed-on: genewildish/Mainline#18
 2026-03-15 11:08:25 +00:00
Gene Johnson
c84bd5c05a doc: Document new font selection command-line arguments, environment variables, and a dedicated font management section. 2026-03-15 04:07:24 -07:00
genewildish
7b0f886e53 Merge pull request 'feat: add new font assets including CSBishopDrawn, CyberformDemo, and KATA.' (#17) from feat/font-picker into main 
Reviewed-on: genewildish/Mainline#17
 2026-03-15 11:01:39 +00:00
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__pycache__/
*.pyc
.mainline_venv/
.venv/
uv.lock
.mainline_cache_*.json
.DS_Store
htmlcov/
.coverage
.pytest_cache/
*.egg-info/
coverage.xml

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# Agent Development Guide
## Development Environment
This project uses:
- **mise** (mise.jdx.dev) - tool version manager and task runner
- **hk** (hk.jdx.dev) - git hook manager
- **uv** - fast Python package installer
- **ruff** - linter and formatter
- **pytest** - test runner
### Setup
```bash
# Install dependencies
mise run install
# Or equivalently:
uv sync --all-extras # includes mic, websocket, sixel support
```
### Available Commands
```bash
mise run test # Run tests
mise run test-v # Run tests verbose
mise run test-cov # Run tests with coverage report
mise run test-browser # Run e2e browser tests (requires playwright)
mise run lint # Run ruff linter
mise run lint-fix # Run ruff with auto-fix
mise run format # Run ruff formatter
mise run ci # Full CI pipeline (topics-init + lint + test-cov)
```
### Runtime Commands
```bash
mise run run # Run mainline (terminal)
mise run run-poetry # Run with poetry feed
mise run run-firehose # Run in firehose mode
mise run run-websocket # Run with WebSocket display only
mise run run-sixel # Run with Sixel graphics display
mise run run-both # Run with both terminal and WebSocket
mise run run-client # Run both + open browser
mise run cmd # Run C&C command interface
```
## Git Hooks
**At the start of every agent session**, verify hooks are installed:
```bash
ls -la .git/hooks/pre-commit
```
If hooks are not installed, install them with:
```bash
hk init --mise
mise run pre-commit
```
**IMPORTANT**: Always review the hk documentation before modifying `hk.pkl`:
- [hk Configuration Guide](https://hk.jdx.dev/configuration.html)
- [hk Hooks Reference](https://hk.jdx.dev/hooks.html)
- [hk Builtins](https://hk.jdx.dev/builtins.html)
The project uses hk configured in `hk.pkl`:
- **pre-commit**: runs ruff-format and ruff (with auto-fix)
- **pre-push**: runs ruff check + benchmark hook
## Benchmark Runner
Run performance benchmarks:
```bash
mise run benchmark # Run all benchmarks (text output)
mise run benchmark-json # Run benchmarks (JSON output)
mise run benchmark-report # Run benchmarks (Markdown report)
```
### Benchmark Commands
```bash
# Run benchmarks
uv run python -m engine.benchmark
# Run with specific displays/effects
uv run python -m engine.benchmark --displays null,terminal --effects fade,glitch
# Save baseline for hook comparisons
uv run python -m engine.benchmark --baseline
# Run in hook mode (compares against baseline)
uv run python -m engine.benchmark --hook
# Hook mode with custom threshold (default: 20% degradation)
uv run python -m engine.benchmark --hook --threshold 0.3
# Custom baseline location
uv run python -m engine.benchmark --hook --cache /path/to/cache.json
```
### Hook Mode
The `--hook` mode compares current benchmarks against a saved baseline. If performance degrades beyond the threshold (default 20%), it exits with code 1. This is useful for preventing performance regressions in feature branches.
The pre-push hook runs benchmark in hook mode to catch performance regressions before pushing.
## Workflow Rules
### Before Committing
1. **Always run the test suite** - never commit code that fails tests:
```bash
mise run test
```
2. **Always run the linter**:
```bash
mise run lint
```
3. **Fix any lint errors** before committing (or let the pre-commit hook handle it).
4. **Review your changes** using `git diff` to understand what will be committed.
### On Failing Tests
When tests fail, **determine whether it's an out-of-date test or a correctly failing test**:
- **Out-of-date test**: The test was written for old behavior that has legitimately changed. Update the test to match the new expected behavior.
- **Correctly failing test**: The test correctly identifies a broken contract. Fix the implementation, not the test.
**Never** modify a test to make it pass without understanding why it failed.
### Code Review
Before committing significant changes:
- Run `git diff` to review all changes
- Ensure new code follows existing patterns in the codebase
- Check that type hints are added for new functions
- Verify that tests exist for new functionality
## Testing
Tests live in `tests/` and follow the pattern `test_*.py`.
Run all tests:
```bash
mise run test
```
Run with coverage:
```bash
mise run test-cov
```
The project uses pytest with strict marker enforcement. Test configuration is in `pyproject.toml` under `[tool.pytest.ini_options]`.
### Test Coverage Strategy
Current coverage: 56% (336 tests)
Key areas with lower coverage (acceptable for now):
- **app.py** (8%): Main entry point - integration heavy, requires terminal
- **scroll.py** (10%): Terminal-dependent rendering logic
- **benchmark.py** (0%): Standalone benchmark tool, runs separately
Key areas with good coverage:
- **display/backends/null.py** (95%): Easy to test headlessly
- **display/backends/terminal.py** (96%): Uses mocking
- **display/backends/multi.py** (100%): Simple forwarding logic
- **effects/performance.py** (99%): Pure Python logic
- **eventbus.py** (96%): Simple event system
- **effects/controller.py** (95%): Effects command handling
Areas needing more tests:
- **websocket.py** (48%): Network I/O, hard to test in CI
- **ntfy.py** (50%): Network I/O, hard to test in CI
- **mic.py** (61%): Audio I/O, hard to test in CI
Note: Terminal-dependent modules (scroll, layers render) are harder to test in CI.
Performance regression tests are in `tests/test_benchmark.py` with `@pytest.mark.benchmark`.
## Architecture Notes
- **ntfy.py** and **mic.py** are standalone modules with zero internal dependencies
- **eventbus.py** provides thread-safe event publishing for decoupled communication
- **controller.py** coordinates ntfy/mic monitoring and event publishing
- **effects/** - plugin architecture with performance monitoring
- The render pipeline: fetch → render → effects → scroll → terminal output
### Display System
- **Display abstraction** (`engine/display/`): swap display backends via the Display protocol
- `display/backends/terminal.py` - ANSI terminal output
- `display/backends/websocket.py` - broadcasts to web clients via WebSocket
- `display/backends/sixel.py` - renders to Sixel graphics (pure Python, no C dependency)
- `display/backends/null.py` - headless display for testing
- `display/backends/multi.py` - forwards to multiple displays simultaneously
- `display/__init__.py` - DisplayRegistry for backend discovery
- **WebSocket display** (`engine/display/backends/websocket.py`): real-time frame broadcasting to web browsers
- WebSocket server on port 8765
- HTTP server on port 8766 (serves HTML client)
- Client at `client/index.html` with ANSI color parsing and fullscreen support
- **Display modes** (`--display` flag):
- `terminal` - Default ANSI terminal output
- `websocket` - Web browser display (requires websockets package)
- `sixel` - Sixel graphics in supported terminals (iTerm2, mintty, etc.)
- `both` - Terminal + WebSocket simultaneously
### Effect Plugin System
- **EffectPlugin ABC** (`engine/effects/types.py`): abstract base class for effects
- All effects must inherit from EffectPlugin and implement `process()` and `configure()`
- Runtime discovery via `effects_plugins/__init__.py` using `issubclass()` checks
- **EffectRegistry** (`engine/effects/registry.py`): manages registered effects
- **EffectChain** (`engine/effects/chain.py`): chains effects in pipeline order
### Command & Control
- C&C uses separate ntfy topics for commands and responses
- `NTFY_CC_CMD_TOPIC` - commands from cmdline.py
- `NTFY_CC_RESP_TOPIC` - responses back to cmdline.py
- Effects controller handles `/effects` commands (list, on/off, intensity, reorder, stats)
### Pipeline Documentation
The rendering pipeline is documented in `docs/PIPELINE.md` using Mermaid diagrams.
**IMPORTANT**: When making significant architectural changes to the rendering pipeline (new layers, effects, display backends), update `docs/PIPELINE.md` to reflect the changes:
1. Edit `docs/PIPELINE.md` with the new architecture
2. If adding new SVG diagrams, render them manually using an external tool (e.g., Mermaid Live Editor)
3. Commit both the markdown and any new diagram files

281
README.md
View File

@@ -6,21 +6,45 @@ A full-screen terminal news ticker that renders live global headlines in large O
---
## Run
## Using
### Run
```bash
python3 mainline.py # news stream
python3 mainline.py --poetry # literary consciousness mode
python3 mainline.py -p # same
python3 mainline.py --firehose # dense rapid-fire headline mode
python3 mainline.py --refresh # force re-fetch (bypass cache)
python3 mainline.py --display websocket # web browser display only
python3 mainline.py --display both # terminal + web browser
python3 mainline.py --no-font-picker # skip interactive font picker
python3 mainline.py --font-file path.otf # use a specific font file
python3 mainline.py --font-dir ~/fonts # scan a different font folder
python3 mainline.py --font-index 1 # select face index within a collection
```
First run bootstraps a local `.mainline_venv/` and installs deps (`feedparser`, `Pillow`, `sounddevice`, `numpy`). Subsequent runs start immediately, loading from cache.
Or with uv:
---
```bash
uv run mainline.py
```
## Config
First run bootstraps dependencies. Use `uv sync --all-extras` for mic support.
### Command & Control (C&C)
Control mainline remotely using `cmdline.py`:
```bash
uv run cmdline.py # Interactive TUI
uv run cmdline.py /effects list # List all effects
uv run cmdline.py /effects stats # Show performance stats
uv run cmdline.py -w /effects stats # Watch mode (auto-refresh)
```
Commands are sent via ntfy.sh topics - useful for controlling a daemonized mainline instance.
### Config
All constants live in `engine/config.py`:
@@ -29,70 +53,50 @@ All constants live in `engine/config.py`:
| `HEADLINE_LIMIT` | `1000` | Total headlines per session |
| `FEED_TIMEOUT` | `10` | Per-feed HTTP timeout (seconds) |
| `MIC_THRESHOLD_DB` | `50` | dB floor above which glitches spike |
| `FONT_DIR` | `fonts/` | Folder scanned for `.otf`, `.ttf`, `.ttc` files used by the font picker |
| `FONT_PATH` | first supported font in `fonts/` | Active display font file selected at startup |
| `NTFY_TOPIC` | klubhaus URL | ntfy.sh JSON stream for messages |
| `NTFY_CC_CMD_TOPIC` | klubhaus URL | ntfy.sh topic for C&C commands |
| `NTFY_CC_RESP_TOPIC` | klubhaus URL | ntfy.sh topic for C&C responses |
| `NTFY_RECONNECT_DELAY` | `5` | Seconds before reconnecting after dropped SSE |
| `MESSAGE_DISPLAY_SECS` | `30` | How long an ntfy message holds the screen |
| `FONT_DIR` | `fonts/` | Folder scanned for `.otf`, `.ttf`, `.ttc` files |
| `FONT_PATH` | first file in `FONT_DIR` | Active display font |
| `FONT_PICKER` | `True` | Show interactive font picker at boot |
| `FONT_SZ` | `60` | Font render size (affects block density) |
| `RENDER_H` | `8` | Terminal rows per headline line |
| `SSAA` | `4` | Super-sampling factor (render at 4× then downsample) |
| `SSAA` | `4` | Super-sampling factor |
| `SCROLL_DUR` | `5.625` | Seconds per headline |
| `FRAME_DT` | `0.05` | Frame interval in seconds (20 FPS) |
| `GRAD_SPEED` | `0.08` | Gradient sweep speed (cycles/sec, ~12s full sweep) |
| `FIREHOSE_H` | `12` | Firehose zone height (terminal rows) |
| `NTFY_TOPIC` | klubhaus URL | ntfy.sh JSON endpoint to poll |
| `NTFY_POLL_INTERVAL` | `15` | Seconds between ntfy polls |
| `MESSAGE_DISPLAY_SECS` | `30` | How long an ntfy message holds the screen |
| `GRAD_SPEED` | `0.08` | Gradient sweep speed |
**Font:** Put your `.otf`, `.ttf`, or `.ttc` files in `fonts/`. Startup opens the font picker from that folder and applies your selected font before streaming.
### Display Modes
---
Mainline supports multiple display backends:
## How it works
- **Terminal** (`--display terminal`): ANSI terminal output (default)
- **WebSocket** (`--display websocket`): Stream to web browser clients
- **Sixel** (`--display sixel`): Sixel graphics in supported terminals (iTerm2, mintty)
- **Both** (`--display both`): Terminal + WebSocket simultaneously
- Feeds are fetched and filtered on startup (sports and vapid content stripped); results are cached to `.mainline_cache_news.json` / `.mainline_cache_poetry.json` for fast restarts
- Headlines are rasterized via Pillow with 4× SSAA into half-block characters (`▀▄█ `) at the configured font size
- A left-to-right ANSI gradient colors each character: white-hot leading edge trails off to near-black; the gradient sweeps continuously across the full scroll canvas
- Subject-region detection runs a regex pass on each headline; matches trigger a Google Translate call and font swap to the appropriate script (CJK, Arabic, Devanagari, etc.) using macOS system fonts
- The mic stream runs in a background thread, feeding RMS dB into the glitch probability calculation each frame
- The viewport scrolls through a virtual canvas of pre-rendered blocks; fade zones at top and bottom dissolve characters probabilistically
- An ntfy.sh poller runs in a background thread; incoming messages interrupt the scroll and render full-screen until dismissed or expired
WebSocket mode serves a web client at http://localhost:8766 with ANSI color support and fullscreen mode.
---
## Architecture
`mainline.py` is a thin entrypoint (venv bootstrap → `engine.app.main()`). All logic lives in the `engine/` package:
```
engine/
config.py constants, CLI flags, glyph tables
sources.py FEEDS, POETRY_SOURCES, language/script maps
terminal.py ANSI codes, tw/th, type_out, boot_ln
filter.py HTML stripping, content filter
translate.py Google Translate wrapper + region detection
render.py OTF → half-block pipeline (SSAA, gradient)
effects.py noise, glitch_bar, fade, firehose
fetch.py RSS/Gutenberg fetching + cache load/save
ntfy.py NtfyPoller — standalone, zero internal deps
mic.py MicMonitor — standalone, graceful fallback
scroll.py stream() frame loop + message rendering
app.py main(), boot sequence, signal handler
```
`ntfy.py` and `mic.py` have zero internal dependencies and can be imported by any other visualizer.
---
## Feeds
### Feeds
~25 sources across four categories: **Science & Technology**, **Economics & Business**, **World & Politics**, **Culture & Ideas**. Add or swap feeds in `engine/sources.py``FEEDS`.
**Poetry mode** pulls from Project Gutenberg: Whitman, Dickinson, Thoreau, Emerson. Sources are in `engine/sources.py``POETRY_SOURCES`.
---
### Fonts
## ntfy.sh Integration
A `fonts/` directory is bundled with demo faces. On startup, an interactive picker lists all discovered faces with a live half-block preview.
Mainline polls a configurable ntfy.sh topic in the background. When a message arrives, the scroll pauses and the message renders full-screen for `MESSAGE_DISPLAY_SECS` seconds, then the stream resumes.
Navigation: `↑`/`↓` or `j`/`k` to move, `Enter` or `q` to select.
To add your own fonts, drop `.otf`, `.ttf`, or `.ttc` files into `fonts/`.
### ntfy.sh
Mainline polls a configurable ntfy.sh topic in the background. When a message arrives, the scroll pauses and the message renders full-screen.
To push a message:
@@ -100,43 +104,160 @@ To push a message:
curl -d "Body text" -H "Title: Alert title" https://ntfy.sh/your_topic
```
Update `NTFY_TOPIC` in `engine/config.py` to point at your own topic. The `NtfyPoller` class is fully standalone and can be reused by other visualizers:
---
```python
from engine.ntfy import NtfyPoller
poller = NtfyPoller("https://ntfy.sh/my_topic/json?since=20s&poll=1")
poller.start()
# in render loop:
msg = poller.get_active_message() # returns (title, body, timestamp) or None
## Internals
### How it works
- On launch, the font picker scans `fonts/` and presents a live-rendered TUI for face selection
- Feeds are fetched and filtered on startup; results are cached for fast restarts
- Headlines are rasterized via Pillow with 4× SSAA into half-block characters
- The ticker uses a sweeping white-hot → deep green gradient
- Subject-region detection triggers Google Translate and font swap for non-Latin scripts
- The mic stream runs in a background thread, feeding RMS dB into glitch probability
- The viewport scrolls through pre-rendered blocks with fade zones
- An ntfy.sh SSE stream runs in a background thread for messages and C&C commands
### Architecture
```
engine/
__init__.py package marker
app.py main(), font picker TUI, boot sequence, C&C poller
config.py constants, CLI flags, glyph tables
sources.py FEEDS, POETRY_SOURCES, language/script maps
terminal.py ANSI codes, tw/th, type_out, boot_ln
filter.py HTML stripping, content filter
translate.py Google Translate wrapper + region detection
render.py OTF → half-block pipeline (SSAA, gradient)
effects/ plugin architecture for visual effects
types.py EffectPlugin ABC, EffectConfig, EffectContext
registry.py effect registration and lookup
chain.py effect pipeline chaining
controller.py handles /effects commands
performance.py performance monitoring
legacy.py legacy functional effects
effects_plugins/ effect plugin implementations
noise.py noise effect
fade.py fade effect
glitch.py glitch effect
firehose.py firehose effect
fetch.py RSS/Gutenberg fetching + cache
ntfy.py NtfyPoller — standalone, zero internal deps
mic.py MicMonitor — standalone, graceful fallback
scroll.py stream() frame loop + message rendering
viewport.py terminal dimension tracking
frame.py scroll step calculation, timing
layers.py ticker zone, firehose, message overlay
eventbus.py thread-safe event publishing
events.py event types and definitions
controller.py coordinates ntfy/mic monitoring
emitters.py background emitters
types.py type definitions
display/ Display backend system
__init__.py DisplayRegistry, get_monitor
backends/
terminal.py ANSI terminal display
websocket.py WebSocket server for browser clients
sixel.py Sixel graphics (pure Python)
null.py headless display for testing
multi.py forwards to multiple displays
benchmark.py performance benchmarking tool
```
---
## Ideas / Future
## Development
### Performance
- **Concurrent feed fetching** — startup currently blocks sequentially on ~25 HTTP requests; `concurrent.futures.ThreadPoolExecutor` would cut load time to the slowest single feed
- **Background refresh** — re-fetch feeds in a daemon thread so a long session stays current without restart
- **Translation pre-fetch** — run translate calls concurrently during the boot sequence rather than on first render
### Setup
### Graphics
- **Matrix rain underlay** — katakana column rain rendered at low opacity beneath the scrolling blocks as a background layer
- **CRT simulation** — subtle dim scanlines every N rows, occasional brightness ripple across the full screen
- **Sixel / iTerm2 inline images** — bypass half-blocks entirely and stream actual bitmap frames for true resolution; would require a capable terminal
- **Parallax secondary column** — a second, dimmer, faster-scrolling stream of ambient text at reduced opacity on one side
Requires Python 3.10+ and [uv](https://docs.astral.sh/uv/).
### Cyberpunk Vibes
- **Keyword watch list** — highlight or strobe any headline matching tracked terms (names, topics, tickers)
- **Breaking interrupt** — full-screen flash + synthesized blip when a high-priority keyword hits
- **Live data overlay** — secondary ticker strip at screen edge: BTC price, ISS position, geomagnetic index
- **Theme switcher** — `--amber` (phosphor), `--ice` (electric cyan), `--red` (alert state) palette modes via CLI flag
- **Persona modes** — `--surveillance`, `--oracle`, `--underground` as feed presets with matching color themes and boot copy
- **Synthesized audio** — short static bursts tied to glitch events, independent of mic input
```bash
uv sync # minimal (no mic)
uv sync --all-extras # with mic support
uv sync --all-extras --group dev # full dev environment
```
### Extensibility
- **serve.py** — HTTP server that imports `engine.render` and `engine.fetch` directly to stream 1-bit bitmaps to an ESP32 display
- **Rust port** — `ntfy.py` and `render.py` are the natural first targets; clear module boundaries make incremental porting viable
### Tasks
With [mise](https://mise.jdx.dev/):
```bash
mise run test # run test suite
mise run test-cov # run with coverage report
mise run lint # ruff check
mise run lint-fix # ruff check --fix
mise run format # ruff format
mise run run # terminal display
mise run run-websocket # web display only
mise run run-sixel # sixel graphics
mise run run-both # terminal + web
mise run run-client # both + open browser
mise run cmd # C&C command interface
mise run cmd-stats # watch effects stats
mise run benchmark # run performance benchmarks
mise run benchmark-json # save as JSON
mise run topics-init # initialize ntfy topics
```
### Testing
```bash
uv run pytest
uv run pytest --cov=engine --cov-report=term-missing
# Run with mise
mise run test
mise run test-cov
# Run performance benchmarks
mise run benchmark
mise run benchmark-json
# Run benchmark hook mode (for CI)
uv run python -m engine.benchmark --hook
```
Performance regression tests are in `tests/test_benchmark.py` marked with `@pytest.mark.benchmark`.
### Linting
```bash
uv run ruff check engine/ mainline.py
uv run ruff format engine/ mainline.py
```
Pre-commit hooks run lint automatically via `hk`.
---
*macOS only (system font paths hardcoded). Python 3.9+.*
## Roadmap
### Performance
- Concurrent feed fetching with ThreadPoolExecutor
- Background feed refresh daemon
- Translation pre-fetch during boot
### Graphics
- Matrix rain katakana underlay
- CRT scanline simulation
- Sixel/iTerm2 inline images
- Parallax secondary column
### Cyberpunk Vibes
- Keyword watch list with strobe effects
- Breaking interrupt with synthesized audio
- Live data overlay (BTC, ISS position)
- Theme switcher (amber, ice, red)
- Persona modes (surveillance, oracle, underground)
---
*Python 3.10+. Primary display font is user-selectable via bundled `fonts/` picker.*

366
client/index.html Normal file
View File

@@ -0,0 +1,366 @@
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>Mainline Terminal</title>
<style>
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
body {
background: #0a0a0a;
color: #ccc;
font-family: 'Fira Code', 'Cascadia Code', 'Consolas', monospace;
display: flex;
flex-direction: column;
align-items: center;
justify-content: center;
min-height: 100vh;
padding: 20px;
}
body.fullscreen {
padding: 0;
}
body.fullscreen #controls {
display: none;
}
#container {
position: relative;
}
canvas {
background: #000;
border: 1px solid #333;
image-rendering: pixelated;
image-rendering: crisp-edges;
}
body.fullscreen canvas {
border: none;
width: 100vw;
height: 100vh;
max-width: 100vw;
max-height: 100vh;
}
#controls {
display: flex;
gap: 10px;
margin-top: 10px;
align-items: center;
}
#controls button {
background: #333;
color: #ccc;
border: 1px solid #555;
padding: 5px 12px;
cursor: pointer;
font-family: inherit;
font-size: 12px;
}
#controls button:hover {
background: #444;
}
#controls input {
width: 60px;
background: #222;
color: #ccc;
border: 1px solid #444;
padding: 4px 8px;
font-family: inherit;
text-align: center;
}
#status {
margin-top: 10px;
font-size: 12px;
color: #666;
}
#status.connected {
color: #4f4;
}
#status.disconnected {
color: #f44;
}
</style>
</head>
<body>
<div id="container">
<canvas id="terminal"></canvas>
</div>
<div id="controls">
<label>Cols: <input type="number" id="cols" value="80" min="20" max="200"></label>
<label>Rows: <input type="number" id="rows" value="24" min="10" max="60"></label>
<button id="apply">Apply</button>
<button id="fullscreen">Fullscreen</button>
</div>
<div id="status" class="disconnected">Connecting...</div>
<script>
const canvas = document.getElementById('terminal');
const ctx = canvas.getContext('2d');
const status = document.getElementById('status');
const colsInput = document.getElementById('cols');
const rowsInput = document.getElementById('rows');
const applyBtn = document.getElementById('apply');
const fullscreenBtn = document.getElementById('fullscreen');
const CHAR_WIDTH = 9;
const CHAR_HEIGHT = 16;
const ANSI_COLORS = {
0: '#000000', 1: '#cd3131', 2: '#0dbc79', 3: '#e5e510',
4: '#2472c8', 5: '#bc3fbc', 6: '#11a8cd', 7: '#e5e5e5',
8: '#666666', 9: '#f14c4c', 10: '#23d18b', 11: '#f5f543',
12: '#3b8eea', 13: '#d670d6', 14: '#29b8db', 15: '#ffffff',
};
let cols = 80;
let rows = 24;
let ws = null;
function resizeCanvas() {
canvas.width = cols * CHAR_WIDTH;
canvas.height = rows * CHAR_HEIGHT;
}
function parseAnsi(text) {
if (!text) return [];
const tokens = [];
let currentText = '';
let fg = '#cccccc';
let bg = '#000000';
let bold = false;
let i = 0;
let inEscape = false;
let escapeCode = '';
while (i < text.length) {
const char = text[i];
if (inEscape) {
if (char >= '0' && char <= '9' || char === ';' || char === '[') {
escapeCode += char;
}
if (char === 'm') {
const codes = escapeCode.replace('\x1b[', '').split(';');
for (const code of codes) {
const num = parseInt(code) || 0;
if (num === 0) {
fg = '#cccccc';
bg = '#000000';
bold = false;
} else if (num === 1) {
bold = true;
} else if (num === 22) {
bold = false;
} else if (num === 39) {
fg = '#cccccc';
} else if (num === 49) {
bg = '#000000';
} else if (num >= 30 && num <= 37) {
fg = ANSI_COLORS[num - 30 + (bold ? 8 : 0)] || '#cccccc';
} else if (num >= 40 && num <= 47) {
bg = ANSI_COLORS[num - 40] || '#000000';
} else if (num >= 90 && num <= 97) {
fg = ANSI_COLORS[num - 90 + 8] || '#cccccc';
} else if (num >= 100 && num <= 107) {
bg = ANSI_COLORS[num - 100 + 8] || '#000000';
} else if (num >= 1 && num <= 256) {
// 256 colors
if (num < 16) {
fg = ANSI_COLORS[num] || '#cccccc';
} else if (num < 232) {
const c = num - 16;
const r = Math.floor(c / 36) * 51;
const g = Math.floor((c % 36) / 6) * 51;
const b = (c % 6) * 51;
fg = `#${r.toString(16).padStart(2,'0')}${g.toString(16).padStart(2,'0')}${b.toString(16).padStart(2,'0')}`;
} else {
const gray = (num - 232) * 10 + 8;
fg = `#${gray.toString(16).repeat(2)}`;
}
}
}
if (currentText) {
tokens.push({ text: currentText, fg, bg, bold });
currentText = '';
}
inEscape = false;
escapeCode = '';
}
} else if (char === '\x1b' && text[i + 1] === '[') {
if (currentText) {
tokens.push({ text: currentText, fg, bg, bold });
currentText = '';
}
inEscape = true;
escapeCode = '';
i++;
} else {
currentText += char;
}
i++;
}
if (currentText) {
tokens.push({ text: currentText, fg, bg, bold });
}
return tokens;
}
function renderLine(text, x, y, lineHeight) {
const tokens = parseAnsi(text);
let xOffset = x;
for (const token of tokens) {
if (token.text) {
if (token.bold) {
ctx.font = 'bold 16px monospace';
} else {
ctx.font = '16px monospace';
}
const metrics = ctx.measureText(token.text);
if (token.bg !== '#000000') {
ctx.fillStyle = token.bg;
ctx.fillRect(xOffset, y - 2, metrics.width + 1, lineHeight);
}
ctx.fillStyle = token.fg;
ctx.fillText(token.text, xOffset, y);
xOffset += metrics.width;
}
}
}
function connect() {
const protocol = window.location.protocol === 'https:' ? 'wss:' : 'ws:';
const wsUrl = `${protocol}//${window.location.hostname}:8765`;
ws = new WebSocket(wsUrl);
ws.onopen = () => {
status.textContent = 'Connected';
status.className = 'connected';
sendSize();
};
ws.onclose = () => {
status.textContent = 'Disconnected - Reconnecting...';
status.className = 'disconnected';
setTimeout(connect, 1000);
};
ws.onerror = () => {
status.textContent = 'Connection error';
status.className = 'disconnected';
};
ws.onmessage = (event) => {
try {
const data = JSON.parse(event.data);
if (data.type === 'frame') {
cols = data.width || 80;
rows = data.height || 24;
colsInput.value = cols;
rowsInput.value = rows;
resizeCanvas();
render(data.lines || []);
} else if (data.type === 'clear') {
ctx.fillStyle = '#000';
ctx.fillRect(0, 0, canvas.width, canvas.height);
}
} catch (e) {
console.error('Failed to parse message:', e);
}
};
}
function sendSize() {
if (ws && ws.readyState === WebSocket.OPEN) {
ws.send(JSON.stringify({
type: 'resize',
width: parseInt(colsInput.value),
height: parseInt(rowsInput.value)
}));
}
}
function render(lines) {
ctx.fillStyle = '#000';
ctx.fillRect(0, 0, canvas.width, canvas.height);
ctx.font = '16px monospace';
ctx.textBaseline = 'top';
const lineHeight = CHAR_HEIGHT;
const maxLines = Math.min(lines.length, rows);
for (let i = 0; i < maxLines; i++) {
const line = lines[i] || '';
renderLine(line, 0, i * lineHeight, lineHeight);
}
}
function calculateViewportSize() {
const isFullscreen = document.fullscreenElement !== null;
const padding = isFullscreen ? 0 : 40;
const controlsHeight = isFullscreen ? 0 : 60;
const availableWidth = window.innerWidth - padding;
const availableHeight = window.innerHeight - controlsHeight;
cols = Math.max(20, Math.floor(availableWidth / CHAR_WIDTH));
rows = Math.max(10, Math.floor(availableHeight / CHAR_HEIGHT));
colsInput.value = cols;
rowsInput.value = rows;
resizeCanvas();
console.log('Fullscreen:', isFullscreen, 'Size:', cols, 'x', rows);
sendSize();
}
applyBtn.addEventListener('click', () => {
cols = parseInt(colsInput.value);
rows = parseInt(rowsInput.value);
resizeCanvas();
sendSize();
});
fullscreenBtn.addEventListener('click', () => {
if (!document.fullscreenElement) {
document.body.classList.add('fullscreen');
document.documentElement.requestFullscreen().then(() => {
calculateViewportSize();
});
} else {
document.exitFullscreen().then(() => {
calculateViewportSize();
});
}
});
document.addEventListener('fullscreenchange', () => {
if (!document.fullscreenElement) {
document.body.classList.remove('fullscreen');
calculateViewportSize();
}
});
window.addEventListener('resize', () => {
if (document.fullscreenElement) {
calculateViewportSize();
}
});
// Initial setup
resizeCanvas();
connect();
</script>
</body>
</html>

256
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Command-line utility for interacting with mainline via ntfy.
Usage:
python cmdline.py # Interactive TUI mode
python cmdline.py --help # Show help
python cmdline.py /effects list # Send single command via ntfy
python cmdline.py /effects stats # Get performance stats via ntfy
python cmdline.py -w /effects stats # Watch mode (polls for stats)
The TUI mode provides:
- Arrow keys to navigate command history
- Tab completion for commands
- Auto-refresh for performance stats
C&C works like a serial port:
1. Send command to ntfy_cc_topic
2. Mainline receives, processes, responds to same topic
3. Cmdline polls for response
"""
import os
os.environ["FORCE_COLOR"] = "1"
os.environ["TERM"] = "xterm-256color"
import argparse
import json
import sys
import time
import threading
import urllib.request
from pathlib import Path
from engine import config
from engine.terminal import CLR, CURSOR_OFF, CURSOR_ON, G_DIM, G_HI, RST, W_GHOST
try:
CC_CMD_TOPIC = config.NTFY_CC_CMD_TOPIC
CC_RESP_TOPIC = config.NTFY_CC_RESP_TOPIC
except AttributeError:
CC_CMD_TOPIC = "https://ntfy.sh/klubhaus_terminal_mainline_cc_cmd/json"
CC_RESP_TOPIC = "https://ntfy.sh/klubhaus_terminal_mainline_cc_resp/json"
class NtfyResponsePoller:
"""Polls ntfy for command responses."""
def __init__(self, cmd_topic: str, resp_topic: str, timeout: float = 10.0):
self.cmd_topic = cmd_topic
self.resp_topic = resp_topic
self.timeout = timeout
self._last_id = None
self._lock = threading.Lock()
def _build_url(self) -> str:
from urllib.parse import parse_qs, urlencode, urlparse, urlunparse
parsed = urlparse(self.resp_topic)
params = parse_qs(parsed.query, keep_blank_values=True)
params["since"] = [self._last_id if self._last_id else "20s"]
new_query = urlencode({k: v[0] for k, v in params.items()})
return urlunparse(parsed._replace(query=new_query))
def send_and_wait(self, cmd: str) -> str:
"""Send command and wait for response."""
url = self.cmd_topic.replace("/json", "")
data = cmd.encode("utf-8")
req = urllib.request.Request(
url,
data=data,
headers={
"User-Agent": "mainline-cmdline/0.1",
"Content-Type": "text/plain",
},
method="POST",
)
try:
urllib.request.urlopen(req, timeout=5)
except Exception as e:
return f"Error sending command: {e}"
return self._wait_for_response(cmd)
def _wait_for_response(self, expected_cmd: str = "") -> str:
"""Poll for response message."""
start = time.time()
while time.time() - start < self.timeout:
try:
url = self._build_url()
req = urllib.request.Request(
url, headers={"User-Agent": "mainline-cmdline/0.1"}
)
with urllib.request.urlopen(req, timeout=10) as resp:
for line in resp:
try:
data = json.loads(line.decode("utf-8", errors="replace"))
except json.JSONDecodeError:
continue
if data.get("event") == "message":
self._last_id = data.get("id")
msg = data.get("message", "")
if msg:
return msg
except Exception:
pass
time.sleep(0.5)
return "Timeout waiting for response"
AVAILABLE_COMMANDS = """Available commands:
/effects list - List all effects and status
/effects <name> on - Enable an effect
/effects <name> off - Disable an effect
/effects <name> intensity <0.0-1.0> - Set effect intensity
/effects reorder <name1>,<name2>,... - Reorder pipeline
/effects stats - Show performance statistics
/help - Show this help
/quit - Exit
"""
def print_header():
w = 60
print(CLR, end="")
print(CURSOR_OFF, end="")
print(f"\033[1;1H", end="")
print(f" \033[1;38;5;231m╔{'' * (w - 6)}\033[0m")
print(
f" \033[1;38;5;231m║\033[0m \033[1;38;5;82mMAINLINE\033[0m \033[3;38;5;245mCommand Center\033[0m \033[1;38;5;231m ║\033[0m"
)
print(f" \033[1;38;5;231m╚{'' * (w - 6)}\033[0m")
print(f" \033[2;38;5;37mCMD: {CC_CMD_TOPIC.split('/')[-2]}\033[0m")
print(f" \033[2;38;5;37mRESP: {CC_RESP_TOPIC.split('/')[-2]}\033[0m")
print()
def print_response(response: str, is_error: bool = False) -> None:
"""Print response with nice formatting."""
print()
if is_error:
print(f" \033[1;38;5;196m✗ Error\033[0m")
print(f" \033[38;5;196m{'' * 40}\033[0m")
else:
print(f" \033[1;38;5;82m✓ Response\033[0m")
print(f" \033[38;5;37m{'' * 40}\033[0m")
for line in response.split("\n"):
print(f" {line}")
print()
def interactive_mode():
"""Interactive TUI for sending commands."""
import readline
print_header()
poller = NtfyResponsePoller(CC_CMD_TOPIC, CC_RESP_TOPIC)
print(f" \033[38;5;245mType /help for commands, /quit to exit\033[0m")
print()
while True:
try:
cmd = input(f" \033[1;38;5;82m\033[0m {G_HI}").strip()
except (EOFError, KeyboardInterrupt):
print()
break
if not cmd:
continue
if cmd.startswith("/"):
if cmd == "/quit" or cmd == "/exit":
print(f"\n \033[1;38;5;245mGoodbye!{RST}\n")
break
if cmd == "/help":
print(f"\n{AVAILABLE_COMMANDS}\n")
continue
print(f" \033[38;5;245m⟳ Sending to mainline...{RST}")
result = poller.send_and_wait(cmd)
print_response(result, is_error=result.startswith("Error"))
else:
print(f"\n \033[1;38;5;196m⚠ Commands must start with /{RST}\n")
print(CURSOR_ON, end="")
return 0
def main():
parser = argparse.ArgumentParser(
description="Mainline command-line interface",
formatter_class=argparse.RawDescriptionHelpFormatter,
epilog=AVAILABLE_COMMANDS,
)
parser.add_argument(
"command",
nargs="?",
default=None,
help="Command to send (e.g., /effects list)",
)
parser.add_argument(
"--watch",
"-w",
action="store_true",
help="Watch mode: continuously poll for stats (Ctrl+C to exit)",
)
args = parser.parse_args()
if args.command is None:
return interactive_mode()
poller = NtfyResponsePoller(CC_CMD_TOPIC, CC_RESP_TOPIC)
if args.watch and "/effects stats" in args.command:
import signal
def handle_sigterm(*_):
print(f"\n \033[1;38;5;245mStopped watching{RST}")
print(CURSOR_ON, end="")
sys.exit(0)
signal.signal(signal.SIGTERM, handle_sigterm)
print_header()
print(f" \033[38;5;245mWatching /effects stats (Ctrl+C to exit)...{RST}\n")
try:
while True:
result = poller.send_and_wait(args.command)
print(f"\033[2J\033[1;1H", end="")
print(
f" \033[1;38;5;82m\033[0m Performance Stats - \033[1;38;5;245m{time.strftime('%H:%M:%S')}{RST}"
)
print(f" \033[38;5;37m{'' * 44}{RST}")
for line in result.split("\n"):
print(f" {line}")
time.sleep(2)
except KeyboardInterrupt:
print(f"\n \033[1;38;5;245mStopped watching{RST}")
return 0
return 0
result = poller.send_and_wait(args.command)
print(result)
return 0
if __name__ == "__main__":
main()

199
docs/PIPELINE.md Normal file
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# Mainline Pipeline
## Architecture Overview
```
Sources (static/dynamic) → Fetch → Prepare → Scroll → Effects → Render → Display
NtfyPoller ← MicMonitor (async)
```
### Data Source Abstraction (sources_v2.py)
- **Static sources**: Data fetched once and cached (HeadlinesDataSource, PoetryDataSource)
- **Dynamic sources**: Idempotent fetch for runtime updates (PipelineDataSource)
- **SourceRegistry**: Discovery and management of data sources
### Camera Modes
- **Vertical**: Scroll up (default)
- **Horizontal**: Scroll left
- **Omni**: Diagonal scroll
- **Floating**: Sinusoidal bobbing
- **Trace**: Follow network path node-by-node (for pipeline viz)
## Content to Display Rendering Pipeline
```mermaid
flowchart TD
subgraph Sources["Data Sources (v2)"]
Headlines[HeadlinesDataSource]
Poetry[PoetryDataSource]
Pipeline[PipelineDataSource]
Registry[SourceRegistry]
end
subgraph SourcesLegacy["Data Sources (legacy)"]
RSS[("RSS Feeds")]
PoetryFeed[("Poetry Feed")]
Ntfy[("Ntfy Messages")]
Mic[("Microphone")]
end
subgraph Fetch["Fetch Layer"]
FC[fetch_all]
FP[fetch_poetry]
Cache[(Cache)]
end
subgraph Prepare["Prepare Layer"]
MB[make_block]
Strip[strip_tags]
Trans[translate]
end
subgraph Scroll["Scroll Engine"]
SC[StreamController]
CAM[Camera]
RTZ[render_ticker_zone]
Msg[render_message_overlay]
Grad[lr_gradient]
VT[vis_trunc / vis_offset]
end
subgraph Effects["Effect Pipeline"]
subgraph EffectsPlugins["Effect Plugins"]
Noise[NoiseEffect]
Fade[FadeEffect]
Glitch[GlitchEffect]
Firehose[FirehoseEffect]
Hud[HudEffect]
end
EC[EffectChain]
ER[EffectRegistry]
end
subgraph Render["Render Layer"]
BW[big_wrap]
RL[render_line]
end
subgraph Display["Display Backends"]
TD[TerminalDisplay]
PD[PygameDisplay]
SD[SixelDisplay]
KD[KittyDisplay]
WSD[WebSocketDisplay]
ND[NullDisplay]
end
subgraph Async["Async Sources"]
NTFY[NtfyPoller]
MIC[MicMonitor]
end
subgraph Animation["Animation System"]
AC[AnimationController]
PR[Preset]
end
Sources --> Fetch
RSS --> FC
PoetryFeed --> FP
FC --> Cache
FP --> Cache
Cache --> MB
Strip --> MB
Trans --> MB
MB --> SC
NTFY --> SC
SC --> RTZ
CAM --> RTZ
Grad --> RTZ
VT --> RTZ
RTZ --> EC
EC --> ER
ER --> EffectsPlugins
EffectsPlugins --> BW
BW --> RL
RL --> Display
Ntfy --> RL
Mic --> RL
MIC --> RL
style Sources fill:#f9f,stroke:#333
style Fetch fill:#bbf,stroke:#333
style Prepare fill:#bff,stroke:#333
style Scroll fill:#bfb,stroke:#333
style Effects fill:#fbf,stroke:#333
style Render fill:#ffb,stroke:#333
style Display fill:#bbf,stroke:#333
style Async fill:#fbb,stroke:#333
style Animation fill:#bfb,stroke:#333
```
## Animation & Presets
```mermaid
flowchart LR
subgraph Preset["Preset"]
PP[PipelineParams]
AC[AnimationController]
end
subgraph AnimationController["AnimationController"]
Clock[Clock]
Events[Events]
Triggers[Triggers]
end
subgraph Triggers["Trigger Types"]
TIME[TIME]
FRAME[FRAME]
CYCLE[CYCLE]
COND[CONDITION]
MANUAL[MANUAL]
end
PP --> AC
Clock --> AC
Events --> AC
Triggers --> Events
```
## Camera Modes
```mermaid
stateDiagram-v2
[*] --> Vertical
Vertical --> Horizontal: mode change
Horizontal --> Omni: mode change
Omni --> Floating: mode change
Floating --> Trace: mode change
Trace --> Vertical: mode change
state Vertical {
[*] --> ScrollUp
ScrollUp --> ScrollUp: +y each frame
}
state Horizontal {
[*] --> ScrollLeft
ScrollLeft --> ScrollLeft: +x each frame
}
state Omni {
[*] --> Diagonal
Diagonal --> Diagonal: +x, +y each frame
}
state Floating {
[*] --> Bobbing
Bobbing --> Bobbing: sin(time) for x,y
}
state Trace {
[*] --> FollowPath
FollowPath --> FollowPath: node by node
}
```

145
docs/superpowers/specs/2026-03-15-readme-update-design.md Normal file
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# README Update Design — 2026-03-15
## Goal
Restructure and expand `README.md` to:
1. Align with the current codebase (Python 3.10+, uv/mise/pytest/ruff toolchain, 6 new fonts)
2. Add extensibility-focused content (`Extending` section)
3. Add developer workflow coverage (`Development` section)
4. Improve navigability via top-level grouping (Approach C)
---
## Proposed Structure
```
# MAINLINE
> tagline + description
## Using
### Run
### Config
### Feeds
### Fonts
### ntfy.sh
## Internals
### How it works
### Architecture
## Extending
### NtfyPoller
### MicMonitor
### Render pipeline
## Development
### Setup
### Tasks
### Testing
### Linting
## Roadmap
---
*footer*
```
---
## Section-by-section design
### Using
All existing content preserved verbatim. Two changes:
- **Run**: add `uv run mainline.py` as an alternative invocation; expand bootstrap note to mention `uv sync` / `uv sync --all-extras`
- **ntfy.sh**: remove `NtfyPoller` reuse code example (moves to Extending); keep push instructions and topic config
Subsections moved into Using (currently standalone):
- `Feeds` — it's configuration, not a concept
- `ntfy.sh` (usage half)
### Internals
All existing content preserved verbatim. One change:
- **Architecture**: append `tests/` directory listing to the module tree
### Extending
Entirely new section. Three subsections:
**NtfyPoller**
- Minimal working import + usage example
- Note: stdlib only dependencies
```python
from engine.ntfy import NtfyPoller
poller = NtfyPoller("https://ntfy.sh/my_topic/json?since=20s&poll=1")
poller.start()
# in your render loop:
msg = poller.get_active_message() # → (title, body, timestamp) or None
if msg:
title, body, ts = msg
render_my_message(title, body) # visualizer-specific
```
**MicMonitor**
- Minimal working import + usage example
- Note: sounddevice/numpy optional, degrades gracefully
```python
from engine.mic import MicMonitor
mic = MicMonitor(threshold_db=50)
if mic.start(): # returns False if sounddevice unavailable
excess = mic.excess # dB above threshold, clamped to 0
db = mic.db # raw RMS dB level
```
**Render pipeline**
- Brief prose about `engine.render` as importable pipeline
- Minimal sketch of serve.py / ESP32 usage pattern
- Reference to `Mainline Renderer + ntfy Message Queue for ESP32.md`
### Development
Entirely new section. Four subsections:
**Setup**
- Hard requirements: Python 3.10+, uv
- `uv sync` / `uv sync --all-extras` / `uv sync --group dev`
**Tasks** (via mise)
- `mise run test`, `test-cov`, `lint`, `lint-fix`, `format`, `run`, `run-poetry`, `run-firehose`
**Testing**
- Tests in `tests/` covering config, filter, mic, ntfy, sources, terminal
- `uv run pytest` and `uv run pytest --cov=engine --cov-report=term-missing`
**Linting**
- `uv run ruff check` and `uv run ruff format`
- Note: pre-commit hooks run lint via `hk`
### Roadmap
Existing `## Ideas / Future` content preserved verbatim. Only change: rename heading to `## Roadmap`.
### Footer
Update `Python 3.9+``Python 3.10+`.
---
## Files changed
- `README.md` — restructured and expanded as above
- No other files
---
## What is not changing
- All existing prose, examples, and config table values — preserved verbatim where retained
- The Ideas/Future content — kept intact under the new Roadmap heading
- The cyberpunk voice and terse style of the existing README

38
effects_plugins/__init__.py Normal file
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from pathlib import Path
PLUGIN_DIR = Path(__file__).parent
def discover_plugins():
from engine.effects.registry import get_registry
from engine.effects.types import EffectPlugin
registry = get_registry()
imported = {}
for file_path in PLUGIN_DIR.glob("*.py"):
if file_path.name.startswith("_"):
continue
module_name = file_path.stem
if module_name in ("base", "types"):
continue
try:
module = __import__(f"effects_plugins.{module_name}", fromlist=[""])
for attr_name in dir(module):
attr = getattr(module, attr_name)
if (
isinstance(attr, type)
and issubclass(attr, EffectPlugin)
and attr is not EffectPlugin
and attr_name.endswith("Effect")
):
plugin = attr()
if not isinstance(plugin, EffectPlugin):
continue
registry.register(plugin)
imported[plugin.name] = plugin
except Exception:
pass
return imported

58
effects_plugins/fade.py Normal file
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import random
from engine.effects.types import EffectConfig, EffectContext, EffectPlugin
class FadeEffect(EffectPlugin):
name = "fade"
config = EffectConfig(enabled=True, intensity=1.0)
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
if not ctx.ticker_height:
return buf
result = list(buf)
intensity = self.config.intensity
top_zone = max(1, int(ctx.ticker_height * 0.25))
bot_zone = max(1, int(ctx.ticker_height * 0.10))
for r in range(len(result)):
if r >= ctx.ticker_height:
continue
top_f = min(1.0, r / top_zone) if top_zone > 0 else 1.0
bot_f = (
min(1.0, (ctx.ticker_height - 1 - r) / bot_zone)
if bot_zone > 0
else 1.0
)
row_fade = min(top_f, bot_f) * intensity
if row_fade < 1.0 and result[r].strip():
result[r] = self._fade_line(result[r], row_fade)
return result
def _fade_line(self, s: str, fade: float) -> str:
if fade >= 1.0:
return s
if fade <= 0.0:
return ""
result = []
i = 0
while i < len(s):
if s[i] == "\033" and i + 1 < len(s) and s[i + 1] == "[":
j = i + 2
while j < len(s) and not s[j].isalpha():
j += 1
result.append(s[i : j + 1])
i = j + 1
elif s[i] == " ":
result.append(" ")
i += 1
else:
result.append(s[i] if random.random() < fade else " ")
i += 1
return "".join(result)
def configure(self, config: EffectConfig) -> None:
self.config = config

72
effects_plugins/firehose.py Normal file
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import random
from datetime import datetime
from engine import config
from engine.effects.types import EffectConfig, EffectContext, EffectPlugin
from engine.sources import FEEDS, POETRY_SOURCES
from engine.terminal import C_DIM, G_DIM, G_LO, RST, W_GHOST
class FirehoseEffect(EffectPlugin):
name = "firehose"
config = EffectConfig(enabled=True, intensity=1.0)
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
firehose_h = config.FIREHOSE_H if config.FIREHOSE else 0
if firehose_h <= 0 or not ctx.items:
return buf
result = list(buf)
intensity = self.config.intensity
h = ctx.terminal_height
for fr in range(firehose_h):
scr_row = h - firehose_h + fr + 1
fline = self._firehose_line(ctx.items, ctx.terminal_width, intensity)
result.append(f"\033[{scr_row};1H{fline}\033[K")
return result
def _firehose_line(self, items: list, w: int, intensity: float) -> str:
r = random.random()
if r < 0.35 * intensity:
title, src, ts = random.choice(items)
text = title[: w - 1]
color = random.choice([G_LO, G_DIM, W_GHOST, C_DIM])
return f"{color}{text}{RST}"
elif r < 0.55 * intensity:
d = random.choice([0.45, 0.55, 0.65, 0.75])
return "".join(
f"{random.choice([G_LO, G_DIM, C_DIM, W_GHOST])}"
f"{random.choice(config.GLITCH + config.KATA)}{RST}"
if random.random() < d
else " "
for _ in range(w)
)
elif r < 0.78 * intensity:
sources = FEEDS if config.MODE == "news" else POETRY_SOURCES
src = random.choice(list(sources.keys()))
msgs = [
f" SIGNAL :: {src} :: {datetime.now().strftime('%H:%M:%S.%f')[:-3]}",
f" ░░ FEED ACTIVE :: {src}",
f" >> DECODE 0x{random.randint(0x1000, 0xFFFF):04X} :: {src[:24]}",
f" ▒▒ ACQUIRE :: {random.choice(['TCP', 'UDP', 'RSS', 'ATOM', 'XML'])} :: {src}",
f" {''.join(random.choice(config.KATA) for _ in range(3))} STRM "
f"{random.randint(0, 255):02X}:{random.randint(0, 255):02X}",
]
text = random.choice(msgs)[: w - 1]
color = random.choice([G_LO, G_DIM, W_GHOST])
return f"{color}{text}{RST}"
else:
title, _, _ = random.choice(items)
start = random.randint(0, max(0, len(title) - 20))
frag = title[start : start + random.randint(10, 35)]
pad = random.randint(0, max(0, w - len(frag) - 8))
gp = "".join(
random.choice(config.GLITCH) for _ in range(random.randint(1, 3))
)
text = (" " * pad + gp + " " + frag)[: w - 1]
color = random.choice([G_LO, C_DIM, W_GHOST])
return f"{color}{text}{RST}"
def configure(self, config: EffectConfig) -> None:
self.config = config

37
effects_plugins/glitch.py Normal file
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import random
from engine import config
from engine.effects.types import EffectConfig, EffectContext, EffectPlugin
from engine.terminal import C_DIM, DIM, G_DIM, G_LO, RST
class GlitchEffect(EffectPlugin):
name = "glitch"
config = EffectConfig(enabled=True, intensity=1.0)
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
if not buf:
return buf
result = list(buf)
intensity = self.config.intensity
glitch_prob = 0.32 + min(0.9, ctx.mic_excess * 0.16)
glitch_prob = glitch_prob * intensity
n_hits = 4 + int(ctx.mic_excess / 2)
n_hits = int(n_hits * intensity)
if random.random() < glitch_prob:
for _ in range(min(n_hits, len(result))):
gi = random.randint(0, len(result) - 1)
scr_row = gi + 1
result[gi] = f"\033[{scr_row};1H{self._glitch_bar(ctx.terminal_width)}"
return result
def _glitch_bar(self, w: int) -> str:
c = random.choice(["", "", "", "\xc2"])
n = random.randint(3, w // 2)
o = random.randint(0, w - n)
return " " * o + f"{G_LO}{DIM}" + c * n + RST
def configure(self, config: EffectConfig) -> None:
self.config = config

63
effects_plugins/hud.py Normal file
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from engine.effects.performance import get_monitor
from engine.effects.types import EffectConfig, EffectContext, EffectPlugin
class HudEffect(EffectPlugin):
name = "hud"
config = EffectConfig(enabled=True, intensity=1.0)
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
result = list(buf)
monitor = get_monitor()
fps = 0.0
frame_time = 0.0
if monitor:
stats = monitor.get_stats()
if stats and "pipeline" in stats:
frame_time = stats["pipeline"].get("avg_ms", 0.0)
frame_count = stats.get("frame_count", 0)
if frame_count > 0 and frame_time > 0:
fps = 1000.0 / frame_time
w = ctx.terminal_width
h = ctx.terminal_height
effect_name = self.config.params.get("display_effect", "none")
effect_intensity = self.config.params.get("display_intensity", 0.0)
hud_lines = []
hud_lines.append(
f"\033[1;1H\033[38;5;46mMAINLINE DEMO\033[0m \033[38;5;245m|\033[0m \033[38;5;39mFPS: {fps:.1f}\033[0m \033[38;5;245m|\033[0m \033[38;5;208m{frame_time:.1f}ms\033[0m"
)
bar_width = 20
filled = int(bar_width * effect_intensity)
bar = (
"\033[38;5;82m"
+ "" * filled
+ "\033[38;5;240m"
+ "" * (bar_width - filled)
+ "\033[0m"
)
hud_lines.append(
f"\033[2;1H\033[38;5;45mEFFECT:\033[0m \033[1;38;5;227m{effect_name:12s}\033[0m \033[38;5;245m|\033[0m {bar} \033[38;5;245m|\033[0m \033[38;5;219m{effect_intensity * 100:.0f}%\033[0m"
)
from engine.effects import get_effect_chain
chain = get_effect_chain()
order = chain.get_order()
pipeline_str = ",".join(order) if order else "(none)"
hud_lines.append(f"\033[3;1H\033[38;5;44mPIPELINE:\033[0m {pipeline_str}")
for i, line in enumerate(hud_lines):
if i < len(result):
result[i] = line + result[i][len(line) :]
else:
result.append(line)
return result
def configure(self, config: EffectConfig) -> None:
self.config = config

36
effects_plugins/noise.py Normal file
View File

@@ -0,0 +1,36 @@
import random
from engine import config
from engine.effects.types import EffectConfig, EffectContext, EffectPlugin
from engine.terminal import C_DIM, G_DIM, G_LO, RST, W_GHOST
class NoiseEffect(EffectPlugin):
name = "noise"
config = EffectConfig(enabled=True, intensity=0.15)
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
if not ctx.ticker_height:
return buf
result = list(buf)
intensity = self.config.intensity
probability = intensity * 0.15
for r in range(len(result)):
cy = ctx.scroll_cam + r
if random.random() < probability:
result[r] = self._generate_noise(ctx.terminal_width, cy)
return result
def _generate_noise(self, w: int, cy: int) -> str:
d = random.choice([0.15, 0.25, 0.35, 0.12])
return "".join(
f"{random.choice([G_LO, G_DIM, C_DIM, W_GHOST])}"
f"{random.choice(config.GLITCH + config.KATA)}{RST}"
if random.random() < d
else " "
for _ in range(w)
)
def configure(self, config: EffectConfig) -> None:
self.config = config

340
engine/animation.py Normal file
View File

@@ -0,0 +1,340 @@
"""
Animation system - Clock, events, triggers, durations, and animation controller.
"""
import time
from collections.abc import Callable
from dataclasses import dataclass, field
from enum import Enum, auto
from typing import Any
class Clock:
"""High-resolution clock for animation timing."""
def __init__(self):
self._start_time = time.perf_counter()
self._paused = False
self._pause_offset = 0.0
self._pause_start = 0.0
def reset(self) -> None:
self._start_time = time.perf_counter()
self._paused = False
self._pause_offset = 0.0
self._pause_start = 0.0
def elapsed(self) -> float:
if self._paused:
return self._pause_start - self._start_time - self._pause_offset
return time.perf_counter() - self._start_time - self._pause_offset
def elapsed_ms(self) -> float:
return self.elapsed() * 1000
def elapsed_frames(self, fps: float = 60.0) -> int:
return int(self.elapsed() * fps)
def pause(self) -> None:
if not self._paused:
self._paused = True
self._pause_start = time.perf_counter()
def resume(self) -> None:
if self._paused:
self._pause_offset += time.perf_counter() - self._pause_start
self._paused = False
class TriggerType(Enum):
TIME = auto() # Trigger after elapsed time
FRAME = auto() # Trigger after N frames
CYCLE = auto() # Trigger on cycle repeat
CONDITION = auto() # Trigger when condition is met
MANUAL = auto() # Trigger manually
@dataclass
class Trigger:
"""Event trigger configuration."""
type: TriggerType
value: float | int = 0
condition: Callable[["AnimationController"], bool] | None = None
repeat: bool = False
repeat_interval: float = 0.0
@dataclass
class Event:
"""An event with trigger, duration, and action."""
name: str
trigger: Trigger
action: Callable[["AnimationController", float], None]
duration: float = 0.0
ease: Callable[[float], float] | None = None
def __post_init__(self):
if self.ease is None:
self.ease = linear_ease
def linear_ease(t: float) -> float:
return t
def ease_in_out(t: float) -> float:
return t * t * (3 - 2 * t)
def ease_out_bounce(t: float) -> float:
if t < 1 / 2.75:
return 7.5625 * t * t
elif t < 2 / 2.75:
t -= 1.5 / 2.75
return 7.5625 * t * t + 0.75
elif t < 2.5 / 2.75:
t -= 2.25 / 2.75
return 7.5625 * t * t + 0.9375
else:
t -= 2.625 / 2.75
return 7.5625 * t * t + 0.984375
class AnimationController:
"""Controls animation parameters with clock and events."""
def __init__(self, fps: float = 60.0):
self.clock = Clock()
self.fps = fps
self.frame = 0
self._events: list[Event] = []
self._active_events: dict[str, float] = {}
self._params: dict[str, Any] = {}
self._cycled = 0
def add_event(self, event: Event) -> "AnimationController":
self._events.append(event)
return self
def set_param(self, key: str, value: Any) -> None:
self._params[key] = value
def get_param(self, key: str, default: Any = None) -> Any:
return self._params.get(key, default)
def update(self) -> dict[str, Any]:
"""Update animation state, return current params."""
elapsed = self.clock.elapsed()
for event in self._events:
triggered = False
if event.trigger.type == TriggerType.TIME:
if self.clock.elapsed() >= event.trigger.value:
triggered = True
elif event.trigger.type == TriggerType.FRAME:
if self.frame >= event.trigger.value:
triggered = True
elif event.trigger.type == TriggerType.CYCLE:
cycle_duration = event.trigger.value
if cycle_duration > 0:
current_cycle = int(elapsed / cycle_duration)
if current_cycle > self._cycled:
self._cycled = current_cycle
triggered = True
elif event.trigger.type == TriggerType.CONDITION:
if event.trigger.condition and event.trigger.condition(self):
triggered = True
elif event.trigger.type == TriggerType.MANUAL:
pass
if triggered:
if event.name not in self._active_events:
self._active_events[event.name] = 0.0
progress = 0.0
if event.duration > 0:
self._active_events[event.name] += 1 / self.fps
progress = min(
1.0, self._active_events[event.name] / event.duration
)
eased_progress = event.ease(progress)
event.action(self, eased_progress)
if progress >= 1.0:
if event.trigger.repeat:
self._active_events[event.name] = 0.0
else:
del self._active_events[event.name]
else:
event.action(self, 1.0)
if not event.trigger.repeat:
del self._active_events[event.name]
else:
self._active_events[event.name] = 0.0
self.frame += 1
return dict(self._params)
@dataclass
class PipelineParams:
"""Snapshot of pipeline parameters for animation."""
effect_enabled: dict[str, bool] = field(default_factory=dict)
effect_intensity: dict[str, float] = field(default_factory=dict)
camera_mode: str = "vertical"
camera_speed: float = 1.0
camera_x: int = 0
camera_y: int = 0
display_backend: str = "terminal"
scroll_speed: float = 1.0
class Preset:
"""Packages a starting pipeline config + Animation controller."""
def __init__(
self,
name: str,
description: str = "",
initial_params: PipelineParams | None = None,
animation: AnimationController | None = None,
):
self.name = name
self.description = description
self.initial_params = initial_params or PipelineParams()
self.animation = animation or AnimationController()
def create_controller(self) -> AnimationController:
controller = AnimationController()
for key, value in self.initial_params.__dict__.items():
controller.set_param(key, value)
for event in self.animation._events:
controller.add_event(event)
return controller
def create_demo_preset() -> Preset:
"""Create the demo preset with effect cycling and camera modes."""
animation = AnimationController(fps=60)
effects = ["noise", "fade", "glitch", "firehose"]
camera_modes = ["vertical", "horizontal", "omni", "floating", "trace"]
def make_effect_action(eff):
def action(ctrl, t):
ctrl.set_param("current_effect", eff)
ctrl.set_param("effect_intensity", t)
return action
def make_camera_action(cam_mode):
def action(ctrl, t):
ctrl.set_param("camera_mode", cam_mode)
return action
for i, effect in enumerate(effects):
effect_duration = 5.0
animation.add_event(
Event(
name=f"effect_{effect}",
trigger=Trigger(
type=TriggerType.TIME,
value=i * effect_duration,
repeat=True,
repeat_interval=len(effects) * effect_duration,
),
duration=effect_duration,
action=make_effect_action(effect),
ease=ease_in_out,
)
)
for i, mode in enumerate(camera_modes):
camera_duration = 10.0
animation.add_event(
Event(
name=f"camera_{mode}",
trigger=Trigger(
type=TriggerType.TIME,
value=i * camera_duration,
repeat=True,
repeat_interval=len(camera_modes) * camera_duration,
),
duration=0.5,
action=make_camera_action(mode),
)
)
animation.add_event(
Event(
name="pulse",
trigger=Trigger(type=TriggerType.CYCLE, value=2.0, repeat=True),
duration=1.0,
action=lambda ctrl, t: ctrl.set_param("pulse", t),
ease=ease_out_bounce,
)
)
return Preset(
name="demo",
description="Demo mode with effect cycling and camera modes",
initial_params=PipelineParams(
effect_enabled={
"noise": False,
"fade": False,
"glitch": False,
"firehose": False,
"hud": True,
},
effect_intensity={
"noise": 0.0,
"fade": 0.0,
"glitch": 0.0,
"firehose": 0.0,
},
camera_mode="vertical",
camera_speed=1.0,
display_backend="pygame",
),
animation=animation,
)
def create_pipeline_preset() -> Preset:
"""Create preset for pipeline visualization."""
animation = AnimationController(fps=60)
animation.add_event(
Event(
name="camera_trace",
trigger=Trigger(type=TriggerType.CYCLE, value=8.0, repeat=True),
duration=8.0,
action=lambda ctrl, t: ctrl.set_param("camera_mode", "trace"),
)
)
animation.add_event(
Event(
name="highlight_path",
trigger=Trigger(type=TriggerType.CYCLE, value=4.0, repeat=True),
duration=4.0,
action=lambda ctrl, t: ctrl.set_param("path_progress", t),
)
)
return Preset(
name="pipeline",
description="Pipeline visualization with trace camera",
initial_params=PipelineParams(
camera_mode="trace",
camera_speed=1.0,
display_backend="pygame",
),
animation=animation,
)

824
engine/app.py
View File

@@ -2,23 +2,31 @@
Application orchestrator — boot sequence, signal handling, main loop wiring.
"""
import sys
import os
import time
import signal
import atexit
import os
import signal
import sys
import termios
import time
import tty
from engine import config, render
from engine.terminal import (
RST, G_HI, G_MID, G_DIM, W_DIM, W_GHOST, CLR, CURSOR_OFF, CURSOR_ON, tw,
slow_print, boot_ln,
)
from engine.controller import StreamController
from engine.fetch import fetch_all, fetch_poetry, load_cache, save_cache
from engine.ntfy import NtfyPoller
from engine.mic import MicMonitor
from engine.scroll import stream
from engine.terminal import (
CLR,
CURSOR_OFF,
CURSOR_ON,
G_DIM,
G_HI,
G_MID,
RST,
W_DIM,
W_GHOST,
boot_ln,
slow_print,
tw,
)
TITLE = [
" ███╗ ███╗ █████╗ ██╗███╗ ██╗██╗ ██╗███╗ ██╗███████╗",
@@ -29,6 +37,7 @@ TITLE = [
" ╚═╝ ╚═╝╚═╝ ╚═╝╚═╝╚═╝ ╚═══╝╚══════╝╚═╝╚═╝ ╚═══╝╚══════╝",
]
def _read_picker_key():
ch = sys.stdin.read(1)
if ch == "\x03":
@@ -53,6 +62,7 @@ def _read_picker_key():
return "enter"
return None
def _normalize_preview_rows(rows):
"""Trim shared left padding and trailing spaces for stable on-screen previews."""
non_empty = [r for r in rows if r.strip()]
@@ -99,7 +109,9 @@ def _draw_font_picker(faces, selected):
active = pos == selected
pointer = "" if active else " "
color = G_HI if active else W_DIM
print(f" {color}{pointer} {face['name']}{RST}{W_GHOST} · {face['file_name']}{RST}")
print(
f" {color}{pointer} {face['name']}{RST}{W_GHOST} · {face['file_name']}{RST}"
)
if top > 0:
print(f" {W_GHOST}{top} above{RST}")
@@ -116,6 +128,7 @@ def _draw_font_picker(faces, selected):
shown = row[:max_preview_w]
print(f" {shown}")
def pick_font_face():
"""Interactive startup picker for selecting a face from repo OTF files."""
if not config.FONT_PICKER:
@@ -225,14 +238,630 @@ def pick_font_face():
font_index=selected_font["font_index"],
)
render.clear_font_cache()
print(f" {G_DIM}> using {selected_font['name']} ({selected_font['file_name']}){RST}")
print(
f" {G_DIM}> using {selected_font['name']} ({selected_font['file_name']}){RST}"
)
time.sleep(0.8)
print(CLR, end="")
print(CURSOR_OFF, end="")
print()
def pick_effects_config():
"""Interactive picker for configuring effects pipeline."""
import effects_plugins
from engine.effects import get_effect_chain, get_registry
effects_plugins.discover_plugins()
registry = get_registry()
chain = get_effect_chain()
chain.set_order(["noise", "fade", "glitch", "firehose"])
effects = list(registry.list_all().values())
if not effects:
return
selected = 0
editing_intensity = False
intensity_value = 1.0
def _draw_effects_picker():
w = tw()
print(CLR, end="")
print("\033[1;1H", end="")
print(" \033[1;38;5;231mEFFECTS CONFIG\033[0m")
print(f" \033[2;38;5;37m{'' * (w - 4)}\033[0m")
print()
for i, effect in enumerate(effects):
prefix = " > " if i == selected else " "
marker = "[*]" if effect.config.enabled else "[ ]"
if editing_intensity and i == selected:
print(
f"{prefix}{marker} \033[1;38;5;82m{effect.name}\033[0m: intensity={intensity_value:.2f} (use +/- to adjust, Enter to confirm)"
)
else:
print(
f"{prefix}{marker} {effect.name}: intensity={effect.config.intensity:.2f}"
)
print()
print(f" \033[2;38;5;37m{'' * (w - 4)}\033[0m")
print(
" \033[38;5;245mControls: space=toggle on/off | +/-=adjust intensity | arrows=move | Enter=next effect | q=done\033[0m"
)
def _read_effects_key():
ch = sys.stdin.read(1)
if ch == "\x03":
return "interrupt"
if ch in ("\r", "\n"):
return "enter"
if ch == " ":
return "toggle"
if ch == "q":
return "quit"
if ch == "+" or ch == "=":
return "up"
if ch == "-" or ch == "_":
return "down"
if ch == "\x1b":
c1 = sys.stdin.read(1)
if c1 != "[":
return None
c2 = sys.stdin.read(1)
if c2 == "A":
return "up"
if c2 == "B":
return "down"
return None
return None
if not sys.stdin.isatty():
return
fd = sys.stdin.fileno()
old_settings = termios.tcgetattr(fd)
try:
tty.setcbreak(fd)
while True:
_draw_effects_picker()
key = _read_effects_key()
if key == "quit" or key == "enter":
break
elif key == "up" and editing_intensity:
intensity_value = min(1.0, intensity_value + 0.1)
effects[selected].config.intensity = intensity_value
elif key == "down" and editing_intensity:
intensity_value = max(0.0, intensity_value - 0.1)
effects[selected].config.intensity = intensity_value
elif key == "up":
selected = max(0, selected - 1)
intensity_value = effects[selected].config.intensity
elif key == "down":
selected = min(len(effects) - 1, selected + 1)
intensity_value = effects[selected].config.intensity
elif key == "toggle":
effects[selected].config.enabled = not effects[selected].config.enabled
elif key == "interrupt":
raise KeyboardInterrupt
finally:
termios.tcsetattr(fd, termios.TCSADRAIN, old_settings)
def run_demo_mode():
"""Run demo mode - showcases effects and camera modes with real content."""
import random
from engine import config
from engine.camera import Camera, CameraMode
from engine.display import DisplayRegistry
from engine.effects import (
EffectContext,
PerformanceMonitor,
get_effect_chain,
get_registry,
set_monitor,
)
from engine.fetch import fetch_all, fetch_poetry, load_cache
from engine.scroll import calculate_scroll_step
print(" \033[1;38;5;46mMAINLINE DEMO MODE\033[0m")
print(" \033[38;5;245mInitializing...\033[0m")
import effects_plugins
effects_plugins.discover_plugins()
registry = get_registry()
chain = get_effect_chain()
chain.set_order(["noise", "fade", "glitch", "firehose", "hud"])
monitor = PerformanceMonitor()
set_monitor(monitor)
chain._monitor = monitor
display = DisplayRegistry.create("pygame")
if not display:
print(" \033[38;5;196mFailed to create pygame display\033[0m")
sys.exit(1)
w, h = 80, 24
display.init(w, h)
display.clear()
print(" \033[38;5;245mFetching content...\033[0m")
cached = load_cache()
if cached:
items = cached
elif config.MODE == "poetry":
items, _, _ = fetch_poetry()
else:
items, _, _ = fetch_all()
if not items:
print(" \033[38;5;196mNo content available\033[0m")
sys.exit(1)
random.shuffle(items)
pool = list(items)
seen = set()
active = []
ticker_next_y = 0
noise_cache = {}
scroll_motion_accum = 0.0
frame_number = 0
GAP = 3
scroll_step_interval = calculate_scroll_step(config.SCROLL_DUR, h)
camera = Camera.vertical(speed=1.0)
effects_to_demo = ["noise", "fade", "glitch", "firehose"]
effect_idx = 0
effect_name = effects_to_demo[effect_idx]
effect_start_time = time.time()
current_intensity = 0.0
ramping_up = True
camera_modes = [
(CameraMode.VERTICAL, "vertical"),
(CameraMode.HORIZONTAL, "horizontal"),
(CameraMode.OMNI, "omni"),
(CameraMode.FLOATING, "floating"),
]
camera_mode_idx = 0
camera_start_time = time.time()
print(" \033[38;5;82mStarting effect & camera demo...\033[0m")
print(" \033[38;5;245mPress Ctrl+C to exit\033[0m\n")
try:
while True:
elapsed = time.time() - effect_start_time
camera_elapsed = time.time() - camera_start_time
duration = config.DEMO_EFFECT_DURATION
if elapsed >= duration:
effect_idx = (effect_idx + 1) % len(effects_to_demo)
effect_name = effects_to_demo[effect_idx]
effect_start_time = time.time()
elapsed = 0
current_intensity = 0.0
ramping_up = True
if camera_elapsed >= duration * 2:
camera_mode_idx = (camera_mode_idx + 1) % len(camera_modes)
mode, mode_name = camera_modes[camera_mode_idx]
camera = Camera(mode=mode, speed=1.0)
camera_start_time = time.time()
camera_elapsed = 0
progress = elapsed / duration
if ramping_up:
current_intensity = progress
if progress >= 1.0:
ramping_up = False
else:
current_intensity = 1.0 - progress
for effect in registry.list_all().values():
if effect.name == effect_name:
effect.config.enabled = True
effect.config.intensity = current_intensity
elif effect.name not in ("hud",):
effect.config.enabled = False
hud_effect = registry.get("hud")
if hud_effect:
mode_name = camera_modes[camera_mode_idx][1]
hud_effect.config.params["display_effect"] = (
f"{effect_name} / {mode_name}"
)
hud_effect.config.params["display_intensity"] = current_intensity
scroll_motion_accum += config.FRAME_DT
while scroll_motion_accum >= scroll_step_interval:
scroll_motion_accum -= scroll_step_interval
camera.update(config.FRAME_DT)
while ticker_next_y < camera.y + h + 10 and len(active) < 50:
from engine.effects import next_headline
from engine.render import make_block
t, src, ts = next_headline(pool, items, seen)
ticker_content, hc, midx = make_block(t, src, ts, w)
active.append((ticker_content, hc, ticker_next_y, midx))
ticker_next_y += len(ticker_content) + GAP
active = [
(c, hc, by, mi)
for c, hc, by, mi in active
if by + len(c) > camera.y
]
for k in list(noise_cache):
if k < camera.y:
del noise_cache[k]
grad_offset = (time.time() * config.GRAD_SPEED) % 1.0
from engine.layers import render_ticker_zone
buf, noise_cache = render_ticker_zone(
active,
scroll_cam=camera.y,
camera_x=camera.x,
ticker_h=h,
w=w,
noise_cache=noise_cache,
grad_offset=grad_offset,
)
from engine.layers import render_firehose
firehose_buf = render_firehose(items, w, 0, h)
buf.extend(firehose_buf)
ctx = EffectContext(
terminal_width=w,
terminal_height=h,
scroll_cam=camera.y,
ticker_height=h,
camera_x=camera.x,
mic_excess=0.0,
grad_offset=grad_offset,
frame_number=frame_number,
has_message=False,
items=items,
)
result = chain.process(buf, ctx)
display.show(result)
new_w, new_h = display.get_dimensions()
if new_w != w or new_h != h:
w, h = new_w, new_h
scroll_step_interval = calculate_scroll_step(config.SCROLL_DUR, h)
active = []
noise_cache = {}
frame_number += 1
time.sleep(1 / 60)
except KeyboardInterrupt:
pass
finally:
display.cleanup()
print("\n \033[38;5;245mDemo ended\033[0m")
def run_pipeline_demo():
"""Run pipeline visualization demo mode - shows ASCII pipeline animation."""
import time
from engine import config
from engine.camera import Camera, CameraMode
from engine.display import DisplayRegistry
from engine.effects import (
EffectContext,
PerformanceMonitor,
get_effect_chain,
get_registry,
set_monitor,
)
from engine.pipeline_viz import generate_large_network_viewport
print(" \033[1;38;5;46mMAINLINE PIPELINE DEMO\033[0m")
print(" \033[38;5;245mInitializing...\033[0m")
import effects_plugins
effects_plugins.discover_plugins()
registry = get_registry()
chain = get_effect_chain()
chain.set_order(["noise", "fade", "glitch", "firehose", "hud"])
monitor = PerformanceMonitor()
set_monitor(monitor)
chain._monitor = monitor
display = DisplayRegistry.create("pygame")
if not display:
print(" \033[38;5;196mFailed to create pygame display\033[0m")
sys.exit(1)
w, h = 80, 24
display.init(w, h)
display.clear()
camera = Camera.vertical(speed=1.0)
effects_to_demo = ["noise", "fade", "glitch", "firehose"]
effect_idx = 0
effect_name = effects_to_demo[effect_idx]
effect_start_time = time.time()
current_intensity = 0.0
ramping_up = True
camera_modes = [
(CameraMode.VERTICAL, "vertical"),
(CameraMode.HORIZONTAL, "horizontal"),
(CameraMode.OMNI, "omni"),
(CameraMode.FLOATING, "floating"),
]
camera_mode_idx = 0
camera_start_time = time.time()
frame_number = 0
print(" \033[38;5;82mStarting pipeline visualization...\033[0m")
print(" \033[38;5;245mPress Ctrl+C to exit\033[0m\n")
try:
while True:
elapsed = time.time() - effect_start_time
camera_elapsed = time.time() - camera_start_time
duration = config.DEMO_EFFECT_DURATION
if elapsed >= duration:
effect_idx = (effect_idx + 1) % len(effects_to_demo)
effect_name = effects_to_demo[effect_idx]
effect_start_time = time.time()
elapsed = 0
current_intensity = 0.0
ramping_up = True
if camera_elapsed >= duration * 2:
camera_mode_idx = (camera_mode_idx + 1) % len(camera_modes)
mode, mode_name = camera_modes[camera_mode_idx]
camera = Camera(mode=mode, speed=1.0)
camera_start_time = time.time()
camera_elapsed = 0
progress = elapsed / duration
if ramping_up:
current_intensity = progress
if progress >= 1.0:
ramping_up = False
else:
current_intensity = 1.0 - progress
for effect in registry.list_all().values():
if effect.name == effect_name:
effect.config.enabled = True
effect.config.intensity = current_intensity
elif effect.name not in ("hud",):
effect.config.enabled = False
hud_effect = registry.get("hud")
if hud_effect:
mode_name = camera_modes[camera_mode_idx][1]
hud_effect.config.params["display_effect"] = (
f"{effect_name} / {mode_name}"
)
hud_effect.config.params["display_intensity"] = current_intensity
camera.update(config.FRAME_DT)
buf = generate_large_network_viewport(w, h, frame_number)
ctx = EffectContext(
terminal_width=w,
terminal_height=h,
scroll_cam=camera.y,
ticker_height=h,
camera_x=camera.x,
mic_excess=0.0,
grad_offset=0.0,
frame_number=frame_number,
has_message=False,
items=[],
)
result = chain.process(buf, ctx)
display.show(result)
new_w, new_h = display.get_dimensions()
if new_w != w or new_h != h:
w, h = new_w, new_h
frame_number += 1
time.sleep(1 / 60)
except KeyboardInterrupt:
pass
finally:
display.cleanup()
print("\n \033[38;5;245mPipeline demo ended\033[0m")
def run_preset_mode(preset_name: str):
"""Run mode using animation presets."""
from engine import config
from engine.animation import (
create_demo_preset,
create_pipeline_preset,
)
from engine.camera import Camera
from engine.display import DisplayRegistry
from engine.effects import (
EffectContext,
PerformanceMonitor,
get_effect_chain,
get_registry,
set_monitor,
)
from engine.sources_v2 import (
PipelineDataSource,
get_source_registry,
init_default_sources,
)
w, h = 80, 24
if preset_name == "demo":
preset = create_demo_preset()
init_default_sources()
source = get_source_registry().default()
elif preset_name == "pipeline":
preset = create_pipeline_preset()
source = PipelineDataSource(w, h)
else:
print(f" \033[38;5;196mUnknown preset: {preset_name}\033[0m")
print(" Available: demo, pipeline")
sys.exit(1)
print(f" \033[1;38;5;46mMAINLINE PRESET: {preset.name}\033[0m")
print(f" \033[38;5;245m{preset.description}\033[0m")
print(" \033[38;5;245mInitializing...\033[0m")
import effects_plugins
effects_plugins.discover_plugins()
registry = get_registry()
chain = get_effect_chain()
chain.set_order(["noise", "fade", "glitch", "firehose", "hud"])
monitor = PerformanceMonitor()
set_monitor(monitor)
chain._monitor = monitor
display = DisplayRegistry.create(preset.initial_params.display_backend)
if not display:
print(
f" \033[38;5;196mFailed to create {preset.initial_params.display_backend} display\033[0m"
)
sys.exit(1)
display.init(w, h)
display.clear()
camera = Camera.vertical()
print(" \033[38;5;82mStarting preset animation...\033[0m")
print(" \033[38;5;245mPress Ctrl+C to exit\033[0m\n")
controller = preset.create_controller()
frame_number = 0
try:
while True:
params = controller.update()
effect_name = params.get("current_effect", "none")
intensity = params.get("effect_intensity", 0.0)
camera_mode = params.get("camera_mode", "vertical")
if camera_mode == "vertical":
camera = Camera.vertical(speed=params.get("camera_speed", 1.0))
elif camera_mode == "horizontal":
camera = Camera.horizontal(speed=params.get("camera_speed", 1.0))
elif camera_mode == "omni":
camera = Camera.omni(speed=params.get("camera_speed", 1.0))
elif camera_mode == "floating":
camera = Camera.floating(speed=params.get("camera_speed", 1.0))
camera.update(config.FRAME_DT)
for eff in registry.list_all().values():
if eff.name == effect_name:
eff.config.enabled = True
eff.config.intensity = intensity
elif eff.name not in ("hud",):
eff.config.enabled = False
hud_effect = registry.get("hud")
if hud_effect:
hud_effect.config.params["display_effect"] = (
f"{effect_name} / {camera_mode}"
)
hud_effect.config.params["display_intensity"] = intensity
source.viewport_width = w
source.viewport_height = h
items = source.get_items()
buffer = items[0].content.split("\n") if items else [""] * h
ctx = EffectContext(
terminal_width=w,
terminal_height=h,
scroll_cam=camera.y,
ticker_height=h,
camera_x=camera.x,
mic_excess=0.0,
grad_offset=0.0,
frame_number=frame_number,
has_message=False,
items=[],
)
result = chain.process(buffer, ctx)
display.show(result)
new_w, new_h = display.get_dimensions()
if new_w != w or new_h != h:
w, h = new_w, new_h
frame_number += 1
time.sleep(1 / 60)
except KeyboardInterrupt:
pass
finally:
display.cleanup()
print("\n \033[38;5;245mPreset ended\033[0m")
def main():
from engine import config
if config.PIPELINE_DIAGRAM:
from engine.pipeline import generate_pipeline_diagram
print(generate_pipeline_diagram())
return
if config.PIPELINE_MODE:
run_pipeline_mode(config.PIPELINE_PRESET)
return
if config.PIPELINE_DEMO:
run_pipeline_demo()
return
if config.PRESET:
run_preset_mode(config.PRESET)
return
if config.DEMO:
run_demo_mode()
return
atexit.register(lambda: print(CURSOR_ON, end="", flush=True))
def handle_sigint(*_):
@@ -242,10 +871,13 @@ def main():
signal.signal(signal.SIGINT, handle_sigint)
StreamController.warmup_topics()
w = tw()
print(CLR, end="")
print(CURSOR_OFF, end="")
pick_font_face()
pick_effects_config()
w = tw()
print()
time.sleep(0.4)
@@ -255,23 +887,29 @@ def main():
time.sleep(0.07)
print()
_subtitle = "literary consciousness stream" if config.MODE == 'poetry' else "digital consciousness stream"
_subtitle = (
"literary consciousness stream"
if config.MODE == "poetry"
else "digital consciousness stream"
)
print(f" {W_DIM}v0.1 · {_subtitle}{RST}")
print(f" {W_GHOST}{'' * (w - 4)}{RST}")
print()
time.sleep(0.4)
cached = load_cache() if '--refresh' not in sys.argv else None
cached = load_cache() if "--refresh" not in sys.argv else None
if cached:
items = cached
boot_ln("Cache", f"LOADED [{len(items)} SIGNALS]", True)
elif config.MODE == 'poetry':
elif config.MODE == "poetry":
slow_print(" > INITIALIZING LITERARY CORPUS...\n")
time.sleep(0.2)
print()
items, linked, failed = fetch_poetry()
print()
print(f" {G_DIM}>{RST} {G_MID}{linked} TEXTS LOADED{RST} {W_GHOST}· {failed} DARK{RST}")
print(
f" {G_DIM}>{RST} {G_MID}{linked} TEXTS LOADED{RST} {W_GHOST}· {failed} DARK{RST}"
)
print(f" {G_DIM}>{RST} {G_MID}{len(items)} STANZAS ACQUIRED{RST}")
save_cache(items)
else:
@@ -280,7 +918,9 @@ def main():
print()
items, linked, failed = fetch_all()
print()
print(f" {G_DIM}>{RST} {G_MID}{linked} SOURCES LINKED{RST} {W_GHOST}· {failed} DARK{RST}")
print(
f" {G_DIM}>{RST} {G_MID}{linked} SOURCES LINKED{RST} {W_GHOST}· {failed} DARK{RST}"
)
print(f" {G_DIM}>{RST} {G_MID}{len(items)} SIGNALS ACQUIRED{RST}")
save_cache(items)
@@ -289,17 +929,18 @@ def main():
sys.exit(1)
print()
mic = MicMonitor(threshold_db=config.MIC_THRESHOLD_DB)
mic_ok = mic.start()
if mic.available:
boot_ln("Microphone", "ACTIVE" if mic_ok else "OFFLINE · check System Settings → Privacy → Microphone", bool(mic_ok))
controller = StreamController()
mic_ok, ntfy_ok = controller.initialize_sources()
if controller.mic and controller.mic.available:
boot_ln(
"Microphone",
"ACTIVE"
if mic_ok
else "OFFLINE · check System Settings → Privacy → Microphone",
bool(mic_ok),
)
ntfy = NtfyPoller(
config.NTFY_TOPIC,
poll_interval=config.NTFY_POLL_INTERVAL,
display_secs=config.MESSAGE_DISPLAY_SECS,
)
ntfy_ok = ntfy.start()
boot_ln("ntfy", "LISTENING" if ntfy_ok else "OFFLINE", ntfy_ok)
if config.FIREHOSE:
@@ -312,10 +953,135 @@ def main():
print()
time.sleep(0.4)
stream(items, ntfy, mic)
controller.run(items)
print()
print(f" {W_GHOST}{'' * (tw() - 4)}{RST}")
print(f" {G_DIM}> {config.HEADLINE_LIMIT} SIGNALS PROCESSED{RST}")
print(f" {W_GHOST}> end of stream{RST}")
print()
def run_pipeline_mode(preset_name: str = "demo"):
"""Run using the new unified pipeline architecture."""
import effects_plugins
from engine.display import DisplayRegistry
from engine.effects import get_registry
from engine.fetch import fetch_all, fetch_poetry, load_cache
from engine.pipeline import (
Pipeline,
PipelineConfig,
get_preset,
)
from engine.pipeline.adapters import (
RenderStage,
create_items_stage,
create_stage_from_display,
create_stage_from_effect,
)
print(" \033[1;38;5;46mPIPELINE MODE\033[0m")
print(" \033[38;5;245mUsing unified pipeline architecture\033[0m")
effects_plugins.discover_plugins()
preset = get_preset(preset_name)
if not preset:
print(f" \033[38;5;196mUnknown preset: {preset_name}\033[0m")
sys.exit(1)
print(f" \033[38;5;245mPreset: {preset.name} - {preset.description}\033[0m")
params = preset.to_params()
params.viewport_width = 80
params.viewport_height = 24
pipeline = Pipeline(
config=PipelineConfig(
source=preset.source,
display=preset.display,
camera=preset.camera,
effects=preset.effects,
)
)
print(" \033[38;5;245mFetching content...\033[0m")
cached = load_cache()
if cached:
items = cached
elif preset.source == "poetry":
items, _, _ = fetch_poetry()
else:
items, _, _ = fetch_all()
if not items:
print(" \033[38;5;196mNo content available\033[0m")
sys.exit(1)
print(f" \033[38;5;82mLoaded {len(items)} items\033[0m")
display = DisplayRegistry.create(preset.display)
if not display:
print(f" \033[38;5;196mFailed to create display: {preset.display}\033[0m")
sys.exit(1)
display.init(80, 24)
effect_registry = get_registry()
pipeline.add_stage("source", create_items_stage(items, preset.source))
pipeline.add_stage(
"render",
RenderStage(
items,
width=80,
height=24,
camera_speed=params.camera_speed,
camera_mode=preset.camera,
firehose_enabled=params.firehose_enabled,
),
)
for effect_name in preset.effects:
effect = effect_registry.get(effect_name)
if effect:
pipeline.add_stage(
f"effect_{effect_name}", create_stage_from_effect(effect, effect_name)
)
pipeline.add_stage("display", create_stage_from_display(display, preset.display))
pipeline.build()
if not pipeline.initialize():
print(" \033[38;5;196mFailed to initialize pipeline\033[0m")
sys.exit(1)
print(" \033[38;5;82mStarting pipeline...\033[0m")
print(" \033[38;5;245mPress Ctrl+C to exit\033[0m\n")
ctx = pipeline.context
ctx.params = params
ctx.set("display", display)
ctx.set("items", items)
ctx.set("pipeline", pipeline)
try:
frame = 0
while True:
params.frame_number = frame
ctx.params = params
result = pipeline.execute(items)
if result.success:
display.show(result.data)
time.sleep(1 / 60)
frame += 1
except KeyboardInterrupt:
pass
finally:
pipeline.cleanup()
display.cleanup()
print("\n \033[38;5;245mPipeline stopped\033[0m")

4107
engine/beautiful_mermaid.py Normal file
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730
engine/benchmark.py Normal file
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@@ -0,0 +1,730 @@
#!/usr/bin/env python3
"""
Benchmark runner for mainline - tests performance across effects and displays.
Usage:
python -m engine.benchmark
python -m engine.benchmark --output report.md
python -m engine.benchmark --displays terminal,websocket --effects glitch,fade
python -m engine.benchmark --format json --output benchmark.json
Headless mode (default): suppress all terminal output during benchmarks.
"""
import argparse
import json
import sys
import time
from dataclasses import dataclass, field
from datetime import datetime
from io import StringIO
from pathlib import Path
from typing import Any
import numpy as np
@dataclass
class BenchmarkResult:
"""Result of a single benchmark run."""
name: str
display: str
effect: str | None
iterations: int
total_time_ms: float
avg_time_ms: float
std_dev_ms: float
min_ms: float
max_ms: float
fps: float
chars_processed: int
chars_per_sec: float
@dataclass
class BenchmarkReport:
"""Complete benchmark report."""
timestamp: str
python_version: str
results: list[BenchmarkResult] = field(default_factory=list)
summary: dict[str, Any] = field(default_factory=dict)
def get_sample_buffer(width: int = 80, height: int = 24) -> list[str]:
"""Generate a sample buffer for benchmarking."""
lines = []
for i in range(height):
line = f"\x1b[32mLine {i}\x1b[0m " + "A" * (width - 10)
lines.append(line)
return lines
def benchmark_display(
display_class,
buffer: list[str],
iterations: int = 100,
display=None,
reuse: bool = False,
) -> BenchmarkResult | None:
"""Benchmark a single display.
Args:
display_class: Display class to instantiate
buffer: Buffer to display
iterations: Number of iterations
display: Optional existing display instance to reuse
reuse: If True and display provided, use reuse mode
"""
old_stdout = sys.stdout
old_stderr = sys.stderr
try:
sys.stdout = StringIO()
sys.stderr = StringIO()
if display is None:
display = display_class()
display.init(80, 24, reuse=False)
should_cleanup = True
else:
should_cleanup = False
times = []
chars = sum(len(line) for line in buffer)
for _ in range(iterations):
t0 = time.perf_counter()
display.show(buffer)
elapsed = (time.perf_counter() - t0) * 1000
times.append(elapsed)
if should_cleanup and hasattr(display, "cleanup"):
display.cleanup(quit_pygame=False)
except Exception:
return None
finally:
sys.stdout = old_stdout
sys.stderr = old_stderr
times_arr = np.array(times)
return BenchmarkResult(
name=f"display_{display_class.__name__}",
display=display_class.__name__,
effect=None,
iterations=iterations,
total_time_ms=sum(times),
avg_time_ms=float(np.mean(times_arr)),
std_dev_ms=float(np.std(times_arr)),
min_ms=float(np.min(times_arr)),
max_ms=float(np.max(times_arr)),
fps=float(1000.0 / np.mean(times_arr)) if np.mean(times_arr) > 0 else 0.0,
chars_processed=chars * iterations,
chars_per_sec=float((chars * iterations) / (sum(times) / 1000))
if sum(times) > 0
else 0.0,
)
def benchmark_effect_with_display(
effect_class, display, buffer: list[str], iterations: int = 100, reuse: bool = False
) -> BenchmarkResult | None:
"""Benchmark an effect with a display.
Args:
effect_class: Effect class to instantiate
display: Display instance to use
buffer: Buffer to process and display
iterations: Number of iterations
reuse: If True, use reuse mode for display
"""
old_stdout = sys.stdout
old_stderr = sys.stderr
try:
from engine.effects.types import EffectConfig, EffectContext
sys.stdout = StringIO()
sys.stderr = StringIO()
effect = effect_class()
effect.configure(EffectConfig(enabled=True, intensity=1.0))
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=0,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
)
times = []
chars = sum(len(line) for line in buffer)
for _ in range(iterations):
processed = effect.process(buffer, ctx)
t0 = time.perf_counter()
display.show(processed)
elapsed = (time.perf_counter() - t0) * 1000
times.append(elapsed)
if not reuse and hasattr(display, "cleanup"):
display.cleanup(quit_pygame=False)
except Exception:
return None
finally:
sys.stdout = old_stdout
sys.stderr = old_stderr
times_arr = np.array(times)
return BenchmarkResult(
name=f"effect_{effect_class.__name__}_with_{display.__class__.__name__}",
display=display.__class__.__name__,
effect=effect_class.__name__,
iterations=iterations,
total_time_ms=sum(times),
avg_time_ms=float(np.mean(times_arr)),
std_dev_ms=float(np.std(times_arr)),
min_ms=float(np.min(times_arr)),
max_ms=float(np.max(times_arr)),
fps=float(1000.0 / np.mean(times_arr)) if np.mean(times_arr) > 0 else 0.0,
chars_processed=chars * iterations,
chars_per_sec=float((chars * iterations) / (sum(times) / 1000))
if sum(times) > 0
else 0.0,
)
def get_available_displays():
"""Get available display classes."""
from engine.display import (
DisplayRegistry,
NullDisplay,
TerminalDisplay,
)
DisplayRegistry.initialize()
displays = [
("null", NullDisplay),
("terminal", TerminalDisplay),
]
try:
from engine.display.backends.websocket import WebSocketDisplay
displays.append(("websocket", WebSocketDisplay))
except Exception:
pass
try:
from engine.display.backends.sixel import SixelDisplay
displays.append(("sixel", SixelDisplay))
except Exception:
pass
try:
from engine.display.backends.pygame import PygameDisplay
displays.append(("pygame", PygameDisplay))
except Exception:
pass
return displays
def get_available_effects():
"""Get available effect classes."""
try:
from engine.effects import get_registry
try:
from effects_plugins import discover_plugins
discover_plugins()
except Exception:
pass
except Exception:
return []
effects = []
registry = get_registry()
for name, effect in registry.list_all().items():
if effect:
effect_cls = type(effect)
effects.append((name, effect_cls))
return effects
def run_benchmarks(
displays: list[tuple[str, Any]] | None = None,
effects: list[tuple[str, Any]] | None = None,
iterations: int = 100,
verbose: bool = False,
) -> BenchmarkReport:
"""Run all benchmarks and return report."""
from datetime import datetime
if displays is None:
displays = get_available_displays()
if effects is None:
effects = get_available_effects()
buffer = get_sample_buffer(80, 24)
results = []
if verbose:
print(f"Running benchmarks ({iterations} iterations each)...")
pygame_display = None
for name, display_class in displays:
if verbose:
print(f"Benchmarking display: {name}")
result = benchmark_display(display_class, buffer, iterations)
if result:
results.append(result)
if verbose:
print(f" {result.fps:.1f} FPS, {result.avg_time_ms:.2f}ms avg")
if name == "pygame":
pygame_display = result
if verbose:
print()
pygame_instance = None
if pygame_display:
try:
from engine.display.backends.pygame import PygameDisplay
PygameDisplay.reset_state()
pygame_instance = PygameDisplay()
pygame_instance.init(80, 24, reuse=False)
except Exception:
pygame_instance = None
for effect_name, effect_class in effects:
for display_name, display_class in displays:
if display_name == "websocket":
continue
if display_name == "pygame":
if verbose:
print(f"Benchmarking effect: {effect_name} with {display_name}")
if pygame_instance:
result = benchmark_effect_with_display(
effect_class, pygame_instance, buffer, iterations, reuse=True
)
if result:
results.append(result)
if verbose:
print(
f" {result.fps:.1f} FPS, {result.avg_time_ms:.2f}ms avg"
)
continue
if verbose:
print(f"Benchmarking effect: {effect_name} with {display_name}")
display = display_class()
display.init(80, 24)
result = benchmark_effect_with_display(
effect_class, display, buffer, iterations
)
if result:
results.append(result)
if verbose:
print(f" {result.fps:.1f} FPS, {result.avg_time_ms:.2f}ms avg")
if pygame_instance:
try:
pygame_instance.cleanup(quit_pygame=True)
except Exception:
pass
summary = generate_summary(results)
return BenchmarkReport(
timestamp=datetime.now().isoformat(),
python_version=sys.version,
results=results,
summary=summary,
)
def generate_summary(results: list[BenchmarkResult]) -> dict[str, Any]:
"""Generate summary statistics from results."""
by_display: dict[str, list[BenchmarkResult]] = {}
by_effect: dict[str, list[BenchmarkResult]] = {}
for r in results:
if r.display not in by_display:
by_display[r.display] = []
by_display[r.display].append(r)
if r.effect:
if r.effect not in by_effect:
by_effect[r.effect] = []
by_effect[r.effect].append(r)
summary = {
"by_display": {},
"by_effect": {},
"overall": {
"total_tests": len(results),
"displays_tested": len(by_display),
"effects_tested": len(by_effect),
},
}
for display, res in by_display.items():
fps_values = [r.fps for r in res]
summary["by_display"][display] = {
"avg_fps": float(np.mean(fps_values)),
"min_fps": float(np.min(fps_values)),
"max_fps": float(np.max(fps_values)),
"tests": len(res),
}
for effect, res in by_effect.items():
fps_values = [r.fps for r in res]
summary["by_effect"][effect] = {
"avg_fps": float(np.mean(fps_values)),
"min_fps": float(np.min(fps_values)),
"max_fps": float(np.max(fps_values)),
"tests": len(res),
}
return summary
DEFAULT_CACHE_PATH = Path.home() / ".mainline_benchmark_cache.json"
def load_baseline(cache_path: Path | None = None) -> dict[str, Any] | None:
"""Load baseline benchmark results from cache."""
path = cache_path or DEFAULT_CACHE_PATH
if not path.exists():
return None
try:
with open(path) as f:
return json.load(f)
except Exception:
return None
def save_baseline(
results: list[BenchmarkResult],
cache_path: Path | None = None,
) -> None:
"""Save benchmark results as baseline to cache."""
path = cache_path or DEFAULT_CACHE_PATH
baseline = {
"timestamp": datetime.now().isoformat(),
"results": {
r.name: {
"fps": r.fps,
"avg_time_ms": r.avg_time_ms,
"chars_per_sec": r.chars_per_sec,
}
for r in results
},
}
path.parent.mkdir(parents=True, exist_ok=True)
with open(path, "w") as f:
json.dump(baseline, f, indent=2)
def compare_with_baseline(
results: list[BenchmarkResult],
baseline: dict[str, Any],
threshold: float = 0.2,
verbose: bool = True,
) -> tuple[bool, list[str]]:
"""Compare current results with baseline. Returns (pass, messages)."""
baseline_results = baseline.get("results", {})
failures = []
warnings = []
for r in results:
if r.name not in baseline_results:
warnings.append(f"New test: {r.name} (no baseline)")
continue
b = baseline_results[r.name]
if b["fps"] == 0:
continue
degradation = (b["fps"] - r.fps) / b["fps"]
if degradation > threshold:
failures.append(
f"{r.name}: FPS degraded {degradation * 100:.1f}% "
f"(baseline: {b['fps']:.1f}, current: {r.fps:.1f})"
)
elif verbose:
print(f" {r.name}: {r.fps:.1f} FPS (baseline: {b['fps']:.1f})")
passed = len(failures) == 0
messages = []
if failures:
messages.extend(failures)
if warnings:
messages.extend(warnings)
return passed, messages
def run_hook_mode(
displays: list[tuple[str, Any]] | None = None,
effects: list[tuple[str, Any]] | None = None,
iterations: int = 20,
threshold: float = 0.2,
cache_path: Path | None = None,
verbose: bool = False,
) -> int:
"""Run in hook mode: compare against baseline, exit 0 on pass, 1 on fail."""
baseline = load_baseline(cache_path)
if baseline is None:
print("No baseline found. Run with --baseline to create one.")
return 1
report = run_benchmarks(displays, effects, iterations, verbose)
passed, messages = compare_with_baseline(
report.results, baseline, threshold, verbose
)
print("\n=== Benchmark Hook Results ===")
if passed:
print("PASSED - No significant performance degradation")
return 0
else:
print("FAILED - Performance degradation detected:")
for msg in messages:
print(f" - {msg}")
return 1
def format_report_text(report: BenchmarkReport) -> str:
"""Format report as human-readable text."""
lines = [
"# Mainline Performance Benchmark Report",
"",
f"Generated: {report.timestamp}",
f"Python: {report.python_version}",
"",
"## Summary",
"",
f"Total tests: {report.summary['overall']['total_tests']}",
f"Displays tested: {report.summary['overall']['displays_tested']}",
f"Effects tested: {report.summary['overall']['effects_tested']}",
"",
"## By Display",
"",
]
for display, stats in report.summary["by_display"].items():
lines.append(f"### {display}")
lines.append(f"- Avg FPS: {stats['avg_fps']:.1f}")
lines.append(f"- Min FPS: {stats['min_fps']:.1f}")
lines.append(f"- Max FPS: {stats['max_fps']:.1f}")
lines.append(f"- Tests: {stats['tests']}")
lines.append("")
if report.summary["by_effect"]:
lines.append("## By Effect")
lines.append("")
for effect, stats in report.summary["by_effect"].items():
lines.append(f"### {effect}")
lines.append(f"- Avg FPS: {stats['avg_fps']:.1f}")
lines.append(f"- Min FPS: {stats['min_fps']:.1f}")
lines.append(f"- Max FPS: {stats['max_fps']:.1f}")
lines.append(f"- Tests: {stats['tests']}")
lines.append("")
lines.append("## Detailed Results")
lines.append("")
lines.append("| Display | Effect | FPS | Avg ms | StdDev ms | Min ms | Max ms |")
lines.append("|---------|--------|-----|--------|-----------|--------|--------|")
for r in report.results:
effect_col = r.effect if r.effect else "-"
lines.append(
f"| {r.display} | {effect_col} | {r.fps:.1f} | {r.avg_time_ms:.2f} | "
f"{r.std_dev_ms:.2f} | {r.min_ms:.2f} | {r.max_ms:.2f} |"
)
return "\n".join(lines)
def format_report_json(report: BenchmarkReport) -> str:
"""Format report as JSON."""
data = {
"timestamp": report.timestamp,
"python_version": report.python_version,
"summary": report.summary,
"results": [
{
"name": r.name,
"display": r.display,
"effect": r.effect,
"iterations": r.iterations,
"total_time_ms": r.total_time_ms,
"avg_time_ms": r.avg_time_ms,
"std_dev_ms": r.std_dev_ms,
"min_ms": r.min_ms,
"max_ms": r.max_ms,
"fps": r.fps,
"chars_processed": r.chars_processed,
"chars_per_sec": r.chars_per_sec,
}
for r in report.results
],
}
return json.dumps(data, indent=2)
def main():
parser = argparse.ArgumentParser(description="Run mainline benchmarks")
parser.add_argument(
"--displays",
help="Comma-separated list of displays to test (default: all)",
)
parser.add_argument(
"--effects",
help="Comma-separated list of effects to test (default: all)",
)
parser.add_argument(
"--iterations",
type=int,
default=100,
help="Number of iterations per test (default: 100)",
)
parser.add_argument(
"--output",
help="Output file path (default: stdout)",
)
parser.add_argument(
"--format",
choices=["text", "json"],
default="text",
help="Output format (default: text)",
)
parser.add_argument(
"--verbose",
"-v",
action="store_true",
help="Show progress during benchmarking",
)
parser.add_argument(
"--hook",
action="store_true",
help="Run in hook mode: compare against baseline, exit 0 pass, 1 fail",
)
parser.add_argument(
"--baseline",
action="store_true",
help="Save current results as baseline for future hook comparisons",
)
parser.add_argument(
"--threshold",
type=float,
default=0.2,
help="Performance degradation threshold for hook mode (default: 0.2 = 20%%)",
)
parser.add_argument(
"--cache",
type=str,
default=None,
help="Path to baseline cache file (default: ~/.mainline_benchmark_cache.json)",
)
args = parser.parse_args()
cache_path = Path(args.cache) if args.cache else DEFAULT_CACHE_PATH
if args.hook:
displays = None
if args.displays:
display_map = dict(get_available_displays())
displays = [
(name, display_map[name])
for name in args.displays.split(",")
if name in display_map
]
effects = None
if args.effects:
effect_map = dict(get_available_effects())
effects = [
(name, effect_map[name])
for name in args.effects.split(",")
if name in effect_map
]
return run_hook_mode(
displays,
effects,
iterations=args.iterations,
threshold=args.threshold,
cache_path=cache_path,
verbose=args.verbose,
)
displays = None
if args.displays:
display_map = dict(get_available_displays())
displays = [
(name, display_map[name])
for name in args.displays.split(",")
if name in display_map
]
effects = None
if args.effects:
effect_map = dict(get_available_effects())
effects = [
(name, effect_map[name])
for name in args.effects.split(",")
if name in effect_map
]
report = run_benchmarks(displays, effects, args.iterations, args.verbose)
if args.baseline:
save_baseline(report.results, cache_path)
print(f"Baseline saved to {cache_path}")
return 0
if args.format == "json":
output = format_report_json(report)
else:
output = format_report_text(report)
if args.output:
with open(args.output, "w") as f:
f.write(output)
else:
print(output)
return 0
if __name__ == "__main__":
sys.exit(main())

109
engine/camera.py Normal file
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@@ -0,0 +1,109 @@
"""
Camera system for viewport scrolling.
Provides abstraction for camera motion in different modes:
- Vertical: traditional upward scroll
- Horizontal: left/right movement
- Omni: combination of both
- Floating: sinusoidal/bobbing motion
"""
import math
from collections.abc import Callable
from dataclasses import dataclass, field
from enum import Enum, auto
class CameraMode(Enum):
VERTICAL = auto()
HORIZONTAL = auto()
OMNI = auto()
FLOATING = auto()
@dataclass
class Camera:
"""Camera for viewport scrolling.
Attributes:
x: Current horizontal offset (positive = scroll left)
y: Current vertical offset (positive = scroll up)
mode: Current camera mode
speed: Base scroll speed
custom_update: Optional custom update function
"""
x: int = 0
y: int = 0
mode: CameraMode = CameraMode.VERTICAL
speed: float = 1.0
custom_update: Callable[["Camera", float], None] | None = None
_time: float = field(default=0.0, repr=False)
def update(self, dt: float) -> None:
"""Update camera position based on mode.
Args:
dt: Delta time in seconds
"""
self._time += dt
if self.custom_update:
self.custom_update(self, dt)
return
if self.mode == CameraMode.VERTICAL:
self._update_vertical(dt)
elif self.mode == CameraMode.HORIZONTAL:
self._update_horizontal(dt)
elif self.mode == CameraMode.OMNI:
self._update_omni(dt)
elif self.mode == CameraMode.FLOATING:
self._update_floating(dt)
def _update_vertical(self, dt: float) -> None:
self.y += int(self.speed * dt * 60)
def _update_horizontal(self, dt: float) -> None:
self.x += int(self.speed * dt * 60)
def _update_omni(self, dt: float) -> None:
speed = self.speed * dt * 60
self.y += int(speed)
self.x += int(speed * 0.5)
def _update_floating(self, dt: float) -> None:
base = self.speed * 30
self.y = int(math.sin(self._time * 2) * base)
self.x = int(math.cos(self._time * 1.5) * base * 0.5)
def reset(self) -> None:
"""Reset camera position."""
self.x = 0
self.y = 0
self._time = 0.0
@classmethod
def vertical(cls, speed: float = 1.0) -> "Camera":
"""Create a vertical scrolling camera."""
return cls(mode=CameraMode.VERTICAL, speed=speed)
@classmethod
def horizontal(cls, speed: float = 1.0) -> "Camera":
"""Create a horizontal scrolling camera."""
return cls(mode=CameraMode.HORIZONTAL, speed=speed)
@classmethod
def omni(cls, speed: float = 1.0) -> "Camera":
"""Create an omnidirectional scrolling camera."""
return cls(mode=CameraMode.OMNI, speed=speed)
@classmethod
def floating(cls, speed: float = 1.0) -> "Camera":
"""Create a floating/bobbing camera."""
return cls(mode=CameraMode.FLOATING, speed=speed)
@classmethod
def custom(cls, update_fn: Callable[["Camera", float], None]) -> "Camera":
"""Create a camera with custom update function."""
return cls(custom_update=update_fn)

212
engine/config.py
View File

@@ -1,25 +1,28 @@
"""
Configuration constants, CLI flags, and glyph tables.
Supports both global constants (backward compatible) and injected config for testing.
"""
import sys
from dataclasses import dataclass, field
from pathlib import Path
_REPO_ROOT = Path(__file__).resolve().parent.parent
_FONT_EXTENSIONS = {".otf", ".ttf", ".ttc"}
def _arg_value(flag):
def _arg_value(flag, argv: list[str] | None = None):
"""Get value following a CLI flag, if present."""
if flag not in sys.argv:
argv = argv or sys.argv
if flag not in argv:
return None
i = sys.argv.index(flag)
return sys.argv[i + 1] if i + 1 < len(sys.argv) else None
i = argv.index(flag)
return argv[i + 1] if i + 1 < len(argv) else None
def _arg_int(flag, default):
def _arg_int(flag, default, argv: list[str] | None = None):
"""Get int CLI argument with safe fallback."""
raw = _arg_value(flag)
raw = _arg_value(flag, argv)
if raw is None:
return default
try:
@@ -51,45 +54,208 @@ def _list_font_files(font_dir):
def list_repo_font_files():
"""Public helper for discovering repository font files."""
return _list_font_files(FONT_DIR)
def _get_platform_font_paths() -> dict[str, str]:
"""Get platform-appropriate font paths for non-Latin scripts."""
import platform
system = platform.system()
if system == "Darwin":
return {
"zh-cn": "/System/Library/Fonts/STHeiti Medium.ttc",
"ja": "/System/Library/Fonts/ヒラギノ角ゴシック W9.ttc",
"ko": "/System/Library/Fonts/AppleSDGothicNeo.ttc",
"ru": "/System/Library/Fonts/Supplemental/Arial.ttf",
"uk": "/System/Library/Fonts/Supplemental/Arial.ttf",
"el": "/System/Library/Fonts/Supplemental/Arial.ttf",
"he": "/System/Library/Fonts/Supplemental/Arial.ttf",
"ar": "/System/Library/Fonts/GeezaPro.ttc",
"fa": "/System/Library/Fonts/GeezaPro.ttc",
"hi": "/System/Library/Fonts/Kohinoor.ttc",
"th": "/System/Library/Fonts/ThonburiUI.ttc",
}
elif system == "Linux":
return {
"zh-cn": "/usr/share/fonts/truetype/noto/NotoSansCJK-Regular.ttc",
"ja": "/usr/share/fonts/truetype/noto/NotoSansCJK-Regular.ttc",
"ko": "/usr/share/fonts/truetype/noto/NotoSansCJK-Regular.ttc",
"ru": "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
"uk": "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
"el": "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
"he": "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
"ar": "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
"fa": "/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf",
"hi": "/usr/share/fonts/truetype/noto/NotoSansDevanagari-Regular.ttf",
"th": "/usr/share/fonts/truetype/noto/NotoSansThai-Regular.ttf",
}
else:
return {}
@dataclass(frozen=True)
class Config:
"""Immutable configuration container for injected config."""
headline_limit: int = 1000
feed_timeout: int = 10
mic_threshold_db: int = 50
mode: str = "news"
firehose: bool = False
ntfy_topic: str = "https://ntfy.sh/klubhaus_terminal_mainline/json"
ntfy_cc_cmd_topic: str = "https://ntfy.sh/klubhaus_terminal_mainline_cc_cmd/json"
ntfy_cc_resp_topic: str = "https://ntfy.sh/klubhaus_terminal_mainline_cc_resp/json"
ntfy_reconnect_delay: int = 5
message_display_secs: int = 30
font_dir: str = "fonts"
font_path: str = ""
font_index: int = 0
font_picker: bool = True
font_sz: int = 60
render_h: int = 8
ssaa: int = 4
scroll_dur: float = 5.625
frame_dt: float = 0.05
firehose_h: int = 12
grad_speed: float = 0.08
glitch_glyphs: str = "░▒▓█▌▐╌╍╎╏┃┆┇┊┋"
kata_glyphs: str = "ハミヒーウシナモニサワツオリアホテマケメエカキムユラセネスタヌヘ"
script_fonts: dict[str, str] = field(default_factory=_get_platform_font_paths)
display: str = "pygame"
websocket: bool = False
websocket_port: int = 8765
@classmethod
def from_args(cls, argv: list[str] | None = None) -> "Config":
"""Create Config from CLI arguments (or custom argv for testing)."""
argv = argv or sys.argv
font_dir = _resolve_font_path(_arg_value("--font-dir", argv) or "fonts")
font_file_arg = _arg_value("--font-file", argv)
font_files = _list_font_files(font_dir)
font_path = (
_resolve_font_path(font_file_arg)
if font_file_arg
else (font_files[0] if font_files else "")
)
return cls(
headline_limit=1000,
feed_timeout=10,
mic_threshold_db=50,
mode="poetry" if "--poetry" in argv or "-p" in argv else "news",
firehose="--firehose" in argv,
ntfy_topic="https://ntfy.sh/klubhaus_terminal_mainline/json",
ntfy_cc_cmd_topic="https://ntfy.sh/klubhaus_terminal_mainline_cc_cmd/json",
ntfy_cc_resp_topic="https://ntfy.sh/klubhaus_terminal_mainline_cc_resp/json",
ntfy_reconnect_delay=5,
message_display_secs=30,
font_dir=font_dir,
font_path=font_path,
font_index=max(0, _arg_int("--font-index", 0, argv)),
font_picker="--no-font-picker" not in argv,
font_sz=60,
render_h=8,
ssaa=4,
scroll_dur=5.625,
frame_dt=0.05,
firehose_h=12,
grad_speed=0.08,
glitch_glyphs="░▒▓█▌▐╌╍╎╏┃┆┇┊┋",
kata_glyphs="ハミヒーウシナモニサワツオリアホテマケメエカキムユラセネスタヌヘ",
script_fonts=_get_platform_font_paths(),
display=_arg_value("--display", argv) or "terminal",
websocket="--websocket" in argv,
websocket_port=_arg_int("--websocket-port", 8765, argv),
)
_config: Config | None = None
def get_config() -> Config:
"""Get the global config instance (lazy-loaded)."""
global _config
if _config is None:
_config = Config.from_args()
return _config
def set_config(config: Config) -> None:
"""Set the global config instance (for testing)."""
global _config
_config = config
# ─── RUNTIME ──────────────────────────────────────────────
HEADLINE_LIMIT = 1000
FEED_TIMEOUT = 10
MIC_THRESHOLD_DB = 50 # dB above which glitches intensify
MODE = 'poetry' if '--poetry' in sys.argv or '-p' in sys.argv else 'news'
FIREHOSE = '--firehose' in sys.argv
MIC_THRESHOLD_DB = 50 # dB above which glitches intensify
MODE = "poetry" if "--poetry" in sys.argv or "-p" in sys.argv else "news"
FIREHOSE = "--firehose" in sys.argv
# ─── NTFY MESSAGE QUEUE ──────────────────────────────────
NTFY_TOPIC = "https://ntfy.sh/klubhaus_terminal_mainline/json?since=20s&poll=1"
NTFY_POLL_INTERVAL = 15 # seconds between polls
MESSAGE_DISPLAY_SECS = 30 # how long a message holds the screen
NTFY_TOPIC = "https://ntfy.sh/klubhaus_terminal_mainline/json"
NTFY_CC_CMD_TOPIC = "https://ntfy.sh/klubhaus_terminal_mainline_cc_cmd/json"
NTFY_CC_RESP_TOPIC = "https://ntfy.sh/klubhaus_terminal_mainline_cc_resp/json"
NTFY_RECONNECT_DELAY = 5 # seconds before reconnecting after a dropped stream
MESSAGE_DISPLAY_SECS = 30 # how long a message holds the screen
# ─── FONT RENDERING ──────────────────────────────────────
FONT_DIR = _resolve_font_path(_arg_value('--font-dir') or "fonts")
_FONT_FILE_ARG = _arg_value('--font-file')
FONT_DIR = _resolve_font_path(_arg_value("--font-dir") or "fonts")
_FONT_FILE_ARG = _arg_value("--font-file")
_FONT_FILES = _list_font_files(FONT_DIR)
FONT_PATH = (
_resolve_font_path(_FONT_FILE_ARG)
if _FONT_FILE_ARG
else (_FONT_FILES[0] if _FONT_FILES else "")
)
FONT_INDEX = max(0, _arg_int('--font-index', 0))
FONT_PICKER = '--no-font-picker' not in sys.argv
FONT_INDEX = max(0, _arg_int("--font-index", 0))
FONT_PICKER = "--no-font-picker" not in sys.argv
FONT_SZ = 60
RENDER_H = 8 # terminal rows per rendered text line
RENDER_H = 8 # terminal rows per rendered text line
# ─── FONT RENDERING (ADVANCED) ────────────────────────────
SSAA = 4 # super-sampling factor: render at SSAA× then downsample
SSAA = 4 # super-sampling factor: render at SSAA× then downsample
# ─── SCROLL / FRAME ──────────────────────────────────────
SCROLL_DUR = 5.625 # seconds per headline (2/3 original speed)
FRAME_DT = 0.05 # 50ms base frame rate (20 FPS)
FIREHOSE_H = 12 # firehose zone height (terminal rows)
GRAD_SPEED = 0.08 # gradient traversal speed (cycles/sec, ~12s full sweep)
SCROLL_DUR = 5.625 # seconds per headline (2/3 original speed)
FRAME_DT = 0.05 # 50ms base frame rate (20 FPS)
FIREHOSE_H = 12 # firehose zone height (terminal rows)
GRAD_SPEED = 0.08 # gradient traversal speed (cycles/sec, ~12s full sweep)
# ─── GLYPHS ───────────────────────────────────────────────
GLITCH = "░▒▓█▌▐╌╍╎╏┃┆┇┊┋"
KATA = "ハミヒーウシナモニサワツオリアホテマケメエカキムユラセネスタヌヘ"
# ─── WEBSOCKET ─────────────────────────────────────────────
DISPLAY = _arg_value("--display", sys.argv) or "pygame"
WEBSOCKET = "--websocket" in sys.argv
WEBSOCKET_PORT = _arg_int("--websocket-port", 8765)
# ─── DEMO MODE ────────────────────────────────────────────
DEMO = "--demo" in sys.argv
DEMO_EFFECT_DURATION = 5.0 # seconds per effect
PIPELINE_DEMO = "--pipeline-demo" in sys.argv
# ─── PIPELINE MODE (new unified architecture) ─────────────
PIPELINE_MODE = "--pipeline" in sys.argv
PIPELINE_PRESET = _arg_value("--pipeline-preset", sys.argv) or "demo"
# ─── PRESET MODE ────────────────────────────────────────────
PRESET = _arg_value("--preset", sys.argv)
# ─── PIPELINE DIAGRAM ────────────────────────────────────
PIPELINE_DIAGRAM = "--pipeline-diagram" in sys.argv
def set_font_selection(font_path=None, font_index=None):
"""Set runtime primary font selection."""

181
engine/controller.py Normal file
View File

@@ -0,0 +1,181 @@
"""
Stream controller - manages input sources and orchestrates the render stream.
"""
from engine.config import Config, get_config
from engine.display import (
DisplayRegistry,
KittyDisplay,
MultiDisplay,
NullDisplay,
PygameDisplay,
SixelDisplay,
TerminalDisplay,
WebSocketDisplay,
)
from engine.effects.controller import handle_effects_command
from engine.eventbus import EventBus
from engine.events import EventType, StreamEvent
from engine.mic import MicMonitor
from engine.ntfy import NtfyPoller
from engine.scroll import stream
def _get_display(config: Config):
"""Get the appropriate display based on config."""
DisplayRegistry.initialize()
display_mode = config.display.lower()
displays = []
if display_mode in ("terminal", "both"):
displays.append(TerminalDisplay())
if display_mode in ("websocket", "both"):
ws = WebSocketDisplay(host="0.0.0.0", port=config.websocket_port)
ws.start_server()
ws.start_http_server()
displays.append(ws)
if display_mode == "sixel":
displays.append(SixelDisplay())
if display_mode == "kitty":
displays.append(KittyDisplay())
if display_mode == "pygame":
displays.append(PygameDisplay())
if not displays:
return NullDisplay()
if len(displays) == 1:
return displays[0]
return MultiDisplay(displays)
class StreamController:
"""Controls the stream lifecycle - initializes sources and runs the stream."""
_topics_warmed = False
def __init__(self, config: Config | None = None, event_bus: EventBus | None = None):
self.config = config or get_config()
self.event_bus = event_bus
self.mic: MicMonitor | None = None
self.ntfy: NtfyPoller | None = None
self.ntfy_cc: NtfyPoller | None = None
@classmethod
def warmup_topics(cls) -> None:
"""Warm up ntfy topics lazily (creates them if they don't exist)."""
if cls._topics_warmed:
return
import urllib.request
topics = [
"https://ntfy.sh/klubhaus_terminal_mainline_cc_cmd",
"https://ntfy.sh/klubhaus_terminal_mainline_cc_resp",
"https://ntfy.sh/klubhaus_terminal_mainline",
]
for topic in topics:
try:
req = urllib.request.Request(
topic,
data=b"init",
headers={
"User-Agent": "mainline/0.1",
"Content-Type": "text/plain",
},
method="POST",
)
urllib.request.urlopen(req, timeout=5)
except Exception:
pass
cls._topics_warmed = True
def initialize_sources(self) -> tuple[bool, bool]:
"""Initialize microphone and ntfy sources.
Returns:
(mic_ok, ntfy_ok) - success status for each source
"""
self.mic = MicMonitor(threshold_db=self.config.mic_threshold_db)
mic_ok = self.mic.start() if self.mic.available else False
self.ntfy = NtfyPoller(
self.config.ntfy_topic,
reconnect_delay=self.config.ntfy_reconnect_delay,
display_secs=self.config.message_display_secs,
)
ntfy_ok = self.ntfy.start()
self.ntfy_cc = NtfyPoller(
self.config.ntfy_cc_cmd_topic,
reconnect_delay=self.config.ntfy_reconnect_delay,
display_secs=5,
)
self.ntfy_cc.subscribe(self._handle_cc_message)
ntfy_cc_ok = self.ntfy_cc.start()
return bool(mic_ok), ntfy_ok and ntfy_cc_ok
def _handle_cc_message(self, event) -> None:
"""Handle incoming C&C message - like a serial port control interface."""
import urllib.request
cmd = event.body.strip() if hasattr(event, "body") else str(event).strip()
if not cmd.startswith("/"):
return
response = handle_effects_command(cmd)
topic_url = self.config.ntfy_cc_resp_topic.replace("/json", "")
data = response.encode("utf-8")
req = urllib.request.Request(
topic_url,
data=data,
headers={"User-Agent": "mainline/0.1", "Content-Type": "text/plain"},
method="POST",
)
try:
urllib.request.urlopen(req, timeout=5)
except Exception:
pass
def run(self, items: list) -> None:
"""Run the stream with initialized sources."""
if self.mic is None or self.ntfy is None:
self.initialize_sources()
if self.event_bus:
self.event_bus.publish(
EventType.STREAM_START,
StreamEvent(
event_type=EventType.STREAM_START,
headline_count=len(items),
),
)
display = _get_display(self.config)
stream(items, self.ntfy, self.mic, display)
if display:
display.cleanup()
if self.event_bus:
self.event_bus.publish(
EventType.STREAM_END,
StreamEvent(
event_type=EventType.STREAM_END,
headline_count=len(items),
),
)
def cleanup(self) -> None:
"""Clean up resources."""
if self.mic:
self.mic.stop()

124
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"""
Display backend system with registry pattern.
Allows swapping output backends via the Display protocol.
Supports auto-discovery of display backends.
"""
from typing import Protocol
from engine.display.backends.kitty import KittyDisplay
from engine.display.backends.multi import MultiDisplay
from engine.display.backends.null import NullDisplay
from engine.display.backends.pygame import PygameDisplay
from engine.display.backends.sixel import SixelDisplay
from engine.display.backends.terminal import TerminalDisplay
from engine.display.backends.websocket import WebSocketDisplay
class Display(Protocol):
"""Protocol for display backends.
All display backends must implement:
- width, height: Terminal dimensions
- init(width, height, reuse=False): Initialize the display
- show(buffer): Render buffer to display
- clear(): Clear the display
- cleanup(): Shutdown the display
The reuse flag allows attaching to an existing display instance
rather than creating a new window/connection.
"""
width: int
height: int
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: If True, attach to existing display instead of creating new
"""
...
def show(self, buffer: list[str]) -> None:
"""Show buffer on display."""
...
def clear(self) -> None:
"""Clear display."""
...
def cleanup(self) -> None:
"""Shutdown display."""
...
class DisplayRegistry:
"""Registry for display backends with auto-discovery."""
_backends: dict[str, type[Display]] = {}
_initialized = False
@classmethod
def register(cls, name: str, backend_class: type[Display]) -> None:
"""Register a display backend."""
cls._backends[name.lower()] = backend_class
@classmethod
def get(cls, name: str) -> type[Display] | None:
"""Get a display backend class by name."""
return cls._backends.get(name.lower())
@classmethod
def list_backends(cls) -> list[str]:
"""List all available display backend names."""
return list(cls._backends.keys())
@classmethod
def create(cls, name: str, **kwargs) -> Display | None:
"""Create a display instance by name."""
cls.initialize()
backend_class = cls.get(name)
if backend_class:
return backend_class(**kwargs)
return None
@classmethod
def initialize(cls) -> None:
"""Initialize and register all built-in backends."""
if cls._initialized:
return
cls.register("terminal", TerminalDisplay)
cls.register("null", NullDisplay)
cls.register("websocket", WebSocketDisplay)
cls.register("sixel", SixelDisplay)
cls.register("kitty", KittyDisplay)
cls.register("pygame", PygameDisplay)
cls._initialized = True
def get_monitor():
"""Get the performance monitor."""
try:
from engine.effects.performance import get_monitor as _get_monitor
return _get_monitor()
except Exception:
return None
__all__ = [
"Display",
"DisplayRegistry",
"get_monitor",
"TerminalDisplay",
"NullDisplay",
"WebSocketDisplay",
"SixelDisplay",
"MultiDisplay",
]

152
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"""
Kitty graphics display backend - renders using kitty's native graphics protocol.
"""
import time
from engine.display.renderer import get_default_font_path, parse_ansi
def _encode_kitty_graphic(image_data: bytes, width: int, height: int) -> bytes:
"""Encode image data using kitty's graphics protocol."""
import base64
encoded = base64.b64encode(image_data).decode("ascii")
chunks = []
for i in range(0, len(encoded), 4096):
chunk = encoded[i : i + 4096]
if i == 0:
chunks.append(f"\x1b_Gf=100,t=d,s={width},v={height},c=1,r=1;{chunk}\x1b\\")
else:
chunks.append(f"\x1b_Gm={height};{chunk}\x1b\\")
return "".join(chunks).encode("utf-8")
class KittyDisplay:
"""Kitty graphics display backend using kitty's native protocol."""
width: int = 80
height: int = 24
def __init__(self, cell_width: int = 9, cell_height: int = 16):
self.width = 80
self.height = 24
self.cell_width = cell_width
self.cell_height = cell_height
self._initialized = False
self._font_path = None
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: Ignored for KittyDisplay (protocol doesn't support reuse)
"""
self.width = width
self.height = height
self._initialized = True
def _get_font_path(self) -> str | None:
"""Get font path from env or detect common locations."""
import os
if self._font_path:
return self._font_path
env_font = os.environ.get("MAINLINE_KITTY_FONT")
if env_font and os.path.exists(env_font):
self._font_path = env_font
return env_font
font_path = get_default_font_path()
if font_path:
self._font_path = font_path
return self._font_path
def show(self, buffer: list[str]) -> None:
import sys
t0 = time.perf_counter()
img_width = self.width * self.cell_width
img_height = self.height * self.cell_height
try:
from PIL import Image, ImageDraw, ImageFont
except ImportError:
return
img = Image.new("RGBA", (img_width, img_height), (0, 0, 0, 255))
draw = ImageDraw.Draw(img)
font_path = self._get_font_path()
font = None
if font_path:
try:
font = ImageFont.truetype(font_path, self.cell_height - 2)
except Exception:
font = None
if font is None:
try:
font = ImageFont.load_default()
except Exception:
font = None
for row_idx, line in enumerate(buffer[: self.height]):
if row_idx >= self.height:
break
tokens = parse_ansi(line)
x_pos = 0
y_pos = row_idx * self.cell_height
for text, fg, bg, bold in tokens:
if not text:
continue
if bg != (0, 0, 0):
bbox = draw.textbbox((x_pos, y_pos), text, font=font)
draw.rectangle(bbox, fill=(*bg, 255))
if bold and font:
draw.text((x_pos - 1, y_pos - 1), text, fill=(*fg, 255), font=font)
draw.text((x_pos, y_pos), text, fill=(*fg, 255), font=font)
if font:
x_pos += draw.textlength(text, font=font)
from io import BytesIO
output = BytesIO()
img.save(output, format="PNG")
png_data = output.getvalue()
graphic = _encode_kitty_graphic(png_data, img_width, img_height)
sys.stdout.buffer.write(graphic)
sys.stdout.flush()
elapsed_ms = (time.perf_counter() - t0) * 1000
from engine.display import get_monitor
monitor = get_monitor()
if monitor:
chars_in = sum(len(line) for line in buffer)
monitor.record_effect("kitty_display", elapsed_ms, chars_in, chars_in)
def clear(self) -> None:
import sys
sys.stdout.buffer.write(b"\x1b_Ga=d\x1b\\")
sys.stdout.flush()
def cleanup(self) -> None:
self.clear()

43
engine/display/backends/multi.py Normal file
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"""
Multi display backend - forwards to multiple displays.
"""
class MultiDisplay:
"""Display that forwards to multiple displays.
Supports reuse - passes reuse flag to all child displays.
"""
width: int = 80
height: int = 24
def __init__(self, displays: list):
self.displays = displays
self.width = 80
self.height = 24
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize all child displays with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: If True, use reuse mode for child displays
"""
self.width = width
self.height = height
for d in self.displays:
d.init(width, height, reuse=reuse)
def show(self, buffer: list[str]) -> None:
for d in self.displays:
d.show(buffer)
def clear(self) -> None:
for d in self.displays:
d.clear()
def cleanup(self) -> None:
for d in self.displays:
d.cleanup()

43
engine/display/backends/null.py Normal file
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"""
Null/headless display backend.
"""
import time
class NullDisplay:
"""Headless/null display - discards all output.
This display does nothing - useful for headless benchmarking
or when no display output is needed.
"""
width: int = 80
height: int = 24
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: Ignored for NullDisplay (no resources to reuse)
"""
self.width = width
self.height = height
def show(self, buffer: list[str]) -> None:
from engine.display import get_monitor
monitor = get_monitor()
if monitor:
t0 = time.perf_counter()
chars_in = sum(len(line) for line in buffer)
elapsed_ms = (time.perf_counter() - t0) * 1000
monitor.record_effect("null_display", elapsed_ms, chars_in, chars_in)
def clear(self) -> None:
pass
def cleanup(self) -> None:
pass

212
engine/display/backends/pygame.py Normal file
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"""
Pygame display backend - renders to a native application window.
"""
import time
from engine.display.renderer import parse_ansi
class PygameDisplay:
"""Pygame display backend - renders to native window.
Supports reuse mode - when reuse=True, skips SDL initialization
and reuses the existing pygame window from a previous instance.
"""
width: int = 80
window_width: int = 800
window_height: int = 600
_pygame_initialized: bool = False
def __init__(
self,
cell_width: int = 10,
cell_height: int = 18,
window_width: int = 800,
window_height: int = 600,
):
self.width = 80
self.height = 24
self.cell_width = cell_width
self.cell_height = cell_height
self.window_width = window_width
self.window_height = window_height
self._initialized = False
self._pygame = None
self._screen = None
self._font = None
self._resized = False
def _get_font_path(self) -> str | None:
"""Get font path for rendering."""
import os
import sys
from pathlib import Path
env_font = os.environ.get("MAINLINE_PYGAME_FONT")
if env_font and os.path.exists(env_font):
return env_font
def search_dir(base_path: str) -> str | None:
if not os.path.exists(base_path):
return None
if os.path.isfile(base_path):
return base_path
for font_file in Path(base_path).rglob("*"):
if font_file.suffix.lower() in (".ttf", ".otf", ".ttc"):
name = font_file.stem.lower()
if "geist" in name and ("nerd" in name or "mono" in name):
return str(font_file)
return None
search_dirs = []
if sys.platform == "darwin":
search_dirs.append(os.path.expanduser("~/Library/Fonts/"))
elif sys.platform == "win32":
search_dirs.append(
os.path.expanduser("~\\AppData\\Local\\Microsoft\\Windows\\Fonts\\")
)
else:
search_dirs.extend(
[
os.path.expanduser("~/.local/share/fonts/"),
os.path.expanduser("~/.fonts/"),
"/usr/share/fonts/",
]
)
for search_dir_path in search_dirs:
found = search_dir(search_dir_path)
if found:
return found
return None
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: If True, attach to existing pygame window instead of creating new
"""
self.width = width
self.height = height
import os
os.environ["SDL_VIDEODRIVER"] = "x11"
try:
import pygame
except ImportError:
return
if reuse and PygameDisplay._pygame_initialized:
self._pygame = pygame
self._initialized = True
return
pygame.init()
pygame.display.set_caption("Mainline")
self._screen = pygame.display.set_mode(
(self.window_width, self.window_height),
pygame.RESIZABLE,
)
self._pygame = pygame
PygameDisplay._pygame_initialized = True
font_path = self._get_font_path()
if font_path:
try:
self._font = pygame.font.Font(font_path, self.cell_height - 2)
except Exception:
self._font = pygame.font.SysFont("monospace", self.cell_height - 2)
else:
self._font = pygame.font.SysFont("monospace", self.cell_height - 2)
self._initialized = True
def show(self, buffer: list[str]) -> None:
import sys
if not self._initialized or not self._pygame:
return
t0 = time.perf_counter()
for event in self._pygame.event.get():
if event.type == self._pygame.QUIT:
sys.exit(0)
elif event.type == self._pygame.VIDEORESIZE:
self.window_width = event.w
self.window_height = event.h
self.width = max(1, self.window_width // self.cell_width)
self.height = max(1, self.window_height // self.cell_height)
self._resized = True
self._screen.fill((0, 0, 0))
for row_idx, line in enumerate(buffer[: self.height]):
if row_idx >= self.height:
break
tokens = parse_ansi(line)
x_pos = 0
for text, fg, bg, _bold in tokens:
if not text:
continue
if bg != (0, 0, 0):
bg_surface = self._font.render(text, True, fg, bg)
self._screen.blit(bg_surface, (x_pos, row_idx * self.cell_height))
else:
text_surface = self._font.render(text, True, fg)
self._screen.blit(text_surface, (x_pos, row_idx * self.cell_height))
x_pos += self._font.size(text)[0]
self._pygame.display.flip()
elapsed_ms = (time.perf_counter() - t0) * 1000
from engine.display import get_monitor
monitor = get_monitor()
if monitor:
chars_in = sum(len(line) for line in buffer)
monitor.record_effect("pygame_display", elapsed_ms, chars_in, chars_in)
def clear(self) -> None:
if self._screen and self._pygame:
self._screen.fill((0, 0, 0))
self._pygame.display.flip()
def get_dimensions(self) -> tuple[int, int]:
"""Get current terminal dimensions based on window size.
Returns:
(width, height) in character cells
"""
if self._resized:
self._resized = False
return self.width, self.height
def cleanup(self, quit_pygame: bool = True) -> None:
"""Cleanup display resources.
Args:
quit_pygame: If True, quit pygame entirely. Set to False when
reusing the display to avoid closing shared window.
"""
if quit_pygame and self._pygame:
self._pygame.quit()
PygameDisplay._pygame_initialized = False
@classmethod
def reset_state(cls) -> None:
"""Reset pygame state - useful for testing."""
cls._pygame_initialized = False

200
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"""
Sixel graphics display backend - renders to sixel graphics in terminal.
"""
import time
from engine.display.renderer import get_default_font_path, parse_ansi
def _encode_sixel(image) -> str:
"""Encode a PIL Image to sixel format (pure Python)."""
img = image.convert("RGBA")
width, height = img.size
pixels = img.load()
palette = []
pixel_palette_idx = {}
def get_color_idx(r, g, b, a):
if a < 128:
return -1
key = (r // 32, g // 32, b // 32)
if key not in pixel_palette_idx:
idx = len(palette)
if idx < 256:
palette.append((r, g, b))
pixel_palette_idx[key] = idx
return pixel_palette_idx.get(key, 0)
for y in range(height):
for x in range(width):
r, g, b, a = pixels[x, y]
get_color_idx(r, g, b, a)
if not palette:
return ""
if len(palette) == 1:
palette = [palette[0], (0, 0, 0)]
sixel_data = []
sixel_data.append(
f'"{"".join(f"#{i};2;{r};{g};{b}" for i, (r, g, b) in enumerate(palette))}'
)
for x in range(width):
col_data = []
for y in range(0, height, 6):
bits = 0
color_idx = -1
for dy in range(6):
if y + dy < height:
r, g, b, a = pixels[x, y + dy]
if a >= 128:
bits |= 1 << dy
idx = get_color_idx(r, g, b, a)
if color_idx == -1:
color_idx = idx
elif color_idx != idx:
color_idx = -2
if color_idx >= 0:
col_data.append(
chr(63 + color_idx) + chr(63 + bits)
if bits
else chr(63 + color_idx) + "?"
)
elif color_idx == -2:
pass
if col_data:
sixel_data.append("".join(col_data) + "$")
else:
sixel_data.append("-" if x < width - 1 else "$")
sixel_data.append("\x1b\\")
return "\x1bPq" + "".join(sixel_data)
class SixelDisplay:
"""Sixel graphics display backend - renders to sixel graphics in terminal."""
width: int = 80
height: int = 24
def __init__(self, cell_width: int = 9, cell_height: int = 16):
self.width = 80
self.height = 24
self.cell_width = cell_width
self.cell_height = cell_height
self._initialized = False
self._font_path = None
def _get_font_path(self) -> str | None:
"""Get font path from env or detect common locations."""
import os
if self._font_path:
return self._font_path
env_font = os.environ.get("MAINLINE_SIXEL_FONT")
if env_font and os.path.exists(env_font):
self._font_path = env_font
return env_font
font_path = get_default_font_path()
if font_path:
self._font_path = font_path
return self._font_path
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: Ignored for SixelDisplay
"""
self.width = width
self.height = height
self._initialized = True
def show(self, buffer: list[str]) -> None:
import sys
t0 = time.perf_counter()
img_width = self.width * self.cell_width
img_height = self.height * self.cell_height
try:
from PIL import Image, ImageDraw, ImageFont
except ImportError:
return
img = Image.new("RGBA", (img_width, img_height), (0, 0, 0, 255))
draw = ImageDraw.Draw(img)
font_path = self._get_font_path()
font = None
if font_path:
try:
font = ImageFont.truetype(font_path, self.cell_height - 2)
except Exception:
font = None
if font is None:
try:
font = ImageFont.load_default()
except Exception:
font = None
for row_idx, line in enumerate(buffer[: self.height]):
if row_idx >= self.height:
break
tokens = parse_ansi(line)
x_pos = 0
y_pos = row_idx * self.cell_height
for text, fg, bg, bold in tokens:
if not text:
continue
if bg != (0, 0, 0):
bbox = draw.textbbox((x_pos, y_pos), text, font=font)
draw.rectangle(bbox, fill=(*bg, 255))
if bold and font:
draw.text((x_pos - 1, y_pos - 1), text, fill=(*fg, 255), font=font)
draw.text((x_pos, y_pos), text, fill=(*fg, 255), font=font)
if font:
x_pos += draw.textlength(text, font=font)
sixel = _encode_sixel(img)
sys.stdout.buffer.write(sixel.encode("utf-8"))
sys.stdout.flush()
elapsed_ms = (time.perf_counter() - t0) * 1000
from engine.display import get_monitor
monitor = get_monitor()
if monitor:
chars_in = sum(len(line) for line in buffer)
monitor.record_effect("sixel_display", elapsed_ms, chars_in, chars_in)
def clear(self) -> None:
import sys
sys.stdout.buffer.write(b"\x1b[2J\x1b[H")
sys.stdout.flush()
def cleanup(self) -> None:
pass

59
engine/display/backends/terminal.py Normal file
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"""
ANSI terminal display backend.
"""
import time
class TerminalDisplay:
"""ANSI terminal display backend.
Renders buffer to stdout using ANSI escape codes.
Supports reuse - when reuse=True, skips re-initializing terminal state.
"""
width: int = 80
height: int = 24
_initialized: bool = False
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: If True, skip terminal re-initialization
"""
from engine.terminal import CURSOR_OFF
self.width = width
self.height = height
if not reuse or not self._initialized:
print(CURSOR_OFF, end="", flush=True)
self._initialized = True
def show(self, buffer: list[str]) -> None:
import sys
t0 = time.perf_counter()
sys.stdout.buffer.write("".join(buffer).encode())
sys.stdout.flush()
elapsed_ms = (time.perf_counter() - t0) * 1000
from engine.display import get_monitor
monitor = get_monitor()
if monitor:
chars_in = sum(len(line) for line in buffer)
monitor.record_effect("terminal_display", elapsed_ms, chars_in, chars_in)
def clear(self) -> None:
from engine.terminal import CLR
print(CLR, end="", flush=True)
def cleanup(self) -> None:
from engine.terminal import CURSOR_ON
print(CURSOR_ON, end="", flush=True)

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engine/display/backends/websocket.py Normal file
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"""
WebSocket display backend - broadcasts frame buffer to connected web clients.
"""
import asyncio
import json
import threading
import time
from typing import Protocol
try:
import websockets
except ImportError:
websockets = None
class Display(Protocol):
"""Protocol for display backends."""
width: int
height: int
def init(self, width: int, height: int) -> None:
"""Initialize display with dimensions."""
...
def show(self, buffer: list[str]) -> None:
"""Show buffer on display."""
...
def clear(self) -> None:
"""Clear display."""
...
def cleanup(self) -> None:
"""Shutdown display."""
...
def get_monitor():
"""Get the performance monitor."""
try:
from engine.effects.performance import get_monitor as _get_monitor
return _get_monitor()
except Exception:
return None
class WebSocketDisplay:
"""WebSocket display backend - broadcasts to HTML Canvas clients."""
width: int = 80
height: int = 24
def __init__(
self,
host: str = "0.0.0.0",
port: int = 8765,
http_port: int = 8766,
):
self.host = host
self.port = port
self.http_port = http_port
self.width = 80
self.height = 24
self._clients: set = set()
self._server_running = False
self._http_running = False
self._server_thread: threading.Thread | None = None
self._http_thread: threading.Thread | None = None
self._available = True
self._max_clients = 10
self._client_connected_callback = None
self._client_disconnected_callback = None
self._frame_delay = 0.0
try:
import websockets as _ws
self._available = _ws is not None
except ImportError:
self._available = False
def is_available(self) -> bool:
"""Check if WebSocket support is available."""
return self._available
def init(self, width: int, height: int, reuse: bool = False) -> None:
"""Initialize display with dimensions and start server.
Args:
width: Terminal width in characters
height: Terminal height in rows
reuse: If True, skip starting servers (assume already running)
"""
self.width = width
self.height = height
if not reuse or not self._server_running:
self.start_server()
self.start_http_server()
def show(self, buffer: list[str]) -> None:
"""Broadcast buffer to all connected clients."""
t0 = time.perf_counter()
if self._clients:
frame_data = {
"type": "frame",
"width": self.width,
"height": self.height,
"lines": buffer,
}
message = json.dumps(frame_data)
disconnected = set()
for client in list(self._clients):
try:
asyncio.run(client.send(message))
except Exception:
disconnected.add(client)
for client in disconnected:
self._clients.discard(client)
if self._client_disconnected_callback:
self._client_disconnected_callback(client)
elapsed_ms = (time.perf_counter() - t0) * 1000
monitor = get_monitor()
if monitor:
chars_in = sum(len(line) for line in buffer)
monitor.record_effect("websocket_display", elapsed_ms, chars_in, chars_in)
def clear(self) -> None:
"""Broadcast clear command to all clients."""
if self._clients:
clear_data = {"type": "clear"}
message = json.dumps(clear_data)
for client in list(self._clients):
try:
asyncio.run(client.send(message))
except Exception:
pass
def cleanup(self) -> None:
"""Stop the servers."""
self.stop_server()
self.stop_http_server()
async def _websocket_handler(self, websocket):
"""Handle WebSocket connections."""
if len(self._clients) >= self._max_clients:
await websocket.close()
return
self._clients.add(websocket)
if self._client_connected_callback:
self._client_connected_callback(websocket)
try:
async for message in websocket:
try:
data = json.loads(message)
if data.get("type") == "resize":
self.width = data.get("width", 80)
self.height = data.get("height", 24)
except json.JSONDecodeError:
pass
except Exception:
pass
finally:
self._clients.discard(websocket)
if self._client_disconnected_callback:
self._client_disconnected_callback(websocket)
async def _run_websocket_server(self):
"""Run the WebSocket server."""
async with websockets.serve(self._websocket_handler, self.host, self.port):
while self._server_running:
await asyncio.sleep(0.1)
async def _run_http_server(self):
"""Run simple HTTP server for the client."""
import os
from http.server import HTTPServer, SimpleHTTPRequestHandler
client_dir = os.path.join(
os.path.dirname(os.path.dirname(os.path.dirname(__file__))), "client"
)
class Handler(SimpleHTTPRequestHandler):
def __init__(self, *args, **kwargs):
super().__init__(*args, directory=client_dir, **kwargs)
def log_message(self, format, *args):
pass
httpd = HTTPServer((self.host, self.http_port), Handler)
while self._http_running:
httpd.handle_request()
def _run_async(self, coro):
"""Run coroutine in background."""
try:
asyncio.run(coro)
except Exception as e:
print(f"WebSocket async error: {e}")
def start_server(self):
"""Start the WebSocket server in a background thread."""
if not self._available:
return
if self._server_thread is not None:
return
self._server_running = True
self._server_thread = threading.Thread(
target=self._run_async, args=(self._run_websocket_server(),), daemon=True
)
self._server_thread.start()
def stop_server(self):
"""Stop the WebSocket server."""
self._server_running = False
self._server_thread = None
def start_http_server(self):
"""Start the HTTP server in a background thread."""
if not self._available:
return
if self._http_thread is not None:
return
self._http_running = True
self._http_running = True
self._http_thread = threading.Thread(
target=self._run_async, args=(self._run_http_server(),), daemon=True
)
self._http_thread.start()
def stop_http_server(self):
"""Stop the HTTP server."""
self._http_running = False
self._http_thread = None
def client_count(self) -> int:
"""Return number of connected clients."""
return len(self._clients)
def get_ws_port(self) -> int:
"""Return WebSocket port."""
return self.port
def get_http_port(self) -> int:
"""Return HTTP port."""
return self.http_port
def set_frame_delay(self, delay: float) -> None:
"""Set delay between frames in seconds."""
self._frame_delay = delay
def get_frame_delay(self) -> float:
"""Get delay between frames."""
return self._frame_delay
def set_client_connected_callback(self, callback) -> None:
"""Set callback for client connections."""
self._client_connected_callback = callback
def set_client_disconnected_callback(self, callback) -> None:
"""Set callback for client disconnections."""
self._client_disconnected_callback = callback

280
engine/display/renderer.py Normal file
View File

@@ -0,0 +1,280 @@
"""
Shared display rendering utilities.
Provides common functionality for displays that render text to images
(Pygame, Sixel, Kitty displays).
"""
from typing import Any
ANSI_COLORS = {
0: (0, 0, 0),
1: (205, 49, 49),
2: (13, 188, 121),
3: (229, 229, 16),
4: (36, 114, 200),
5: (188, 63, 188),
6: (17, 168, 205),
7: (229, 229, 229),
8: (102, 102, 102),
9: (241, 76, 76),
10: (35, 209, 139),
11: (245, 245, 67),
12: (59, 142, 234),
13: (214, 112, 214),
14: (41, 184, 219),
15: (255, 255, 255),
}
def parse_ansi(
text: str,
) -> list[tuple[str, tuple[int, int, int], tuple[int, int, int], bool]]:
"""Parse ANSI escape sequences into text tokens with colors.
Args:
text: Text containing ANSI escape sequences
Returns:
List of (text, fg_rgb, bg_rgb, bold) tuples
"""
tokens = []
current_text = ""
fg = (204, 204, 204)
bg = (0, 0, 0)
bold = False
i = 0
ANSI_COLORS_4BIT = {
0: (0, 0, 0),
1: (205, 49, 49),
2: (13, 188, 121),
3: (229, 229, 16),
4: (36, 114, 200),
5: (188, 63, 188),
6: (17, 168, 205),
7: (229, 229, 229),
8: (102, 102, 102),
9: (241, 76, 76),
10: (35, 209, 139),
11: (245, 245, 67),
12: (59, 142, 234),
13: (214, 112, 214),
14: (41, 184, 219),
15: (255, 255, 255),
}
while i < len(text):
char = text[i]
if char == "\x1b" and i + 1 < len(text) and text[i + 1] == "[":
if current_text:
tokens.append((current_text, fg, bg, bold))
current_text = ""
i += 2
code = ""
while i < len(text):
c = text[i]
if c.isalpha():
break
code += c
i += 1
if code:
codes = code.split(";")
for c in codes:
if c == "0":
fg = (204, 204, 204)
bg = (0, 0, 0)
bold = False
elif c == "1":
bold = True
elif c == "22":
bold = False
elif c == "39":
fg = (204, 204, 204)
elif c == "49":
bg = (0, 0, 0)
elif c.isdigit():
color_idx = int(c)
if color_idx in ANSI_COLORS_4BIT:
fg = ANSI_COLORS_4BIT[color_idx]
elif 30 <= color_idx <= 37:
fg = ANSI_COLORS_4BIT.get(color_idx - 30, fg)
elif 40 <= color_idx <= 47:
bg = ANSI_COLORS_4BIT.get(color_idx - 40, bg)
elif 90 <= color_idx <= 97:
fg = ANSI_COLORS_4BIT.get(color_idx - 90 + 8, fg)
elif 100 <= color_idx <= 107:
bg = ANSI_COLORS_4BIT.get(color_idx - 100 + 8, bg)
elif c.startswith("38;5;"):
idx = int(c.split(";")[-1])
if idx < 256:
if idx < 16:
fg = ANSI_COLORS_4BIT.get(idx, fg)
elif idx < 232:
c_idx = idx - 16
fg = (
(c_idx >> 4) * 51,
((c_idx >> 2) & 7) * 51,
(c_idx & 3) * 85,
)
else:
gray = (idx - 232) * 10 + 8
fg = (gray, gray, gray)
elif c.startswith("48;5;"):
idx = int(c.split(";")[-1])
if idx < 256:
if idx < 16:
bg = ANSI_COLORS_4BIT.get(idx, bg)
elif idx < 232:
c_idx = idx - 16
bg = (
(c_idx >> 4) * 51,
((c_idx >> 2) & 7) * 51,
(c_idx & 3) * 85,
)
else:
gray = (idx - 232) * 10 + 8
bg = (gray, gray, gray)
i += 1
else:
current_text += char
i += 1
if current_text:
tokens.append((current_text, fg, bg, bold))
return tokens if tokens else [("", fg, bg, bold)]
def get_default_font_path() -> str | None:
"""Get the path to a default monospace font."""
import os
import sys
from pathlib import Path
def search_dir(base_path: str) -> str | None:
if not os.path.exists(base_path):
return None
if os.path.isfile(base_path):
return base_path
for font_file in Path(base_path).rglob("*"):
if font_file.suffix.lower() in (".ttf", ".otf", ".ttc"):
name = font_file.stem.lower()
if "geist" in name and ("nerd" in name or "mono" in name):
return str(font_file)
if "mono" in name or "courier" in name or "terminal" in name:
return str(font_file)
return None
search_dirs = []
if sys.platform == "darwin":
search_dirs.extend(
[
os.path.expanduser("~/Library/Fonts/"),
"/System/Library/Fonts/",
]
)
elif sys.platform == "win32":
search_dirs.extend(
[
os.path.expanduser("~\\AppData\\Local\\Microsoft\\Windows\\Fonts\\"),
"C:\\Windows\\Fonts\\",
]
)
else:
search_dirs.extend(
[
os.path.expanduser("~/.local/share/fonts/"),
os.path.expanduser("~/.fonts/"),
"/usr/share/fonts/",
]
)
for search_dir_path in search_dirs:
found = search_dir(search_dir_path)
if found:
return found
if sys.platform != "win32":
try:
import subprocess
for pattern in ["monospace", "DejaVuSansMono", "LiberationMono"]:
result = subprocess.run(
["fc-match", "-f", "%{file}", pattern],
capture_output=True,
text=True,
timeout=5,
)
if result.returncode == 0 and result.stdout.strip():
font_file = result.stdout.strip()
if os.path.exists(font_file):
return font_file
except Exception:
pass
return None
def render_to_pil(
buffer: list[str],
width: int,
height: int,
cell_width: int = 10,
cell_height: int = 18,
font_path: str | None = None,
) -> Any:
"""Render buffer to a PIL Image.
Args:
buffer: List of text lines to render
width: Terminal width in characters
height: Terminal height in rows
cell_width: Width of each character cell in pixels
cell_height: Height of each character cell in pixels
font_path: Path to TTF/OTF font file (optional)
Returns:
PIL Image object
"""
from PIL import Image, ImageDraw, ImageFont
img_width = width * cell_width
img_height = height * cell_height
img = Image.new("RGBA", (img_width, img_height), (0, 0, 0, 255))
draw = ImageDraw.Draw(img)
if font_path:
try:
font = ImageFont.truetype(font_path, cell_height - 2)
except Exception:
font = ImageFont.load_default()
else:
font = ImageFont.load_default()
for row_idx, line in enumerate(buffer[:height]):
if row_idx >= height:
break
tokens = parse_ansi(line)
x_pos = 0
y_pos = row_idx * cell_height
for text, fg, bg, _bold in tokens:
if not text:
continue
if bg != (0, 0, 0):
bbox = draw.textbbox((x_pos, y_pos), text, font=font)
draw.rectangle(bbox, fill=(*bg, 255))
draw.text((x_pos, y_pos), text, fill=(*fg, 255), font=font)
if font:
x_pos += draw.textlength(text, font=font)
return img

50
engine/effects/__init__.py Normal file
View File

@@ -0,0 +1,50 @@
from engine.effects.chain import EffectChain
from engine.effects.controller import handle_effects_command, show_effects_menu
from engine.effects.legacy import (
fade_line,
firehose_line,
glitch_bar,
next_headline,
noise,
vis_offset,
vis_trunc,
)
from engine.effects.performance import PerformanceMonitor, get_monitor, set_monitor
from engine.effects.registry import EffectRegistry, get_registry, set_registry
from engine.effects.types import (
EffectConfig,
EffectContext,
PipelineConfig,
create_effect_context,
)
def get_effect_chain():
from engine.layers import get_effect_chain as _chain
return _chain()
__all__ = [
"EffectChain",
"EffectRegistry",
"EffectConfig",
"EffectContext",
"PipelineConfig",
"create_effect_context",
"get_registry",
"set_registry",
"get_effect_chain",
"get_monitor",
"set_monitor",
"PerformanceMonitor",
"handle_effects_command",
"show_effects_menu",
"fade_line",
"firehose_line",
"glitch_bar",
"noise",
"next_headline",
"vis_trunc",
"vis_offset",
]

71
engine/effects/chain.py Normal file
View File

@@ -0,0 +1,71 @@
import time
from engine.effects.performance import PerformanceMonitor, get_monitor
from engine.effects.registry import EffectRegistry
from engine.effects.types import EffectContext
class EffectChain:
def __init__(
self, registry: EffectRegistry, monitor: PerformanceMonitor | None = None
):
self._registry = registry
self._order: list[str] = []
self._monitor = monitor
def _get_monitor(self) -> PerformanceMonitor:
if self._monitor is not None:
return self._monitor
return get_monitor()
def set_order(self, names: list[str]) -> None:
self._order = list(names)
def get_order(self) -> list[str]:
return self._order.copy()
def add_effect(self, name: str, position: int | None = None) -> bool:
if name not in self._registry.list_all():
return False
if position is None:
self._order.append(name)
else:
self._order.insert(position, name)
return True
def remove_effect(self, name: str) -> bool:
if name in self._order:
self._order.remove(name)
return True
return False
def reorder(self, new_order: list[str]) -> bool:
all_plugins = set(self._registry.list_all().keys())
if not all(name in all_plugins for name in new_order):
return False
self._order = list(new_order)
return True
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
monitor = self._get_monitor()
frame_number = ctx.frame_number
monitor.start_frame(frame_number)
frame_start = time.perf_counter()
result = list(buf)
for name in self._order:
plugin = self._registry.get(name)
if plugin and plugin.config.enabled:
chars_in = sum(len(line) for line in result)
effect_start = time.perf_counter()
try:
result = plugin.process(result, ctx)
except Exception:
plugin.config.enabled = False
elapsed = time.perf_counter() - effect_start
chars_out = sum(len(line) for line in result)
monitor.record_effect(name, elapsed * 1000, chars_in, chars_out)
total_elapsed = time.perf_counter() - frame_start
monitor.end_frame(frame_number, total_elapsed * 1000)
return result

144
engine/effects/controller.py Normal file
View File

@@ -0,0 +1,144 @@
from engine.effects.performance import get_monitor
from engine.effects.registry import get_registry
_effect_chain_ref = None
def _get_effect_chain():
global _effect_chain_ref
if _effect_chain_ref is not None:
return _effect_chain_ref
try:
from engine.layers import get_effect_chain as _chain
return _chain()
except Exception:
return None
def set_effect_chain_ref(chain) -> None:
global _effect_chain_ref
_effect_chain_ref = chain
def handle_effects_command(cmd: str) -> str:
"""Handle /effects command from NTFY message.
Commands:
/effects list - list all effects and their status
/effects <name> on - enable an effect
/effects <name> off - disable an effect
/effects <name> intensity <0.0-1.0> - set intensity
/effects reorder <name1>,<name2>,... - reorder pipeline
/effects stats - show performance statistics
"""
parts = cmd.strip().split()
if not parts or parts[0] != "/effects":
return "Unknown command"
registry = get_registry()
chain = _get_effect_chain()
if len(parts) == 1 or parts[1] == "list":
result = ["Effects:"]
for name, plugin in registry.list_all().items():
status = "ON" if plugin.config.enabled else "OFF"
intensity = plugin.config.intensity
result.append(f" {name}: {status} (intensity={intensity})")
if chain:
result.append(f"Order: {chain.get_order()}")
return "\n".join(result)
if parts[1] == "stats":
return _format_stats()
if parts[1] == "reorder" and len(parts) >= 3:
new_order = parts[2].split(",")
if chain and chain.reorder(new_order):
return f"Reordered pipeline: {new_order}"
return "Failed to reorder pipeline"
if len(parts) < 3:
return "Usage: /effects <name> on|off|intensity <value>"
effect_name = parts[1]
action = parts[2]
if effect_name not in registry.list_all():
return f"Unknown effect: {effect_name}"
if action == "on":
registry.enable(effect_name)
return f"Enabled: {effect_name}"
if action == "off":
registry.disable(effect_name)
return f"Disabled: {effect_name}"
if action == "intensity" and len(parts) >= 4:
try:
value = float(parts[3])
if not 0.0 <= value <= 1.0:
return "Intensity must be between 0.0 and 1.0"
plugin = registry.get(effect_name)
if plugin:
plugin.config.intensity = value
return f"Set {effect_name} intensity to {value}"
except ValueError:
return "Invalid intensity value"
return f"Unknown action: {action}"
def _format_stats() -> str:
monitor = get_monitor()
stats = monitor.get_stats()
if "error" in stats:
return stats["error"]
lines = ["Performance Stats:"]
pipeline = stats["pipeline"]
lines.append(
f" Pipeline: avg={pipeline['avg_ms']:.2f}ms min={pipeline['min_ms']:.2f}ms max={pipeline['max_ms']:.2f}ms (over {stats['frame_count']} frames)"
)
if stats["effects"]:
lines.append(" Per-effect (avg ms):")
for name, effect_stats in stats["effects"].items():
lines.append(
f" {name}: avg={effect_stats['avg_ms']:.2f}ms min={effect_stats['min_ms']:.2f}ms max={effect_stats['max_ms']:.2f}ms"
)
return "\n".join(lines)
def show_effects_menu() -> str:
"""Generate effects menu text for display."""
registry = get_registry()
chain = _get_effect_chain()
lines = [
"\033[1;38;5;231m=== EFFECTS MENU ===\033[0m",
"",
"Effects:",
]
for name, plugin in registry.list_all().items():
status = "ON" if plugin.config.enabled else "OFF"
intensity = plugin.config.intensity
lines.append(f" [{status:3}] {name}: intensity={intensity:.2f}")
if chain:
lines.append("")
lines.append(f"Pipeline order: {' -> '.join(chain.get_order())}")
lines.append("")
lines.append("Controls:")
lines.append(" /effects <name> on|off")
lines.append(" /effects <name> intensity <0.0-1.0>")
lines.append(" /effects reorder name1,name2,...")
lines.append("")
return "\n".join(lines)

76
engine/effects.py → engine/effects/legacy.py
View File

@@ -1,14 +1,22 @@
"""
Visual effects: noise, glitch, fade, ANSI-aware truncation, firehose, headline pool.
Depends on: config, terminal, sources.
These are low-level functional implementations of visual effects. They are used
internally by the EffectPlugin system (effects_plugins/*.py) and also directly
by layers.py and scroll.py for rendering.
The plugin system provides a higher-level OOP interface with configuration
support, while these legacy functions provide direct functional access.
Both systems coexist - there are no current plans to deprecate the legacy functions.
"""
import random
from datetime import datetime
from engine import config
from engine.terminal import RST, DIM, G_LO, G_DIM, W_GHOST, C_DIM
from engine.sources import FEEDS, POETRY_SOURCES
from engine.terminal import C_DIM, DIM, G_DIM, G_LO, RST, W_GHOST
def noise(w):
@@ -34,23 +42,23 @@ def fade_line(s, fade):
if fade >= 1.0:
return s
if fade <= 0.0:
return ''
return ""
result = []
i = 0
while i < len(s):
if s[i] == '\033' and i + 1 < len(s) and s[i + 1] == '[':
if s[i] == "\033" and i + 1 < len(s) and s[i + 1] == "[":
j = i + 2
while j < len(s) and not s[j].isalpha():
j += 1
result.append(s[i:j + 1])
result.append(s[i : j + 1])
i = j + 1
elif s[i] == ' ':
result.append(' ')
elif s[i] == " ":
result.append(" ")
i += 1
else:
result.append(s[i] if random.random() < fade else ' ')
result.append(s[i] if random.random() < fade else " ")
i += 1
return ''.join(result)
return "".join(result)
def vis_trunc(s, w):
@@ -61,17 +69,48 @@ def vis_trunc(s, w):
while i < len(s):
if vw >= w:
break
if s[i] == '\033' and i + 1 < len(s) and s[i + 1] == '[':
if s[i] == "\033" and i + 1 < len(s) and s[i + 1] == "[":
j = i + 2
while j < len(s) and not s[j].isalpha():
j += 1
result.append(s[i:j + 1])
result.append(s[i : j + 1])
i = j + 1
else:
result.append(s[i])
vw += 1
i += 1
return ''.join(result)
return "".join(result)
def vis_offset(s, offset):
"""Offset string by skipping first offset visual characters, skipping ANSI escape codes."""
if offset <= 0:
return s
result = []
vw = 0
i = 0
skipping = True
while i < len(s):
if s[i] == "\033" and i + 1 < len(s) and s[i + 1] == "[":
j = i + 2
while j < len(s) and not s[j].isalpha():
j += 1
if skipping:
i = j + 1
continue
result.append(s[i : j + 1])
i = j + 1
else:
if skipping:
if vw >= offset:
skipping = False
result.append(s[i])
vw += 1
i += 1
else:
result.append(s[i])
i += 1
return "".join(result)
def next_headline(pool, items, seen):
@@ -94,7 +133,7 @@ def firehose_line(items, w):
if r < 0.35:
# Raw headline text
title, src, ts = random.choice(items)
text = title[:w - 1]
text = title[: w - 1]
color = random.choice([G_LO, G_DIM, W_GHOST, C_DIM])
return f"{color}{text}{RST}"
elif r < 0.55:
@@ -103,12 +142,13 @@ def firehose_line(items, w):
return "".join(
f"{random.choice([G_LO, G_DIM, C_DIM, W_GHOST])}"
f"{random.choice(config.GLITCH + config.KATA)}{RST}"
if random.random() < d else " "
if random.random() < d
else " "
for _ in range(w)
)
elif r < 0.78:
# Status / program output
sources = FEEDS if config.MODE == 'news' else POETRY_SOURCES
sources = FEEDS if config.MODE == "news" else POETRY_SOURCES
src = random.choice(list(sources.keys()))
msgs = [
f" SIGNAL :: {src} :: {datetime.now().strftime('%H:%M:%S.%f')[:-3]}",
@@ -118,16 +158,16 @@ def firehose_line(items, w):
f" {''.join(random.choice(config.KATA) for _ in range(3))} STRM "
f"{random.randint(0, 255):02X}:{random.randint(0, 255):02X}",
]
text = random.choice(msgs)[:w - 1]
text = random.choice(msgs)[: w - 1]
color = random.choice([G_LO, G_DIM, W_GHOST])
return f"{color}{text}{RST}"
else:
# Headline fragment with glitch prefix
title, _, _ = random.choice(items)
start = random.randint(0, max(0, len(title) - 20))
frag = title[start:start + random.randint(10, 35)]
frag = title[start : start + random.randint(10, 35)]
pad = random.randint(0, max(0, w - len(frag) - 8))
gp = ''.join(random.choice(config.GLITCH) for _ in range(random.randint(1, 3)))
text = (' ' * pad + gp + ' ' + frag)[:w - 1]
gp = "".join(random.choice(config.GLITCH) for _ in range(random.randint(1, 3)))
text = (" " * pad + gp + " " + frag)[: w - 1]
color = random.choice([G_LO, C_DIM, W_GHOST])
return f"{color}{text}{RST}"

103
engine/effects/performance.py Normal file
View File

@@ -0,0 +1,103 @@
from collections import deque
from dataclasses import dataclass
@dataclass
class EffectTiming:
name: str
duration_ms: float
buffer_chars_in: int
buffer_chars_out: int
@dataclass
class FrameTiming:
frame_number: int
total_ms: float
effects: list[EffectTiming]
class PerformanceMonitor:
"""Collects and stores performance metrics for effect pipeline."""
def __init__(self, max_frames: int = 60):
self._max_frames = max_frames
self._frames: deque[FrameTiming] = deque(maxlen=max_frames)
self._current_frame: list[EffectTiming] = []
def start_frame(self, frame_number: int) -> None:
self._current_frame = []
def record_effect(
self, name: str, duration_ms: float, chars_in: int, chars_out: int
) -> None:
self._current_frame.append(
EffectTiming(
name=name,
duration_ms=duration_ms,
buffer_chars_in=chars_in,
buffer_chars_out=chars_out,
)
)
def end_frame(self, frame_number: int, total_ms: float) -> None:
self._frames.append(
FrameTiming(
frame_number=frame_number,
total_ms=total_ms,
effects=self._current_frame,
)
)
def get_stats(self) -> dict:
if not self._frames:
return {"error": "No timing data available"}
total_times = [f.total_ms for f in self._frames]
avg_total = sum(total_times) / len(total_times)
min_total = min(total_times)
max_total = max(total_times)
effect_stats: dict[str, dict] = {}
for frame in self._frames:
for effect in frame.effects:
if effect.name not in effect_stats:
effect_stats[effect.name] = {"times": [], "total_chars": 0}
effect_stats[effect.name]["times"].append(effect.duration_ms)
effect_stats[effect.name]["total_chars"] += effect.buffer_chars_out
for name, stats in effect_stats.items():
times = stats["times"]
stats["avg_ms"] = sum(times) / len(times)
stats["min_ms"] = min(times)
stats["max_ms"] = max(times)
del stats["times"]
return {
"frame_count": len(self._frames),
"pipeline": {
"avg_ms": avg_total,
"min_ms": min_total,
"max_ms": max_total,
},
"effects": effect_stats,
}
def reset(self) -> None:
self._frames.clear()
self._current_frame = []
_monitor: PerformanceMonitor | None = None
def get_monitor() -> PerformanceMonitor:
global _monitor
if _monitor is None:
_monitor = PerformanceMonitor()
return _monitor
def set_monitor(monitor: PerformanceMonitor) -> None:
global _monitor
_monitor = monitor

59
engine/effects/registry.py Normal file
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@@ -0,0 +1,59 @@
from engine.effects.types import EffectConfig, EffectPlugin
class EffectRegistry:
def __init__(self):
self._plugins: dict[str, EffectPlugin] = {}
self._discovered: bool = False
def register(self, plugin: EffectPlugin) -> None:
self._plugins[plugin.name] = plugin
def get(self, name: str) -> EffectPlugin | None:
return self._plugins.get(name)
def list_all(self) -> dict[str, EffectPlugin]:
return self._plugins.copy()
def list_enabled(self) -> list[EffectPlugin]:
return [p for p in self._plugins.values() if p.config.enabled]
def enable(self, name: str) -> bool:
plugin = self._plugins.get(name)
if plugin:
plugin.config.enabled = True
return True
return False
def disable(self, name: str) -> bool:
plugin = self._plugins.get(name)
if plugin:
plugin.config.enabled = False
return True
return False
def configure(self, name: str, config: EffectConfig) -> bool:
plugin = self._plugins.get(name)
if plugin:
plugin.configure(config)
return True
return False
def is_enabled(self, name: str) -> bool:
plugin = self._plugins.get(name)
return plugin.config.enabled if plugin else False
_registry: EffectRegistry | None = None
def get_registry() -> EffectRegistry:
global _registry
if _registry is None:
_registry = EffectRegistry()
return _registry
def set_registry(registry: EffectRegistry) -> None:
global _registry
_registry = registry

122
engine/effects/types.py Normal file
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@@ -0,0 +1,122 @@
"""
Visual effects type definitions and base classes.
EffectPlugin Architecture:
- Uses ABC (Abstract Base Class) for interface enforcement
- Runtime discovery via directory scanning (effects_plugins/)
- Configuration via EffectConfig dataclass
- Context passed through EffectContext dataclass
Plugin System Research (see AGENTS.md for references):
- VST: Standardized audio interfaces, chaining, presets (FXP/FXB)
- Python Entry Points: Namespace packages, importlib.metadata discovery
- Shadertoy: Shader-based with uniforms as context
Current gaps vs industry patterns:
- No preset save/load system
- No external plugin distribution via entry points
- No plugin metadata (version, author, description)
"""
from abc import ABC, abstractmethod
from dataclasses import dataclass, field
from typing import Any
@dataclass
class EffectContext:
terminal_width: int
terminal_height: int
scroll_cam: int
ticker_height: int
camera_x: int = 0
mic_excess: float = 0.0
grad_offset: float = 0.0
frame_number: int = 0
has_message: bool = False
items: list = field(default_factory=list)
@dataclass
class EffectConfig:
enabled: bool = True
intensity: float = 1.0
params: dict[str, Any] = field(default_factory=dict)
class EffectPlugin(ABC):
"""Abstract base class for effect plugins.
Subclasses must define:
- name: str - unique identifier for the effect
- config: EffectConfig - current configuration
And implement:
- process(buf, ctx) -> list[str]
- configure(config) -> None
Effect Behavior with ticker_height=0:
- NoiseEffect: Returns buffer unchanged (no ticker to apply noise to)
- FadeEffect: Returns buffer unchanged (no ticker to fade)
- GlitchEffect: Processes normally (doesn't depend on ticker_height)
- FirehoseEffect: Returns buffer unchanged if no items in context
Effects should handle missing or zero context values gracefully by
returning the input buffer unchanged rather than raising errors.
"""
name: str
config: EffectConfig
@abstractmethod
def process(self, buf: list[str], ctx: EffectContext) -> list[str]:
"""Process the buffer with this effect applied.
Args:
buf: List of lines to process
ctx: Effect context with terminal state
Returns:
Processed buffer (may be same object or new list)
"""
...
@abstractmethod
def configure(self, config: EffectConfig) -> None:
"""Configure the effect with new settings.
Args:
config: New configuration to apply
"""
...
def create_effect_context(
terminal_width: int = 80,
terminal_height: int = 24,
scroll_cam: int = 0,
ticker_height: int = 0,
mic_excess: float = 0.0,
grad_offset: float = 0.0,
frame_number: int = 0,
has_message: bool = False,
items: list | None = None,
) -> EffectContext:
"""Factory function to create EffectContext with sensible defaults."""
return EffectContext(
terminal_width=terminal_width,
terminal_height=terminal_height,
scroll_cam=scroll_cam,
ticker_height=ticker_height,
mic_excess=mic_excess,
grad_offset=grad_offset,
frame_number=frame_number,
has_message=has_message,
items=items or [],
)
@dataclass
class PipelineConfig:
order: list[str] = field(default_factory=list)
effects: dict[str, EffectConfig] = field(default_factory=dict)

25
engine/emitters.py Normal file
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@@ -0,0 +1,25 @@
"""
Event emitter protocols - abstract interfaces for event-producing components.
"""
from collections.abc import Callable
from typing import Any, Protocol
class EventEmitter(Protocol):
"""Protocol for components that emit events."""
def subscribe(self, callback: Callable[[Any], None]) -> None: ...
def unsubscribe(self, callback: Callable[[Any], None]) -> None: ...
class Startable(Protocol):
"""Protocol for components that can be started."""
def start(self) -> Any: ...
class Stoppable(Protocol):
"""Protocol for components that can be stopped."""
def stop(self) -> None: ...

72
engine/eventbus.py Normal file
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@@ -0,0 +1,72 @@
"""
Event bus - pub/sub messaging for decoupled component communication.
"""
import threading
from collections import defaultdict
from collections.abc import Callable
from typing import Any
from engine.events import EventType
class EventBus:
"""Thread-safe event bus for publish-subscribe messaging."""
def __init__(self):
self._subscribers: dict[EventType, list[Callable[[Any], None]]] = defaultdict(
list
)
self._lock = threading.Lock()
def subscribe(self, event_type: EventType, callback: Callable[[Any], None]) -> None:
"""Register a callback for a specific event type."""
with self._lock:
self._subscribers[event_type].append(callback)
def unsubscribe(
self, event_type: EventType, callback: Callable[[Any], None]
) -> None:
"""Remove a callback for a specific event type."""
with self._lock:
if callback in self._subscribers[event_type]:
self._subscribers[event_type].remove(callback)
def publish(self, event_type: EventType, event: Any = None) -> None:
"""Publish an event to all subscribers."""
with self._lock:
callbacks = list(self._subscribers.get(event_type, []))
for callback in callbacks:
try:
callback(event)
except Exception:
pass
def clear(self) -> None:
"""Remove all subscribers."""
with self._lock:
self._subscribers.clear()
def subscriber_count(self, event_type: EventType | None = None) -> int:
"""Get subscriber count for an event type, or total if None."""
with self._lock:
if event_type is None:
return sum(len(cb) for cb in self._subscribers.values())
return len(self._subscribers.get(event_type, []))
_event_bus: EventBus | None = None
def get_event_bus() -> EventBus:
"""Get the global event bus instance."""
global _event_bus
if _event_bus is None:
_event_bus = EventBus()
return _event_bus
def set_event_bus(bus: EventBus) -> None:
"""Set the global event bus instance (for testing)."""
global _event_bus
_event_bus = bus

67
engine/events.py Normal file
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@@ -0,0 +1,67 @@
"""
Event types for the mainline application.
Defines the core events that flow through the system.
These types support a future migration to an event-driven architecture.
"""
from dataclasses import dataclass
from datetime import datetime
from enum import Enum, auto
class EventType(Enum):
"""Core event types in the mainline application."""
NEW_HEADLINE = auto()
FRAME_TICK = auto()
MIC_LEVEL = auto()
NTFY_MESSAGE = auto()
STREAM_START = auto()
STREAM_END = auto()
@dataclass
class HeadlineEvent:
"""Event emitted when a new headline is ready for display."""
title: str
source: str
timestamp: str
language: str | None = None
@dataclass
class FrameTickEvent:
"""Event emitted on each render frame."""
frame_number: int
timestamp: datetime
delta_seconds: float
@dataclass
class MicLevelEvent:
"""Event emitted when microphone level changes significantly."""
db_level: float
excess_above_threshold: float
timestamp: datetime
@dataclass
class NtfyMessageEvent:
"""Event emitted when an ntfy message is received."""
title: str
body: str
message_id: str | None = None
timestamp: datetime | None = None
@dataclass
class StreamEvent:
"""Event emitted when stream starts or ends."""
event_type: EventType
headline_count: int = 0
timestamp: datetime | None = None

44
engine/fetch.py
View File

@@ -3,21 +3,27 @@ RSS feed fetching, Project Gutenberg parsing, and headline caching.
Depends on: config, sources, filter, terminal.
"""
import re
import json
import pathlib
import re
import urllib.request
from datetime import datetime
from typing import Any
import feedparser
from engine import config
from engine.filter import skip, strip_tags
from engine.sources import FEEDS, POETRY_SOURCES
from engine.filter import strip_tags, skip
from engine.terminal import boot_ln
# Type alias for headline items
HeadlineTuple = tuple[str, str, str]
# ─── SINGLE FEED ──────────────────────────────────────────
def fetch_feed(url):
def fetch_feed(url: str) -> Any | None:
"""Fetch and parse a single RSS feed URL."""
try:
req = urllib.request.Request(url, headers={"User-Agent": "mainline/0.1"})
resp = urllib.request.urlopen(req, timeout=config.FEED_TIMEOUT)
@@ -27,8 +33,9 @@ def fetch_feed(url):
# ─── ALL RSS FEEDS ────────────────────────────────────────
def fetch_all():
items = []
def fetch_all() -> tuple[list[HeadlineTuple], int, int]:
"""Fetch all RSS feeds and return items, linked count, failed count."""
items: list[HeadlineTuple] = []
linked = failed = 0
for src, url in FEEDS.items():
feed = fetch_feed(url)
@@ -58,31 +65,36 @@ def fetch_all():
# ─── PROJECT GUTENBERG ────────────────────────────────────
def _fetch_gutenberg(url, label):
def _fetch_gutenberg(url: str, label: str) -> list[HeadlineTuple]:
"""Download and parse stanzas/passages from a Project Gutenberg text."""
try:
req = urllib.request.Request(url, headers={"User-Agent": "mainline/0.1"})
resp = urllib.request.urlopen(req, timeout=15)
text = resp.read().decode('utf-8', errors='replace').replace('\r\n', '\n').replace('\r', '\n')
text = (
resp.read()
.decode("utf-8", errors="replace")
.replace("\r\n", "\n")
.replace("\r", "\n")
)
# Strip PG boilerplate
m = re.search(r'\*\*\*\s*START OF[^\n]*\n', text)
m = re.search(r"\*\*\*\s*START OF[^\n]*\n", text)
if m:
text = text[m.end():]
m = re.search(r'\*\*\*\s*END OF', text)
text = text[m.end() :]
m = re.search(r"\*\*\*\s*END OF", text)
if m:
text = text[:m.start()]
text = text[: m.start()]
# Split on blank lines into stanzas/passages
blocks = re.split(r'\n{2,}', text.strip())
blocks = re.split(r"\n{2,}", text.strip())
items = []
for blk in blocks:
blk = ' '.join(blk.split()) # flatten to one line
blk = " ".join(blk.split()) # flatten to one line
if len(blk) < 20 or len(blk) > 280:
continue
if blk.isupper(): # skip all-caps headers
if blk.isupper(): # skip all-caps headers
continue
if re.match(r'^[IVXLCDM]+\.?\s*$', blk): # roman numerals
if re.match(r"^[IVXLCDM]+\.?\s*$", blk): # roman numerals
continue
items.append((blk, label, ''))
items.append((blk, label, ""))
return items
except Exception:
return []

42
engine/filter.py
View File

@@ -29,29 +29,29 @@ def strip_tags(html):
# ─── CONTENT FILTER ───────────────────────────────────────
_SKIP_RE = re.compile(
r'\b(?:'
r"\b(?:"
# ── sports ──
r'football|soccer|basketball|baseball|softball|tennis|golf|cricket|rugby|'
r'hockey|lacrosse|volleyball|badminton|'
r'nba|nfl|nhl|mlb|mls|fifa|uefa|'
r'premier league|champions league|la liga|serie a|bundesliga|'
r'world cup|super bowl|world series|stanley cup|'
r'playoff|playoffs|touchdown|goalkeeper|striker|quarterback|'
r'slam dunk|home run|grand slam|offside|halftime|'
r'batting|wicket|innings|'
r'formula 1|nascar|motogp|'
r'boxing|ufc|mma|'
r'marathon|tour de france|'
r'transfer window|draft pick|relegation|'
r"football|soccer|basketball|baseball|softball|tennis|golf|cricket|rugby|"
r"hockey|lacrosse|volleyball|badminton|"
r"nba|nfl|nhl|mlb|mls|fifa|uefa|"
r"premier league|champions league|la liga|serie a|bundesliga|"
r"world cup|super bowl|world series|stanley cup|"
r"playoff|playoffs|touchdown|goalkeeper|striker|quarterback|"
r"slam dunk|home run|grand slam|offside|halftime|"
r"batting|wicket|innings|"
r"formula 1|nascar|motogp|"
r"boxing|ufc|mma|"
r"marathon|tour de france|"
r"transfer window|draft pick|relegation|"
# ── vapid / insipid ──
r'kardashian|jenner|reality tv|reality show|'
r'influencer|viral video|tiktok|instagram|'
r'best dressed|worst dressed|red carpet|'
r'horoscope|zodiac|gossip|bikini|selfie|'
r'you won.t believe|what happened next|'
r'celebrity couple|celebrity feud|baby bump'
r')\b',
re.IGNORECASE
r"kardashian|jenner|reality tv|reality show|"
r"influencer|viral video|tiktok|instagram|"
r"best dressed|worst dressed|red carpet|"
r"horoscope|zodiac|gossip|bikini|selfie|"
r"you won.t believe|what happened next|"
r"celebrity couple|celebrity feud|baby bump"
r")\b",
re.IGNORECASE,
)

57
engine/frame.py Normal file
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@@ -0,0 +1,57 @@
"""
Frame timing utilities — FPS control and precise timing.
"""
import time
class FrameTimer:
"""Frame timer for consistent render loop timing."""
def __init__(self, target_frame_dt: float = 0.05):
self.target_frame_dt = target_frame_dt
self._frame_count = 0
self._start_time = time.monotonic()
self._last_frame_time = self._start_time
@property
def fps(self) -> float:
"""Current FPS based on elapsed frames."""
elapsed = time.monotonic() - self._start_time
if elapsed > 0:
return self._frame_count / elapsed
return 0.0
def sleep_until_next_frame(self) -> float:
"""Sleep to maintain target frame rate. Returns actual elapsed time."""
now = time.monotonic()
elapsed = now - self._last_frame_time
self._last_frame_time = now
self._frame_count += 1
sleep_time = max(0, self.target_frame_dt - elapsed)
if sleep_time > 0:
time.sleep(sleep_time)
return elapsed
def reset(self) -> None:
"""Reset frame counter and start time."""
self._frame_count = 0
self._start_time = time.monotonic()
self._last_frame_time = self._start_time
def calculate_scroll_step(
scroll_dur: float, view_height: int, padding: int = 15
) -> float:
"""Calculate scroll step interval for smooth scrolling.
Args:
scroll_dur: Duration in seconds for one headline to scroll through view
view_height: Terminal height in rows
padding: Extra rows for off-screen content
Returns:
Time in seconds between scroll steps
"""
return scroll_dur / (view_height + padding) * 2

267
engine/layers.py Normal file
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@@ -0,0 +1,267 @@
"""
Layer compositing — message overlay, ticker zone, firehose, noise.
Depends on: config, render, effects.
"""
import random
import re
import time
from datetime import datetime
from engine import config
from engine.effects import (
EffectChain,
EffectContext,
fade_line,
firehose_line,
glitch_bar,
noise,
vis_offset,
vis_trunc,
)
from engine.render import big_wrap, lr_gradient, lr_gradient_opposite
from engine.terminal import RST, W_COOL
MSG_META = "\033[38;5;245m"
MSG_BORDER = "\033[2;38;5;37m"
def render_message_overlay(
msg: tuple[str, str, float] | None,
w: int,
h: int,
msg_cache: tuple,
) -> tuple[list[str], tuple]:
"""Render ntfy message overlay.
Args:
msg: (title, body, timestamp) or None
w: terminal width
h: terminal height
msg_cache: (cache_key, rendered_rows) for caching
Returns:
(list of ANSI strings, updated cache)
"""
overlay = []
if msg is None:
return overlay, msg_cache
m_title, m_body, m_ts = msg
display_text = m_body or m_title or "(empty)"
display_text = re.sub(r"\s+", " ", display_text.upper())
cache_key = (display_text, w)
if msg_cache[0] != cache_key:
msg_rows = big_wrap(display_text, w - 4)
msg_cache = (cache_key, msg_rows)
else:
msg_rows = msg_cache[1]
msg_rows = lr_gradient_opposite(
msg_rows, (time.monotonic() * config.GRAD_SPEED) % 1.0
)
elapsed_s = int(time.monotonic() - m_ts)
remaining = max(0, config.MESSAGE_DISPLAY_SECS - elapsed_s)
ts_str = datetime.now().strftime("%H:%M:%S")
panel_h = len(msg_rows) + 2
panel_top = max(0, (h - panel_h) // 2)
row_idx = 0
for mr in msg_rows:
ln = vis_trunc(mr, w)
overlay.append(f"\033[{panel_top + row_idx + 1};1H {ln}\033[0m\033[K")
row_idx += 1
meta_parts = []
if m_title and m_title != m_body:
meta_parts.append(m_title)
meta_parts.append(f"ntfy \u00b7 {ts_str} \u00b7 {remaining}s")
meta = (
" " + " \u00b7 ".join(meta_parts)
if len(meta_parts) > 1
else " " + meta_parts[0]
)
overlay.append(f"\033[{panel_top + row_idx + 1};1H{MSG_META}{meta}\033[0m\033[K")
row_idx += 1
bar = "\u2500" * (w - 4)
overlay.append(f"\033[{panel_top + row_idx + 1};1H {MSG_BORDER}{bar}\033[0m\033[K")
return overlay, msg_cache
def render_ticker_zone(
active: list,
scroll_cam: int,
camera_x: int = 0,
ticker_h: int = 0,
w: int = 80,
noise_cache: dict | None = None,
grad_offset: float = 0.0,
) -> tuple[list[str], dict]:
"""Render the ticker scroll zone.
Args:
active: list of (content_rows, color, canvas_y, meta_idx)
scroll_cam: camera position (viewport top)
camera_x: horizontal camera offset
ticker_h: height of ticker zone
w: terminal width
noise_cache: dict of cy -> noise string
grad_offset: gradient animation offset
Returns:
(list of ANSI strings, updated noise_cache)
"""
if noise_cache is None:
noise_cache = {}
buf = []
top_zone = max(1, int(ticker_h * 0.25))
bot_zone = max(1, int(ticker_h * 0.10))
def noise_at(cy):
if cy not in noise_cache:
noise_cache[cy] = noise(w) if random.random() < 0.15 else None
return noise_cache[cy]
for r in range(ticker_h):
scr_row = r + 1
cy = scroll_cam + r
top_f = min(1.0, r / top_zone) if top_zone > 0 else 1.0
bot_f = min(1.0, (ticker_h - 1 - r) / bot_zone) if bot_zone > 0 else 1.0
row_fade = min(top_f, bot_f)
drawn = False
for content, hc, by, midx in active:
cr = cy - by
if 0 <= cr < len(content):
raw = content[cr]
if cr != midx:
colored = lr_gradient([raw], grad_offset)[0]
else:
colored = raw
ln = vis_trunc(vis_offset(colored, camera_x), w)
if row_fade < 1.0:
ln = fade_line(ln, row_fade)
if cr == midx:
buf.append(f"\033[{scr_row};1H{W_COOL}{ln}{RST}\033[K")
elif ln.strip():
buf.append(f"\033[{scr_row};1H{ln}{RST}\033[K")
else:
buf.append(f"\033[{scr_row};1H\033[K")
drawn = True
break
if not drawn:
n = noise_at(cy)
if row_fade < 1.0 and n:
n = fade_line(n, row_fade)
if n:
buf.append(f"\033[{scr_row};1H{n}")
else:
buf.append(f"\033[{scr_row};1H\033[K")
return buf, noise_cache
def apply_glitch(
buf: list[str],
ticker_buf_start: int,
mic_excess: float,
w: int,
) -> list[str]:
"""Apply glitch effect to ticker buffer.
Args:
buf: current buffer
ticker_buf_start: index where ticker starts in buffer
mic_excess: mic level above threshold
w: terminal width
Returns:
Updated buffer with glitches applied
"""
glitch_prob = 0.32 + min(0.9, mic_excess * 0.16)
n_hits = 4 + int(mic_excess / 2)
ticker_buf_len = len(buf) - ticker_buf_start
if random.random() < glitch_prob and ticker_buf_len > 0:
for _ in range(min(n_hits, ticker_buf_len)):
gi = random.randint(0, ticker_buf_len - 1)
scr_row = gi + 1
buf[ticker_buf_start + gi] = f"\033[{scr_row};1H{glitch_bar(w)}"
return buf
def render_firehose(items: list, w: int, fh: int, h: int) -> list[str]:
"""Render firehose strip at bottom of screen."""
buf = []
if fh > 0:
for fr in range(fh):
scr_row = h - fh + fr + 1
fline = firehose_line(items, w)
buf.append(f"\033[{scr_row};1H{fline}\033[K")
return buf
_effect_chain = None
def init_effects() -> None:
"""Initialize effect plugins and chain."""
global _effect_chain
from engine.effects import EffectChain, get_registry
registry = get_registry()
import effects_plugins
effects_plugins.discover_plugins()
chain = EffectChain(registry)
chain.set_order(["noise", "fade", "glitch", "firehose"])
_effect_chain = chain
def process_effects(
buf: list[str],
w: int,
h: int,
scroll_cam: int,
ticker_h: int,
camera_x: int = 0,
mic_excess: float = 0.0,
grad_offset: float = 0.0,
frame_number: int = 0,
has_message: bool = False,
items: list | None = None,
) -> list[str]:
"""Process buffer through effect chain."""
if _effect_chain is None:
init_effects()
ctx = EffectContext(
terminal_width=w,
terminal_height=h,
scroll_cam=scroll_cam,
camera_x=camera_x,
ticker_height=ticker_h,
mic_excess=mic_excess,
grad_offset=grad_offset,
frame_number=frame_number,
has_message=has_message,
items=items or [],
)
return _effect_chain.process(buf, ctx)
def get_effect_chain() -> EffectChain | None:
"""Get the effect chain instance."""
global _effect_chain
if _effect_chain is None:
init_effects()
return _effect_chain

40
engine/mic.py
View File

@@ -4,15 +4,21 @@ Gracefully degrades if sounddevice/numpy are unavailable.
"""
import atexit
from collections.abc import Callable
from datetime import datetime
try:
import sounddevice as _sd
import numpy as _np
import sounddevice as _sd
_HAS_MIC = True
except Exception:
_HAS_MIC = False
from engine.events import MicLevelEvent
class MicMonitor:
"""Background mic stream that exposes current RMS dB level."""
@@ -20,6 +26,7 @@ class MicMonitor:
self.threshold_db = threshold_db
self._db = -99.0
self._stream = None
self._subscribers: list[Callable[[MicLevelEvent], None]] = []
@property
def available(self):
@@ -36,16 +43,43 @@ class MicMonitor:
"""dB above threshold (clamped to 0)."""
return max(0.0, self._db - self.threshold_db)
def subscribe(self, callback: Callable[[MicLevelEvent], None]) -> None:
"""Register a callback to be called when mic level changes."""
self._subscribers.append(callback)
def unsubscribe(self, callback: Callable[[MicLevelEvent], None]) -> None:
"""Remove a registered callback."""
if callback in self._subscribers:
self._subscribers.remove(callback)
def _emit(self, event: MicLevelEvent) -> None:
"""Emit an event to all subscribers."""
for cb in self._subscribers:
try:
cb(event)
except Exception:
pass
def start(self):
"""Start background mic stream. Returns True on success, False/None otherwise."""
if not _HAS_MIC:
return None
def _cb(indata, frames, t, status):
rms = float(_np.sqrt(_np.mean(indata ** 2)))
rms = float(_np.sqrt(_np.mean(indata**2)))
self._db = 20 * _np.log10(rms) if rms > 0 else -99.0
if self._subscribers:
event = MicLevelEvent(
db_level=self._db,
excess_above_threshold=max(0.0, self._db - self.threshold_db),
timestamp=datetime.now(),
)
self._emit(event)
try:
self._stream = _sd.InputStream(
callback=_cb, channels=1, samplerate=44100, blocksize=2048)
callback=_cb, channels=1, samplerate=44100, blocksize=2048
)
self._stream.start()
atexit.register(self.stop)
return True

81
engine/ntfy.py
View File

@@ -1,9 +1,9 @@
"""
ntfy.sh message poller — standalone, zero internal dependencies.
ntfy.sh SSE stream listener — standalone, zero internal dependencies.
Reusable by any visualizer:
from engine.ntfy import NtfyPoller
poller = NtfyPoller("https://ntfy.sh/my_topic/json?since=20s&poll=1")
poller = NtfyPoller("https://ntfy.sh/my_topic/json")
poller.start()
# in render loop:
msg = poller.get_active_message()
@@ -13,24 +13,47 @@ Reusable by any visualizer:
"""
import json
import time
import threading
import time
import urllib.request
from collections.abc import Callable
from datetime import datetime
from urllib.parse import parse_qs, urlencode, urlparse, urlunparse
from engine.events import NtfyMessageEvent
class NtfyPoller:
"""Background poller for ntfy.sh topics."""
"""SSE stream listener for ntfy.sh topics. Messages arrive in ~1s (network RTT)."""
def __init__(self, topic_url, poll_interval=15, display_secs=30):
def __init__(self, topic_url, reconnect_delay=5, display_secs=30):
self.topic_url = topic_url
self.poll_interval = poll_interval
self.reconnect_delay = reconnect_delay
self.display_secs = display_secs
self._message = None # (title, body, monotonic_timestamp) or None
self._message = None # (title, body, monotonic_timestamp) or None
self._lock = threading.Lock()
self._subscribers: list[Callable[[NtfyMessageEvent], None]] = []
def subscribe(self, callback: Callable[[NtfyMessageEvent], None]) -> None:
"""Register a callback to be called when a message is received."""
self._subscribers.append(callback)
def unsubscribe(self, callback: Callable[[NtfyMessageEvent], None]) -> None:
"""Remove a registered callback."""
if callback in self._subscribers:
self._subscribers.remove(callback)
def _emit(self, event: NtfyMessageEvent) -> None:
"""Emit an event to all subscribers."""
for cb in self._subscribers:
try:
cb(event)
except Exception:
pass
def start(self):
"""Start background polling thread. Returns True."""
t = threading.Thread(target=self._poll_loop, daemon=True)
"""Start background stream thread. Returns True."""
t = threading.Thread(target=self._stream_loop, daemon=True)
t.start()
return True
@@ -50,19 +73,36 @@ class NtfyPoller:
with self._lock:
self._message = None
def _poll_loop(self):
def _build_url(self, last_id=None):
"""Build the stream URL, substituting since= to avoid message replays on reconnect."""
parsed = urlparse(self.topic_url)
params = parse_qs(parsed.query, keep_blank_values=True)
params["since"] = [last_id if last_id else "20s"]
new_query = urlencode({k: v[0] for k, v in params.items()})
return urlunparse(parsed._replace(query=new_query))
def _stream_loop(self):
last_id = None
while True:
try:
url = self._build_url(last_id)
req = urllib.request.Request(
self.topic_url, headers={"User-Agent": "mainline/0.1"})
resp = urllib.request.urlopen(req, timeout=10)
for line in resp.read().decode('utf-8', errors='replace').strip().split('\n'):
if not line.strip():
continue
url, headers={"User-Agent": "mainline/0.1"}
)
# timeout=90 keeps the socket alive through ntfy.sh keepalive heartbeats
resp = urllib.request.urlopen(req, timeout=90)
while True:
line = resp.readline()
if not line:
break # server closed connection — reconnect
try:
data = json.loads(line)
data = json.loads(line.decode("utf-8", errors="replace"))
except json.JSONDecodeError:
continue
# Advance cursor on every event (message + keepalive) to
# avoid replaying already-seen events after a reconnect.
if "id" in data:
last_id = data["id"]
if data.get("event") == "message":
with self._lock:
self._message = (
@@ -70,6 +110,13 @@ class NtfyPoller:
data.get("message", ""),
time.monotonic(),
)
event = NtfyMessageEvent(
title=data.get("title", ""),
body=data.get("message", ""),
message_id=data.get("id"),
timestamp=datetime.now(),
)
self._emit(event)
except Exception:
pass
time.sleep(self.poll_interval)
time.sleep(self.reconnect_delay)

611
engine/pipeline.py Normal file
View File

@@ -0,0 +1,611 @@
"""
Pipeline introspection - generates self-documenting diagrams of the render pipeline.
Pipeline Architecture:
- Sources: Data providers (RSS, Poetry, Ntfy, Mic) - static or dynamic
- Fetch: Retrieve data from sources
- Prepare: Transform raw data (make_block, strip_tags, translate)
- Scroll: Camera-based viewport rendering (ticker zone, message overlay)
- Effects: Post-processing chain (noise, fade, glitch, firehose, hud)
- Render: Final line rendering and layout
- Display: Output backends (terminal, pygame, websocket, sixel, kitty)
Key abstractions:
- DataSource: Sources can be static (cached) or dynamic (idempotent fetch)
- Camera: Viewport controller (vertical, horizontal, omni, floating, trace)
- EffectChain: Ordered effect processing pipeline
- Display: Pluggable output backends
- SourceRegistry: Source discovery and management
- AnimationController: Time-based parameter animation
- Preset: Package of initial params + animation for demo modes
"""
from __future__ import annotations
from dataclasses import dataclass
@dataclass
class PipelineNode:
"""Represents a node in the pipeline."""
name: str
module: str
class_name: str | None = None
func_name: str | None = None
description: str = ""
inputs: list[str] | None = None
outputs: list[str] | None = None
metrics: dict | None = None # Performance metrics (avg_ms, min_ms, max_ms)
class PipelineIntrospector:
"""Introspects the render pipeline and generates documentation."""
def __init__(self):
self.nodes: list[PipelineNode] = []
def add_node(self, node: PipelineNode) -> None:
self.nodes.append(node)
def generate_mermaid_flowchart(self) -> str:
"""Generate a Mermaid flowchart of the pipeline."""
lines = ["```mermaid", "flowchart TD"]
subgraph_groups = {
"Sources": [],
"Fetch": [],
"Prepare": [],
"Scroll": [],
"Effects": [],
"Display": [],
"Async": [],
"Animation": [],
"Viz": [],
}
other_nodes = []
for node in self.nodes:
node_id = node.name.replace("-", "_").replace(" ", "_").replace(":", "_")
label = node.name
if node.class_name:
label = f"{node.name}\\n({node.class_name})"
elif node.func_name:
label = f"{node.name}\\n({node.func_name})"
if node.description:
label += f"\\n{node.description}"
if node.metrics:
avg = node.metrics.get("avg_ms", 0)
if avg > 0:
label += f"\\n⏱ {avg:.1f}ms"
impact = node.metrics.get("impact_pct", 0)
if impact > 0:
label += f" ({impact:.0f}%)"
node_entry = f' {node_id}["{label}"]'
if "DataSource" in node.name or "SourceRegistry" in node.name:
subgraph_groups["Sources"].append(node_entry)
elif "fetch" in node.name.lower():
subgraph_groups["Fetch"].append(node_entry)
elif (
"make_block" in node.name
or "strip_tags" in node.name
or "translate" in node.name
):
subgraph_groups["Prepare"].append(node_entry)
elif (
"StreamController" in node.name
or "render_ticker" in node.name
or "render_message" in node.name
or "Camera" in node.name
):
subgraph_groups["Scroll"].append(node_entry)
elif "Effect" in node.name or "effect" in node.module:
subgraph_groups["Effects"].append(node_entry)
elif "Display:" in node.name:
subgraph_groups["Display"].append(node_entry)
elif "Ntfy" in node.name or "Mic" in node.name:
subgraph_groups["Async"].append(node_entry)
elif "Animation" in node.name or "Preset" in node.name:
subgraph_groups["Animation"].append(node_entry)
elif "pipeline_viz" in node.module or "CameraLarge" in node.name:
subgraph_groups["Viz"].append(node_entry)
else:
other_nodes.append(node_entry)
for group_name, nodes in subgraph_groups.items():
if nodes:
lines.append(f" subgraph {group_name}")
for node in nodes:
lines.append(node)
lines.append(" end")
for node in other_nodes:
lines.append(node)
lines.append("")
for node in self.nodes:
node_id = node.name.replace("-", "_").replace(" ", "_").replace(":", "_")
if node.inputs:
for inp in node.inputs:
inp_id = inp.replace("-", "_").replace(" ", "_").replace(":", "_")
lines.append(f" {inp_id} --> {node_id}")
lines.append("```")
return "\n".join(lines)
def generate_mermaid_sequence(self) -> str:
"""Generate a Mermaid sequence diagram of message flow."""
lines = ["```mermaid", "sequenceDiagram"]
lines.append(" participant Sources")
lines.append(" participant Fetch")
lines.append(" participant Scroll")
lines.append(" participant Effects")
lines.append(" participant Display")
lines.append(" Sources->>Fetch: headlines")
lines.append(" Fetch->>Scroll: content blocks")
lines.append(" Scroll->>Effects: buffer")
lines.append(" Effects->>Effects: process chain")
lines.append(" Effects->>Display: rendered buffer")
lines.append("```")
return "\n".join(lines)
def generate_mermaid_state(self) -> str:
"""Generate a Mermaid state diagram of camera modes."""
lines = ["```mermaid", "stateDiagram-v2"]
lines.append(" [*] --> Vertical")
lines.append(" Vertical --> Horizontal: set_mode()")
lines.append(" Horizontal --> Omni: set_mode()")
lines.append(" Omni --> Floating: set_mode()")
lines.append(" Floating --> Trace: set_mode()")
lines.append(" Trace --> Vertical: set_mode()")
lines.append(" state Vertical {")
lines.append(" [*] --> ScrollUp")
lines.append(" ScrollUp --> ScrollUp: +y each frame")
lines.append(" }")
lines.append(" state Horizontal {")
lines.append(" [*] --> ScrollLeft")
lines.append(" ScrollLeft --> ScrollLeft: +x each frame")
lines.append(" }")
lines.append(" state Omni {")
lines.append(" [*] --> Diagonal")
lines.append(" Diagonal --> Diagonal: +x, +y")
lines.append(" }")
lines.append(" state Floating {")
lines.append(" [*] --> Bobbing")
lines.append(" Bobbing --> Bobbing: sin(time)")
lines.append(" }")
lines.append(" state Trace {")
lines.append(" [*] --> FollowPath")
lines.append(" FollowPath --> FollowPath: node by node")
lines.append(" }")
lines.append("```")
return "\n".join(lines)
def generate_full_diagram(self) -> str:
"""Generate full pipeline documentation."""
lines = [
"# Render Pipeline",
"",
"## Data Flow",
"",
self.generate_mermaid_flowchart(),
"",
"## Message Sequence",
"",
self.generate_mermaid_sequence(),
"",
"## Camera States",
"",
self.generate_mermaid_state(),
]
return "\n".join(lines)
def introspect_sources(self) -> None:
"""Introspect data sources."""
from engine import sources
for name in dir(sources):
obj = getattr(sources, name)
if isinstance(obj, dict):
self.add_node(
PipelineNode(
name=f"Data Source: {name}",
module="engine.sources",
description=f"{len(obj)} feeds configured",
)
)
def introspect_sources_v2(self) -> None:
"""Introspect data sources v2 (new abstraction)."""
from engine.sources_v2 import SourceRegistry, init_default_sources
init_default_sources()
SourceRegistry()
self.add_node(
PipelineNode(
name="SourceRegistry",
module="engine.sources_v2",
class_name="SourceRegistry",
description="Source discovery and management",
)
)
for name, desc in [
("HeadlinesDataSource", "RSS feed headlines"),
("PoetryDataSource", "Poetry DB"),
("PipelineDataSource", "Pipeline viz (dynamic)"),
]:
self.add_node(
PipelineNode(
name=f"DataSource: {name}",
module="engine.sources_v2",
class_name=name,
description=f"{desc}",
)
)
def introspect_prepare(self) -> None:
"""Introspect prepare layer (transformation)."""
self.add_node(
PipelineNode(
name="make_block",
module="engine.render",
func_name="make_block",
description="Transform headline into display block",
inputs=["title", "source", "timestamp", "width"],
outputs=["block"],
)
)
self.add_node(
PipelineNode(
name="strip_tags",
module="engine.filter",
func_name="strip_tags",
description="Remove HTML tags from content",
inputs=["html"],
outputs=["plain_text"],
)
)
self.add_node(
PipelineNode(
name="translate_headline",
module="engine.translate",
func_name="translate_headline",
description="Translate headline to target language",
inputs=["title", "target_lang"],
outputs=["translated_title"],
)
)
def introspect_fetch(self) -> None:
"""Introspect fetch layer."""
self.add_node(
PipelineNode(
name="fetch_all",
module="engine.fetch",
func_name="fetch_all",
description="Fetch RSS feeds",
outputs=["items"],
)
)
self.add_node(
PipelineNode(
name="fetch_poetry",
module="engine.fetch",
func_name="fetch_poetry",
description="Fetch Poetry DB",
outputs=["items"],
)
)
def introspect_scroll(self) -> None:
"""Introspect scroll engine."""
self.add_node(
PipelineNode(
name="StreamController",
module="engine.controller",
class_name="StreamController",
description="Main render loop orchestrator",
inputs=["items", "ntfy_poller", "mic_monitor", "display"],
outputs=["buffer"],
)
)
self.add_node(
PipelineNode(
name="render_ticker_zone",
module="engine.layers",
func_name="render_ticker_zone",
description="Render scrolling ticker content",
inputs=["active", "camera"],
outputs=["buffer"],
)
)
self.add_node(
PipelineNode(
name="render_message_overlay",
module="engine.layers",
func_name="render_message_overlay",
description="Render ntfy message overlay",
inputs=["msg", "width", "height"],
outputs=["overlay", "cache"],
)
)
def introspect_render(self) -> None:
"""Introspect render layer."""
self.add_node(
PipelineNode(
name="big_wrap",
module="engine.render",
func_name="big_wrap",
description="Word-wrap text to width",
inputs=["text", "width"],
outputs=["lines"],
)
)
self.add_node(
PipelineNode(
name="lr_gradient",
module="engine.render",
func_name="lr_gradient",
description="Apply left-right gradient to lines",
inputs=["lines", "position"],
outputs=["styled_lines"],
)
)
def introspect_async_sources(self) -> None:
"""Introspect async data sources (ntfy, mic)."""
self.add_node(
PipelineNode(
name="NtfyPoller",
module="engine.ntfy",
class_name="NtfyPoller",
description="Poll ntfy for messages (async)",
inputs=["topic"],
outputs=["message"],
)
)
self.add_node(
PipelineNode(
name="MicMonitor",
module="engine.mic",
class_name="MicMonitor",
description="Monitor microphone input (async)",
outputs=["audio_level"],
)
)
def introspect_eventbus(self) -> None:
"""Introspect event bus for decoupled communication."""
self.add_node(
PipelineNode(
name="EventBus",
module="engine.eventbus",
class_name="EventBus",
description="Thread-safe event publishing",
inputs=["event"],
outputs=["subscribers"],
)
)
def introspect_animation(self) -> None:
"""Introspect animation system."""
self.add_node(
PipelineNode(
name="AnimationController",
module="engine.animation",
class_name="AnimationController",
description="Time-based parameter animation",
inputs=["dt"],
outputs=["params"],
)
)
self.add_node(
PipelineNode(
name="Preset",
module="engine.animation",
class_name="Preset",
description="Package of initial params + animation",
)
)
def introspect_pipeline_viz(self) -> None:
"""Introspect pipeline visualization."""
self.add_node(
PipelineNode(
name="generate_large_network_viewport",
module="engine.pipeline_viz",
func_name="generate_large_network_viewport",
description="Large animated network visualization",
inputs=["viewport_w", "viewport_h", "frame"],
outputs=["buffer"],
)
)
self.add_node(
PipelineNode(
name="CameraLarge",
module="engine.pipeline_viz",
class_name="CameraLarge",
description="Large grid camera (trace mode)",
)
)
def introspect_camera(self) -> None:
"""Introspect camera system."""
self.add_node(
PipelineNode(
name="Camera",
module="engine.camera",
class_name="Camera",
description="Viewport position controller",
inputs=["dt"],
outputs=["x", "y"],
)
)
def introspect_effects(self) -> None:
"""Introspect effect system."""
self.add_node(
PipelineNode(
name="EffectChain",
module="engine.effects",
class_name="EffectChain",
description="Process effects in sequence",
inputs=["buffer", "context"],
outputs=["buffer"],
)
)
self.add_node(
PipelineNode(
name="EffectRegistry",
module="engine.effects",
class_name="EffectRegistry",
description="Manage effect plugins",
)
)
def introspect_display(self) -> None:
"""Introspect display backends."""
from engine.display import DisplayRegistry
DisplayRegistry.initialize()
backends = DisplayRegistry.list_backends()
for backend in backends:
self.add_node(
PipelineNode(
name=f"Display: {backend}",
module="engine.display.backends",
class_name=f"{backend.title()}Display",
description=f"Render to {backend}",
inputs=["buffer"],
)
)
def introspect_new_pipeline(self, pipeline=None) -> None:
"""Introspect new unified pipeline stages with metrics.
Args:
pipeline: Optional Pipeline instance to collect metrics from
"""
stages_info = [
(
"ItemsSource",
"engine.pipeline.adapters",
"ItemsStage",
"Provides pre-fetched items",
),
(
"Render",
"engine.pipeline.adapters",
"RenderStage",
"Renders items to buffer",
),
(
"Effect",
"engine.pipeline.adapters",
"EffectPluginStage",
"Applies effect",
),
(
"Display",
"engine.pipeline.adapters",
"DisplayStage",
"Outputs to display",
),
]
metrics = None
if pipeline and hasattr(pipeline, "get_metrics_summary"):
metrics = pipeline.get_metrics_summary()
if "error" in metrics:
metrics = None
total_avg = metrics.get("pipeline", {}).get("avg_ms", 0) if metrics else 0
for stage_name, module, class_name, desc in stages_info:
node_metrics = None
if metrics and "stages" in metrics:
for name, stats in metrics["stages"].items():
if stage_name.lower() in name.lower():
impact_pct = (
(stats.get("avg_ms", 0) / total_avg * 100)
if total_avg > 0
else 0
)
node_metrics = {
"avg_ms": stats.get("avg_ms", 0),
"min_ms": stats.get("min_ms", 0),
"max_ms": stats.get("max_ms", 0),
"impact_pct": impact_pct,
}
break
self.add_node(
PipelineNode(
name=f"Pipeline: {stage_name}",
module=module,
class_name=class_name,
description=desc,
inputs=["data"],
outputs=["data"],
metrics=node_metrics,
)
)
def run(self) -> str:
"""Run full introspection."""
self.introspect_sources()
self.introspect_sources_v2()
self.introspect_fetch()
self.introspect_prepare()
self.introspect_scroll()
self.introspect_render()
self.introspect_camera()
self.introspect_effects()
self.introspect_display()
self.introspect_async_sources()
self.introspect_eventbus()
self.introspect_animation()
self.introspect_pipeline_viz()
return self.generate_full_diagram()
def generate_pipeline_diagram() -> str:
"""Generate a self-documenting pipeline diagram."""
introspector = PipelineIntrospector()
return introspector.run()
if __name__ == "__main__":
print(generate_pipeline_diagram())

107
engine/pipeline/__init__.py Normal file
View File

@@ -0,0 +1,107 @@
"""
Unified Pipeline Architecture.
This module provides a clean, dependency-managed pipeline system:
- Stage: Base class for all pipeline components
- Pipeline: DAG-based execution orchestrator
- PipelineParams: Runtime configuration for animation
- PipelinePreset: Pre-configured pipeline configurations
- StageRegistry: Unified registration for all stage types
The pipeline architecture supports:
- Sources: Data providers (headlines, poetry, pipeline viz)
- Effects: Post-processors (noise, fade, glitch, hud)
- Displays: Output backends (terminal, pygame, websocket)
- Cameras: Viewport controllers (vertical, horizontal, omni)
Example:
from engine.pipeline import Pipeline, PipelineConfig, StageRegistry
pipeline = Pipeline(PipelineConfig(source="headlines", display="terminal"))
pipeline.add_stage("source", StageRegistry.create("source", "headlines"))
pipeline.add_stage("display", StageRegistry.create("display", "terminal"))
pipeline.build().initialize()
result = pipeline.execute(initial_data)
"""
from engine.pipeline.controller import (
Pipeline,
PipelineConfig,
PipelineRunner,
create_default_pipeline,
create_pipeline_from_params,
)
from engine.pipeline.core import (
PipelineContext,
Stage,
StageConfig,
StageError,
StageResult,
)
from engine.pipeline.params import (
DEFAULT_HEADLINE_PARAMS,
DEFAULT_PIPELINE_PARAMS,
DEFAULT_PYGAME_PARAMS,
PipelineParams,
)
from engine.pipeline.presets import (
DEMO_PRESET,
FIREHOSE_PRESET,
PIPELINE_VIZ_PRESET,
POETRY_PRESET,
PRESETS,
SIXEL_PRESET,
WEBSOCKET_PRESET,
PipelinePreset,
create_preset_from_params,
get_preset,
list_presets,
)
from engine.pipeline.registry import (
StageRegistry,
discover_stages,
register_camera,
register_display,
register_effect,
register_source,
)
__all__ = [
# Core
"Stage",
"StageConfig",
"StageError",
"StageResult",
"PipelineContext",
# Controller
"Pipeline",
"PipelineConfig",
"PipelineRunner",
"create_default_pipeline",
"create_pipeline_from_params",
# Params
"PipelineParams",
"DEFAULT_HEADLINE_PARAMS",
"DEFAULT_PIPELINE_PARAMS",
"DEFAULT_PYGAME_PARAMS",
# Presets
"PipelinePreset",
"PRESETS",
"DEMO_PRESET",
"POETRY_PRESET",
"PIPELINE_VIZ_PRESET",
"WEBSOCKET_PRESET",
"SIXEL_PRESET",
"FIREHOSE_PRESET",
"get_preset",
"list_presets",
"create_preset_from_params",
# Registry
"StageRegistry",
"discover_stages",
"register_source",
"register_effect",
"register_display",
"register_camera",
]

299
engine/pipeline/adapters.py Normal file
View File

@@ -0,0 +1,299 @@
"""
Stage adapters - Bridge existing components to the Stage interface.
This module provides adapters that wrap existing components
(EffectPlugin, Display, DataSource, Camera) as Stage implementations.
"""
import random
from typing import Any
from engine.pipeline.core import PipelineContext, Stage
class RenderStage(Stage):
"""Stage that renders items to a text buffer for display.
This mimics the old demo's render pipeline:
- Selects headlines and renders them to blocks
- Applies camera scroll position
- Adds firehose layer if enabled
"""
def __init__(
self,
items: list,
width: int = 80,
height: int = 24,
camera_speed: float = 1.0,
camera_mode: str = "vertical",
firehose_enabled: bool = False,
name: str = "render",
):
self.name = name
self.category = "render"
self.optional = False
self._items = items
self._width = width
self._height = height
self._camera_speed = camera_speed
self._camera_mode = camera_mode
self._firehose_enabled = firehose_enabled
self._camera_y = 0.0
self._camera_x = 0
self._scroll_accum = 0.0
self._ticker_next_y = 0
self._active: list = []
self._seen: set = set()
self._pool: list = list(items)
self._noise_cache: dict = {}
self._frame_count = 0
@property
def capabilities(self) -> set[str]:
return {"render.output"}
@property
def dependencies(self) -> set[str]:
return {"source.items"}
def init(self, ctx: PipelineContext) -> bool:
random.shuffle(self._pool)
return True
def process(self, data: Any, ctx: PipelineContext) -> Any:
"""Render items to a text buffer."""
from engine.effects import next_headline
from engine.layers import render_firehose, render_ticker_zone
from engine.render import make_block
items = data or self._items
w = ctx.params.viewport_width if ctx.params else self._width
h = ctx.params.viewport_height if ctx.params else self._height
camera_speed = ctx.params.camera_speed if ctx.params else self._camera_speed
firehose = ctx.params.firehose_enabled if ctx.params else self._firehose_enabled
scroll_step = 0.5 / (camera_speed * 10)
self._scroll_accum += scroll_step
GAP = 3
while self._scroll_accum >= scroll_step:
self._scroll_accum -= scroll_step
self._camera_y += 1.0
while (
self._ticker_next_y < int(self._camera_y) + h + 10
and len(self._active) < 50
):
t, src, ts = next_headline(self._pool, items, self._seen)
ticker_content, hc, midx = make_block(t, src, ts, w)
self._active.append((ticker_content, hc, self._ticker_next_y, midx))
self._ticker_next_y += len(ticker_content) + GAP
self._active = [
(c, hc, by, mi)
for c, hc, by, mi in self._active
if by + len(c) > int(self._camera_y)
]
for k in list(self._noise_cache):
if k < int(self._camera_y):
del self._noise_cache[k]
grad_offset = (self._frame_count * 0.01) % 1.0
buf, self._noise_cache = render_ticker_zone(
self._active,
scroll_cam=int(self._camera_y),
camera_x=self._camera_x,
ticker_h=h,
w=w,
noise_cache=self._noise_cache,
grad_offset=grad_offset,
)
if firehose:
firehose_buf = render_firehose(items, w, 0, h)
buf.extend(firehose_buf)
self._frame_count += 1
return buf
class EffectPluginStage(Stage):
"""Adapter wrapping EffectPlugin as a Stage."""
def __init__(self, effect_plugin, name: str = "effect"):
self._effect = effect_plugin
self.name = name
self.category = "effect"
self.optional = False
@property
def capabilities(self) -> set[str]:
return {f"effect.{self.name}"}
@property
def dependencies(self) -> set[str]:
return set()
def process(self, data: Any, ctx: PipelineContext) -> Any:
"""Process data through the effect."""
if data is None:
return None
from engine.effects import EffectContext
w = ctx.params.viewport_width if ctx.params else 80
h = ctx.params.viewport_height if ctx.params else 24
frame = ctx.params.frame_number if ctx.params else 0
effect_ctx = EffectContext(
terminal_width=w,
terminal_height=h,
scroll_cam=0,
ticker_height=h,
camera_x=0,
mic_excess=0.0,
grad_offset=(frame * 0.01) % 1.0,
frame_number=frame,
has_message=False,
items=ctx.get("items", []),
)
return self._effect.process(data, effect_ctx)
class DisplayStage(Stage):
"""Adapter wrapping Display as a Stage."""
def __init__(self, display, name: str = "terminal"):
self._display = display
self.name = name
self.category = "display"
self.optional = False
@property
def capabilities(self) -> set[str]:
return {"display.output"}
@property
def dependencies(self) -> set[str]:
return set()
def init(self, ctx: PipelineContext) -> bool:
w = ctx.params.viewport_width if ctx.params else 80
h = ctx.params.viewport_height if ctx.params else 24
result = self._display.init(w, h, reuse=False)
return result is not False
def process(self, data: Any, ctx: PipelineContext) -> Any:
"""Output data to display."""
if data is not None:
self._display.show(data)
return data
def cleanup(self) -> None:
self._display.cleanup()
class DataSourceStage(Stage):
"""Adapter wrapping DataSource as a Stage."""
def __init__(self, data_source, name: str = "headlines"):
self._source = data_source
self.name = name
self.category = "source"
self.optional = False
@property
def capabilities(self) -> set[str]:
return {f"source.{self.name}"}
@property
def dependencies(self) -> set[str]:
return set()
def process(self, data: Any, ctx: PipelineContext) -> Any:
"""Fetch data from source."""
if hasattr(self._source, "get_items"):
return self._source.get_items()
return data
class ItemsStage(Stage):
"""Stage that holds pre-fetched items and provides them to the pipeline."""
def __init__(self, items, name: str = "headlines"):
self._items = items
self.name = name
self.category = "source"
self.optional = False
@property
def capabilities(self) -> set[str]:
return {f"source.{self.name}"}
@property
def dependencies(self) -> set[str]:
return set()
def process(self, data: Any, ctx: PipelineContext) -> Any:
"""Return the pre-fetched items."""
return self._items
class CameraStage(Stage):
"""Adapter wrapping Camera as a Stage."""
def __init__(self, camera, name: str = "vertical"):
self._camera = camera
self.name = name
self.category = "camera"
self.optional = True
@property
def capabilities(self) -> set[str]:
return {"camera"}
@property
def dependencies(self) -> set[str]:
return {"source.items"}
def process(self, data: Any, ctx: PipelineContext) -> Any:
"""Apply camera transformation to data."""
if data is None:
return None
if hasattr(self._camera, "apply"):
return self._camera.apply(
data, ctx.params.viewport_width if ctx.params else 80
)
return data
def cleanup(self) -> None:
if hasattr(self._camera, "reset"):
self._camera.reset()
def create_stage_from_display(display, name: str = "terminal") -> DisplayStage:
"""Create a Stage from a Display instance."""
return DisplayStage(display, name)
def create_stage_from_effect(effect_plugin, name: str) -> EffectPluginStage:
"""Create a Stage from an EffectPlugin."""
return EffectPluginStage(effect_plugin, name)
def create_stage_from_source(data_source, name: str = "headlines") -> DataSourceStage:
"""Create a Stage from a DataSource."""
return DataSourceStage(data_source, name)
def create_stage_from_camera(camera, name: str = "vertical") -> CameraStage:
"""Create a Stage from a Camera."""
return CameraStage(camera, name)
def create_items_stage(items, name: str = "headlines") -> ItemsStage:
"""Create a Stage that holds pre-fetched items."""
return ItemsStage(items, name)

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"""
Pipeline controller - DAG-based pipeline execution.
The Pipeline class orchestrates stages in dependency order, handling
the complete render cycle from source to display.
"""
import time
from dataclasses import dataclass, field
from typing import Any
from engine.pipeline.core import PipelineContext, Stage, StageError, StageResult
from engine.pipeline.params import PipelineParams
from engine.pipeline.registry import StageRegistry
@dataclass
class PipelineConfig:
"""Configuration for a pipeline instance."""
source: str = "headlines"
display: str = "terminal"
camera: str = "vertical"
effects: list[str] = field(default_factory=list)
enable_metrics: bool = True
@dataclass
class StageMetrics:
"""Metrics for a single stage execution."""
name: str
duration_ms: float
chars_in: int = 0
chars_out: int = 0
@dataclass
class FrameMetrics:
"""Metrics for a single frame through the pipeline."""
frame_number: int
total_ms: float
stages: list[StageMetrics] = field(default_factory=list)
class Pipeline:
"""Main pipeline orchestrator.
Manages the execution of all stages in dependency order,
handling initialization, processing, and cleanup.
"""
def __init__(
self,
config: PipelineConfig | None = None,
context: PipelineContext | None = None,
):
self.config = config or PipelineConfig()
self.context = context or PipelineContext()
self._stages: dict[str, Stage] = {}
self._execution_order: list[str] = []
self._initialized = False
self._metrics_enabled = self.config.enable_metrics
self._frame_metrics: list[FrameMetrics] = []
self._max_metrics_frames = 60
self._current_frame_number = 0
def add_stage(self, name: str, stage: Stage) -> "Pipeline":
"""Add a stage to the pipeline."""
self._stages[name] = stage
return self
def remove_stage(self, name: str) -> None:
"""Remove a stage from the pipeline."""
if name in self._stages:
del self._stages[name]
def get_stage(self, name: str) -> Stage | None:
"""Get a stage by name."""
return self._stages.get(name)
def build(self) -> "Pipeline":
"""Build execution order based on dependencies."""
self._execution_order = self._resolve_dependencies()
self._initialized = True
return self
def _resolve_dependencies(self) -> list[str]:
"""Resolve stage execution order using topological sort."""
ordered = []
visited = set()
temp_mark = set()
def visit(name: str) -> None:
if name in temp_mark:
raise StageError(name, "Circular dependency detected")
if name in visited:
return
temp_mark.add(name)
stage = self._stages.get(name)
if stage:
for dep in stage.dependencies:
dep_stage = self._stages.get(dep)
if dep_stage:
visit(dep)
temp_mark.remove(name)
visited.add(name)
ordered.append(name)
for name in self._stages:
if name not in visited:
visit(name)
return ordered
def initialize(self) -> bool:
"""Initialize all stages in execution order."""
for name in self._execution_order:
stage = self._stages.get(name)
if stage and not stage.init(self.context) and not stage.optional:
return False
return True
def execute(self, data: Any | None = None) -> StageResult:
"""Execute the pipeline with the given input data."""
if not self._initialized:
self.build()
if not self._initialized:
return StageResult(
success=False,
data=None,
error="Pipeline not initialized",
)
current_data = data
frame_start = time.perf_counter() if self._metrics_enabled else 0
stage_timings: list[StageMetrics] = []
for name in self._execution_order:
stage = self._stages.get(name)
if not stage or not stage.is_enabled():
continue
stage_start = time.perf_counter() if self._metrics_enabled else 0
try:
current_data = stage.process(current_data, self.context)
except Exception as e:
if not stage.optional:
return StageResult(
success=False,
data=current_data,
error=str(e),
stage_name=name,
)
continue
if self._metrics_enabled:
stage_duration = (time.perf_counter() - stage_start) * 1000
chars_in = len(str(data)) if data else 0
chars_out = len(str(current_data)) if current_data else 0
stage_timings.append(
StageMetrics(
name=name,
duration_ms=stage_duration,
chars_in=chars_in,
chars_out=chars_out,
)
)
if self._metrics_enabled:
total_duration = (time.perf_counter() - frame_start) * 1000
self._frame_metrics.append(
FrameMetrics(
frame_number=self._current_frame_number,
total_ms=total_duration,
stages=stage_timings,
)
)
if len(self._frame_metrics) > self._max_metrics_frames:
self._frame_metrics.pop(0)
self._current_frame_number += 1
return StageResult(success=True, data=current_data)
def cleanup(self) -> None:
"""Clean up all stages in reverse order."""
for name in reversed(self._execution_order):
stage = self._stages.get(name)
if stage:
try:
stage.cleanup()
except Exception:
pass
self._stages.clear()
self._initialized = False
@property
def stages(self) -> dict[str, Stage]:
"""Get all stages."""
return self._stages.copy()
@property
def execution_order(self) -> list[str]:
"""Get execution order."""
return self._execution_order.copy()
def get_stage_names(self) -> list[str]:
"""Get list of stage names."""
return list(self._stages.keys())
def get_metrics_summary(self) -> dict:
"""Get summary of collected metrics."""
if not self._frame_metrics:
return {"error": "No metrics collected"}
total_times = [f.total_ms for f in self._frame_metrics]
avg_total = sum(total_times) / len(total_times)
min_total = min(total_times)
max_total = max(total_times)
stage_stats: dict[str, dict] = {}
for frame in self._frame_metrics:
for stage in frame.stages:
if stage.name not in stage_stats:
stage_stats[stage.name] = {"times": [], "total_chars": 0}
stage_stats[stage.name]["times"].append(stage.duration_ms)
stage_stats[stage.name]["total_chars"] += stage.chars_out
for name, stats in stage_stats.items():
times = stats["times"]
stats["avg_ms"] = sum(times) / len(times)
stats["min_ms"] = min(times)
stats["max_ms"] = max(times)
del stats["times"]
return {
"frame_count": len(self._frame_metrics),
"pipeline": {
"avg_ms": avg_total,
"min_ms": min_total,
"max_ms": max_total,
},
"stages": stage_stats,
}
def reset_metrics(self) -> None:
"""Reset collected metrics."""
self._frame_metrics.clear()
self._current_frame_number = 0
class PipelineRunner:
"""High-level pipeline runner with animation support."""
def __init__(
self,
pipeline: Pipeline,
params: PipelineParams | None = None,
):
self.pipeline = pipeline
self.params = params or PipelineParams()
self._running = False
def start(self) -> bool:
"""Start the pipeline."""
self._running = True
return self.pipeline.initialize()
def step(self, input_data: Any | None = None) -> Any:
"""Execute one pipeline step."""
self.params.frame_number += 1
self.pipeline.context.params = self.params
result = self.pipeline.execute(input_data)
return result.data if result.success else None
def stop(self) -> None:
"""Stop and clean up the pipeline."""
self._running = False
self.pipeline.cleanup()
@property
def is_running(self) -> bool:
"""Check if runner is active."""
return self._running
def create_pipeline_from_params(params: PipelineParams) -> Pipeline:
"""Create a pipeline from PipelineParams."""
config = PipelineConfig(
source=params.source,
display=params.display,
camera=params.camera_mode,
effects=params.effect_order,
)
return Pipeline(config=config)
def create_default_pipeline() -> Pipeline:
"""Create a default pipeline with all standard components."""
from engine.pipeline.adapters import DataSourceStage
from engine.sources_v2 import HeadlinesDataSource
pipeline = Pipeline()
# Add source stage (wrapped as Stage)
source = HeadlinesDataSource()
pipeline.add_stage("source", DataSourceStage(source, name="headlines"))
# Add display stage
display = StageRegistry.create("display", "terminal")
if display:
pipeline.add_stage("display", display)
return pipeline.build()

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"""
Pipeline core - Unified Stage abstraction and PipelineContext.
This module provides the foundation for a clean, dependency-managed pipeline:
- Stage: Base class for all pipeline components (sources, effects, displays, cameras)
- PipelineContext: Dependency injection context for runtime data exchange
- Capability system: Explicit capability declarations with duck-typing support
"""
from abc import ABC, abstractmethod
from collections.abc import Callable
from dataclasses import dataclass, field
from typing import TYPE_CHECKING, Any
if TYPE_CHECKING:
from engine.pipeline.params import PipelineParams
@dataclass
class StageConfig:
"""Configuration for a single stage."""
name: str
category: str
enabled: bool = True
optional: bool = False
params: dict[str, Any] = field(default_factory=dict)
class Stage(ABC):
"""Abstract base class for all pipeline stages.
A Stage is a single component in the rendering pipeline. Stages can be:
- Sources: Data providers (headlines, poetry, pipeline viz)
- Effects: Post-processors (noise, fade, glitch, hud)
- Displays: Output backends (terminal, pygame, websocket)
- Cameras: Viewport controllers (vertical, horizontal, omni)
Stages declare:
- capabilities: What they provide to other stages
- dependencies: What they need from other stages
Duck-typing is supported: any class with the required methods can act as a Stage.
"""
name: str
category: str # "source", "effect", "display", "camera"
optional: bool = False # If True, pipeline continues even if stage fails
@property
def capabilities(self) -> set[str]:
"""Return set of capabilities this stage provides.
Examples:
- "source.headlines"
- "effect.noise"
- "display.output"
- "camera"
"""
return {f"{self.category}.{self.name}"}
@property
def dependencies(self) -> set[str]:
"""Return set of capability names this stage needs.
Examples:
- {"display.output"}
- {"source.headlines"}
- {"camera"}
"""
return set()
def init(self, ctx: "PipelineContext") -> bool:
"""Initialize stage with pipeline context.
Args:
ctx: PipelineContext for accessing services
Returns:
True if initialization succeeded, False otherwise
"""
return True
@abstractmethod
def process(self, data: Any, ctx: "PipelineContext") -> Any:
"""Process input data and return output.
Args:
data: Input data from previous stage (or initial data for first stage)
ctx: PipelineContext for accessing services and state
Returns:
Processed data for next stage
"""
...
def cleanup(self) -> None: # noqa: B027
"""Clean up resources when pipeline shuts down."""
pass
def get_config(self) -> StageConfig:
"""Return current configuration of this stage."""
return StageConfig(
name=self.name,
category=self.category,
optional=self.optional,
)
def set_enabled(self, enabled: bool) -> None:
"""Enable or disable this stage."""
self._enabled = enabled # type: ignore[attr-defined]
def is_enabled(self) -> bool:
"""Check if stage is enabled."""
return getattr(self, "_enabled", True)
@dataclass
class StageResult:
"""Result of stage processing, including success/failure info."""
success: bool
data: Any
error: str | None = None
stage_name: str = ""
class PipelineContext:
"""Dependency injection context passed through the pipeline.
Provides:
- services: Named services (display, config, event_bus, etc.)
- state: Runtime state shared between stages
- params: PipelineParams for animation-driven config
Services can be injected at construction time or lazily resolved.
"""
def __init__(
self,
services: dict[str, Any] | None = None,
initial_state: dict[str, Any] | None = None,
):
self.services: dict[str, Any] = services or {}
self.state: dict[str, Any] = initial_state or {}
self._params: PipelineParams | None = None
# Lazy resolvers for common services
self._lazy_resolvers: dict[str, Callable[[], Any]] = {
"config": self._resolve_config,
"event_bus": self._resolve_event_bus,
}
def _resolve_config(self) -> Any:
from engine.config import get_config
return get_config()
def _resolve_event_bus(self) -> Any:
from engine.eventbus import get_event_bus
return get_event_bus()
def get(self, key: str, default: Any = None) -> Any:
"""Get a service or state value by key.
First checks services, then state, then lazy resolution.
"""
if key in self.services:
return self.services[key]
if key in self.state:
return self.state[key]
if key in self._lazy_resolvers:
try:
return self._lazy_resolvers[key]()
except Exception:
return default
return default
def set(self, key: str, value: Any) -> None:
"""Set a service or state value."""
self.services[key] = value
def set_state(self, key: str, value: Any) -> None:
"""Set a runtime state value."""
self.state[key] = value
def get_state(self, key: str, default: Any = None) -> Any:
"""Get a runtime state value."""
return self.state.get(key, default)
@property
def params(self) -> "PipelineParams | None":
"""Get current pipeline params (for animation)."""
return self._params
@params.setter
def params(self, value: "PipelineParams") -> None:
"""Set pipeline params (from animation controller)."""
self._params = value
def has_capability(self, capability: str) -> bool:
"""Check if a capability is available."""
return capability in self.services or capability in self._lazy_resolvers
class StageError(Exception):
"""Raised when a stage fails to process."""
def __init__(self, stage_name: str, message: str, is_optional: bool = False):
self.stage_name = stage_name
self.message = message
self.is_optional = is_optional
super().__init__(f"Stage '{stage_name}' failed: {message}")
def create_stage_error(
stage_name: str, error: Exception, is_optional: bool = False
) -> StageError:
"""Helper to create a StageError from an exception."""
return StageError(stage_name, str(error), is_optional)

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"""
Pipeline parameters - Runtime configuration layer for animation control.
PipelineParams is the target for AnimationController - animation events
modify these params, which the pipeline then applies to its stages.
"""
from dataclasses import dataclass, field
from typing import Any
@dataclass
class PipelineParams:
"""Runtime configuration for the pipeline.
This is the canonical config object that AnimationController modifies.
Stages read from these params to adjust their behavior.
"""
# Source config
source: str = "headlines"
source_refresh_interval: float = 60.0
# Display config
display: str = "terminal"
# Camera config
camera_mode: str = "vertical"
camera_speed: float = 1.0
camera_x: int = 0 # For horizontal scrolling
# Effect config
effect_order: list[str] = field(
default_factory=lambda: ["noise", "fade", "glitch", "firehose", "hud"]
)
effect_enabled: dict[str, bool] = field(default_factory=dict)
effect_intensity: dict[str, float] = field(default_factory=dict)
# Animation-driven state (set by AnimationController)
pulse: float = 0.0
current_effect: str | None = None
path_progress: float = 0.0
# Viewport
viewport_width: int = 80
viewport_height: int = 24
# Firehose
firehose_enabled: bool = False
# Runtime state
frame_number: int = 0
fps: float = 60.0
def get_effect_config(self, name: str) -> tuple[bool, float]:
"""Get (enabled, intensity) for an effect."""
enabled = self.effect_enabled.get(name, True)
intensity = self.effect_intensity.get(name, 1.0)
return enabled, intensity
def set_effect_config(self, name: str, enabled: bool, intensity: float) -> None:
"""Set effect configuration."""
self.effect_enabled[name] = enabled
self.effect_intensity[name] = intensity
def is_effect_enabled(self, name: str) -> bool:
"""Check if an effect is enabled."""
if name not in self.effect_enabled:
return True # Default to enabled
return self.effect_enabled.get(name, True)
def get_effect_intensity(self, name: str) -> float:
"""Get effect intensity (0.0 to 1.0)."""
return self.effect_intensity.get(name, 1.0)
def to_dict(self) -> dict[str, Any]:
"""Convert to dictionary for serialization."""
return {
"source": self.source,
"display": self.display,
"camera_mode": self.camera_mode,
"camera_speed": self.camera_speed,
"effect_order": self.effect_order,
"effect_enabled": self.effect_enabled.copy(),
"effect_intensity": self.effect_intensity.copy(),
"pulse": self.pulse,
"current_effect": self.current_effect,
"viewport_width": self.viewport_width,
"viewport_height": self.viewport_height,
"firehose_enabled": self.firehose_enabled,
}
@classmethod
def from_dict(cls, data: dict[str, Any]) -> "PipelineParams":
"""Create from dictionary."""
params = cls()
for key, value in data.items():
if hasattr(params, key):
setattr(params, key, value)
return params
def copy(self) -> "PipelineParams":
"""Create a copy of this params object."""
params = PipelineParams()
params.source = self.source
params.display = self.display
params.camera_mode = self.camera_mode
params.camera_speed = self.camera_speed
params.camera_x = self.camera_x
params.effect_order = self.effect_order.copy()
params.effect_enabled = self.effect_enabled.copy()
params.effect_intensity = self.effect_intensity.copy()
params.pulse = self.pulse
params.current_effect = self.current_effect
params.path_progress = self.path_progress
params.viewport_width = self.viewport_width
params.viewport_height = self.viewport_height
params.firehose_enabled = self.firehose_enabled
params.frame_number = self.frame_number
params.fps = self.fps
return params
# Default params for different modes
DEFAULT_HEADLINE_PARAMS = PipelineParams(
source="headlines",
display="terminal",
camera_mode="vertical",
effect_order=["noise", "fade", "glitch", "firehose", "hud"],
)
DEFAULT_PYGAME_PARAMS = PipelineParams(
source="headlines",
display="pygame",
camera_mode="vertical",
effect_order=["noise", "fade", "glitch", "firehose", "hud"],
)
DEFAULT_PIPELINE_PARAMS = PipelineParams(
source="pipeline",
display="pygame",
camera_mode="trace",
effect_order=["hud"], # Just HUD for pipeline viz
)

155
engine/pipeline/presets.py Normal file
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"""
Pipeline presets - Pre-configured pipeline configurations.
Provides PipelinePreset as a unified preset system that wraps
the existing Preset class from animation.py for backwards compatibility.
"""
from dataclasses import dataclass, field
from engine.animation import Preset as AnimationPreset
from engine.pipeline.params import PipelineParams
@dataclass
class PipelinePreset:
"""Pre-configured pipeline with stages and animation.
A PipelinePreset packages:
- Initial params: Starting configuration
- Stages: List of stage configurations to create
- Animation: Optional animation controller
This is the new unified preset that works with the Pipeline class.
"""
name: str
description: str = ""
source: str = "headlines"
display: str = "terminal"
camera: str = "vertical"
effects: list[str] = field(default_factory=list)
initial_params: PipelineParams | None = None
animation_preset: AnimationPreset | None = None
def to_params(self) -> PipelineParams:
"""Convert to PipelineParams."""
if self.initial_params:
return self.initial_params.copy()
params = PipelineParams()
params.source = self.source
params.display = self.display
params.camera_mode = self.camera
params.effect_order = self.effects.copy()
return params
@classmethod
def from_animation_preset(cls, preset: AnimationPreset) -> "PipelinePreset":
"""Create a PipelinePreset from an existing animation Preset."""
params = preset.initial_params
return cls(
name=preset.name,
description=preset.description,
source=params.source,
display=params.display,
camera=params.camera_mode,
effects=params.effect_order.copy(),
initial_params=params,
animation_preset=preset,
)
def create_animation_controller(self):
"""Create an AnimationController from this preset."""
if self.animation_preset:
return self.animation_preset.create_controller()
return None
# Built-in presets
DEMO_PRESET = PipelinePreset(
name="demo",
description="Demo mode with effect cycling and camera modes",
source="headlines",
display="terminal",
camera="vertical",
effects=["noise", "fade", "glitch", "firehose", "hud"],
)
POETRY_PRESET = PipelinePreset(
name="poetry",
description="Poetry feed with subtle effects",
source="poetry",
display="terminal",
camera="vertical",
effects=["fade", "hud"],
)
PIPELINE_VIZ_PRESET = PipelinePreset(
name="pipeline",
description="Pipeline visualization mode",
source="pipeline",
display="terminal",
camera="trace",
effects=["hud"],
)
WEBSOCKET_PRESET = PipelinePreset(
name="websocket",
description="WebSocket display mode",
source="headlines",
display="websocket",
camera="vertical",
effects=["noise", "fade", "glitch", "hud"],
)
SIXEL_PRESET = PipelinePreset(
name="sixel",
description="Sixel graphics display mode",
source="headlines",
display="sixel",
camera="vertical",
effects=["noise", "fade", "glitch", "hud"],
)
FIREHOSE_PRESET = PipelinePreset(
name="firehose",
description="High-speed firehose mode",
source="headlines",
display="terminal",
camera="vertical",
effects=["noise", "fade", "glitch", "firehose", "hud"],
)
PRESETS: dict[str, PipelinePreset] = {
"demo": DEMO_PRESET,
"poetry": POETRY_PRESET,
"pipeline": PIPELINE_VIZ_PRESET,
"websocket": WEBSOCKET_PRESET,
"sixel": SIXEL_PRESET,
"firehose": FIREHOSE_PRESET,
}
def get_preset(name: str) -> PipelinePreset | None:
"""Get a preset by name."""
return PRESETS.get(name)
def list_presets() -> list[str]:
"""List all available preset names."""
return list(PRESETS.keys())
def create_preset_from_params(
params: PipelineParams, name: str = "custom"
) -> PipelinePreset:
"""Create a preset from PipelineParams."""
return PipelinePreset(
name=name,
source=params.source,
display=params.display,
camera=params.camera_mode,
effects=params.effect_order.copy(),
initial_params=params,
)

165
engine/pipeline/registry.py Normal file
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"""
Stage registry - Unified registration for all pipeline stages.
Provides a single registry for sources, effects, displays, and cameras.
"""
from __future__ import annotations
from engine.pipeline.core import Stage
class StageRegistry:
"""Unified registry for all pipeline stage types."""
_categories: dict[str, dict[str, type[Stage]]] = {}
_discovered: bool = False
_instances: dict[str, Stage] = {}
@classmethod
def register(cls, category: str, stage_class: type[Stage]) -> None:
"""Register a stage class in a category.
Args:
category: Category name (source, effect, display, camera)
stage_class: Stage subclass to register
"""
if category not in cls._categories:
cls._categories[category] = {}
# Use class name as key
key = getattr(stage_class, "__name__", stage_class.__class__.__name__)
cls._categories[category][key] = stage_class
@classmethod
def get(cls, category: str, name: str) -> type[Stage] | None:
"""Get a stage class by category and name."""
return cls._categories.get(category, {}).get(name)
@classmethod
def list(cls, category: str) -> list[str]:
"""List all stage names in a category."""
return list(cls._categories.get(category, {}).keys())
@classmethod
def list_categories(cls) -> list[str]:
"""List all registered categories."""
return list(cls._categories.keys())
@classmethod
def create(cls, category: str, name: str, **kwargs) -> Stage | None:
"""Create a stage instance by category and name."""
stage_class = cls.get(category, name)
if stage_class:
return stage_class(**kwargs)
return None
@classmethod
def create_instance(cls, stage: Stage | type[Stage], **kwargs) -> Stage:
"""Create an instance from a stage class or return as-is."""
if isinstance(stage, Stage):
return stage
if isinstance(stage, type) and issubclass(stage, Stage):
return stage(**kwargs)
raise TypeError(f"Expected Stage class or instance, got {type(stage)}")
@classmethod
def register_instance(cls, name: str, stage: Stage) -> None:
"""Register a stage instance by name."""
cls._instances[name] = stage
@classmethod
def get_instance(cls, name: str) -> Stage | None:
"""Get a registered stage instance by name."""
return cls._instances.get(name)
def discover_stages() -> None:
"""Auto-discover and register all stage implementations."""
if StageRegistry._discovered:
return
# Import and register all stage implementations
try:
from engine.sources_v2 import (
HeadlinesDataSource,
PipelineDataSource,
PoetryDataSource,
)
StageRegistry.register("source", HeadlinesDataSource)
StageRegistry.register("source", PoetryDataSource)
StageRegistry.register("source", PipelineDataSource)
StageRegistry._categories["source"]["headlines"] = HeadlinesDataSource
StageRegistry._categories["source"]["poetry"] = PoetryDataSource
StageRegistry._categories["source"]["pipeline"] = PipelineDataSource
except ImportError:
pass
try:
from engine.effects.types import EffectPlugin # noqa: F401
except ImportError:
pass
# Register display stages
_register_display_stages()
StageRegistry._discovered = True
def _register_display_stages() -> None:
"""Register display backends as stages."""
try:
from engine.display import DisplayRegistry
except ImportError:
return
DisplayRegistry.initialize()
for backend_name in DisplayRegistry.list_backends():
factory = _DisplayStageFactory(backend_name)
StageRegistry._categories.setdefault("display", {})[backend_name] = factory
class _DisplayStageFactory:
"""Factory that creates DisplayStage instances for a specific backend."""
def __init__(self, backend_name: str):
self._backend_name = backend_name
def __call__(self):
from engine.display import DisplayRegistry
from engine.pipeline.adapters import DisplayStage
display = DisplayRegistry.create(self._backend_name)
if display is None:
raise RuntimeError(
f"Failed to create display backend: {self._backend_name}"
)
return DisplayStage(display, name=self._backend_name)
@property
def __name__(self) -> str:
return self._backend_name.capitalize() + "Stage"
# Convenience functions
def register_source(stage_class: type[Stage]) -> None:
"""Register a source stage."""
StageRegistry.register("source", stage_class)
def register_effect(stage_class: type[Stage]) -> None:
"""Register an effect stage."""
StageRegistry.register("effect", stage_class)
def register_display(stage_class: type[Stage]) -> None:
"""Register a display stage."""
StageRegistry.register("display", stage_class)
def register_camera(stage_class: type[Stage]) -> None:
"""Register a camera stage."""
StageRegistry.register("camera", stage_class)

364
engine/pipeline_viz.py Normal file
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@@ -0,0 +1,364 @@
"""
Pipeline visualization - Large animated network visualization with camera modes.
"""
import math
NODE_NETWORK = {
"sources": [
{"id": "RSS", "label": "RSS FEEDS", "x": 20, "y": 20},
{"id": "POETRY", "label": "POETRY DB", "x": 100, "y": 20},
{"id": "NTFY", "label": "NTFY MSG", "x": 180, "y": 20},
{"id": "MIC", "label": "MICROPHONE", "x": 260, "y": 20},
],
"fetch": [
{"id": "FETCH", "label": "FETCH LAYER", "x": 140, "y": 100},
{"id": "CACHE", "label": "CACHE", "x": 220, "y": 100},
],
"scroll": [
{"id": "STREAM", "label": "STREAM CTRL", "x": 60, "y": 180},
{"id": "CAMERA", "label": "CAMERA", "x": 140, "y": 180},
{"id": "RENDER", "label": "RENDER", "x": 220, "y": 180},
],
"effects": [
{"id": "NOISE", "label": "NOISE", "x": 20, "y": 260},
{"id": "FADE", "label": "FADE", "x": 80, "y": 260},
{"id": "GLITCH", "label": "GLITCH", "x": 140, "y": 260},
{"id": "FIRE", "label": "FIREHOSE", "x": 200, "y": 260},
{"id": "HUD", "label": "HUD", "x": 260, "y": 260},
],
"display": [
{"id": "TERM", "label": "TERMINAL", "x": 20, "y": 340},
{"id": "WEB", "label": "WEBSOCKET", "x": 80, "y": 340},
{"id": "PYGAME", "label": "PYGAME", "x": 140, "y": 340},
{"id": "SIXEL", "label": "SIXEL", "x": 200, "y": 340},
{"id": "KITTY", "label": "KITTY", "x": 260, "y": 340},
],
}
ALL_NODES = []
for group_nodes in NODE_NETWORK.values():
ALL_NODES.extend(group_nodes)
NETWORK_PATHS = [
["RSS", "FETCH", "CACHE", "STREAM", "CAMERA", "RENDER", "NOISE", "TERM"],
["POETRY", "FETCH", "CACHE", "STREAM", "CAMERA", "RENDER", "FADE", "WEB"],
["NTFY", "FETCH", "CACHE", "STREAM", "CAMERA", "RENDER", "GLITCH", "PYGAME"],
["MIC", "FETCH", "CACHE", "STREAM", "CAMERA", "RENDER", "FIRE", "SIXEL"],
["RSS", "FETCH", "CACHE", "STREAM", "CAMERA", "RENDER", "HUD", "KITTY"],
]
GRID_WIDTH = 300
GRID_HEIGHT = 400
def get_node_by_id(node_id: str):
for node in ALL_NODES:
if node["id"] == node_id:
return node
return None
def draw_network_to_grid(frame: int = 0) -> list[list[str]]:
grid = [[" " for _ in range(GRID_WIDTH)] for _ in range(GRID_HEIGHT)]
active_path_idx = (frame // 60) % len(NETWORK_PATHS)
active_path = NETWORK_PATHS[active_path_idx]
for node in ALL_NODES:
x, y = node["x"], node["y"]
label = node["label"]
is_active = node["id"] in active_path
is_highlight = node["id"] == active_path[(frame // 15) % len(active_path)]
node_w, node_h = 20, 7
for dy in range(node_h):
for dx in range(node_w):
gx, gy = x + dx, y + dy
if 0 <= gx < GRID_WIDTH and 0 <= gy < GRID_HEIGHT:
if dy == 0:
char = "" if dx == 0 else ("" if dx == node_w - 1 else "")
elif dy == node_h - 1:
char = "" if dx == 0 else ("" if dx == node_w - 1 else "")
elif dy == node_h // 2:
if dx == 0 or dx == node_w - 1:
char = ""
else:
pad = (node_w - 2 - len(label)) // 2
if dx - 1 == pad and len(label) <= node_w - 2:
char = (
label[dx - 1 - pad]
if dx - 1 - pad < len(label)
else " "
)
else:
char = " "
else:
char = "" if dx == 0 or dx == node_w - 1 else " "
if char.strip():
if is_highlight:
grid[gy][gx] = "\033[1;38;5;46m" + char + "\033[0m"
elif is_active:
grid[gy][gx] = "\033[1;38;5;220m" + char + "\033[0m"
else:
grid[gy][gx] = "\033[38;5;240m" + char + "\033[0m"
for i, node_id in enumerate(active_path[:-1]):
curr = get_node_by_id(node_id)
next_id = active_path[i + 1]
next_node = get_node_by_id(next_id)
if curr and next_node:
x1, y1 = curr["x"] + 7, curr["y"] + 2
x2, y2 = next_node["x"] + 7, next_node["y"] + 2
step = 1 if x2 >= x1 else -1
for x in range(x1, x2 + step, step):
if 0 <= x < GRID_WIDTH and 0 <= y1 < GRID_HEIGHT:
grid[y1][x] = "\033[38;5;45m─\033[0m"
step = 1 if y2 >= y1 else -1
for y in range(y1, y2 + step, step):
if 0 <= x2 < GRID_WIDTH and 0 <= y < GRID_HEIGHT:
grid[y][x2] = "\033[38;5;45m│\033[0m"
return grid
class TraceCamera:
def __init__(self):
self.x = 0
self.y = 0
self.target_x = 0
self.target_y = 0
self.current_node_idx = 0
self.path = []
self.frame = 0
def update(self, dt: float, frame: int = 0) -> None:
self.frame = frame
active_path = NETWORK_PATHS[(frame // 60) % len(NETWORK_PATHS)]
if self.path != active_path:
self.path = active_path
self.current_node_idx = 0
if self.current_node_idx < len(self.path):
node_id = self.path[self.current_node_idx]
node = get_node_by_id(node_id)
if node:
self.target_x = max(0, node["x"] - 40)
self.target_y = max(0, node["y"] - 10)
self.current_node_idx += 1
self.x += int((self.target_x - self.x) * 0.1)
self.y += int((self.target_y - self.y) * 0.1)
class CameraLarge:
def __init__(self, viewport_w: int, viewport_h: int, frame: int):
self.viewport_w = viewport_w
self.viewport_h = viewport_h
self.frame = frame
self.x = 0
self.y = 0
self.mode = "trace"
self.trace_camera = TraceCamera()
def set_vertical_mode(self):
self.mode = "vertical"
def set_horizontal_mode(self):
self.mode = "horizontal"
def set_omni_mode(self):
self.mode = "omni"
def set_floating_mode(self):
self.mode = "floating"
def set_trace_mode(self):
self.mode = "trace"
def update(self, dt: float):
self.frame += 1
if self.mode == "vertical":
self.y = int((self.frame * 0.5) % (GRID_HEIGHT - self.viewport_h))
elif self.mode == "horizontal":
self.x = int((self.frame * 0.5) % (GRID_WIDTH - self.viewport_w))
elif self.mode == "omni":
self.x = int((self.frame * 0.3) % (GRID_WIDTH - self.viewport_w))
self.y = int((self.frame * 0.5) % (GRID_HEIGHT - self.viewport_h))
elif self.mode == "floating":
self.x = int(50 + math.sin(self.frame * 0.02) * 30)
self.y = int(50 + math.cos(self.frame * 0.015) * 30)
elif self.mode == "trace":
self.trace_camera.update(dt, self.frame)
self.x = self.trace_camera.x
self.y = self.trace_camera.y
def generate_mermaid_graph(frame: int = 0) -> str:
effects = ["NOISE", "FADE", "GLITCH", "FIREHOSE"]
active_effect = effects[(frame // 30) % 4]
cam_modes = ["VERTICAL", "HORIZONTAL", "OMNI", "FLOATING", "TRACE"]
active_cam = cam_modes[(frame // 100) % 5]
return f"""graph LR
subgraph SOURCES
RSS[RSS Feeds]
Poetry[Poetry DB]
Ntfy[Ntfy Msg]
Mic[Microphone]
end
subgraph FETCH
Fetch(fetch_all)
Cache[(Cache)]
end
subgraph SCROLL
Scroll(StreamController)
Camera({active_cam})
end
subgraph EFFECTS
Noise[NOISE]
Fade[FADE]
Glitch[GLITCH]
Fire[FIREHOSE]
Hud[HUD]
end
subgraph DISPLAY
Term[Terminal]
Web[WebSocket]
Pygame[PyGame]
Sixel[Sixel]
end
RSS --> Fetch
Poetry --> Fetch
Ntfy --> Fetch
Fetch --> Cache
Cache --> Scroll
Scroll --> Noise
Scroll --> Fade
Scroll --> Glitch
Scroll --> Fire
Scroll --> Hud
Noise --> Term
Fade --> Web
Glitch --> Pygame
Fire --> Sixel
style {active_effect} fill:#90EE90
style Camera fill:#87CEEB
"""
def generate_network_pipeline(
width: int = 80, height: int = 24, frame: int = 0
) -> list[str]:
try:
from engine.beautiful_mermaid import render_mermaid_ascii
mermaid_graph = generate_mermaid_graph(frame)
ascii_output = render_mermaid_ascii(mermaid_graph, padding_x=2, padding_y=1)
lines = ascii_output.split("\n")
result = []
for y in range(height):
if y < len(lines):
line = lines[y]
if len(line) < width:
line = line + " " * (width - len(line))
elif len(line) > width:
line = line[:width]
result.append(line)
else:
result.append(" " * width)
status_y = height - 2
if status_y < height:
fps = 60 - (frame % 15)
cam_modes = ["VERTICAL", "HORIZONTAL", "OMNI", "FLOATING", "TRACE"]
cam = cam_modes[(frame // 100) % 5]
effects = ["NOISE", "FADE", "GLITCH", "FIREHOSE"]
eff = effects[(frame // 30) % 4]
anim = "▓▒░ "[frame % 4]
status = f" FPS:{fps:3.0f}{anim} {eff} │ Cam:{cam}"
status = status[: width - 4].ljust(width - 4)
result[status_y] = "" + status + ""
if height > 0:
result[0] = "" * width
result[height - 1] = "" * width
return result
except Exception as e:
return [
f"Error: {e}" + " " * (width - len(f"Error: {e}")) for _ in range(height)
]
def generate_large_network_viewport(
viewport_w: int = 80, viewport_h: int = 24, frame: int = 0
) -> list[str]:
cam_modes = ["VERTICAL", "HORIZONTAL", "OMNI", "FLOATING", "TRACE"]
camera_mode = cam_modes[(frame // 100) % 5]
camera = CameraLarge(viewport_w, viewport_h, frame)
if camera_mode == "TRACE":
camera.set_trace_mode()
elif camera_mode == "VERTICAL":
camera.set_vertical_mode()
elif camera_mode == "HORIZONTAL":
camera.set_horizontal_mode()
elif camera_mode == "OMNI":
camera.set_omni_mode()
elif camera_mode == "FLOATING":
camera.set_floating_mode()
camera.update(1 / 60)
grid = draw_network_to_grid(frame)
result = []
for vy in range(viewport_h):
line = ""
for vx in range(viewport_w):
gx = camera.x + vx
gy = camera.y + vy
if 0 <= gx < GRID_WIDTH and 0 <= gy < GRID_HEIGHT:
line += grid[gy][gx]
else:
line += " "
result.append(line)
fps = 60 - (frame % 15)
active_path = NETWORK_PATHS[(frame // 60) % len(NETWORK_PATHS)]
active_node = active_path[(frame // 15) % len(active_path)]
anim = "▓▒░ "[frame % 4]
status = f" FPS:{fps:3.0f}{anim} {camera_mode:9s} │ Node:{active_node}"
status = status[: viewport_w - 4].ljust(viewport_w - 4)
if viewport_h > 2:
result[viewport_h - 2] = "" + status + ""
if viewport_h > 0:
result[0] = "" * viewport_w
result[viewport_h - 1] = "" * viewport_w
return result

103
engine/render.py
View File

@@ -4,15 +4,15 @@ Font loading, text rasterization, word-wrap, gradient coloring, headline block a
Depends on: config, terminal, sources, translate.
"""
import re
import random
import re
from pathlib import Path
from PIL import Image, ImageDraw, ImageFont
from engine import config
from engine.sources import NO_UPPER, SCRIPT_FONTS, SOURCE_LANGS
from engine.terminal import RST
from engine.sources import SCRIPT_FONTS, SOURCE_LANGS, NO_UPPER
from engine.translate import detect_location_language, translate_headline
# ─── GRADIENT ─────────────────────────────────────────────
@@ -20,15 +20,15 @@ from engine.translate import detect_location_language, translate_headline
GRAD_COLS = [
"\033[1;38;5;231m", # white
"\033[1;38;5;195m", # pale cyan-white
"\033[38;5;123m", # bright cyan
"\033[38;5;118m", # bright lime
"\033[38;5;82m", # lime
"\033[38;5;46m", # bright green
"\033[38;5;40m", # green
"\033[38;5;34m", # medium green
"\033[38;5;28m", # dark green
"\033[38;5;22m", # deep green
"\033[2;38;5;22m", # dim deep green
"\033[38;5;123m", # bright cyan
"\033[38;5;118m", # bright lime
"\033[38;5;82m", # lime
"\033[38;5;46m", # bright green
"\033[38;5;40m", # green
"\033[38;5;34m", # medium green
"\033[38;5;28m", # dark green
"\033[38;5;22m", # deep green
"\033[2;38;5;22m", # dim deep green
"\033[2;38;5;235m", # near black
]
@@ -36,15 +36,15 @@ GRAD_COLS = [
MSG_GRAD_COLS = [
"\033[1;38;5;231m", # white
"\033[1;38;5;225m", # pale pink-white
"\033[38;5;219m", # bright pink
"\033[38;5;213m", # hot pink
"\033[38;5;207m", # magenta
"\033[38;5;201m", # bright magenta
"\033[38;5;165m", # orchid-red
"\033[38;5;161m", # ruby-magenta
"\033[38;5;125m", # dark magenta
"\033[38;5;89m", # deep maroon-magenta
"\033[2;38;5;89m", # dim deep maroon-magenta
"\033[38;5;219m", # bright pink
"\033[38;5;213m", # hot pink
"\033[38;5;207m", # magenta
"\033[38;5;201m", # bright magenta
"\033[38;5;165m", # orchid-red
"\033[38;5;161m", # ruby-magenta
"\033[38;5;125m", # dark magenta
"\033[38;5;89m", # deep maroon-magenta
"\033[2;38;5;89m", # dim deep maroon-magenta
"\033[2;38;5;235m", # near black
]
@@ -62,13 +62,14 @@ def font():
f"No primary font selected. Add .otf/.ttf/.ttc files to {config.FONT_DIR}."
)
key = (config.FONT_PATH, config.FONT_INDEX, config.FONT_SZ)
if _FONT_OBJ is None or _FONT_OBJ_KEY != key:
if _FONT_OBJ is None or key != _FONT_OBJ_KEY:
_FONT_OBJ = ImageFont.truetype(
config.FONT_PATH, config.FONT_SZ, index=config.FONT_INDEX
)
_FONT_OBJ_KEY = key
return _FONT_OBJ
def clear_font_cache():
"""Reset cached font objects after changing primary font selection."""
global _FONT_OBJ, _FONT_OBJ_KEY
@@ -123,7 +124,7 @@ def render_line(text, fnt=None):
pad = 4
img_w = bbox[2] - bbox[0] + pad * 2
img_h = bbox[3] - bbox[1] + pad * 2
img = Image.new('L', (img_w, img_h), 0)
img = Image.new("L", (img_w, img_h), 0)
draw = ImageDraw.Draw(img)
draw.text((-bbox[0] + pad, -bbox[1] + pad), text, fill=255, font=fnt)
pix_h = config.RENDER_H * 2
@@ -200,8 +201,8 @@ def lr_gradient(rows, offset=0.0, grad_cols=None):
continue
buf = []
for x, ch in enumerate(row):
if ch == ' ':
buf.append(' ')
if ch == " ":
buf.append(" ")
else:
shifted = (x / max(max_x - 1, 1) + offset) % 1.0
idx = min(round(shifted * (n - 1)), n - 1)
@@ -218,7 +219,11 @@ def lr_gradient_opposite(rows, offset=0.0):
# ─── HEADLINE BLOCK ASSEMBLY ─────────────────────────────
def make_block(title, src, ts, w):
"""Render a headline into a content block with color."""
target_lang = (SOURCE_LANGS.get(src) or detect_location_language(title)) if config.MODE == 'news' else None
target_lang = (
(SOURCE_LANGS.get(src) or detect_location_language(title))
if config.MODE == "news"
else None
)
lang_font = font_for_lang(target_lang)
if target_lang:
title = translate_headline(title, target_lang)
@@ -227,28 +232,36 @@ def make_block(title, src, ts, w):
title_up = re.sub(r"\s+", " ", title)
else:
title_up = re.sub(r"\s+", " ", title.upper())
for old, new in [("\u2019","'"), ("\u2018","'"), ("\u201c",'"'),
("\u201d",'"'), ("\u2013","-"), ("\u2014","-")]:
for old, new in [
("\u2019", "'"),
("\u2018", "'"),
("\u201c", '"'),
("\u201d", '"'),
("\u2013", "-"),
("\u2014", "-"),
]:
title_up = title_up.replace(old, new)
big_rows = big_wrap(title_up, w - 4, lang_font)
hc = random.choice([
"\033[38;5;46m", # matrix green
"\033[38;5;34m", # dark green
"\033[38;5;82m", # lime
"\033[38;5;48m", # sea green
"\033[38;5;37m", # teal
"\033[38;5;44m", # cyan
"\033[38;5;87m", # sky
"\033[38;5;117m", # ice blue
"\033[38;5;250m", # cool white
"\033[38;5;156m", # pale green
"\033[38;5;120m", # mint
"\033[38;5;80m", # dark cyan
"\033[38;5;108m", # grey-green
"\033[38;5;115m", # sage
"\033[1;38;5;46m", # bold green
"\033[1;38;5;250m", # bold white
])
hc = random.choice(
[
"\033[38;5;46m", # matrix green
"\033[38;5;34m", # dark green
"\033[38;5;82m", # lime
"\033[38;5;48m", # sea green
"\033[38;5;37m", # teal
"\033[38;5;44m", # cyan
"\033[38;5;87m", # sky
"\033[38;5;117m", # ice blue
"\033[38;5;250m", # cool white
"\033[38;5;156m", # pale green
"\033[38;5;120m", # mint
"\033[38;5;80m", # dark cyan
"\033[38;5;108m", # grey-green
"\033[38;5;115m", # sage
"\033[1;38;5;46m", # bold green
"\033[1;38;5;250m", # bold white
]
)
content = [" " + r for r in big_rows]
content.append("")
meta = f"\u2591 {src} \u00b7 {ts}"

232
engine/scroll.py
View File

@@ -1,195 +1,151 @@
"""
Render engine — ticker content, scroll motion, message panel, and firehose overlay.
Depends on: config, terminal, render, effects, ntfy, mic.
Orchestrates viewport, frame timing, and layers.
"""
import re
import sys
import time
import random
from datetime import datetime
import time
from engine import config
from engine.terminal import RST, W_COOL, CLR, tw, th
from engine.render import big_wrap, lr_gradient, lr_gradient_opposite, make_block
from engine.effects import noise, glitch_bar, fade_line, vis_trunc, next_headline, firehose_line
from engine.camera import Camera
from engine.display import (
Display,
TerminalDisplay,
)
from engine.display import (
get_monitor as _get_display_monitor,
)
from engine.frame import calculate_scroll_step
from engine.layers import (
apply_glitch,
process_effects,
render_firehose,
render_message_overlay,
render_ticker_zone,
)
from engine.viewport import th, tw
USE_EFFECT_CHAIN = True
def stream(items, ntfy_poller, mic_monitor):
def stream(
items,
ntfy_poller,
mic_monitor,
display: Display | None = None,
camera: Camera | None = None,
):
"""Main render loop with four layers: message, ticker, scroll motion, firehose."""
if display is None:
display = TerminalDisplay()
if camera is None:
camera = Camera.vertical()
random.shuffle(items)
pool = list(items)
seen = set()
queued = 0
time.sleep(0.5)
sys.stdout.write(CLR)
sys.stdout.flush()
w, h = tw(), th()
display.init(w, h)
display.clear()
fh = config.FIREHOSE_H if config.FIREHOSE else 0
ticker_view_h = h - fh # reserve fixed firehose strip at bottom
GAP = 3 # blank rows between headlines
scroll_step_interval = config.SCROLL_DUR / (ticker_view_h + 15) * 2
ticker_view_h = h - fh
GAP = 3
scroll_step_interval = calculate_scroll_step(config.SCROLL_DUR, ticker_view_h)
# Taxonomy:
# - message: centered ntfy overlay panel
# - ticker: large headline text content
# - scroll: upward camera motion applied to ticker content
# - firehose: fixed carriage-return style strip pinned at bottom
# Active ticker blocks: (content_rows, color, canvas_y, meta_idx)
active = []
scroll_cam = 0 # viewport top in virtual canvas coords
ticker_next_y = ticker_view_h # canvas-y where next block starts (off-screen bottom)
ticker_next_y = ticker_view_h
noise_cache = {}
scroll_motion_accum = 0.0
msg_cache = (None, None)
frame_number = 0
def _noise_at(cy):
if cy not in noise_cache:
noise_cache[cy] = noise(w) if random.random() < 0.15 else None
return noise_cache[cy]
while True:
if queued >= config.HEADLINE_LIMIT and not active:
break
# Message color: bright cyan/white — distinct from headline greens
MSG_META = "\033[38;5;245m" # cool grey
MSG_BORDER = "\033[2;38;5;37m" # dim teal
_msg_cache = (None, None) # (cache_key, rendered_rows)
while queued < config.HEADLINE_LIMIT or active:
t0 = time.monotonic()
w, h = tw(), th()
fh = config.FIREHOSE_H if config.FIREHOSE else 0
ticker_view_h = h - fh
scroll_step_interval = calculate_scroll_step(config.SCROLL_DUR, ticker_view_h)
# ── Check for ntfy message ────────────────────────
msg_h = 0
msg_overlay = []
msg = ntfy_poller.get_active_message()
msg_overlay, msg_cache = render_message_overlay(msg, w, h, msg_cache)
buf = []
if msg is not None:
m_title, m_body, m_ts = msg
# ── Message overlay: centered in the viewport ──
display_text = m_body or m_title or "(empty)"
display_text = re.sub(r"\s+", " ", display_text.upper())
cache_key = (display_text, w)
if _msg_cache[0] != cache_key:
msg_rows = big_wrap(display_text, w - 4)
_msg_cache = (cache_key, msg_rows)
else:
msg_rows = _msg_cache[1]
msg_rows = lr_gradient_opposite(msg_rows, (time.monotonic() * config.GRAD_SPEED) % 1.0)
# Layout: rendered text + meta + border
elapsed_s = int(time.monotonic() - m_ts)
remaining = max(0, config.MESSAGE_DISPLAY_SECS - elapsed_s)
ts_str = datetime.now().strftime("%H:%M:%S")
panel_h = len(msg_rows) + 2 # meta + border
panel_top = max(0, (h - panel_h) // 2)
row_idx = 0
for mr in msg_rows:
ln = vis_trunc(mr, w)
msg_overlay.append(f"\033[{panel_top + row_idx + 1};1H {ln}{RST}\033[K")
row_idx += 1
# Meta line: title (if distinct) + source + countdown
meta_parts = []
if m_title and m_title != m_body:
meta_parts.append(m_title)
meta_parts.append(f"ntfy \u00b7 {ts_str} \u00b7 {remaining}s")
meta = " " + " \u00b7 ".join(meta_parts) if len(meta_parts) > 1 else " " + meta_parts[0]
msg_overlay.append(f"\033[{panel_top + row_idx + 1};1H{MSG_META}{meta}{RST}\033[K")
row_idx += 1
# Border — constant boundary under message panel
bar = "\u2500" * (w - 4)
msg_overlay.append(f"\033[{panel_top + row_idx + 1};1H {MSG_BORDER}{bar}{RST}\033[K")
ticker_h = ticker_view_h
# Ticker draws above the fixed firehose strip; message is a centered overlay.
ticker_h = ticker_view_h - msg_h
# ── Ticker content + scroll motion (always runs) ──
scroll_motion_accum += config.FRAME_DT
while scroll_motion_accum >= scroll_step_interval:
scroll_motion_accum -= scroll_step_interval
scroll_cam += 1
camera.update(config.FRAME_DT)
while (
ticker_next_y < camera.y + ticker_view_h + 10
and queued < config.HEADLINE_LIMIT
):
from engine.effects import next_headline
from engine.render import make_block
# Enqueue new headlines when room at the bottom
while ticker_next_y < scroll_cam + ticker_view_h + 10 and queued < config.HEADLINE_LIMIT:
t, src, ts = next_headline(pool, items, seen)
ticker_content, hc, midx = make_block(t, src, ts, w)
active.append((ticker_content, hc, ticker_next_y, midx))
ticker_next_y += len(ticker_content) + GAP
queued += 1
# Prune off-screen blocks and stale noise
active = [(c, hc, by, mi) for c, hc, by, mi in active
if by + len(c) > scroll_cam]
active = [
(c, hc, by, mi) for c, hc, by, mi in active if by + len(c) > camera.y
]
for k in list(noise_cache):
if k < scroll_cam:
if k < camera.y:
del noise_cache[k]
# Draw ticker zone (above fixed firehose strip)
top_zone = max(1, int(ticker_h * 0.25))
bot_zone = max(1, int(ticker_h * 0.10))
grad_offset = (time.monotonic() * config.GRAD_SPEED) % 1.0
ticker_buf_start = len(buf) # track where ticker rows start in buf
for r in range(ticker_h):
scr_row = r + 1 # 1-indexed ANSI screen row
cy = scroll_cam + r
top_f = min(1.0, r / top_zone) if top_zone > 0 else 1.0
bot_f = min(1.0, (ticker_h - 1 - r) / bot_zone) if bot_zone > 0 else 1.0
row_fade = min(top_f, bot_f)
drawn = False
for content, hc, by, midx in active:
cr = cy - by
if 0 <= cr < len(content):
raw = content[cr]
if cr != midx:
colored = lr_gradient([raw], grad_offset)[0]
else:
colored = raw
ln = vis_trunc(colored, w)
if row_fade < 1.0:
ln = fade_line(ln, row_fade)
if cr == midx:
buf.append(f"\033[{scr_row};1H{W_COOL}{ln}{RST}\033[K")
elif ln.strip():
buf.append(f"\033[{scr_row};1H{ln}{RST}\033[K")
else:
buf.append(f"\033[{scr_row};1H\033[K")
drawn = True
break
if not drawn:
n = _noise_at(cy)
if row_fade < 1.0 and n:
n = fade_line(n, row_fade)
if n:
buf.append(f"\033[{scr_row};1H{n}")
else:
buf.append(f"\033[{scr_row};1H\033[K")
ticker_buf_start = len(buf)
ticker_buf, noise_cache = render_ticker_zone(
active, camera.y, camera.x, ticker_h, w, noise_cache, grad_offset
)
buf.extend(ticker_buf)
# Glitch — base rate + mic-reactive spikes (ticker zone only)
mic_excess = mic_monitor.excess
glitch_prob = 0.32 + min(0.9, mic_excess * 0.16)
n_hits = 4 + int(mic_excess / 2)
ticker_buf_len = len(buf) - ticker_buf_start
if random.random() < glitch_prob and ticker_buf_len > 0:
for _ in range(min(n_hits, ticker_buf_len)):
gi = random.randint(0, ticker_buf_len - 1)
scr_row = gi + 1
buf[ticker_buf_start + gi] = f"\033[{scr_row};1H{glitch_bar(w)}"
render_start = time.perf_counter()
if USE_EFFECT_CHAIN:
buf = process_effects(
buf,
w,
h,
camera.y,
ticker_h,
camera.x,
mic_excess,
grad_offset,
frame_number,
msg is not None,
items,
)
else:
buf = apply_glitch(buf, ticker_buf_start, mic_excess, w)
firehose_buf = render_firehose(items, w, fh, h)
buf.extend(firehose_buf)
if config.FIREHOSE and fh > 0:
for fr in range(fh):
scr_row = h - fh + fr + 1
fline = firehose_line(items, w)
buf.append(f"\033[{scr_row};1H{fline}\033[K")
if msg_overlay:
buf.extend(msg_overlay)
sys.stdout.buffer.write("".join(buf).encode())
sys.stdout.flush()
render_elapsed = (time.perf_counter() - render_start) * 1000
monitor = _get_display_monitor()
if monitor:
chars = sum(len(line) for line in buf)
monitor.record_effect("render", render_elapsed, chars, chars)
display.show(buf)
# Precise frame timing
elapsed = time.monotonic() - t0
time.sleep(max(0, config.FRAME_DT - elapsed))
frame_number += 1
sys.stdout.write(CLR)
sys.stdout.flush()
display.cleanup()

96
engine/sources.py
View File

@@ -47,69 +47,69 @@ FEEDS = {
# ─── POETRY / LITERATURE ─────────────────────────────────
# Public domain via Project Gutenberg
POETRY_SOURCES = {
"Whitman": "https://www.gutenberg.org/cache/epub/1322/pg1322.txt",
"Dickinson": "https://www.gutenberg.org/cache/epub/12242/pg12242.txt",
"Whitman": "https://www.gutenberg.org/cache/epub/1322/pg1322.txt",
"Dickinson": "https://www.gutenberg.org/cache/epub/12242/pg12242.txt",
"Whitman II": "https://www.gutenberg.org/cache/epub/8388/pg8388.txt",
"Rilke": "https://www.gutenberg.org/cache/epub/38594/pg38594.txt",
"Pound": "https://www.gutenberg.org/cache/epub/41162/pg41162.txt",
"Pound II": "https://www.gutenberg.org/cache/epub/51992/pg51992.txt",
"Eliot": "https://www.gutenberg.org/cache/epub/1567/pg1567.txt",
"Yeats": "https://www.gutenberg.org/cache/epub/38877/pg38877.txt",
"Masters": "https://www.gutenberg.org/cache/epub/1280/pg1280.txt",
"Rilke": "https://www.gutenberg.org/cache/epub/38594/pg38594.txt",
"Pound": "https://www.gutenberg.org/cache/epub/41162/pg41162.txt",
"Pound II": "https://www.gutenberg.org/cache/epub/51992/pg51992.txt",
"Eliot": "https://www.gutenberg.org/cache/epub/1567/pg1567.txt",
"Yeats": "https://www.gutenberg.org/cache/epub/38877/pg38877.txt",
"Masters": "https://www.gutenberg.org/cache/epub/1280/pg1280.txt",
"Baudelaire": "https://www.gutenberg.org/cache/epub/36098/pg36098.txt",
"Crane": "https://www.gutenberg.org/cache/epub/40786/pg40786.txt",
"Poe": "https://www.gutenberg.org/cache/epub/10031/pg10031.txt",
"Crane": "https://www.gutenberg.org/cache/epub/40786/pg40786.txt",
"Poe": "https://www.gutenberg.org/cache/epub/10031/pg10031.txt",
}
# ─── SOURCE → LANGUAGE MAPPING ───────────────────────────
# Headlines from these outlets render in their cultural home language
SOURCE_LANGS = {
"Der Spiegel": "de",
"DW": "de",
"France24": "fr",
"Japan Times": "ja",
"The Hindu": "hi",
"SCMP": "zh-cn",
"Al Jazeera": "ar",
"Der Spiegel": "de",
"DW": "de",
"France24": "fr",
"Japan Times": "ja",
"The Hindu": "hi",
"SCMP": "zh-cn",
"Al Jazeera": "ar",
}
# ─── LOCATION → LANGUAGE ─────────────────────────────────
LOCATION_LANGS = {
r'\b(?:china|chinese|beijing|shanghai|hong kong|xi jinping)\b': 'zh-cn',
r'\b(?:japan|japanese|tokyo|osaka|kishida)\b': 'ja',
r'\b(?:korea|korean|seoul|pyongyang)\b': 'ko',
r'\b(?:russia|russian|moscow|kremlin|putin)\b': 'ru',
r'\b(?:saudi|dubai|qatar|egypt|cairo|arabic)\b': 'ar',
r'\b(?:india|indian|delhi|mumbai|modi)\b': 'hi',
r'\b(?:germany|german|berlin|munich|scholz)\b': 'de',
r'\b(?:france|french|paris|lyon|macron)\b': 'fr',
r'\b(?:spain|spanish|madrid)\b': 'es',
r'\b(?:italy|italian|rome|milan|meloni)\b': 'it',
r'\b(?:portugal|portuguese|lisbon)\b': 'pt',
r'\b(?:brazil|brazilian|são paulo|lula)\b': 'pt',
r'\b(?:greece|greek|athens)\b': 'el',
r'\b(?:turkey|turkish|istanbul|ankara|erdogan)\b': 'tr',
r'\b(?:iran|iranian|tehran)\b': 'fa',
r'\b(?:thailand|thai|bangkok)\b': 'th',
r'\b(?:vietnam|vietnamese|hanoi)\b': 'vi',
r'\b(?:ukraine|ukrainian|kyiv|kiev|zelensky)\b': 'uk',
r'\b(?:israel|israeli|jerusalem|tel aviv|netanyahu)\b': 'he',
r"\b(?:china|chinese|beijing|shanghai|hong kong|xi jinping)\b": "zh-cn",
r"\b(?:japan|japanese|tokyo|osaka|kishida)\b": "ja",
r"\b(?:korea|korean|seoul|pyongyang)\b": "ko",
r"\b(?:russia|russian|moscow|kremlin|putin)\b": "ru",
r"\b(?:saudi|dubai|qatar|egypt|cairo|arabic)\b": "ar",
r"\b(?:india|indian|delhi|mumbai|modi)\b": "hi",
r"\b(?:germany|german|berlin|munich|scholz)\b": "de",
r"\b(?:france|french|paris|lyon|macron)\b": "fr",
r"\b(?:spain|spanish|madrid)\b": "es",
r"\b(?:italy|italian|rome|milan|meloni)\b": "it",
r"\b(?:portugal|portuguese|lisbon)\b": "pt",
r"\b(?:brazil|brazilian|são paulo|lula)\b": "pt",
r"\b(?:greece|greek|athens)\b": "el",
r"\b(?:turkey|turkish|istanbul|ankara|erdogan)\b": "tr",
r"\b(?:iran|iranian|tehran)\b": "fa",
r"\b(?:thailand|thai|bangkok)\b": "th",
r"\b(?:vietnam|vietnamese|hanoi)\b": "vi",
r"\b(?:ukraine|ukrainian|kyiv|kiev|zelensky)\b": "uk",
r"\b(?:israel|israeli|jerusalem|tel aviv|netanyahu)\b": "he",
}
# ─── NON-LATIN SCRIPT FONTS (macOS) ──────────────────────
SCRIPT_FONTS = {
'zh-cn': '/System/Library/Fonts/STHeiti Medium.ttc',
'ja': '/System/Library/Fonts/ヒラギノ角ゴシック W9.ttc',
'ko': '/System/Library/Fonts/AppleSDGothicNeo.ttc',
'ru': '/System/Library/Fonts/Supplemental/Arial.ttf',
'uk': '/System/Library/Fonts/Supplemental/Arial.ttf',
'el': '/System/Library/Fonts/Supplemental/Arial.ttf',
'he': '/System/Library/Fonts/Supplemental/Arial.ttf',
'ar': '/System/Library/Fonts/GeezaPro.ttc',
'fa': '/System/Library/Fonts/GeezaPro.ttc',
'hi': '/System/Library/Fonts/Kohinoor.ttc',
'th': '/System/Library/Fonts/ThonburiUI.ttc',
"zh-cn": "/System/Library/Fonts/STHeiti Medium.ttc",
"ja": "/System/Library/Fonts/ヒラギノ角ゴシック W9.ttc",
"ko": "/System/Library/Fonts/AppleSDGothicNeo.ttc",
"ru": "/System/Library/Fonts/Supplemental/Arial.ttf",
"uk": "/System/Library/Fonts/Supplemental/Arial.ttf",
"el": "/System/Library/Fonts/Supplemental/Arial.ttf",
"he": "/System/Library/Fonts/Supplemental/Arial.ttf",
"ar": "/System/Library/Fonts/GeezaPro.ttc",
"fa": "/System/Library/Fonts/GeezaPro.ttc",
"hi": "/System/Library/Fonts/Kohinoor.ttc",
"th": "/System/Library/Fonts/ThonburiUI.ttc",
}
# Scripts that have no uppercase
NO_UPPER = {'zh-cn', 'ja', 'ko', 'ar', 'fa', 'hi', 'th', 'he'}
NO_UPPER = {"zh-cn", "ja", "ko", "ar", "fa", "hi", "th", "he"}

362
engine/sources_v2.py Normal file
View File

@@ -0,0 +1,362 @@
"""
Data source abstraction - Treat data sources as first-class citizens in the pipeline.
Each data source implements a common interface:
- name: Display name for the source
- fetch(): Fetch fresh data
- stream(): Stream data continuously (optional)
- get_items(): Get current items
"""
from abc import ABC, abstractmethod
from collections.abc import Callable
from dataclasses import dataclass
from typing import Any
@dataclass
class SourceItem:
"""A single item from a data source."""
content: str
source: str
timestamp: str
metadata: dict[str, Any] | None = None
class DataSource(ABC):
"""Abstract base class for data sources.
Static sources: Data fetched once and cached. Safe to call fetch() multiple times.
Dynamic sources: Data changes over time. fetch() should be idempotent.
"""
@property
@abstractmethod
def name(self) -> str:
"""Display name for this source."""
...
@property
def is_dynamic(self) -> bool:
"""Whether this source updates dynamically while the app runs. Default False."""
return False
@abstractmethod
def fetch(self) -> list[SourceItem]:
"""Fetch fresh data from the source. Must be idempotent."""
...
def get_items(self) -> list[SourceItem]:
"""Get current items. Default implementation returns cached fetch results."""
if not hasattr(self, "_items") or self._items is None:
self._items = self.fetch()
return self._items
def refresh(self) -> list[SourceItem]:
"""Force refresh - clear cache and fetch fresh data."""
self._items = self.fetch()
return self._items
def stream(self):
"""Optional: Yield items continuously. Override for streaming sources."""
raise NotImplementedError
def __post_init__(self):
self._items: list[SourceItem] | None = None
class HeadlinesDataSource(DataSource):
"""Data source for RSS feed headlines."""
@property
def name(self) -> str:
return "headlines"
def fetch(self) -> list[SourceItem]:
from engine.fetch import fetch_all
items, _, _ = fetch_all()
return [SourceItem(content=t, source=s, timestamp=ts) for t, s, ts in items]
class PoetryDataSource(DataSource):
"""Data source for Poetry DB."""
@property
def name(self) -> str:
return "poetry"
def fetch(self) -> list[SourceItem]:
from engine.fetch import fetch_poetry
items, _, _ = fetch_poetry()
return [SourceItem(content=t, source=s, timestamp=ts) for t, s, ts in items]
class PipelineDataSource(DataSource):
"""Data source for pipeline visualization (demo mode). Dynamic - updates every frame."""
def __init__(self, viewport_width: int = 80, viewport_height: int = 24):
self.viewport_width = viewport_width
self.viewport_height = viewport_height
self.frame = 0
@property
def name(self) -> str:
return "pipeline"
@property
def is_dynamic(self) -> bool:
return True
def fetch(self) -> list[SourceItem]:
from engine.pipeline_viz import generate_large_network_viewport
buffer = generate_large_network_viewport(
self.viewport_width, self.viewport_height, self.frame
)
self.frame += 1
content = "\n".join(buffer)
return [
SourceItem(content=content, source="pipeline", timestamp=f"f{self.frame}")
]
def get_items(self) -> list[SourceItem]:
return self.fetch()
class MetricsDataSource(DataSource):
"""Data source that renders live pipeline metrics as ASCII art.
Wraps a Pipeline and displays active stages with their average execution
time and approximate FPS impact. Updates lazily when camera is about to
focus on a new node (frame % 15 == 12).
"""
def __init__(
self,
pipeline: Any,
viewport_width: int = 80,
viewport_height: int = 24,
):
self.pipeline = pipeline
self.viewport_width = viewport_width
self.viewport_height = viewport_height
self.frame = 0
self._cached_metrics: dict | None = None
@property
def name(self) -> str:
return "metrics"
@property
def is_dynamic(self) -> bool:
return True
def fetch(self) -> list[SourceItem]:
if self.frame % 15 == 12:
self._cached_metrics = None
if self._cached_metrics is None:
self._cached_metrics = self._fetch_metrics()
buffer = self._render_metrics(self._cached_metrics)
self.frame += 1
content = "\n".join(buffer)
return [
SourceItem(content=content, source="metrics", timestamp=f"f{self.frame}")
]
def _fetch_metrics(self) -> dict:
if hasattr(self.pipeline, "get_metrics_summary"):
metrics = self.pipeline.get_metrics_summary()
if "error" not in metrics:
return metrics
return {"stages": {}, "pipeline": {"avg_ms": 0}}
def _render_metrics(self, metrics: dict) -> list[str]:
stages = metrics.get("stages", {})
if not stages:
return self._render_empty()
active_stages = {
name: stats for name, stats in stages.items() if stats.get("avg_ms", 0) > 0
}
if not active_stages:
return self._render_empty()
total_avg = sum(s["avg_ms"] for s in active_stages.values())
if total_avg == 0:
total_avg = 1
lines: list[str] = []
lines.append("" * self.viewport_width)
lines.append(" PIPELINE METRICS ".center(self.viewport_width, ""))
lines.append("" * self.viewport_width)
header = f"{'STAGE':<20} {'AVG_MS':>8} {'FPS %':>8}"
lines.append(header)
lines.append("" * self.viewport_width)
for name, stats in sorted(active_stages.items()):
avg_ms = stats.get("avg_ms", 0)
fps_impact = (avg_ms / 16.67) * 100 if avg_ms > 0 else 0
row = f"{name:<20} {avg_ms:>7.2f} {fps_impact:>7.1f}%"
lines.append(row[: self.viewport_width])
lines.append("" * self.viewport_width)
total_row = (
f"{'TOTAL':<20} {total_avg:>7.2f} {(total_avg / 16.67) * 100:>7.1f}%"
)
lines.append(total_row[: self.viewport_width])
lines.append("" * self.viewport_width)
lines.append(
f" Frame:{self.frame:04d} Cache:{'HIT' if self._cached_metrics else 'MISS'}"
)
while len(lines) < self.viewport_height:
lines.append(" " * self.viewport_width)
return lines[: self.viewport_height]
def _render_empty(self) -> list[str]:
lines = [" " * self.viewport_width for _ in range(self.viewport_height)]
msg = "No metrics available"
y = self.viewport_height // 2
x = (self.viewport_width - len(msg)) // 2
lines[y] = " " * x + msg + " " * (self.viewport_width - x - len(msg))
return lines
def get_items(self) -> list[SourceItem]:
return self.fetch()
class CachedDataSource(DataSource):
"""Data source that wraps another source with caching."""
def __init__(self, source: DataSource, max_items: int = 100):
self.source = source
self.max_items = max_items
@property
def name(self) -> str:
return f"cached:{self.source.name}"
def fetch(self) -> list[SourceItem]:
items = self.source.fetch()
return items[: self.max_items]
def get_items(self) -> list[SourceItem]:
if not hasattr(self, "_items") or self._items is None:
self._items = self.fetch()
return self._items
class TransformDataSource(DataSource):
"""Data source that transforms items from another source.
Applies optional filter and map functions to each item.
This enables chaining: source → transform → transformed output.
Args:
source: The source to fetch items from
filter_fn: Optional function(item: SourceItem) -> bool
map_fn: Optional function(item: SourceItem) -> SourceItem
"""
def __init__(
self,
source: DataSource,
filter_fn: Callable[[SourceItem], bool] | None = None,
map_fn: Callable[[SourceItem], SourceItem] | None = None,
):
self.source = source
self.filter_fn = filter_fn
self.map_fn = map_fn
@property
def name(self) -> str:
return f"transform:{self.source.name}"
def fetch(self) -> list[SourceItem]:
items = self.source.fetch()
if self.filter_fn:
items = [item for item in items if self.filter_fn(item)]
if self.map_fn:
items = [self.map_fn(item) for item in items]
return items
class CompositeDataSource(DataSource):
"""Data source that combines multiple sources."""
def __init__(self, sources: list[DataSource]):
self.sources = sources
@property
def name(self) -> str:
return "composite"
def fetch(self) -> list[SourceItem]:
items = []
for source in self.sources:
items.extend(source.fetch())
return items
class SourceRegistry:
"""Registry for data sources."""
def __init__(self):
self._sources: dict[str, DataSource] = {}
self._default: str | None = None
def register(self, source: DataSource, default: bool = False) -> None:
self._sources[source.name] = source
if default or self._default is None:
self._default = source.name
def get(self, name: str) -> DataSource | None:
return self._sources.get(name)
def list_all(self) -> dict[str, DataSource]:
return dict(self._sources)
def default(self) -> DataSource | None:
if self._default:
return self._sources.get(self._default)
return None
def create_headlines(self) -> HeadlinesDataSource:
return HeadlinesDataSource()
def create_poetry(self) -> PoetryDataSource:
return PoetryDataSource()
def create_pipeline(self, width: int = 80, height: int = 24) -> PipelineDataSource:
return PipelineDataSource(width, height)
_global_registry: SourceRegistry | None = None
def get_source_registry() -> SourceRegistry:
global _global_registry
if _global_registry is None:
_global_registry = SourceRegistry()
return _global_registry
def init_default_sources() -> SourceRegistry:
"""Initialize the default source registry with standard sources."""
registry = get_source_registry()
registry.register(HeadlinesDataSource(), default=True)
registry.register(PoetryDataSource())
return registry

4
engine/terminal.py
View File

@@ -4,8 +4,8 @@ No internal dependencies.
"""
import os
import sys
import random
import sys
import time
# ─── ANSI ─────────────────────────────────────────────────
@@ -49,7 +49,7 @@ def type_out(text, color=G_HI):
while i < len(text):
if random.random() < 0.3:
b = random.randint(2, 5)
sys.stdout.write(f"{color}{text[i:i+b]}{RST}")
sys.stdout.write(f"{color}{text[i : i + b]}{RST}")
i += b
else:
sys.stdout.write(f"{color}{text[i]}{RST}")

43
engine/translate.py
View File

@@ -3,14 +3,33 @@ Google Translate wrapper and location→language detection.
Depends on: sources (for LOCATION_LANGS).
"""
import re
import json
import urllib.request
import re
import urllib.parse
import urllib.request
from functools import lru_cache
from engine.sources import LOCATION_LANGS
_TRANSLATE_CACHE = {}
TRANSLATE_CACHE_SIZE = 500
@lru_cache(maxsize=TRANSLATE_CACHE_SIZE)
def _translate_cached(title: str, target_lang: str) -> str:
"""Cached translation implementation."""
try:
q = urllib.parse.quote(title)
url = (
"https://translate.googleapis.com/translate_a/single"
f"?client=gtx&sl=en&tl={target_lang}&dt=t&q={q}"
)
req = urllib.request.Request(url, headers={"User-Agent": "mainline/0.1"})
resp = urllib.request.urlopen(req, timeout=5)
data = json.loads(resp.read())
result = "".join(p[0] for p in data[0] if p[0]) or title
except Exception:
result = title
return result
def detect_location_language(title):
@@ -22,20 +41,6 @@ def detect_location_language(title):
return None
def translate_headline(title, target_lang):
def translate_headline(title: str, target_lang: str) -> str:
"""Translate headline via Google Translate API (zero dependencies)."""
key = (title, target_lang)
if key in _TRANSLATE_CACHE:
return _TRANSLATE_CACHE[key]
try:
q = urllib.parse.quote(title)
url = ("https://translate.googleapis.com/translate_a/single"
f"?client=gtx&sl=en&tl={target_lang}&dt=t&q={q}")
req = urllib.request.Request(url, headers={"User-Agent": "mainline/0.1"})
resp = urllib.request.urlopen(req, timeout=5)
data = json.loads(resp.read())
result = "".join(p[0] for p in data[0] if p[0]) or title
except Exception:
result = title
_TRANSLATE_CACHE[key] = result
return result
return _translate_cached(title, target_lang)

60
engine/types.py Normal file
View File

@@ -0,0 +1,60 @@
"""
Shared dataclasses for the mainline application.
Provides named types for tuple returns across modules.
"""
from dataclasses import dataclass
@dataclass
class HeadlineItem:
"""A single headline item: title, source, and timestamp."""
title: str
source: str
timestamp: str
def to_tuple(self) -> tuple[str, str, str]:
"""Convert to tuple for backward compatibility."""
return (self.title, self.source, self.timestamp)
@classmethod
def from_tuple(cls, t: tuple[str, str, str]) -> "HeadlineItem":
"""Create from tuple for backward compatibility."""
return cls(title=t[0], source=t[1], timestamp=t[2])
def items_to_tuples(items: list[HeadlineItem]) -> list[tuple[str, str, str]]:
"""Convert list of HeadlineItem to list of tuples."""
return [item.to_tuple() for item in items]
def tuples_to_items(tuples: list[tuple[str, str, str]]) -> list[HeadlineItem]:
"""Convert list of tuples to list of HeadlineItem."""
return [HeadlineItem.from_tuple(t) for t in tuples]
@dataclass
class FetchResult:
"""Result from fetch_all() or fetch_poetry()."""
items: list[HeadlineItem]
linked: int
failed: int
def to_legacy_tuple(self) -> tuple[list[tuple], int, int]:
"""Convert to legacy tuple format for backward compatibility."""
return ([item.to_tuple() for item in self.items], self.linked, self.failed)
@dataclass
class Block:
"""Rendered headline block from make_block()."""
content: list[str]
color: str
meta_row_index: int
def to_legacy_tuple(self) -> tuple[list[str], str, int]:
"""Convert to legacy tuple format for backward compatibility."""
return (self.content, self.color, self.meta_row_index)

37
engine/viewport.py Normal file
View File

@@ -0,0 +1,37 @@
"""
Viewport utilities — terminal dimensions and ANSI positioning helpers.
No internal dependencies.
"""
import os
def tw() -> int:
"""Get terminal width (columns)."""
try:
return os.get_terminal_size().columns
except Exception:
return 80
def th() -> int:
"""Get terminal height (lines)."""
try:
return os.get_terminal_size().lines
except Exception:
return 24
def move_to(row: int, col: int = 1) -> str:
"""Generate ANSI escape to move cursor to row, col (1-indexed)."""
return f"\033[{row};{col}H"
def clear_screen() -> str:
"""Clear screen and move cursor to home."""
return "\033[2J\033[H"
def clear_line() -> str:
"""Clear current line."""
return "\033[K"

BIN
fonts/AgorTechnoDemo-Regular.otf Normal file
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fonts/CubaTechnologyDemo-Regular.otf Normal file
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fonts/ModernSpaceDemo-Regular.otf Normal file
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30
hk.pkl Normal file
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@@ -0,0 +1,30 @@
amends "package://github.com/jdx/hk/releases/download/v1.38.0/hk@1.38.0#/Config.pkl"
import "package://github.com/jdx/hk/releases/download/v1.38.0/hk@1.38.0#/Builtins.pkl"
hooks {
["pre-commit"] {
fix = true
stash = "git"
steps {
["ruff-format"] = (Builtins.ruff_format) {
prefix = "uv run"
}
["ruff"] = (Builtins.ruff) {
prefix = "uv run"
check = "ruff check engine/ tests/"
fix = "ruff check --fix --unsafe-fixes engine/ tests/"
}
}
}
["pre-push"] {
steps {
["ruff"] = (Builtins.ruff) {
prefix = "uv run"
check = "ruff check engine/ tests/"
}
["benchmark"] {
check = "uv run python -m engine.benchmark --hook --displays null --iterations 20"
}
}
}
}

31
kitty_test.py Normal file
View File

@@ -0,0 +1,31 @@
#!/usr/bin/env python3
"""Test script for Kitty graphics display."""
import sys
def test_kitty_simple():
"""Test simple Kitty graphics output with embedded PNG."""
import base64
# Minimal 1x1 red pixel PNG (pre-encoded)
# This is a tiny valid PNG with a red pixel
png_red_1x1 = (
b"\x89PNG\r\n\x1a\n\x00\x00\x00\rIHDR\x00\x00\x00"
b"\x01\x00\x00\x00\x01\x08\x02\x00\x00\x00\x90wS\xde"
b"\x00\x00\x00\x0cIDATx\x9cc\xf8\xcf\xc0\x00\x00\x00"
b"\x03\x00\x01\x00\x05\xfe\xd4\x00\x00\x00\x00IEND\xaeB`\x82"
)
encoded = base64.b64encode(png_red_1x1).decode("ascii")
graphic = f"\x1b_Gf=100,t=d,s=1,v=1,c=1,r=1;{encoded}\x1b\\"
sys.stdout.buffer.write(graphic.encode("utf-8"))
sys.stdout.flush()
print("\n[If you see a red dot above, Kitty graphics is working!]")
print("[If you see nothing or garbage, it's not working]")
if __name__ == "__main__":
test_kitty_simple()

35
mainline.py
View File

@@ -5,40 +5,7 @@ Digital news consciousness stream.
Matrix aesthetic · THX-1138 hue.
"""
import subprocess, sys, pathlib
# ─── BOOTSTRAP VENV ───────────────────────────────────────
_VENV = pathlib.Path(__file__).resolve().parent / ".mainline_venv"
_MARKER = _VENV / ".installed_v3"
def _ensure_venv():
"""Create a local venv and install deps if needed."""
if _MARKER.exists():
return
import venv
print("\033[2;38;5;34m > first run — creating environment...\033[0m")
venv.create(str(_VENV), with_pip=True, clear=True)
pip = str(_VENV / "bin" / "pip")
subprocess.check_call(
[pip, "install", "feedparser", "Pillow", "-q"],
stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL,
)
_MARKER.touch()
_ensure_venv()
# Install sounddevice on first run after v3
_MARKER_SD = _VENV / ".installed_sd"
if not _MARKER_SD.exists():
_pip = str(_VENV / "bin" / "pip")
subprocess.check_call([_pip, "install", "sounddevice", "numpy", "-q"],
stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
_MARKER_SD.touch()
sys.path.insert(0, str(next((_VENV / "lib").glob("python*/site-packages"))))
# ─── DELEGATE TO ENGINE ───────────────────────────────────
from engine.app import main # noqa: E402
from engine.app import main
if __name__ == "__main__":
main()

108
mise.toml Normal file
View File

@@ -0,0 +1,108 @@
[tools]
python = "3.12"
hk = "latest"
pkl = "latest"
[tasks]
# =====================
# Testing
# =====================
test = "uv run pytest"
test-v = { run = "uv run pytest -v", depends = ["sync-all"] }
test-cov = { run = "uv run pytest --cov=engine --cov-report=term-missing --cov-report=html", depends = ["sync-all"] }
test-cov-open = { run = "mise run test-cov && open htmlcov/index.html", depends = ["sync-all"] }
test-browser-install = { run = "uv run playwright install chromium", depends = ["sync-all"] }
test-browser = { run = "uv run pytest tests/e2e/", depends = ["test-browser-install"] }
# =====================
# Linting & Formatting
# =====================
lint = "uv run ruff check engine/ mainline.py"
lint-fix = "uv run ruff check --fix engine/ mainline.py"
format = "uv run ruff format engine/ mainline.py"
# =====================
# Runtime Modes
# =====================
run = "uv run mainline.py"
run-poetry = "uv run mainline.py --poetry"
run-firehose = "uv run mainline.py --firehose"
run-websocket = { run = "uv run mainline.py --display websocket", depends = ["sync-all"] }
run-sixel = { run = "uv run mainline.py --display sixel", depends = ["sync-all"] }
run-kitty = { run = "uv run mainline.py --display kitty", depends = ["sync-all"] }
run-pygame = { run = "uv run mainline.py --display pygame", depends = ["sync-all"] }
run-both = { run = "uv run mainline.py --display both", depends = ["sync-all"] }
run-client = { run = "mise run run-both & sleep 2 && $(open http://localhost:8766 2>/dev/null || xdg-open http://localhost:8766 2>/dev/null || echo 'Open http://localhost:8766 manually'); wait", depends = ["sync-all"] }
# =====================
# Pipeline Architecture (unified Stage-based)
# =====================
run-pipeline = { run = "uv run mainline.py --pipeline --display pygame", depends = ["sync-all"] }
run-pipeline-demo = { run = "uv run mainline.py --pipeline --pipeline-preset demo --display pygame", depends = ["sync-all"] }
run-pipeline-poetry = { run = "uv run mainline.py --pipeline --pipeline-preset poetry --display pygame", depends = ["sync-all"] }
run-pipeline-websocket = { run = "uv run mainline.py --pipeline --pipeline-preset websocket", depends = ["sync-all"] }
run-pipeline-firehose = { run = "uv run mainline.py --pipeline --pipeline-preset firehose --display pygame", depends = ["sync-all"] }
# =====================
# Presets (Animation-controlled modes)
# =====================
run-preset-demo = { run = "uv run mainline.py --preset demo --display pygame", depends = ["sync-all"] }
run-preset-pipeline = { run = "uv run mainline.py --preset pipeline --display pygame", depends = ["sync-all"] }
# =====================
# Command & Control
# =====================
cmd = "uv run cmdline.py"
cmd-stats = { run = "uv run cmdline.py -w \"/effects stats\"", depends = ["sync-all"] }
# =====================
# Benchmark
# =====================
benchmark = { run = "uv run python -m engine.benchmark", depends = ["sync-all"] }
benchmark-json = { run = "uv run python -m engine.benchmark --format json --output benchmark.json", depends = ["sync-all"] }
benchmark-report = { run = "uv run python -m engine.benchmark --output BENCHMARK.md", depends = ["sync-all"] }
# Initialize ntfy topics (warm up before first use)
topics-init = "curl -s -d 'init' https://ntfy.sh/klubhaus_terminal_mainline_cc_cmd > /dev/null && curl -s -d 'init' https://ntfy.sh/klubhaus_terminal_mainline_cc_resp > /dev/null && curl -s -d 'init' https://ntfy.sh/klubhaus_terminal_mainline > /dev/null"
# =====================
# Daemon
# =====================
daemon = "nohup uv run mainline.py > nohup.out 2>&1 &"
daemon-stop = "pkill -f 'uv run mainline.py' 2>/dev/null || true"
daemon-restart = "mise run daemon-stop && sleep 2 && mise run daemon"
# =====================
# Environment
# =====================
sync = "uv sync"
sync-all = "uv sync --all-extras"
install = "mise run sync"
install-dev = { run = "mise run sync-all && uv sync --group dev", depends = ["sync-all"] }
bootstrap = { run = "mise run sync-all && uv run mainline.py --help", depends = ["sync-all"] }
clean = "rm -rf .venv htmlcov .coverage tests/.pytest_cache .mainline_cache_*.json nohup.out"
clobber = "git clean -fdx && rm -rf .venv htmlcov .coverage tests/.pytest_cache .mainline_cache_*.json nohup.out"
# =====================
# CI/CD
# =====================
ci = { run = "mise run topics-init && mise run lint && mise run test-cov", depends = ["topics-init", "lint", "test-cov"] }
# =====================
# Git Hooks (via hk)
# =====================
pre-commit = "hk run pre-commit"

107
pyproject.toml Normal file
View File

@@ -0,0 +1,107 @@
[project]
name = "mainline"
version = "0.1.0"
description = "Terminal news ticker with Matrix aesthetic"
readme = "README.md"
requires-python = ">=3.10"
authors = [
{ name = "Mainline", email = "mainline@example.com" }
]
license = { text = "MIT" }
classifiers = [
"Development Status :: 4 - Beta",
"Environment :: Console",
"License :: OSI Approved :: MIT License",
"Programming Language :: Python :: 3",
"Programming Language :: Python :: 3.10",
"Programming Language :: Python :: 3.11",
"Programming Language :: Python :: 3.12",
"Topic :: Terminals",
]
dependencies = [
"feedparser>=6.0.0",
"Pillow>=10.0.0",
"pyright>=1.1.408",
]
[project.optional-dependencies]
mic = [
"sounddevice>=0.4.0",
"numpy>=1.24.0",
]
websocket = [
"websockets>=12.0",
]
sixel = [
"Pillow>=10.0.0",
]
pygame = [
"pygame>=2.0.0",
]
browser = [
"playwright>=1.40.0",
]
dev = [
"pytest>=8.0.0",
"pytest-cov>=4.1.0",
"pytest-mock>=3.12.0",
"ruff>=0.1.0",
]
[project.scripts]
mainline = "engine.app:main"
[build-system]
requires = ["hatchling"]
build-backend = "hatchling.build"
[dependency-groups]
dev = [
"pytest>=8.0.0",
"pytest-cov>=4.1.0",
"pytest-mock>=3.12.0",
"ruff>=0.1.0",
]
[tool.pytest.ini_options]
testpaths = ["tests"]
python_files = ["test_*.py"]
python_functions = ["test_*"]
addopts = [
"--strict-markers",
"--tb=short",
"-v",
]
markers = [
"benchmark: marks tests as performance benchmarks (may be slow)",
"e2e: marks tests as end-to-end tests (require network/display)",
"integration: marks tests as integration tests (require external services)",
"ntfy: marks tests that require ntfy service",
]
filterwarnings = [
"ignore::DeprecationWarning",
]
[tool.coverage.run]
source = ["engine"]
branch = true
[tool.coverage.report]
exclude_lines = [
"pragma: no cover",
"def __repr__",
"raise AssertionError",
"raise NotImplementedError",
"if __name__ == .__main__.:",
"if TYPE_CHECKING:",
"@abstractmethod",
]
[tool.ruff]
line-length = 88
target-version = "py310"
[tool.ruff.lint]
select = ["E", "F", "W", "I", "N", "UP", "B", "C4", "SIM"]
ignore = ["E501", "SIM105", "N806", "B007", "SIM108"]

4
requirements-dev.txt Normal file
View File

@@ -0,0 +1,4 @@
pytest>=8.0.0
pytest-cov>=4.1.0
pytest-mock>=3.12.0
ruff>=0.1.0

4
requirements.txt Normal file
View File

@@ -0,0 +1,4 @@
feedparser>=6.0.0
Pillow>=10.0.0
sounddevice>=0.4.0
numpy>=1.24.0

0
tests/__init__.py Normal file
View File

36
tests/conftest.py Normal file
View File

@@ -0,0 +1,36 @@
"""
Pytest configuration for mainline.
"""
import pytest
def pytest_configure(config):
"""Configure pytest to skip integration tests by default."""
config.addinivalue_line(
"markers",
"integration: marks tests as integration tests (require external services)",
)
config.addinivalue_line("markers", "ntfy: marks tests that require ntfy service")
def pytest_collection_modifyitems(config, items):
"""Skip integration/e2e tests unless explicitly requested with -m."""
# Get the current marker expression
marker_expr = config.getoption("-m", default="")
# If explicitly running integration or e2e, don't skip them
if marker_expr in ("integration", "e2e", "integration or e2e"):
return
# Skip integration tests
skip_integration = pytest.mark.skip(reason="need -m integration to run")
for item in items:
if "integration" in item.keywords:
item.add_marker(skip_integration)
# Skip e2e tests by default (they require browser/display)
skip_e2e = pytest.mark.skip(reason="need -m e2e to run")
for item in items:
if "e2e" in item.keywords and "integration" not in item.keywords:
item.add_marker(skip_e2e)

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"""
End-to-end tests for web client with headless browser.
"""
import os
import socketserver
import threading
from http.server import HTTPServer, SimpleHTTPRequestHandler
from pathlib import Path
import pytest
CLIENT_DIR = Path(__file__).parent.parent.parent / "client"
class ThreadedHTTPServer(socketserver.ThreadingMixIn, HTTPServer):
"""Threaded HTTP server for handling concurrent requests."""
daemon_threads = True
@pytest.fixture(scope="module")
def http_server():
"""Start a local HTTP server for the client."""
os.chdir(CLIENT_DIR)
handler = SimpleHTTPRequestHandler
server = ThreadedHTTPServer(("127.0.0.1", 0), handler)
port = server.server_address[1]
thread = threading.Thread(target=server.serve_forever, daemon=True)
thread.start()
yield f"http://127.0.0.1:{port}"
server.shutdown()
class TestWebClient:
"""Tests for the web client using Playwright."""
@pytest.fixture(autouse=True)
def setup_browser(self):
"""Set up browser for tests."""
pytest.importorskip("playwright")
from playwright.sync_api import sync_playwright
self.playwright = sync_playwright().start()
self.browser = self.playwright.chromium.launch(headless=True)
self.context = self.browser.new_context()
self.page = self.context.new_page()
yield
self.page.close()
self.context.close()
self.browser.close()
self.playwright.stop()
def test_client_loads(self, http_server):
"""Web client loads without errors."""
response = self.page.goto(http_server)
assert response.status == 200, f"Page load failed with status {response.status}"
self.page.wait_for_load_state("domcontentloaded")
content = self.page.content()
assert "<canvas" in content, "Canvas element not found in page"
canvas = self.page.locator("#terminal")
assert canvas.count() > 0, "Canvas not found"
def test_status_shows_connecting(self, http_server):
"""Status shows connecting initially."""
self.page.goto(http_server)
self.page.wait_for_load_state("domcontentloaded")
status = self.page.locator("#status")
assert status.count() > 0, "Status element not found"
def test_canvas_has_dimensions(self, http_server):
"""Canvas has correct dimensions after load."""
self.page.goto(http_server)
self.page.wait_for_load_state("domcontentloaded")
canvas = self.page.locator("#terminal")
assert canvas.count() > 0, "Canvas not found"
def test_no_console_errors_on_load(self, http_server):
"""No JavaScript errors on page load (websocket errors are expected without server)."""
js_errors = []
def handle_console(msg):
if msg.type == "error":
text = msg.text
if "WebSocket" not in text:
js_errors.append(text)
self.page.on("console", handle_console)
self.page.goto(http_server)
self.page.wait_for_load_state("domcontentloaded")
assert len(js_errors) == 0, f"JavaScript errors: {js_errors}"
class TestWebClientProtocol:
"""Tests for WebSocket protocol handling in client."""
@pytest.fixture(autouse=True)
def setup_browser(self):
"""Set up browser for tests."""
pytest.importorskip("playwright")
from playwright.sync_api import sync_playwright
self.playwright = sync_playwright().start()
self.browser = self.playwright.chromium.launch(headless=True)
self.context = self.browser.new_context()
self.page = self.context.new_page()
yield
self.page.close()
self.context.close()
self.browser.close()
self.playwright.stop()
def test_websocket_reconnection(self, http_server):
"""Client attempts reconnection on disconnect."""
self.page.goto(http_server)
self.page.wait_for_load_state("domcontentloaded")
status = self.page.locator("#status")
assert status.count() > 0, "Status element not found"

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"""
Pytest fixtures for mocking external dependencies (network, filesystem).
"""
import json
from unittest.mock import MagicMock
import pytest
@pytest.fixture
def mock_feed_response():
"""Mock RSS feed response data."""
return b"""<?xml version="1.0" encoding="UTF-8" ?>
<rss version="2.0">
<channel>
<title>Test Feed</title>
<link>https://example.com</link>
<item>
<title>Test Headline One</title>
<pubDate>Sat, 15 Mar 2025 12:00:00 GMT</pubDate>
</item>
<item>
<title>Test Headline Two</title>
<pubDate>Sat, 15 Mar 2025 11:00:00 GMT</pubDate>
</item>
<item>
<title>Sports: Team Wins Championship</title>
<pubDate>Sat, 15 Mar 2025 10:00:00 GMT</pubDate>
</item>
</channel>
</rss>"""
@pytest.fixture
def mock_gutenberg_response():
"""Mock Project Gutenberg text response."""
return """Project Gutenberg's Collection, by Various
*** START OF SOME TEXT ***
This is a test poem with multiple lines
that should be parsed as stanzas.
Another stanza here with different content
and more lines to test the parsing logic.
Yet another stanza for variety
in the test data.
*** END OF SOME TEXT ***"""
@pytest.fixture
def mock_gutenberg_empty():
"""Mock Gutenberg response with no valid stanzas."""
return """Project Gutenberg's Collection
*** START OF TEXT ***
THIS IS ALL CAPS AND SHOULD BE SKIPPED
I.
*** END OF TEXT ***"""
@pytest.fixture
def mock_ntfy_message():
"""Mock ntfy.sh SSE message."""
return json.dumps(
{
"id": "test123",
"event": "message",
"title": "Test Title",
"message": "Test message body",
"time": 1234567890,
}
).encode()
@pytest.fixture
def mock_ntfy_keepalive():
"""Mock ntfy.sh keepalive message."""
return b'data: {"event":"keepalive"}\n\n'
@pytest.fixture
def mock_google_translate_response():
"""Mock Google Translate API response."""
return json.dumps(
[
[["Translated text", "Original text", None, 0.8], None, "en"],
None,
None,
[],
[],
[],
[],
]
)
@pytest.fixture
def mock_feedparser():
"""Create a mock feedparser.parse function."""
def _mock(data):
mock_result = MagicMock()
mock_result.bozo = False
mock_result.entries = [
{
"title": "Test Headline",
"published_parsed": (2025, 3, 15, 12, 0, 0, 0, 0, 0),
},
{
"title": "Another Headline",
"updated_parsed": (2025, 3, 15, 11, 0, 0, 0, 0, 0),
},
]
return mock_result
return _mock
@pytest.fixture
def mock_urllib_open(mock_feed_response):
"""Create a mock urllib.request.urlopen that returns feed data."""
def _mock(url):
mock_response = MagicMock()
mock_response.read.return_value = mock_feed_response
return mock_response
return _mock
@pytest.fixture
def sample_items():
"""Sample items as returned by fetch module (title, source, timestamp)."""
return [
("Headline One", "Test Source", "12:00"),
("Headline Two", "Another Source", "11:30"),
("Headline Three", "Third Source", "10:45"),
]
@pytest.fixture
def sample_config():
"""Sample config for testing."""
from engine.config import Config
return Config(
headline_limit=100,
feed_timeout=10,
mic_threshold_db=50,
mode="news",
firehose=False,
ntfy_topic="https://ntfy.sh/test/json",
ntfy_reconnect_delay=5,
message_display_secs=30,
font_dir="fonts",
font_path="",
font_index=0,
font_picker=False,
font_sz=60,
render_h=8,
ssaa=4,
scroll_dur=5.625,
frame_dt=0.05,
firehose_h=12,
grad_speed=0.08,
glitch_glyphs="░▒▓█▌▐",
kata_glyphs="ハミヒーウ",
script_fonts={},
)
@pytest.fixture
def poetry_config():
"""Sample config for poetry mode."""
from engine.config import Config
return Config(
headline_limit=100,
feed_timeout=10,
mic_threshold_db=50,
mode="poetry",
firehose=False,
ntfy_topic="https://ntfy.sh/test/json",
ntfy_reconnect_delay=5,
message_display_secs=30,
font_dir="fonts",
font_path="",
font_index=0,
font_picker=False,
font_sz=60,
render_h=8,
ssaa=4,
scroll_dur=5.625,
frame_dt=0.05,
firehose_h=12,
grad_speed=0.08,
glitch_glyphs="░▒▓█▌▐",
kata_glyphs="ハミヒーウ",
script_fonts={},
)
@pytest.fixture
def firehose_config():
"""Sample config with firehose enabled."""
from engine.config import Config
return Config(
headline_limit=100,
feed_timeout=10,
mic_threshold_db=50,
mode="news",
firehose=True,
ntfy_topic="https://ntfy.sh/test/json",
ntfy_reconnect_delay=5,
message_display_secs=30,
font_dir="fonts",
font_path="",
font_index=0,
font_picker=False,
font_sz=60,
render_h=8,
ssaa=4,
scroll_dur=5.625,
frame_dt=0.05,
firehose_h=12,
grad_speed=0.08,
glitch_glyphs="░▒▓█▌▐",
kata_glyphs="ハミヒーウ",
script_fonts={},
)

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"""
Tests for engine.app module.
"""
from engine.app import _normalize_preview_rows
class TestNormalizePreviewRows:
"""Tests for _normalize_preview_rows function."""
def test_empty_rows(self):
"""Empty input returns empty list."""
result = _normalize_preview_rows([])
assert result == [""]
def test_strips_left_padding(self):
"""Left padding is stripped."""
result = _normalize_preview_rows([" content", " more"])
assert all(not r.startswith(" ") for r in result)
def test_preserves_content(self):
"""Content is preserved."""
result = _normalize_preview_rows([" hello world "])
assert "hello world" in result[0]
def test_handles_all_empty_rows(self):
"""All empty rows returns single empty string."""
result = _normalize_preview_rows(["", " ", ""])
assert result == [""]
class TestAppConstants:
"""Tests for app module constants."""
def test_title_defined(self):
"""TITLE is defined."""
from engine.app import TITLE
assert len(TITLE) > 0
def test_title_lines_are_strings(self):
"""TITLE contains string lines."""
from engine.app import TITLE
assert all(isinstance(line, str) for line in TITLE)
class TestAppImports:
"""Tests for app module imports."""
def test_app_imports_without_error(self):
"""Module imports without error."""
from engine import app
assert app is not None

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"""
Tests for engine.benchmark module - performance regression tests.
"""
from unittest.mock import patch
import pytest
from engine.display import NullDisplay
class TestBenchmarkNullDisplay:
"""Performance tests for NullDisplay - regression tests."""
@pytest.mark.benchmark
def test_null_display_minimum_fps(self):
"""NullDisplay should meet minimum performance threshold."""
import time
display = NullDisplay()
display.init(80, 24)
buffer = ["x" * 80 for _ in range(24)]
iterations = 1000
start = time.perf_counter()
for _ in range(iterations):
display.show(buffer)
elapsed = time.perf_counter() - start
fps = iterations / elapsed
min_fps = 20000
assert fps >= min_fps, f"NullDisplay FPS {fps:.0f} below minimum {min_fps}"
@pytest.mark.benchmark
def test_effects_minimum_throughput(self):
"""Effects should meet minimum processing throughput."""
import time
from effects_plugins import discover_plugins
from engine.effects import EffectContext, get_registry
discover_plugins()
registry = get_registry()
effect = registry.get("noise")
assert effect is not None, "Noise effect should be registered"
buffer = ["x" * 80 for _ in range(24)]
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
)
iterations = 500
start = time.perf_counter()
for _ in range(iterations):
effect.process(buffer, ctx)
elapsed = time.perf_counter() - start
fps = iterations / elapsed
min_fps = 10000
assert fps >= min_fps, (
f"Effect processing FPS {fps:.0f} below minimum {min_fps}"
)
class TestBenchmarkWebSocketDisplay:
"""Performance tests for WebSocketDisplay."""
@pytest.mark.benchmark
def test_websocket_display_minimum_fps(self):
"""WebSocketDisplay should meet minimum performance threshold."""
import time
with patch("engine.display.backends.websocket.websockets", None):
from engine.display import WebSocketDisplay
display = WebSocketDisplay()
display.init(80, 24)
buffer = ["x" * 80 for _ in range(24)]
iterations = 500
start = time.perf_counter()
for _ in range(iterations):
display.show(buffer)
elapsed = time.perf_counter() - start
fps = iterations / elapsed
min_fps = 10000
assert fps >= min_fps, (
f"WebSocketDisplay FPS {fps:.0f} below minimum {min_fps}"
)

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from engine.camera import Camera, CameraMode
def test_camera_vertical_default():
"""Test default vertical camera."""
cam = Camera()
assert cam.mode == CameraMode.VERTICAL
assert cam.x == 0
assert cam.y == 0
def test_camera_vertical_factory():
"""Test vertical factory method."""
cam = Camera.vertical(speed=2.0)
assert cam.mode == CameraMode.VERTICAL
assert cam.speed == 2.0
def test_camera_horizontal():
"""Test horizontal camera."""
cam = Camera.horizontal(speed=1.5)
assert cam.mode == CameraMode.HORIZONTAL
cam.update(1.0)
assert cam.x > 0
def test_camera_omni():
"""Test omnidirectional camera."""
cam = Camera.omni(speed=1.0)
assert cam.mode == CameraMode.OMNI
cam.update(1.0)
assert cam.x > 0
assert cam.y > 0
def test_camera_floating():
"""Test floating camera with sinusoidal motion."""
cam = Camera.floating(speed=1.0)
assert cam.mode == CameraMode.FLOATING
y_before = cam.y
cam.update(0.5)
y_after = cam.y
assert y_before != y_after
def test_camera_reset():
"""Test camera reset."""
cam = Camera.vertical()
cam.update(1.0)
assert cam.y > 0
cam.reset()
assert cam.x == 0
assert cam.y == 0
def test_camera_custom_update():
"""Test custom update function."""
call_count = 0
def custom_update(camera, dt):
nonlocal call_count
call_count += 1
camera.x += int(10 * dt)
cam = Camera.custom(custom_update)
cam.update(1.0)
assert call_count == 1
assert cam.x == 10

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"""
Tests for engine.config module.
"""
import sys
import tempfile
from pathlib import Path
from unittest.mock import patch
import pytest
from engine import config
class TestArgValue:
"""Tests for _arg_value helper."""
def test_returns_value_when_flag_present(self):
"""Returns the value following the flag."""
with patch.object(sys, "argv", ["prog", "--font-file", "test.otf"]):
result = config._arg_value("--font-file")
assert result == "test.otf"
def test_returns_none_when_flag_missing(self):
"""Returns None when flag is not present."""
with patch.object(sys, "argv", ["prog"]):
result = config._arg_value("--font-file")
assert result is None
def test_returns_none_when_no_value(self):
"""Returns None when flag is last."""
with patch.object(sys, "argv", ["prog", "--font-file"]):
result = config._arg_value("--font-file")
assert result is None
class TestArgInt:
"""Tests for _arg_int helper."""
def test_parses_valid_int(self):
"""Parses valid integer."""
with patch.object(sys, "argv", ["prog", "--font-index", "5"]):
result = config._arg_int("--font-index", 0)
assert result == 5
def test_returns_default_on_invalid(self):
"""Returns default on invalid input."""
with patch.object(sys, "argv", ["prog", "--font-index", "abc"]):
result = config._arg_int("--font-index", 0)
assert result == 0
def test_returns_default_when_missing(self):
"""Returns default when flag missing."""
with patch.object(sys, "argv", ["prog"]):
result = config._arg_int("--font-index", 10)
assert result == 10
class TestResolveFontPath:
"""Tests for _resolve_font_path helper."""
def test_returns_absolute_paths(self):
"""Absolute paths are returned as-is."""
result = config._resolve_font_path("/absolute/path.otf")
assert result == "/absolute/path.otf"
def test_resolves_relative_paths(self):
"""Relative paths are resolved to repo root."""
result = config._resolve_font_path("fonts/test.otf")
assert str(config._REPO_ROOT) in result
def test_expands_user_home(self):
"""Tilde paths are expanded."""
with patch("pathlib.Path.expanduser", return_value=Path("/home/user/fonts")):
result = config._resolve_font_path("~/fonts/test.otf")
assert isinstance(result, str)
class TestListFontFiles:
"""Tests for _list_font_files helper."""
def test_returns_empty_for_missing_dir(self):
"""Returns empty list for missing directory."""
result = config._list_font_files("/nonexistent/directory")
assert result == []
def test_filters_by_extension(self):
"""Only returns valid font extensions."""
with tempfile.TemporaryDirectory() as tmpdir:
Path(tmpdir, "valid.otf").touch()
Path(tmpdir, "valid.ttf").touch()
Path(tmpdir, "invalid.txt").touch()
Path(tmpdir, "image.png").touch()
result = config._list_font_files(tmpdir)
assert len(result) == 2
assert all(f.endswith((".otf", ".ttf")) for f in result)
def test_sorts_alphabetically(self):
"""Results are sorted alphabetically."""
with tempfile.TemporaryDirectory() as tmpdir:
Path(tmpdir, "zfont.otf").touch()
Path(tmpdir, "afont.otf").touch()
result = config._list_font_files(tmpdir)
filenames = [Path(f).name for f in result]
assert filenames == ["afont.otf", "zfont.otf"]
class TestDefaults:
"""Tests for default configuration values."""
def test_headline_limit(self):
"""HEADLINE_LIMIT has sensible default."""
assert config.HEADLINE_LIMIT > 0
def test_feed_timeout(self):
"""FEED_TIMEOUT has sensible default."""
assert config.FEED_TIMEOUT > 0
def test_font_extensions(self):
"""Font extensions are defined."""
assert ".otf" in config._FONT_EXTENSIONS
assert ".ttf" in config._FONT_EXTENSIONS
assert ".ttc" in config._FONT_EXTENSIONS
class TestGlyphs:
"""Tests for glyph constants."""
def test_glitch_glyphs_defined(self):
"""GLITCH glyphs are defined."""
assert len(config.GLITCH) > 0
def test_kata_glyphs_defined(self):
"""KATA glyphs are defined."""
assert len(config.KATA) > 0
class TestSetFontSelection:
"""Tests for set_font_selection function."""
def test_updates_font_path(self):
"""Updates FONT_PATH globally."""
original = config.FONT_PATH
config.set_font_selection(font_path="/new/path.otf")
assert config.FONT_PATH == "/new/path.otf"
config.FONT_PATH = original
def test_updates_font_index(self):
"""Updates FONT_INDEX globally."""
original = config.FONT_INDEX
config.set_font_selection(font_index=5)
assert config.FONT_INDEX == 5
config.FONT_INDEX = original
def test_handles_none_values(self):
"""Handles None values gracefully."""
original_path = config.FONT_PATH
original_index = config.FONT_INDEX
config.set_font_selection(font_path=None, font_index=None)
assert original_path == config.FONT_PATH
assert original_index == config.FONT_INDEX
class TestConfigDataclass:
"""Tests for Config dataclass."""
def test_config_has_required_fields(self):
"""Config has all required fields."""
c = config.Config()
assert hasattr(c, "headline_limit")
assert hasattr(c, "feed_timeout")
assert hasattr(c, "mic_threshold_db")
assert hasattr(c, "mode")
assert hasattr(c, "firehose")
assert hasattr(c, "ntfy_topic")
assert hasattr(c, "ntfy_reconnect_delay")
assert hasattr(c, "message_display_secs")
assert hasattr(c, "font_dir")
assert hasattr(c, "font_path")
assert hasattr(c, "font_index")
assert hasattr(c, "font_picker")
assert hasattr(c, "font_sz")
assert hasattr(c, "render_h")
assert hasattr(c, "ssaa")
assert hasattr(c, "scroll_dur")
assert hasattr(c, "frame_dt")
assert hasattr(c, "firehose_h")
assert hasattr(c, "grad_speed")
assert hasattr(c, "glitch_glyphs")
assert hasattr(c, "kata_glyphs")
assert hasattr(c, "script_fonts")
def test_config_defaults(self):
"""Config has sensible defaults."""
c = config.Config()
assert c.headline_limit == 1000
assert c.feed_timeout == 10
assert c.mic_threshold_db == 50
assert c.mode == "news"
assert c.firehose is False
assert c.ntfy_reconnect_delay == 5
assert c.message_display_secs == 30
def test_config_is_immutable(self):
"""Config is frozen (immutable)."""
c = config.Config()
with pytest.raises(AttributeError):
c.headline_limit = 500 # type: ignore
def test_config_custom_values(self):
"""Config accepts custom values."""
c = config.Config(
headline_limit=500,
mode="poetry",
firehose=True,
ntfy_topic="https://ntfy.sh/test",
)
assert c.headline_limit == 500
assert c.mode == "poetry"
assert c.firehose is True
assert c.ntfy_topic == "https://ntfy.sh/test"
class TestConfigFromArgs:
"""Tests for Config.from_args method."""
def test_from_args_defaults(self):
"""from_args creates config with defaults from empty argv."""
c = config.Config.from_args(["prog"])
assert c.mode == "news"
assert c.firehose is False
assert c.font_picker is True
def test_from_args_poetry_mode(self):
"""from_args detects --poetry flag."""
c = config.Config.from_args(["prog", "--poetry"])
assert c.mode == "poetry"
def test_from_args_poetry_short_flag(self):
"""from_args detects -p short flag."""
c = config.Config.from_args(["prog", "-p"])
assert c.mode == "poetry"
def test_from_args_firehose(self):
"""from_args detects --firehose flag."""
c = config.Config.from_args(["prog", "--firehose"])
assert c.firehose is True
def test_from_args_no_font_picker(self):
"""from_args detects --no-font-picker flag."""
c = config.Config.from_args(["prog", "--no-font-picker"])
assert c.font_picker is False
def test_from_args_font_index(self):
"""from_args parses --font-index."""
c = config.Config.from_args(["prog", "--font-index", "3"])
assert c.font_index == 3
class TestGetSetConfig:
"""Tests for get_config and set_config functions."""
def test_get_config_returns_config(self):
"""get_config returns a Config instance."""
c = config.get_config()
assert isinstance(c, config.Config)
def test_set_config_allows_injection(self):
"""set_config allows injecting a custom config."""
custom = config.Config(mode="poetry", headline_limit=100)
config.set_config(custom)
assert config.get_config().mode == "poetry"
assert config.get_config().headline_limit == 100
def test_set_config_then_get_config(self):
"""set_config followed by get_config returns the set config."""
original = config.get_config()
test_config = config.Config(headline_limit=42)
config.set_config(test_config)
result = config.get_config()
assert result.headline_limit == 42
config.set_config(original)
class TestPlatformFontPaths:
"""Tests for platform font path detection."""
def test_get_platform_font_paths_returns_dict(self):
"""_get_platform_font_paths returns a dictionary."""
fonts = config._get_platform_font_paths()
assert isinstance(fonts, dict)
def test_platform_font_paths_common_languages(self):
"""Common language font mappings exist."""
fonts = config._get_platform_font_paths()
common = {"ja", "zh-cn", "ko", "ru", "ar", "hi"}
found = set(fonts.keys()) & common
assert len(found) > 0

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"""
Tests for engine.controller module.
"""
from unittest.mock import MagicMock, patch
from engine import config
from engine.controller import StreamController, _get_display
class TestGetDisplay:
"""Tests for _get_display function."""
@patch("engine.controller.WebSocketDisplay")
@patch("engine.controller.TerminalDisplay")
def test_get_display_terminal(self, mock_terminal, mock_ws):
"""returns TerminalDisplay for display=terminal."""
mock_terminal.return_value = MagicMock()
mock_ws.return_value = MagicMock()
cfg = config.Config(display="terminal")
display = _get_display(cfg)
mock_terminal.assert_called()
assert isinstance(display, MagicMock)
@patch("engine.controller.WebSocketDisplay")
@patch("engine.controller.TerminalDisplay")
def test_get_display_websocket(self, mock_terminal, mock_ws):
"""returns WebSocketDisplay for display=websocket."""
mock_ws_instance = MagicMock()
mock_ws.return_value = mock_ws_instance
mock_terminal.return_value = MagicMock()
cfg = config.Config(display="websocket")
_get_display(cfg)
mock_ws.assert_called()
mock_ws_instance.start_server.assert_called()
mock_ws_instance.start_http_server.assert_called()
@patch("engine.controller.SixelDisplay")
def test_get_display_sixel(self, mock_sixel):
"""returns SixelDisplay for display=sixel."""
mock_sixel.return_value = MagicMock()
cfg = config.Config(display="sixel")
_get_display(cfg)
mock_sixel.assert_called()
def test_get_display_unknown_returns_null(self):
"""returns NullDisplay for unknown display mode."""
cfg = config.Config(display="unknown")
display = _get_display(cfg)
from engine.display import NullDisplay
assert isinstance(display, NullDisplay)
@patch("engine.controller.WebSocketDisplay")
@patch("engine.controller.TerminalDisplay")
@patch("engine.controller.MultiDisplay")
def test_get_display_both(self, mock_multi, mock_terminal, mock_ws):
"""returns MultiDisplay for display=both."""
mock_terminal_instance = MagicMock()
mock_ws_instance = MagicMock()
mock_terminal.return_value = mock_terminal_instance
mock_ws.return_value = mock_ws_instance
cfg = config.Config(display="both")
_get_display(cfg)
mock_multi.assert_called()
call_args = mock_multi.call_args[0][0]
assert mock_terminal_instance in call_args
assert mock_ws_instance in call_args
class TestStreamController:
"""Tests for StreamController class."""
def test_init_default_config(self):
"""StreamController initializes with default config."""
controller = StreamController()
assert controller.config is not None
assert isinstance(controller.config, config.Config)
def test_init_custom_config(self):
"""StreamController accepts custom config."""
custom_config = config.Config(headline_limit=500)
controller = StreamController(config=custom_config)
assert controller.config.headline_limit == 500
def test_init_sources_none_by_default(self):
"""Sources are None until initialized."""
controller = StreamController()
assert controller.mic is None
assert controller.ntfy is None
@patch("engine.controller.MicMonitor")
@patch("engine.controller.NtfyPoller")
def test_initialize_sources(self, mock_ntfy, mock_mic):
"""initialize_sources creates mic and ntfy instances."""
mock_mic_instance = MagicMock()
mock_mic_instance.available = True
mock_mic_instance.start.return_value = True
mock_mic.return_value = mock_mic_instance
mock_ntfy_instance = MagicMock()
mock_ntfy_instance.start.return_value = True
mock_ntfy.return_value = mock_ntfy_instance
controller = StreamController()
mic_ok, ntfy_ok = controller.initialize_sources()
assert mic_ok is True
assert ntfy_ok is True
assert controller.mic is not None
assert controller.ntfy is not None
@patch("engine.controller.MicMonitor")
@patch("engine.controller.NtfyPoller")
def test_initialize_sources_mic_unavailable(self, mock_ntfy, mock_mic):
"""initialize_sources handles unavailable mic."""
mock_mic_instance = MagicMock()
mock_mic_instance.available = False
mock_mic.return_value = mock_mic_instance
mock_ntfy_instance = MagicMock()
mock_ntfy_instance.start.return_value = True
mock_ntfy.return_value = mock_ntfy_instance
controller = StreamController()
mic_ok, ntfy_ok = controller.initialize_sources()
assert mic_ok is False
assert ntfy_ok is True
@patch("engine.controller.MicMonitor")
def test_initialize_sources_cc_subscribed(self, mock_mic):
"""initialize_sources subscribes C&C handler."""
mock_mic_instance = MagicMock()
mock_mic_instance.available = False
mock_mic_instance.start.return_value = False
mock_mic.return_value = mock_mic_instance
with patch("engine.controller.NtfyPoller") as mock_ntfy:
mock_ntfy_instance = MagicMock()
mock_ntfy_instance.start.return_value = True
mock_ntfy.return_value = mock_ntfy_instance
controller = StreamController()
controller.initialize_sources()
mock_ntfy_instance.subscribe.assert_called()
class TestStreamControllerCleanup:
"""Tests for StreamController cleanup."""
@patch("engine.controller.MicMonitor")
def test_cleanup_stops_mic(self, mock_mic):
"""cleanup stops the microphone if running."""
mock_mic_instance = MagicMock()
mock_mic.return_value = mock_mic_instance
controller = StreamController()
controller.mic = mock_mic_instance
controller.cleanup()
mock_mic_instance.stop.assert_called_once()

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"""
Tests for engine.display module.
"""
from unittest.mock import MagicMock
from engine.display import DisplayRegistry, NullDisplay, TerminalDisplay
from engine.display.backends.multi import MultiDisplay
class TestDisplayProtocol:
"""Test that display backends satisfy the Display protocol."""
def test_terminal_display_is_display(self):
"""TerminalDisplay satisfies Display protocol."""
display = TerminalDisplay()
assert hasattr(display, "init")
assert hasattr(display, "show")
assert hasattr(display, "clear")
assert hasattr(display, "cleanup")
def test_null_display_is_display(self):
"""NullDisplay satisfies Display protocol."""
display = NullDisplay()
assert hasattr(display, "init")
assert hasattr(display, "show")
assert hasattr(display, "clear")
assert hasattr(display, "cleanup")
class TestDisplayRegistry:
"""Tests for DisplayRegistry class."""
def setup_method(self):
"""Reset registry before each test."""
DisplayRegistry._backends = {}
DisplayRegistry._initialized = False
def test_register_adds_backend(self):
"""register adds a backend to the registry."""
DisplayRegistry.register("test", TerminalDisplay)
assert DisplayRegistry.get("test") == TerminalDisplay
def test_register_case_insensitive(self):
"""register is case insensitive."""
DisplayRegistry.register("TEST", TerminalDisplay)
assert DisplayRegistry.get("test") == TerminalDisplay
def test_get_returns_none_for_unknown(self):
"""get returns None for unknown backend."""
assert DisplayRegistry.get("unknown") is None
def test_list_backends_returns_all(self):
"""list_backends returns all registered backends."""
DisplayRegistry.register("a", TerminalDisplay)
DisplayRegistry.register("b", NullDisplay)
backends = DisplayRegistry.list_backends()
assert "a" in backends
assert "b" in backends
def test_create_returns_instance(self):
"""create returns a display instance."""
DisplayRegistry.register("test", NullDisplay)
display = DisplayRegistry.create("test")
assert isinstance(display, NullDisplay)
def test_create_returns_none_for_unknown(self):
"""create returns None for unknown backend."""
display = DisplayRegistry.create("unknown")
assert display is None
def test_initialize_registers_defaults(self):
"""initialize registers default backends."""
DisplayRegistry.initialize()
assert DisplayRegistry.get("terminal") == TerminalDisplay
assert DisplayRegistry.get("null") == NullDisplay
from engine.display.backends.sixel import SixelDisplay
from engine.display.backends.websocket import WebSocketDisplay
assert DisplayRegistry.get("websocket") == WebSocketDisplay
assert DisplayRegistry.get("sixel") == SixelDisplay
def test_initialize_idempotent(self):
"""initialize can be called multiple times safely."""
DisplayRegistry.initialize()
DisplayRegistry._backends["custom"] = TerminalDisplay
DisplayRegistry.initialize()
assert "custom" in DisplayRegistry.list_backends()
class TestTerminalDisplay:
"""Tests for TerminalDisplay class."""
def test_init_sets_dimensions(self):
"""init stores terminal dimensions."""
display = TerminalDisplay()
display.init(80, 24)
assert display.width == 80
assert display.height == 24
def test_show_returns_none(self):
"""show returns None after writing to stdout."""
display = TerminalDisplay()
display.width = 80
display.height = 24
display.show(["line1", "line2"])
def test_clear_does_not_error(self):
"""clear works without error."""
display = TerminalDisplay()
display.clear()
def test_cleanup_does_not_error(self):
"""cleanup works without error."""
display = TerminalDisplay()
display.cleanup()
class TestNullDisplay:
"""Tests for NullDisplay class."""
def test_init_stores_dimensions(self):
"""init stores dimensions."""
display = NullDisplay()
display.init(100, 50)
assert display.width == 100
assert display.height == 50
def test_show_does_nothing(self):
"""show discards buffer without error."""
display = NullDisplay()
display.show(["line1", "line2", "line3"])
def test_clear_does_nothing(self):
"""clear does nothing."""
display = NullDisplay()
display.clear()
def test_cleanup_does_nothing(self):
"""cleanup does nothing."""
display = NullDisplay()
display.cleanup()
class TestMultiDisplay:
"""Tests for MultiDisplay class."""
def test_init_stores_dimensions(self):
"""init stores dimensions and forwards to displays."""
mock_display1 = MagicMock()
mock_display2 = MagicMock()
multi = MultiDisplay([mock_display1, mock_display2])
multi.init(120, 40)
assert multi.width == 120
assert multi.height == 40
mock_display1.init.assert_called_once_with(120, 40, reuse=False)
mock_display2.init.assert_called_once_with(120, 40, reuse=False)
def test_show_forwards_to_all_displays(self):
"""show forwards buffer to all displays."""
mock_display1 = MagicMock()
mock_display2 = MagicMock()
multi = MultiDisplay([mock_display1, mock_display2])
buffer = ["line1", "line2"]
multi.show(buffer)
mock_display1.show.assert_called_once_with(buffer)
mock_display2.show.assert_called_once_with(buffer)
def test_clear_forwards_to_all_displays(self):
"""clear forwards to all displays."""
mock_display1 = MagicMock()
mock_display2 = MagicMock()
multi = MultiDisplay([mock_display1, mock_display2])
multi.clear()
mock_display1.clear.assert_called_once()
mock_display2.clear.assert_called_once()
def test_cleanup_forwards_to_all_displays(self):
"""cleanup forwards to all displays."""
mock_display1 = MagicMock()
mock_display2 = MagicMock()
multi = MultiDisplay([mock_display1, mock_display2])
multi.cleanup()
mock_display1.cleanup.assert_called_once()
mock_display2.cleanup.assert_called_once()
def test_empty_displays_list(self):
"""handles empty displays list gracefully."""
multi = MultiDisplay([])
multi.init(80, 24)
multi.show(["test"])
multi.clear()
multi.cleanup()
def test_init_with_reuse(self):
"""init passes reuse flag to child displays."""
mock_display = MagicMock()
multi = MultiDisplay([mock_display])
multi.init(80, 24, reuse=True)
mock_display.init.assert_called_once_with(80, 24, reuse=True)

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"""
Tests for engine.effects module.
"""
from engine.effects import EffectChain, EffectConfig, EffectContext, EffectRegistry
class MockEffect:
name = "mock"
config = EffectConfig(enabled=True, intensity=1.0)
def __init__(self):
self.processed = False
self.last_ctx = None
def process(self, buf, ctx):
self.processed = True
self.last_ctx = ctx
return buf + ["processed"]
def configure(self, config):
self.config = config
class TestEffectConfig:
def test_defaults(self):
cfg = EffectConfig()
assert cfg.enabled is True
assert cfg.intensity == 1.0
assert cfg.params == {}
def test_custom_values(self):
cfg = EffectConfig(enabled=False, intensity=0.5, params={"key": "value"})
assert cfg.enabled is False
assert cfg.intensity == 0.5
assert cfg.params == {"key": "value"}
class TestEffectContext:
def test_defaults(self):
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
)
assert ctx.terminal_width == 80
assert ctx.terminal_height == 24
assert ctx.ticker_height == 20
assert ctx.items == []
def test_with_items(self):
items = [("Title", "Source", "12:00")]
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
items=items,
)
assert ctx.items == items
class TestEffectRegistry:
def test_init_empty(self):
registry = EffectRegistry()
assert len(registry.list_all()) == 0
def test_register(self):
registry = EffectRegistry()
effect = MockEffect()
registry.register(effect)
assert "mock" in registry.list_all()
def test_get(self):
registry = EffectRegistry()
effect = MockEffect()
registry.register(effect)
retrieved = registry.get("mock")
assert retrieved is effect
def test_get_nonexistent(self):
registry = EffectRegistry()
assert registry.get("nonexistent") is None
def test_enable(self):
registry = EffectRegistry()
effect = MockEffect()
effect.config.enabled = False
registry.register(effect)
registry.enable("mock")
assert effect.config.enabled is True
def test_disable(self):
registry = EffectRegistry()
effect = MockEffect()
effect.config.enabled = True
registry.register(effect)
registry.disable("mock")
assert effect.config.enabled is False
def test_list_enabled(self):
registry = EffectRegistry()
class EnabledEffect:
name = "enabled_effect"
config = EffectConfig(enabled=True, intensity=1.0)
class DisabledEffect:
name = "disabled_effect"
config = EffectConfig(enabled=False, intensity=1.0)
registry.register(EnabledEffect())
registry.register(DisabledEffect())
enabled = registry.list_enabled()
assert len(enabled) == 1
assert enabled[0].name == "enabled_effect"
def test_configure(self):
registry = EffectRegistry()
effect = MockEffect()
registry.register(effect)
new_config = EffectConfig(enabled=False, intensity=0.3)
registry.configure("mock", new_config)
assert effect.config.enabled is False
assert effect.config.intensity == 0.3
def test_is_enabled(self):
registry = EffectRegistry()
effect = MockEffect()
effect.config.enabled = True
registry.register(effect)
assert registry.is_enabled("mock") is True
assert registry.is_enabled("nonexistent") is False
class TestEffectChain:
def test_init(self):
registry = EffectRegistry()
chain = EffectChain(registry)
assert chain.get_order() == []
def test_set_order(self):
registry = EffectRegistry()
effect1 = MockEffect()
effect1.name = "effect1"
effect2 = MockEffect()
effect2.name = "effect2"
registry.register(effect1)
registry.register(effect2)
chain = EffectChain(registry)
chain.set_order(["effect1", "effect2"])
assert chain.get_order() == ["effect1", "effect2"]
def test_add_effect(self):
registry = EffectRegistry()
effect = MockEffect()
effect.name = "test_effect"
registry.register(effect)
chain = EffectChain(registry)
chain.add_effect("test_effect")
assert "test_effect" in chain.get_order()
def test_add_effect_invalid(self):
registry = EffectRegistry()
chain = EffectChain(registry)
result = chain.add_effect("nonexistent")
assert result is False
def test_remove_effect(self):
registry = EffectRegistry()
effect = MockEffect()
effect.name = "test_effect"
registry.register(effect)
chain = EffectChain(registry)
chain.set_order(["test_effect"])
chain.remove_effect("test_effect")
assert "test_effect" not in chain.get_order()
def test_reorder(self):
registry = EffectRegistry()
effect1 = MockEffect()
effect1.name = "effect1"
effect2 = MockEffect()
effect2.name = "effect2"
effect3 = MockEffect()
effect3.name = "effect3"
registry.register(effect1)
registry.register(effect2)
registry.register(effect3)
chain = EffectChain(registry)
chain.set_order(["effect1", "effect2", "effect3"])
result = chain.reorder(["effect3", "effect1", "effect2"])
assert result is True
assert chain.get_order() == ["effect3", "effect1", "effect2"]
def test_reorder_invalid(self):
registry = EffectRegistry()
effect = MockEffect()
effect.name = "effect1"
registry.register(effect)
chain = EffectChain(registry)
result = chain.reorder(["effect1", "nonexistent"])
assert result is False
def test_process_empty_chain(self):
registry = EffectRegistry()
chain = EffectChain(registry)
buf = ["line1", "line2"]
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
)
result = chain.process(buf, ctx)
assert result == buf
def test_process_with_effects(self):
registry = EffectRegistry()
effect = MockEffect()
effect.name = "test_effect"
registry.register(effect)
chain = EffectChain(registry)
chain.set_order(["test_effect"])
buf = ["line1", "line2"]
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
)
result = chain.process(buf, ctx)
assert result == ["line1", "line2", "processed"]
assert effect.processed is True
assert effect.last_ctx is ctx
def test_process_disabled_effect(self):
registry = EffectRegistry()
effect = MockEffect()
effect.name = "test_effect"
effect.config.enabled = False
registry.register(effect)
chain = EffectChain(registry)
chain.set_order(["test_effect"])
buf = ["line1"]
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
)
result = chain.process(buf, ctx)
assert result == ["line1"]
assert effect.processed is False
class TestEffectsExports:
def test_all_exports_are_importable(self):
"""Verify all exports in __all__ can actually be imported."""
import engine.effects as effects_module
for name in effects_module.__all__:
getattr(effects_module, name)
class TestPerformanceMonitor:
def test_empty_stats(self):
from engine.effects.performance import PerformanceMonitor
monitor = PerformanceMonitor()
stats = monitor.get_stats()
assert "error" in stats
def test_record_and_retrieve(self):
from engine.effects.performance import PerformanceMonitor
monitor = PerformanceMonitor()
monitor.start_frame(1)
monitor.record_effect("test_effect", 1.5, 100, 150)
monitor.end_frame(1, 2.0)
stats = monitor.get_stats()
assert "error" not in stats
assert stats["frame_count"] == 1
assert "test_effect" in stats["effects"]
def test_multiple_frames(self):
from engine.effects.performance import PerformanceMonitor
monitor = PerformanceMonitor(max_frames=3)
for i in range(5):
monitor.start_frame(i)
monitor.record_effect("effect1", 1.0, 100, 100)
monitor.record_effect("effect2", 0.5, 100, 100)
monitor.end_frame(i, 1.5)
stats = monitor.get_stats()
assert stats["frame_count"] == 3
assert "effect1" in stats["effects"]
assert "effect2" in stats["effects"]
def test_reset(self):
from engine.effects.performance import PerformanceMonitor
monitor = PerformanceMonitor()
monitor.start_frame(1)
monitor.record_effect("test", 1.0, 100, 100)
monitor.end_frame(1, 1.0)
monitor.reset()
stats = monitor.get_stats()
assert "error" in stats
class TestEffectPipelinePerformance:
def test_pipeline_stays_within_frame_budget(self):
"""Verify effect pipeline completes within frame budget (33ms for 30fps)."""
from engine.effects import (
EffectChain,
EffectConfig,
EffectContext,
EffectRegistry,
)
class DummyEffect:
name = "dummy"
config = EffectConfig(enabled=True, intensity=1.0)
def process(self, buf, ctx):
return [line * 2 for line in buf]
registry = EffectRegistry()
registry.register(DummyEffect())
from engine.effects.performance import PerformanceMonitor
monitor = PerformanceMonitor(max_frames=10)
chain = EffectChain(registry, monitor)
chain.set_order(["dummy"])
buf = ["x" * 80] * 20
for i in range(10):
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=i,
has_message=False,
)
chain.process(buf, ctx)
stats = monitor.get_stats()
assert "error" not in stats
assert stats["pipeline"]["max_ms"] < 33.0
def test_individual_effects_performance(self):
"""Verify individual effects don't exceed 10ms per frame."""
from engine.effects import (
EffectChain,
EffectConfig,
EffectContext,
EffectRegistry,
)
class SlowEffect:
name = "slow"
config = EffectConfig(enabled=True, intensity=1.0)
def process(self, buf, ctx):
result = []
for line in buf:
result.append(line)
result.append(line + line)
return result
registry = EffectRegistry()
registry.register(SlowEffect())
from engine.effects.performance import PerformanceMonitor
monitor = PerformanceMonitor(max_frames=5)
chain = EffectChain(registry, monitor)
chain.set_order(["slow"])
buf = ["x" * 80] * 10
for i in range(5):
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=20,
mic_excess=0.0,
grad_offset=0.0,
frame_number=i,
has_message=False,
)
chain.process(buf, ctx)
stats = monitor.get_stats()
assert "error" not in stats
assert stats["effects"]["slow"]["max_ms"] < 10.0

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"""
Tests for engine.effects.controller module.
"""
from unittest.mock import MagicMock, patch
from engine.effects.controller import (
_format_stats,
handle_effects_command,
set_effect_chain_ref,
show_effects_menu,
)
class TestHandleEffectsCommand:
"""Tests for handle_effects_command function."""
def test_list_effects(self):
"""list command returns formatted effects list."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_plugin.config.enabled = True
mock_plugin.config.intensity = 0.5
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
with patch("engine.effects.controller._get_effect_chain") as mock_chain:
mock_chain.return_value.get_order.return_value = ["noise"]
result = handle_effects_command("/effects list")
assert "noise: ON" in result
assert "intensity=0.5" in result
def test_enable_effect(self):
"""enable command calls registry.enable."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_registry.return_value.get.return_value = mock_plugin
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
result = handle_effects_command("/effects noise on")
assert "Enabled: noise" in result
mock_registry.return_value.enable.assert_called_once_with("noise")
def test_disable_effect(self):
"""disable command calls registry.disable."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_registry.return_value.get.return_value = mock_plugin
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
result = handle_effects_command("/effects noise off")
assert "Disabled: noise" in result
mock_registry.return_value.disable.assert_called_once_with("noise")
def test_set_intensity(self):
"""intensity command sets plugin intensity."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_plugin.config.intensity = 0.5
mock_registry.return_value.get.return_value = mock_plugin
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
result = handle_effects_command("/effects noise intensity 0.8")
assert "intensity to 0.8" in result
assert mock_plugin.config.intensity == 0.8
def test_invalid_intensity_range(self):
"""intensity outside 0.0-1.0 returns error."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_registry.return_value.get.return_value = mock_plugin
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
result = handle_effects_command("/effects noise intensity 1.5")
assert "between 0.0 and 1.0" in result
def test_reorder_pipeline(self):
"""reorder command calls chain.reorder."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_registry.return_value.list_all.return_value = {}
with patch("engine.effects.controller._get_effect_chain") as mock_chain:
mock_chain_instance = MagicMock()
mock_chain_instance.reorder.return_value = True
mock_chain.return_value = mock_chain_instance
result = handle_effects_command("/effects reorder noise,fade")
assert "Reordered pipeline" in result
mock_chain_instance.reorder.assert_called_once_with(["noise", "fade"])
def test_reorder_failure(self):
"""reorder returns error on failure."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_registry.return_value.list_all.return_value = {}
with patch("engine.effects.controller._get_effect_chain") as mock_chain:
mock_chain_instance = MagicMock()
mock_chain_instance.reorder.return_value = False
mock_chain.return_value = mock_chain_instance
result = handle_effects_command("/effects reorder bad")
assert "Failed to reorder" in result
def test_unknown_effect(self):
"""unknown effect returns error."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_registry.return_value.list_all.return_value = {}
result = handle_effects_command("/effects unknown on")
assert "Unknown effect" in result
def test_unknown_command(self):
"""unknown command returns error."""
result = handle_effects_command("/unknown")
assert "Unknown command" in result
def test_non_effects_command(self):
"""non-effects command returns error."""
result = handle_effects_command("not a command")
assert "Unknown command" in result
def test_invalid_intensity_value(self):
"""invalid intensity value returns error."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_registry.return_value.get.return_value = mock_plugin
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
result = handle_effects_command("/effects noise intensity bad")
assert "Invalid intensity" in result
def test_missing_action(self):
"""missing action returns usage."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_registry.return_value.get.return_value = mock_plugin
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
result = handle_effects_command("/effects noise")
assert "Usage" in result
def test_stats_command(self):
"""stats command returns formatted stats."""
with patch("engine.effects.controller.get_monitor") as mock_monitor:
mock_monitor.return_value.get_stats.return_value = {
"frame_count": 100,
"pipeline": {"avg_ms": 1.5, "min_ms": 1.0, "max_ms": 2.0},
"effects": {},
}
result = handle_effects_command("/effects stats")
assert "Performance Stats" in result
def test_list_only_effects(self):
"""list command works with just /effects."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_plugin.config.enabled = False
mock_plugin.config.intensity = 0.5
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
with patch("engine.effects.controller._get_effect_chain") as mock_chain:
mock_chain.return_value = None
result = handle_effects_command("/effects")
assert "noise: OFF" in result
class TestShowEffectsMenu:
"""Tests for show_effects_menu function."""
def test_returns_formatted_menu(self):
"""returns formatted effects menu."""
with patch("engine.effects.controller.get_registry") as mock_registry:
mock_plugin = MagicMock()
mock_plugin.config.enabled = True
mock_plugin.config.intensity = 0.75
mock_registry.return_value.list_all.return_value = {"noise": mock_plugin}
with patch("engine.effects.controller._get_effect_chain") as mock_chain:
mock_chain_instance = MagicMock()
mock_chain_instance.get_order.return_value = ["noise"]
mock_chain.return_value = mock_chain_instance
result = show_effects_menu()
assert "EFFECTS MENU" in result
assert "noise" in result
class TestFormatStats:
"""Tests for _format_stats function."""
def test_returns_error_when_no_monitor(self):
"""returns error when monitor unavailable."""
with patch("engine.effects.controller.get_monitor") as mock_monitor:
mock_monitor.return_value.get_stats.return_value = {"error": "No data"}
result = _format_stats()
assert "No data" in result
def test_formats_pipeline_stats(self):
"""formats pipeline stats correctly."""
with patch("engine.effects.controller.get_monitor") as mock_monitor:
mock_monitor.return_value.get_stats.return_value = {
"frame_count": 50,
"pipeline": {"avg_ms": 2.5, "min_ms": 2.0, "max_ms": 3.0},
"effects": {"noise": {"avg_ms": 0.5, "min_ms": 0.4, "max_ms": 0.6}},
}
result = _format_stats()
assert "Pipeline" in result
assert "noise" in result
class TestSetEffectChainRef:
"""Tests for set_effect_chain_ref function."""
def test_sets_global_ref(self):
"""set_effect_chain_ref updates global reference."""
mock_chain = MagicMock()
set_effect_chain_ref(mock_chain)
from engine.effects.controller import _get_effect_chain
result = _get_effect_chain()
assert result == mock_chain

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"""
Tests for engine.emitters module.
"""
from engine.emitters import EventEmitter, Startable, Stoppable
class TestEventEmitterProtocol:
"""Tests for EventEmitter protocol."""
def test_protocol_exists(self):
"""EventEmitter protocol is defined."""
assert EventEmitter is not None
def test_protocol_has_subscribe_method(self):
"""EventEmitter has subscribe method in protocol."""
assert hasattr(EventEmitter, "subscribe")
def test_protocol_has_unsubscribe_method(self):
"""EventEmitter has unsubscribe method in protocol."""
assert hasattr(EventEmitter, "unsubscribe")
class TestStartableProtocol:
"""Tests for Startable protocol."""
def test_protocol_exists(self):
"""Startable protocol is defined."""
assert Startable is not None
def test_protocol_has_start_method(self):
"""Startable has start method in protocol."""
assert hasattr(Startable, "start")
class TestStoppableProtocol:
"""Tests for Stoppable protocol."""
def test_protocol_exists(self):
"""Stoppable protocol is defined."""
assert Stoppable is not None
def test_protocol_has_stop_method(self):
"""Stoppable has stop method in protocol."""
assert hasattr(Stoppable, "stop")
class TestProtocolCompliance:
"""Tests that existing classes comply with protocols."""
def test_ntfy_poller_complies_with_protocol(self):
"""NtfyPoller implements EventEmitter protocol."""
from engine.ntfy import NtfyPoller
poller = NtfyPoller("http://example.com/topic")
assert hasattr(poller, "subscribe")
assert hasattr(poller, "unsubscribe")
assert callable(poller.subscribe)
assert callable(poller.unsubscribe)
def test_mic_monitor_complies_with_protocol(self):
"""MicMonitor implements EventEmitter and Startable protocols."""
from engine.mic import MicMonitor
monitor = MicMonitor()
assert hasattr(monitor, "subscribe")
assert hasattr(monitor, "unsubscribe")
assert hasattr(monitor, "start")
assert hasattr(monitor, "stop")

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"""
Tests for engine.eventbus module.
"""
from engine.eventbus import EventBus, get_event_bus, set_event_bus
from engine.events import EventType, NtfyMessageEvent
class TestEventBusInit:
"""Tests for EventBus initialization."""
def test_init_creates_empty_subscribers(self):
"""EventBus starts with no subscribers."""
bus = EventBus()
assert bus.subscriber_count() == 0
class TestEventBusSubscribe:
"""Tests for EventBus.subscribe method."""
def test_subscribe_adds_callback(self):
"""subscribe() adds a callback for an event type."""
bus = EventBus()
def callback(e):
return None
bus.subscribe(EventType.NTFY_MESSAGE, callback)
assert bus.subscriber_count(EventType.NTFY_MESSAGE) == 1
def test_subscribe_multiple_callbacks_same_event(self):
"""Multiple callbacks can be subscribed to the same event type."""
bus = EventBus()
def cb1(e):
return None
def cb2(e):
return None
bus.subscribe(EventType.NTFY_MESSAGE, cb1)
bus.subscribe(EventType.NTFY_MESSAGE, cb2)
assert bus.subscriber_count(EventType.NTFY_MESSAGE) == 2
def test_subscribe_different_event_types(self):
"""Callbacks can be subscribed to different event types."""
bus = EventBus()
def cb1(e):
return None
def cb2(e):
return None
bus.subscribe(EventType.NTFY_MESSAGE, cb1)
bus.subscribe(EventType.MIC_LEVEL, cb2)
assert bus.subscriber_count(EventType.NTFY_MESSAGE) == 1
assert bus.subscriber_count(EventType.MIC_LEVEL) == 1
class TestEventBusUnsubscribe:
"""Tests for EventBus.unsubscribe method."""
def test_unsubscribe_removes_callback(self):
"""unsubscribe() removes a callback."""
bus = EventBus()
def callback(e):
return None
bus.subscribe(EventType.NTFY_MESSAGE, callback)
bus.unsubscribe(EventType.NTFY_MESSAGE, callback)
assert bus.subscriber_count(EventType.NTFY_MESSAGE) == 0
def test_unsubscribe_nonexistent_callback_no_error(self):
"""unsubscribe() handles non-existent callback gracefully."""
bus = EventBus()
def callback(e):
return None
bus.unsubscribe(EventType.NTFY_MESSAGE, callback)
class TestEventBusPublish:
"""Tests for EventBus.publish method."""
def test_publish_calls_subscriber(self):
"""publish() calls the subscriber callback."""
bus = EventBus()
received = []
def callback(event):
received.append(event)
bus.subscribe(EventType.NTFY_MESSAGE, callback)
event = NtfyMessageEvent(title="Test", body="Body")
bus.publish(EventType.NTFY_MESSAGE, event)
assert len(received) == 1
assert received[0].title == "Test"
def test_publish_multiple_subscribers(self):
"""publish() calls all subscribers for an event type."""
bus = EventBus()
received1 = []
received2 = []
def callback1(event):
received1.append(event)
def callback2(event):
received2.append(event)
bus.subscribe(EventType.NTFY_MESSAGE, callback1)
bus.subscribe(EventType.NTFY_MESSAGE, callback2)
event = NtfyMessageEvent(title="Test", body="Body")
bus.publish(EventType.NTFY_MESSAGE, event)
assert len(received1) == 1
assert len(received2) == 1
def test_publish_different_event_types(self):
"""publish() only calls subscribers for the specific event type."""
bus = EventBus()
ntfy_received = []
mic_received = []
def ntfy_callback(event):
ntfy_received.append(event)
def mic_callback(event):
mic_received.append(event)
bus.subscribe(EventType.NTFY_MESSAGE, ntfy_callback)
bus.subscribe(EventType.MIC_LEVEL, mic_callback)
event = NtfyMessageEvent(title="Test", body="Body")
bus.publish(EventType.NTFY_MESSAGE, event)
assert len(ntfy_received) == 1
assert len(mic_received) == 0
class TestEventBusClear:
"""Tests for EventBus.clear method."""
def test_clear_removes_all_subscribers(self):
"""clear() removes all subscribers."""
bus = EventBus()
def cb1(e):
return None
def cb2(e):
return None
bus.subscribe(EventType.NTFY_MESSAGE, cb1)
bus.subscribe(EventType.MIC_LEVEL, cb2)
bus.clear()
assert bus.subscriber_count() == 0
class TestEventBusThreadSafety:
"""Tests for EventBus thread safety."""
def test_concurrent_subscribe_unsubscribe(self):
"""subscribe and unsubscribe can be called concurrently."""
import threading
bus = EventBus()
callbacks = [lambda e: None for _ in range(10)]
def subscribe():
for cb in callbacks:
bus.subscribe(EventType.NTFY_MESSAGE, cb)
def unsubscribe():
for cb in callbacks:
bus.unsubscribe(EventType.NTFY_MESSAGE, cb)
t1 = threading.Thread(target=subscribe)
t2 = threading.Thread(target=unsubscribe)
t1.start()
t2.start()
t1.join()
t2.join()
class TestGlobalEventBus:
"""Tests for global event bus functions."""
def test_get_event_bus_returns_singleton(self):
"""get_event_bus() returns the same instance."""
bus1 = get_event_bus()
bus2 = get_event_bus()
assert bus1 is bus2
def test_set_event_bus_replaces_singleton(self):
"""set_event_bus() replaces the global event bus."""
new_bus = EventBus()
set_event_bus(new_bus)
try:
assert get_event_bus() is new_bus
finally:
set_event_bus(None)

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"""
Tests for engine.events module.
"""
from datetime import datetime
from engine import events
class TestEventType:
"""Tests for EventType enum."""
def test_event_types_exist(self):
"""All expected event types exist."""
assert hasattr(events.EventType, "NEW_HEADLINE")
assert hasattr(events.EventType, "FRAME_TICK")
assert hasattr(events.EventType, "MIC_LEVEL")
assert hasattr(events.EventType, "NTFY_MESSAGE")
assert hasattr(events.EventType, "STREAM_START")
assert hasattr(events.EventType, "STREAM_END")
class TestHeadlineEvent:
"""Tests for HeadlineEvent dataclass."""
def test_create_headline_event(self):
"""HeadlineEvent can be created with required fields."""
e = events.HeadlineEvent(
title="Test Headline",
source="Test Source",
timestamp="12:00",
)
assert e.title == "Test Headline"
assert e.source == "Test Source"
assert e.timestamp == "12:00"
def test_headline_event_optional_language(self):
"""HeadlineEvent supports optional language field."""
e = events.HeadlineEvent(
title="Test",
source="Test",
timestamp="12:00",
language="ja",
)
assert e.language == "ja"
class TestFrameTickEvent:
"""Tests for FrameTickEvent dataclass."""
def test_create_frame_tick_event(self):
"""FrameTickEvent can be created."""
now = datetime.now()
e = events.FrameTickEvent(
frame_number=100,
timestamp=now,
delta_seconds=0.05,
)
assert e.frame_number == 100
assert e.timestamp == now
assert e.delta_seconds == 0.05
class TestMicLevelEvent:
"""Tests for MicLevelEvent dataclass."""
def test_create_mic_level_event(self):
"""MicLevelEvent can be created."""
now = datetime.now()
e = events.MicLevelEvent(
db_level=60.0,
excess_above_threshold=10.0,
timestamp=now,
)
assert e.db_level == 60.0
assert e.excess_above_threshold == 10.0
class TestNtfyMessageEvent:
"""Tests for NtfyMessageEvent dataclass."""
def test_create_ntfy_message_event(self):
"""NtfyMessageEvent can be created with required fields."""
e = events.NtfyMessageEvent(
title="Test Title",
body="Test Body",
)
assert e.title == "Test Title"
assert e.body == "Test Body"
assert e.message_id is None
def test_ntfy_message_event_with_id(self):
"""NtfyMessageEvent supports optional message_id."""
e = events.NtfyMessageEvent(
title="Test",
body="Test",
message_id="abc123",
)
assert e.message_id == "abc123"
class TestStreamEvent:
"""Tests for StreamEvent dataclass."""
def test_create_stream_event(self):
"""StreamEvent can be created."""
e = events.StreamEvent(
event_type=events.EventType.STREAM_START,
headline_count=100,
)
assert e.event_type == events.EventType.STREAM_START
assert e.headline_count == 100

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"""
Tests for engine.fetch module.
"""
import json
from unittest.mock import MagicMock, patch
from engine.fetch import (
_fetch_gutenberg,
fetch_all,
fetch_feed,
fetch_poetry,
load_cache,
save_cache,
)
class TestFetchFeed:
"""Tests for fetch_feed function."""
@patch("engine.fetch.urllib.request.urlopen")
def test_fetch_success(self, mock_urlopen):
"""Successful feed fetch returns parsed feed."""
mock_response = MagicMock()
mock_response.read.return_value = b"<rss>test</rss>"
mock_urlopen.return_value = mock_response
result = fetch_feed("http://example.com/feed")
assert result is not None
@patch("engine.fetch.urllib.request.urlopen")
def test_fetch_network_error(self, mock_urlopen):
"""Network error returns None."""
mock_urlopen.side_effect = Exception("Network error")
result = fetch_feed("http://example.com/feed")
assert result is None
class TestFetchAll:
"""Tests for fetch_all function."""
@patch("engine.fetch.fetch_feed")
@patch("engine.fetch.strip_tags")
@patch("engine.fetch.skip")
@patch("engine.fetch.boot_ln")
def test_fetch_all_success(self, mock_boot, mock_skip, mock_strip, mock_fetch_feed):
"""Successful fetch returns items."""
mock_feed = MagicMock()
mock_feed.bozo = False
mock_feed.entries = [
{"title": "Headline 1", "published_parsed": (2024, 1, 1, 12, 0, 0)},
{"title": "Headline 2", "updated_parsed": (2024, 1, 2, 12, 0, 0)},
]
mock_fetch_feed.return_value = mock_feed
mock_skip.return_value = False
mock_strip.side_effect = lambda x: x
items, linked, failed = fetch_all()
assert linked > 0
assert failed == 0
@patch("engine.fetch.fetch_feed")
@patch("engine.fetch.boot_ln")
def test_fetch_all_feed_error(self, mock_boot, mock_fetch_feed):
"""Feed error increments failed count."""
mock_fetch_feed.return_value = None
items, linked, failed = fetch_all()
assert failed > 0
@patch("engine.fetch.fetch_feed")
@patch("engine.fetch.strip_tags")
@patch("engine.fetch.skip")
@patch("engine.fetch.boot_ln")
def test_fetch_all_skips_filtered(
self, mock_boot, mock_skip, mock_strip, mock_fetch_feed
):
"""Filtered headlines are skipped."""
mock_feed = MagicMock()
mock_feed.bozo = False
mock_feed.entries = [
{"title": "Sports scores"},
{"title": "Valid headline"},
]
mock_fetch_feed.return_value = mock_feed
mock_skip.side_effect = lambda x: x == "Sports scores"
mock_strip.side_effect = lambda x: x
items, linked, failed = fetch_all()
assert any("Valid headline" in item[0] for item in items)
class TestFetchGutenberg:
"""Tests for _fetch_gutenberg function."""
@patch("engine.fetch.urllib.request.urlopen")
def test_gutenberg_success(self, mock_urlopen):
"""Successful gutenberg fetch returns items."""
text = """Project Gutenberg
*** START OF THE PROJECT GUTENBERG ***
This is a test poem with multiple lines
that should be parsed as a block.
Another stanza with more content here.
*** END OF THE PROJECT GUTENBERG ***
"""
mock_response = MagicMock()
mock_response.read.return_value = text.encode("utf-8")
mock_urlopen.return_value = mock_response
result = _fetch_gutenberg("http://example.com/test", "Test")
assert len(result) > 0
@patch("engine.fetch.urllib.request.urlopen")
def test_gutenberg_network_error(self, mock_urlopen):
"""Network error returns empty list."""
mock_urlopen.side_effect = Exception("Network error")
result = _fetch_gutenberg("http://example.com/test", "Test")
assert result == []
@patch("engine.fetch.urllib.request.urlopen")
def test_gutenberg_skips_short_blocks(self, mock_urlopen):
"""Blocks shorter than 20 chars are skipped."""
text = """*** START OF THE ***
Short
*** END OF THE ***
"""
mock_response = MagicMock()
mock_response.read.return_value = text.encode("utf-8")
mock_urlopen.return_value = mock_response
result = _fetch_gutenberg("http://example.com/test", "Test")
assert result == []
@patch("engine.fetch.urllib.request.urlopen")
def test_gutenberg_skips_all_caps_headers(self, mock_urlopen):
"""All-caps lines are skipped as headers."""
text = """*** START OF THE ***
THIS IS ALL CAPS HEADER
more content here
*** END OF THE ***
"""
mock_response = MagicMock()
mock_response.read.return_value = text.encode("utf-8")
mock_urlopen.return_value = mock_response
result = _fetch_gutenberg("http://example.com/test", "Test")
assert len(result) > 0
class TestFetchPoetry:
"""Tests for fetch_poetry function."""
@patch("engine.fetch._fetch_gutenberg")
@patch("engine.fetch.boot_ln")
def test_fetch_poetry_success(self, mock_boot, mock_fetch):
"""Successful poetry fetch returns items."""
mock_fetch.return_value = [
("Stanza 1 content here", "Test", ""),
("Stanza 2 content here", "Test", ""),
]
items, linked, failed = fetch_poetry()
assert linked > 0
assert failed == 0
@patch("engine.fetch._fetch_gutenberg")
@patch("engine.fetch.boot_ln")
def test_fetch_poetry_failure(self, mock_boot, mock_fetch):
"""Failed fetch increments failed count."""
mock_fetch.return_value = []
items, linked, failed = fetch_poetry()
assert failed > 0
class TestCache:
"""Tests for cache functions."""
@patch("engine.fetch._cache_path")
def test_load_cache_success(self, mock_path):
"""Successful cache load returns items."""
mock_path.return_value.__str__ = MagicMock(return_value="/tmp/cache")
mock_path.return_value.exists.return_value = True
mock_path.return_value.read_text.return_value = json.dumps(
{"items": [("title", "source", "time")]}
)
result = load_cache()
assert result is not None
@patch("engine.fetch._cache_path")
def test_load_cache_missing_file(self, mock_path):
"""Missing cache file returns None."""
mock_path.return_value.exists.return_value = False
result = load_cache()
assert result is None
@patch("engine.fetch._cache_path")
def test_load_cache_invalid_json(self, mock_path):
"""Invalid JSON returns None."""
mock_path.return_value.exists.return_value = True
mock_path.return_value.read_text.side_effect = json.JSONDecodeError("", "", 0)
result = load_cache()
assert result is None
@patch("engine.fetch._cache_path")
def test_save_cache_success(self, mock_path):
"""Save cache writes to file."""
mock_path.return_value.__truediv__ = MagicMock(
return_value=mock_path.return_value
)
save_cache([("title", "source", "time")])

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"""
Tests for engine.filter module.
"""
from engine.filter import skip, strip_tags
class TestStripTags:
"""Tests for strip_tags function."""
def test_strips_simple_html(self):
"""Basic HTML tags are removed."""
assert strip_tags("<p>Hello</p>") == "Hello"
assert strip_tags("<b>Bold</b>") == "Bold"
assert strip_tags("<em>Italic</em>") == "Italic"
def test_strips_nested_html(self):
"""Nested HTML tags are handled."""
assert strip_tags("<div><p>Nested</p></div>") == "Nested"
assert strip_tags("<span><strong>Deep</strong></span>") == "Deep"
def test_strips_html_with_attributes(self):
"""HTML with attributes is handled."""
assert strip_tags('<a href="http://example.com">Link</a>') == "Link"
assert strip_tags('<img src="test.jpg" alt="test">') == ""
def test_handles_empty_string(self):
"""Empty string returns empty string."""
assert strip_tags("") == ""
assert strip_tags(None) == ""
def test_handles_plain_text(self):
"""Plain text without tags passes through."""
assert strip_tags("Plain text") == "Plain text"
def test_unescapes_html_entities(self):
"""HTML entities are decoded and tags are stripped."""
assert strip_tags("&nbsp;test") == "test"
assert strip_tags("Hello &amp; World") == "Hello & World"
def test_handles_malformed_html(self):
"""Malformed HTML is handled gracefully."""
assert strip_tags("<p>Unclosed") == "Unclosed"
assert strip_tags("</p>No start") == "No start"
class TestSkip:
"""Tests for skip function - content filtering."""
def test_skips_sports_content(self):
"""Sports-related headlines are skipped."""
assert skip("Football: Team wins championship") is True
assert skip("NBA Finals Game 7 results") is True
assert skip("Soccer match ends in draw") is True
assert skip("Premier League transfer news") is True
assert skip("Super Bowl halftime show") is True
def test_skips_vapid_content(self):
"""Vapid/celebrity content is skipped."""
assert skip("Kim Kardashian's new look") is True
assert skip("Influencer goes viral") is True
assert skip("Red carpet best dressed") is True
assert skip("Celebrity couple splits") is True
def test_allows_real_news(self):
"""Legitimate news headlines are allowed."""
assert skip("Scientists discover new planet") is False
assert skip("Economy grows by 3%") is False
assert skip("World leaders meet for summit") is False
assert skip("New technology breakthrough") is False
def test_case_insensitive(self):
"""Filter is case insensitive."""
assert skip("FOOTBALL scores") is True
assert skip("Football SCORES") is True
assert skip("Kardashian") is True
def test_word_boundary_matching(self):
"""Word boundary matching works correctly."""
assert skip("The football stadium") is True
assert skip("Footballer scores") is False
assert skip("Footballs on sale") is False
class TestIntegration:
"""Integration tests combining filter functions."""
def test_full_pipeline(self):
"""Test strip_tags followed by skip."""
html = '<p><a href="#">Breaking: Football championship final</a></p>'
text = strip_tags(html)
assert text == "Breaking: Football championship final"
assert skip(text) is True

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"""
Tests for engine.frame module.
"""
import time
from engine.frame import FrameTimer, calculate_scroll_step
class TestFrameTimer:
"""Tests for FrameTimer class."""
def test_init_default(self):
"""FrameTimer initializes with default values."""
timer = FrameTimer()
assert timer.target_frame_dt == 0.05
assert timer.fps >= 0
def test_init_custom(self):
"""FrameTimer accepts custom frame duration."""
timer = FrameTimer(target_frame_dt=0.1)
assert timer.target_frame_dt == 0.1
def test_fps_calculation(self):
"""FrameTimer calculates FPS correctly."""
timer = FrameTimer()
timer._frame_count = 10
timer._start_time = time.monotonic() - 1.0
assert timer.fps >= 9.0
def test_reset(self):
"""FrameTimer.reset() clears frame count."""
timer = FrameTimer()
timer._frame_count = 100
timer.reset()
assert timer._frame_count == 0
class TestCalculateScrollStep:
"""Tests for calculate_scroll_step function."""
def test_basic_calculation(self):
"""calculate_scroll_step returns positive value."""
result = calculate_scroll_step(5.0, 24)
assert result > 0
def test_with_padding(self):
"""calculate_scroll_step respects padding parameter."""
without_padding = calculate_scroll_step(5.0, 24, padding=0)
with_padding = calculate_scroll_step(5.0, 24, padding=15)
assert with_padding < without_padding
def test_larger_view_slower_scroll(self):
"""Larger view height results in slower scroll steps."""
small = calculate_scroll_step(5.0, 10)
large = calculate_scroll_step(5.0, 50)
assert large < small
def test_longer_duration_slower_scroll(self):
"""Longer scroll duration results in slower scroll steps."""
fast = calculate_scroll_step(2.0, 24)
slow = calculate_scroll_step(10.0, 24)
assert slow > fast

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from engine.effects.performance import PerformanceMonitor, set_monitor
from engine.effects.types import EffectContext
def test_hud_effect_adds_hud_lines():
"""Test that HUD effect adds HUD lines to the buffer."""
from effects_plugins.hud import HudEffect
set_monitor(PerformanceMonitor())
hud = HudEffect()
hud.config.params["display_effect"] = "noise"
hud.config.params["display_intensity"] = 0.5
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=24,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
items=[],
)
buf = [
"A" * 80,
"B" * 80,
"C" * 80,
]
result = hud.process(buf, ctx)
assert len(result) >= 3, f"Expected at least 3 lines, got {len(result)}"
first_line = result[0]
assert "MAINLINE DEMO" in first_line, (
f"HUD not found in first line: {first_line[:50]}"
)
second_line = result[1]
assert "EFFECT:" in second_line, f"Effect line not found: {second_line[:50]}"
print("First line:", result[0])
print("Second line:", result[1])
if len(result) > 2:
print("Third line:", result[2])
def test_hud_effect_shows_current_effect():
"""Test that HUD displays the correct effect name."""
from effects_plugins.hud import HudEffect
set_monitor(PerformanceMonitor())
hud = HudEffect()
hud.config.params["display_effect"] = "fade"
hud.config.params["display_intensity"] = 0.75
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=24,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
items=[],
)
buf = ["X" * 80]
result = hud.process(buf, ctx)
second_line = result[1]
assert "fade" in second_line, f"Effect name 'fade' not found in: {second_line}"
def test_hud_effect_shows_intensity():
"""Test that HUD displays intensity percentage."""
from effects_plugins.hud import HudEffect
set_monitor(PerformanceMonitor())
hud = HudEffect()
hud.config.params["display_effect"] = "glitch"
hud.config.params["display_intensity"] = 0.8
ctx = EffectContext(
terminal_width=80,
terminal_height=24,
scroll_cam=0,
ticker_height=24,
mic_excess=0.0,
grad_offset=0.0,
frame_number=0,
has_message=False,
items=[],
)
buf = ["Y" * 80]
result = hud.process(buf, ctx)
second_line = result[1]
assert "80%" in second_line, f"Intensity 80% not found in: {second_line}"

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"""
Tests for engine.layers module.
"""
import time
from engine import layers
class TestRenderMessageOverlay:
"""Tests for render_message_overlay function."""
def test_no_message_returns_empty(self):
"""Returns empty list when msg is None."""
result, cache = layers.render_message_overlay(None, 80, 24, (None, None))
assert result == []
assert cache[0] is None
def test_message_returns_overlay_lines(self):
"""Returns non-empty list when message is present."""
msg = ("Test Title", "Test Body", time.monotonic())
result, cache = layers.render_message_overlay(msg, 80, 24, (None, None))
assert len(result) > 0
assert cache[0] is not None
def test_cache_key_changes_with_text(self):
"""Cache key changes when message text changes."""
msg1 = ("Title1", "Body1", time.monotonic())
msg2 = ("Title2", "Body2", time.monotonic())
_, cache1 = layers.render_message_overlay(msg1, 80, 24, (None, None))
_, cache2 = layers.render_message_overlay(msg2, 80, 24, cache1)
assert cache1[0] != cache2[0]
def test_cache_reuse_avoids_recomputation(self):
"""Cache is returned when same message is passed (interface test)."""
msg = ("Same Title", "Same Body", time.monotonic())
result1, cache1 = layers.render_message_overlay(msg, 80, 24, (None, None))
result2, cache2 = layers.render_message_overlay(msg, 80, 24, cache1)
assert len(result1) > 0
assert len(result2) > 0
assert cache1[0] == cache2[0]
class TestRenderFirehose:
"""Tests for render_firehose function."""
def test_no_firehose_returns_empty(self):
"""Returns empty list when firehose height is 0."""
items = [("Headline", "Source", "12:00")]
result = layers.render_firehose(items, 80, 0, 24)
assert result == []
def test_firehose_returns_lines(self):
"""Returns lines when firehose height > 0."""
items = [("Headline", "Source", "12:00")]
result = layers.render_firehose(items, 80, 4, 24)
assert len(result) == 4
def test_firehose_includes_ansi_escapes(self):
"""Returns lines containing ANSI escape sequences."""
items = [("Headline", "Source", "12:00")]
result = layers.render_firehose(items, 80, 1, 24)
assert "\033[" in result[0]
class TestApplyGlitch:
"""Tests for apply_glitch function."""
def test_empty_buffer_unchanged(self):
"""Empty buffer is returned unchanged."""
result = layers.apply_glitch([], 0, 0.0, 80)
assert result == []
def test_buffer_length_preserved(self):
"""Buffer length is preserved after glitch application."""
buf = [f"\033[{i + 1};1Htest\033[K" for i in range(10)]
result = layers.apply_glitch(buf, 0, 0.5, 80)
assert len(result) == len(buf)
class TestRenderTickerZone:
"""Tests for render_ticker_zone function - focusing on interface."""
def test_returns_list(self):
"""Returns a list of strings."""
result, cache = layers.render_ticker_zone(
[],
scroll_cam=0,
camera_x=0,
ticker_h=10,
w=80,
noise_cache={},
grad_offset=0.0,
)
assert isinstance(result, list)
def test_returns_dict_for_cache(self):
"""Returns a dict for the noise cache."""
result, cache = layers.render_ticker_zone(
[],
scroll_cam=0,
camera_x=0,
ticker_h=10,
w=80,
noise_cache={},
grad_offset=0.0,
)
assert isinstance(cache, dict)

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"""
Tests for engine.mic module.
"""
from datetime import datetime
from unittest.mock import patch
from engine.events import MicLevelEvent
class TestMicMonitorImport:
"""Tests for module import behavior."""
def test_mic_monitor_imports_without_error(self):
"""MicMonitor can be imported even without sounddevice."""
from engine.mic import MicMonitor
assert MicMonitor is not None
class TestMicMonitorInit:
"""Tests for MicMonitor initialization."""
def test_init_sets_threshold(self):
"""Threshold is set correctly."""
from engine.mic import MicMonitor
monitor = MicMonitor(threshold_db=60)
assert monitor.threshold_db == 60
def test_init_defaults(self):
"""Default values are set correctly."""
from engine.mic import MicMonitor
monitor = MicMonitor()
assert monitor.threshold_db == 50
def test_init_db_starts_at_negative(self):
"""_db starts at negative value."""
from engine.mic import MicMonitor
monitor = MicMonitor()
assert monitor.db == -99.0
class TestMicMonitorProperties:
"""Tests for MicMonitor properties."""
def test_excess_returns_positive_when_above_threshold(self):
"""excess returns positive value when above threshold."""
from engine.mic import MicMonitor
monitor = MicMonitor(threshold_db=50)
with patch.object(monitor, "_db", 60.0):
assert monitor.excess == 10.0
def test_excess_returns_zero_when_below_threshold(self):
"""excess returns zero when below threshold."""
from engine.mic import MicMonitor
monitor = MicMonitor(threshold_db=50)
with patch.object(monitor, "_db", 40.0):
assert monitor.excess == 0.0
class TestMicMonitorAvailable:
"""Tests for MicMonitor.available property."""
def test_available_is_bool(self):
"""available returns a boolean."""
from engine.mic import MicMonitor
monitor = MicMonitor()
assert isinstance(monitor.available, bool)
class TestMicMonitorStop:
"""Tests for MicMonitor.stop method."""
def test_stop_does_nothing_when_no_stream(self):
"""stop() does nothing if no stream exists."""
from engine.mic import MicMonitor
monitor = MicMonitor()
monitor.stop()
assert monitor._stream is None
class TestMicMonitorEventEmission:
"""Tests for MicMonitor event emission."""
def test_subscribe_adds_callback(self):
"""subscribe() adds a callback."""
from engine.mic import MicMonitor
monitor = MicMonitor()
def callback(e):
return None
monitor.subscribe(callback)
assert callback in monitor._subscribers
def test_unsubscribe_removes_callback(self):
"""unsubscribe() removes a callback."""
from engine.mic import MicMonitor
monitor = MicMonitor()
def callback(e):
return None
monitor.subscribe(callback)
monitor.unsubscribe(callback)
assert callback not in monitor._subscribers
def test_emit_calls_subscribers(self):
"""_emit() calls all subscribers."""
from engine.mic import MicMonitor
monitor = MicMonitor()
received = []
def callback(event):
received.append(event)
monitor.subscribe(callback)
event = MicLevelEvent(
db_level=60.0, excess_above_threshold=10.0, timestamp=datetime.now()
)
monitor._emit(event)
assert len(received) == 1
assert received[0].db_level == 60.0
def test_emit_handles_subscriber_exception(self):
"""_emit() handles exceptions in subscribers gracefully."""
from engine.mic import MicMonitor
monitor = MicMonitor()
def bad_callback(event):
raise RuntimeError("test")
monitor.subscribe(bad_callback)
event = MicLevelEvent(
db_level=60.0, excess_above_threshold=10.0, timestamp=datetime.now()
)
monitor._emit(event)

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"""
Tests for engine.ntfy module.
"""
import time
from unittest.mock import MagicMock, patch
from engine.events import NtfyMessageEvent
from engine.ntfy import NtfyPoller
class TestNtfyPollerInit:
"""Tests for NtfyPoller initialization."""
def test_init_sets_defaults(self):
"""Default values are set correctly."""
poller = NtfyPoller("http://example.com/topic")
assert poller.topic_url == "http://example.com/topic"
assert poller.reconnect_delay == 5
assert poller.display_secs == 30
def test_init_custom_values(self):
"""Custom values are set correctly."""
poller = NtfyPoller(
"http://example.com/topic", reconnect_delay=10, display_secs=60
)
assert poller.reconnect_delay == 10
assert poller.display_secs == 60
class TestNtfyPollerStart:
"""Tests for NtfyPoller.start method."""
@patch("engine.ntfy.threading.Thread")
def test_start_creates_daemon_thread(self, mock_thread):
"""start() creates and starts a daemon thread."""
mock_thread_instance = MagicMock()
mock_thread.return_value = mock_thread_instance
poller = NtfyPoller("http://example.com/topic")
result = poller.start()
assert result is True
mock_thread.assert_called_once()
args, kwargs = mock_thread.call_args
assert kwargs.get("daemon") is True
mock_thread_instance.start.assert_called_once()
class TestNtfyPollerGetActiveMessage:
"""Tests for NtfyPoller.get_active_message method."""
def test_returns_none_when_no_message(self):
"""Returns None when no message has been received."""
poller = NtfyPoller("http://example.com/topic")
result = poller.get_active_message()
assert result is None
class TestNtfyPollerDismiss:
"""Tests for NtfyPoller.dismiss method."""
def test_dismiss_clears_message(self):
"""dismiss() clears the current message."""
poller = NtfyPoller("http://example.com/topic")
with patch.object(poller, "_lock"):
poller._message = ("Title", "Body", time.monotonic())
poller.dismiss()
assert poller._message is None
class TestNtfyPollerEventEmission:
"""Tests for NtfyPoller event emission."""
def test_subscribe_adds_callback(self):
"""subscribe() adds a callback."""
poller = NtfyPoller("http://example.com/topic")
def callback(e):
return None
poller.subscribe(callback)
assert callback in poller._subscribers
def test_unsubscribe_removes_callback(self):
"""unsubscribe() removes a callback."""
poller = NtfyPoller("http://example.com/topic")
def callback(e):
return None
poller.subscribe(callback)
poller.unsubscribe(callback)
assert callback not in poller._subscribers
def test_emit_calls_subscribers(self):
"""_emit() calls all subscribers."""
poller = NtfyPoller("http://example.com/topic")
received = []
def callback(event):
received.append(event)
poller.subscribe(callback)
event = NtfyMessageEvent(title="Test", body="Body")
poller._emit(event)
assert len(received) == 1
assert received[0].title == "Test"
def test_emit_handles_subscriber_exception(self):
"""_emit() handles exceptions in subscribers gracefully."""
poller = NtfyPoller("http://example.com/topic")
def bad_callback(event):
raise RuntimeError("test")
poller.subscribe(bad_callback)
event = NtfyMessageEvent(title="Test", body="Body")
poller._emit(event)

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"""
Integration tests for ntfy topics.
"""
import json
import time
import urllib.request
import pytest
@pytest.mark.integration
@pytest.mark.ntfy
class TestNtfyTopics:
def test_cc_cmd_topic_exists_and_writable(self):
"""Verify C&C CMD topic exists and accepts messages."""
from engine.config import NTFY_CC_CMD_TOPIC
topic_url = NTFY_CC_CMD_TOPIC.replace("/json", "")
test_message = f"test_{int(time.time())}"
req = urllib.request.Request(
topic_url,
data=test_message.encode("utf-8"),
headers={
"User-Agent": "mainline-test/0.1",
"Content-Type": "text/plain",
},
method="POST",
)
try:
with urllib.request.urlopen(req, timeout=10) as resp:
assert resp.status == 200
except Exception as e:
raise AssertionError(f"Failed to write to C&C CMD topic: {e}") from e
def test_cc_resp_topic_exists_and_writable(self):
"""Verify C&C RESP topic exists and accepts messages."""
from engine.config import NTFY_CC_RESP_TOPIC
topic_url = NTFY_CC_RESP_TOPIC.replace("/json", "")
test_message = f"test_{int(time.time())}"
req = urllib.request.Request(
topic_url,
data=test_message.encode("utf-8"),
headers={
"User-Agent": "mainline-test/0.1",
"Content-Type": "text/plain",
},
method="POST",
)
try:
with urllib.request.urlopen(req, timeout=10) as resp:
assert resp.status == 200
except Exception as e:
raise AssertionError(f"Failed to write to C&C RESP topic: {e}") from e
def test_message_topic_exists_and_writable(self):
"""Verify message topic exists and accepts messages."""
from engine.config import NTFY_TOPIC
topic_url = NTFY_TOPIC.replace("/json", "")
test_message = f"test_{int(time.time())}"
req = urllib.request.Request(
topic_url,
data=test_message.encode("utf-8"),
headers={
"User-Agent": "mainline-test/0.1",
"Content-Type": "text/plain",
},
method="POST",
)
try:
with urllib.request.urlopen(req, timeout=10) as resp:
assert resp.status == 200
except Exception as e:
raise AssertionError(f"Failed to write to message topic: {e}") from e
def test_cc_cmd_topic_readable(self):
"""Verify we can read messages from C&C CMD topic."""
from engine.config import NTFY_CC_CMD_TOPIC
test_message = f"integration_test_{int(time.time())}"
topic_url = NTFY_CC_CMD_TOPIC.replace("/json", "")
req = urllib.request.Request(
topic_url,
data=test_message.encode("utf-8"),
headers={
"User-Agent": "mainline-test/0.1",
"Content-Type": "text/plain",
},
method="POST",
)
try:
urllib.request.urlopen(req, timeout=10)
except Exception as e:
raise AssertionError(f"Failed to write to C&C CMD topic: {e}") from e
time.sleep(1)
poll_url = f"{NTFY_CC_CMD_TOPIC}?poll=1&limit=1"
req = urllib.request.Request(
poll_url,
headers={"User-Agent": "mainline-test/0.1"},
)
try:
with urllib.request.urlopen(req, timeout=10) as resp:
body = resp.read().decode("utf-8")
if body.strip():
data = json.loads(body.split("\n")[0])
assert isinstance(data, dict)
except Exception as e:
raise AssertionError(f"Failed to read from C&C CMD topic: {e}") from e
def test_topics_are_different(self):
"""Verify C&C CMD/RESP and message topics are different."""
from engine.config import NTFY_CC_CMD_TOPIC, NTFY_CC_RESP_TOPIC, NTFY_TOPIC
assert NTFY_CC_CMD_TOPIC != NTFY_TOPIC
assert NTFY_CC_RESP_TOPIC != NTFY_TOPIC
assert NTFY_CC_CMD_TOPIC != NTFY_CC_RESP_TOPIC
assert "_cc_cmd" in NTFY_CC_CMD_TOPIC
assert "_cc_resp" in NTFY_CC_RESP_TOPIC

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"""
Tests for the new unified pipeline architecture.
"""
from unittest.mock import MagicMock
from engine.pipeline import (
Pipeline,
PipelineConfig,
PipelineContext,
Stage,
StageRegistry,
create_default_pipeline,
discover_stages,
)
class TestStageRegistry:
"""Tests for StageRegistry."""
def setup_method(self):
"""Reset registry before each test."""
StageRegistry._discovered = False
StageRegistry._categories.clear()
StageRegistry._instances.clear()
def test_discover_stages_registers_sources(self):
"""discover_stages registers source stages."""
discover_stages()
sources = StageRegistry.list("source")
assert "HeadlinesDataSource" in sources
assert "PoetryDataSource" in sources
assert "PipelineDataSource" in sources
def test_discover_stages_registers_displays(self):
"""discover_stages registers display stages."""
discover_stages()
displays = StageRegistry.list("display")
assert "terminal" in displays
assert "pygame" in displays
assert "websocket" in displays
assert "null" in displays
assert "sixel" in displays
def test_create_source_stage(self):
"""StageRegistry.create creates source stages."""
discover_stages()
source = StageRegistry.create("source", "HeadlinesDataSource")
assert source is not None
assert source.name == "headlines"
def test_create_display_stage(self):
"""StageRegistry.create creates display stages."""
discover_stages()
display = StageRegistry.create("display", "terminal")
assert display is not None
assert hasattr(display, "_display")
def test_create_display_stage_pygame(self):
"""StageRegistry.create creates pygame display stage."""
discover_stages()
display = StageRegistry.create("display", "pygame")
assert display is not None
class TestPipeline:
"""Tests for Pipeline class."""
def setup_method(self):
"""Reset registry before each test."""
StageRegistry._discovered = False
StageRegistry._categories.clear()
StageRegistry._instances.clear()
discover_stages()
def test_create_pipeline(self):
"""Pipeline can be created with config."""
config = PipelineConfig(source="headlines", display="terminal")
pipeline = Pipeline(config=config)
assert pipeline.config is not None
assert pipeline.config.source == "headlines"
assert pipeline.config.display == "terminal"
def test_add_stage(self):
"""Pipeline.add_stage adds a stage."""
pipeline = Pipeline()
mock_stage = MagicMock(spec=Stage)
mock_stage.name = "test_stage"
mock_stage.category = "test"
pipeline.add_stage("test", mock_stage)
assert "test" in pipeline.stages
def test_build_resolves_dependencies(self):
"""Pipeline.build resolves execution order."""
pipeline = Pipeline()
mock_source = MagicMock(spec=Stage)
mock_source.name = "source"
mock_source.category = "source"
mock_source.dependencies = set()
mock_display = MagicMock(spec=Stage)
mock_display.name = "display"
mock_display.category = "display"
mock_display.dependencies = {"source"}
pipeline.add_stage("source", mock_source)
pipeline.add_stage("display", mock_display)
pipeline.build()
assert pipeline._initialized is True
assert "source" in pipeline.execution_order
assert "display" in pipeline.execution_order
def test_execute_runs_stages(self):
"""Pipeline.execute runs all stages in order."""
pipeline = Pipeline()
call_order = []
mock_source = MagicMock(spec=Stage)
mock_source.name = "source"
mock_source.category = "source"
mock_source.dependencies = set()
mock_source.process = lambda data, ctx: call_order.append("source") or "data"
mock_effect = MagicMock(spec=Stage)
mock_effect.name = "effect"
mock_effect.category = "effect"
mock_effect.dependencies = {"source"}
mock_effect.process = lambda data, ctx: call_order.append("effect") or data
mock_display = MagicMock(spec=Stage)
mock_display.name = "display"
mock_display.category = "display"
mock_display.dependencies = {"effect"}
mock_display.process = lambda data, ctx: call_order.append("display") or data
pipeline.add_stage("source", mock_source)
pipeline.add_stage("effect", mock_effect)
pipeline.add_stage("display", mock_display)
pipeline.build()
result = pipeline.execute(None)
assert result.success is True
assert call_order == ["source", "effect", "display"]
def test_execute_handles_stage_failure(self):
"""Pipeline.execute handles stage failures."""
pipeline = Pipeline()
mock_source = MagicMock(spec=Stage)
mock_source.name = "source"
mock_source.category = "source"
mock_source.dependencies = set()
mock_source.process = lambda data, ctx: "data"
mock_failing = MagicMock(spec=Stage)
mock_failing.name = "failing"
mock_failing.category = "effect"
mock_failing.dependencies = {"source"}
mock_failing.optional = False
mock_failing.process = lambda data, ctx: (_ for _ in ()).throw(
Exception("fail")
)
pipeline.add_stage("source", mock_source)
pipeline.add_stage("failing", mock_failing)
pipeline.build()
result = pipeline.execute(None)
assert result.success is False
assert result.error is not None
def test_optional_stage_failure_continues(self):
"""Pipeline.execute continues on optional stage failure."""
pipeline = Pipeline()
mock_source = MagicMock(spec=Stage)
mock_source.name = "source"
mock_source.category = "source"
mock_source.dependencies = set()
mock_source.process = lambda data, ctx: "data"
mock_optional = MagicMock(spec=Stage)
mock_optional.name = "optional"
mock_optional.category = "effect"
mock_optional.dependencies = {"source"}
mock_optional.optional = True
mock_optional.process = lambda data, ctx: (_ for _ in ()).throw(
Exception("fail")
)
pipeline.add_stage("source", mock_source)
pipeline.add_stage("optional", mock_optional)
pipeline.build()
result = pipeline.execute(None)
assert result.success is True
class TestPipelineContext:
"""Tests for PipelineContext."""
def test_init_empty(self):
"""PipelineContext initializes with empty services and state."""
ctx = PipelineContext()
assert ctx.services == {}
assert ctx.state == {}
def test_init_with_services(self):
"""PipelineContext accepts initial services."""
ctx = PipelineContext(services={"display": MagicMock()})
assert "display" in ctx.services
def test_init_with_state(self):
"""PipelineContext accepts initial state."""
ctx = PipelineContext(initial_state={"count": 42})
assert ctx.get_state("count") == 42
def test_get_set_services(self):
"""PipelineContext can get/set services."""
ctx = PipelineContext()
mock_service = MagicMock()
ctx.set("test_service", mock_service)
assert ctx.get("test_service") == mock_service
def test_get_set_state(self):
"""PipelineContext can get/set state."""
ctx = PipelineContext()
ctx.set_state("counter", 100)
assert ctx.get_state("counter") == 100
def test_lazy_resolver(self):
"""PipelineContext resolves lazy services."""
ctx = PipelineContext()
config = ctx.get("config")
assert config is not None
def test_has_capability(self):
"""PipelineContext.has_capability checks for services."""
ctx = PipelineContext(services={"display.output": MagicMock()})
assert ctx.has_capability("display.output") is True
assert ctx.has_capability("missing") is False
class TestCreateDefaultPipeline:
"""Tests for create_default_pipeline function."""
def setup_method(self):
"""Reset registry before each test."""
StageRegistry._discovered = False
StageRegistry._categories.clear()
StageRegistry._instances.clear()
discover_stages()
def test_create_default_pipeline(self):
"""create_default_pipeline creates a working pipeline."""
pipeline = create_default_pipeline()
assert pipeline is not None
assert "display" in pipeline.stages

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