Touchpoint

Give your AI agent eyes and hands on any desktop.

pip install touchpoint-py

Touchpoint demo — AI agent creates a formatted Excel table using Touchpoint

AI agent researches data in Chrome, then creates a formatted Excel table — full task completed in ~12 minutes

Touchpoint is a cross-platform Python library for reading and interacting with desktop UI through native accessibility APIs. One import, one API — works on Linux, macOS, and Windows, with built-in support for Chromium and Electron apps via CDP (Chrome DevTools Protocol).

Instead of scraping pixels or running vision models, Touchpoint reads the real accessibility tree — structured names, roles, states, and positions for every element on screen. Fast and reliable, with no model inference needed. Ships with an MCP server so LLM agents like Claude or Cursor can control any desktop app out of the box.

import touchpoint as tp

elements = tp.find("Send", role=tp.Role.BUTTON, app="Slack")
tp.click(elements[0])

Why Touchpoint?

	Screenshot / vision	Browser automation	Touchpoint
Native desktop apps	⚠️ inaccurate or slow	❌	✅ structured access
Browsers	⚠️ inaccurate or slow	✅	✅ via CDP
Electron apps (Slack, VS Code, ...)	⚠️ inaccurate or slow	⚠️ web content only	✅ native + web
Structured element data	❌ needs OCR/vision models	✅ web only	✅ names, roles, states, positions
Works across Linux, macOS, Windows	✅	✅	✅

Table of Contents
Install
- Platform requirements
Quick Start
- Element IDs
- Output formats
MCP Server
Browser & Electron Apps (CDP)
- Setup
API Reference
Architecture
Configuration
Development
Status
- Known limitations
License

Install

Requires Python 3.10+.

pip install touchpoint-py

Everything is included: your platform's native backend, CDP support for browsers and Electron apps, the MCP server, and screenshot capabilities. Platform-specific dependencies are installed automatically via pip environment markers.

Platform requirements

Platform	Backend	Requirement
Linux	AT-SPI2	Install `xdotool` for input. Most desktops include `python3-gi` and `gir1.2-atspi-2.0` — install them if missing.
Windows	UI Automation	None — uses built-in COM APIs
macOS	Accessibility (AX)	Grant permission: System Settings → Privacy & Security → Accessibility

Quick Start

import touchpoint as tp

# Discover
apps = tp.apps()                            # ["Firefox", "Slack", "Terminal", ...]
windows = tp.windows()                      # Window objects with title, position, size
all_els = tp.elements(app="Firefox", named_only=True)  # only elements with text labels

# Find
results = tp.find("Search", role=tp.Role.TEXT_FIELD, app="Firefox")

# Act
tp.set_value(results[0], "touchpoint python", replace=True)
tp.press_key("enter")
tp.hotkey("ctrl", "s")                      # keyboard shortcuts

# Wait for UI changes
tp.wait_for("results", app="Firefox", timeout=10)

# Screenshot
img = tp.screenshot()                       # full desktop → PIL.Image
img = tp.screenshot(app="Firefox")           # cropped to app window

Element IDs

Every element has a unique ID like atspi:1234:1:2.0 or cdp:9222:TID:4. Action functions accept either an Element object or a bare ID string — useful for storing references across steps:

results = tp.find("Send", max_results=1)
element_id = results[0].id                  # "atspi:1234:1:5.2"

# later...
tp.click(element_id)                        # works with just the string

Output formats

Control how results are returned:

tp.elements(app="Slack", format="flat")     # one compact line per element (best for LLMs)
tp.elements(app="Slack", format="tree")     # indented parent/child hierarchy
tp.elements(app="Slack", format="json")     # full JSON with all fields

MCP Server

Touchpoint ships an MCP (Model Context Protocol) server with 19 tools, ready for any MCP-compatible client. Use it to let LLM agents like Claude, Cursor, or Copilot control your desktop.

Tools

Category	Tools
Discovery	`apps`, `windows`, `find`, `elements`, `get_element`
Screenshot	`screenshot` (returns image data the LLM can see)
Actions	`click` (left/right/double), `set_value`, `set_numeric_value`, `focus`, `action`
Keyboard	`type_text`, `press_key` (single key or combo)
Mouse	`mouse_move`, `scroll`
Window	`activate_window`
Waiting	`wait_for`, `wait_for_app`, `wait_for_window`

The MCP server includes built-in instructions that teach LLM agents how to work effectively — the orient → locate → act → verify loop, how to use find(), and how to recover from errors.

         ┌──────────┐
    ┌───▶│  ORIENT  │  screenshot · apps · windows
    │    └────┬─────┘
    │         ▼
    │    ┌──────────┐
    │    │  LOCATE  │  find · elements · get_element
    │    └────┬─────┘
    │         ▼
    │    ┌──────────┐
    │    │   ACT    │  click · set_value · type_text · press_key
    │    └────┬─────┘
    │         ▼
    │    ┌──────────┐
    │    │  VERIFY  │───▶ Done ✅
    │    └────┬─────┘
    │         │ not yet
    └─────────┘

Client setup

Claude Desktop

Config file location:

macOS: ~/Library/Application Support/Claude/claude_desktop_config.json
Windows: %APPDATA%\Claude\claude_desktop_config.json

{
  "mcpServers": {
    "touchpoint": {
      "command": "touchpoint-mcp"
    }
  }
}

If using a virtualenv, use the full path: "/path/to/venv/bin/touchpoint-mcp"

VS Code / GitHub Copilot

Add to .vscode/mcp.json in your workspace:

{
  "servers": {
    "touchpoint": {
      "command": "touchpoint-mcp"
    }
  }
}

Cursor

Create or edit ~/.cursor/mcp.json:

{
  "mcpServers": {
    "touchpoint": {
      "command": "touchpoint-mcp"
    }
  }
}

Windsurf

Edit ~/.codeium/windsurf/mcp_config.json:

{
  "mcpServers": {
    "touchpoint": {
      "command": "touchpoint-mcp"
    }
  }
}

Claude Code (CLI)

claude mcp add touchpoint -- touchpoint-mcp

OpenClaw

Add to mcpServers in ~/.openclaw/openclaw.json:

{
  "mcpServers": {
    "touchpoint": {
      "command": "touchpoint-mcp"
    }
  }
}

Environment variables

All optional — click to see available settings

Variable	Example	Description
`TOUCHPOINT_CDP_DISCOVER`	`true`	Auto-discover CDP ports from running processes
`TOUCHPOINT_CDP_PORTS`	`{"Chrome": 9222}`	Explicit app-to-port mapping (JSON)
`TOUCHPOINT_CDP_APP`	`Google Chrome`	Single app name (pair with `_PORT`)
`TOUCHPOINT_CDP_PORT`	`9222`	Single port (pair with `_APP`)
`TOUCHPOINT_CDP_REFRESH_INTERVAL`	`5.0`	Seconds between CDP port scans
`TOUCHPOINT_SCALE_FACTOR`	`1.25`	Display scale override
`TOUCHPOINT_FUZZY_THRESHOLD`	`0.6`	Minimum match score for find() (0.0–1.0)
`TOUCHPOINT_FALLBACK_INPUT`	`true`	Use coordinate fallback when native actions fail
`TOUCHPOINT_MAX_ELEMENTS`	`5000`	Maximum elements per query
`TOUCHPOINT_MAX_DEPTH`	`10`	Default tree depth limit

Browser & Electron Apps (CDP)

Native accessibility APIs return limited data for Electron and Chromium apps (Slack, Discord, VS Code, etc.). Touchpoint's CDP backend connects via Chrome DevTools Protocol to get the full web content.

Auto-discovery is enabled by default — Touchpoint automatically finds running browsers and Electron apps that were launched with a debug port. No manual configuration needed beyond launching the app with the flag.

Setup

Launch the app with a debug port:

# Linux
google-chrome --remote-debugging-port=9222 --user-data-dir=/tmp/tp-chrome

# macOS
open -na "Google Chrome" --args --remote-debugging-port=9222 --user-data-dir=/tmp/tp-chrome

# Windows
start chrome --remote-debugging-port=9222 --user-data-dir=%TEMP%\tp-chrome

Configure Touchpoint:

import touchpoint as tp

tp.configure(cdp_discover=True)             # auto-discover from running processes
# or
tp.configure(cdp_ports={"Google Chrome": 9222})  # explicit mapping

Control what you get with the source parameter:

tp.elements(app="Google Chrome", source="full")     # native chrome + web content (default)
tp.elements(app="Google Chrome", source="ax")       # web content only (CDP accessibility tree)
tp.elements(app="Google Chrome", source="native")   # native UI only (toolbar, tabs, menus)
tp.elements(app="Google Chrome", source="dom")      # DOM walker (catches what AX misses)

CDP results are merged with native backend results — you get the toolbar and window controls from AT-SPI2/UIA/AX, combined with the full web page content from CDP, in a single elements() call.

API Reference

Discovery

Function	Description
`tp.apps()`	List application names in the accessibility tree
`tp.windows()`	All windows with id, title, app, position, size, active state
`tp.elements(app, role, states, ...)`	UI elements, with filtering, tree mode, and formatting
`tp.element_at(x, y)`	Deepest element at screen coordinates
`tp.get_element(id)`	Fresh snapshot of a single element by ID

Search & Wait

Function	Description
`tp.find(query, app, role, ...)`	Search by name — 4-stage matching: exact → contains → word → fuzzy
`tp.wait_for(query, ...)`	Poll until elements appear (or disappear with `gone=True`)
`tp.wait_for_app(app, ...)`	Poll until an app appears or disappears
`tp.wait_for_window(title, ...)`	Poll until a window appears or disappears

Actions

Function	Description
`tp.click(element)`	Click via accessibility action, with coordinate fallback
`tp.double_click(element)`	Double-click
`tp.right_click(element)`	Right-click / context menu
`tp.set_value(element, text)`	Set text content (`replace=True` to clear first)
`tp.set_numeric_value(element, n)`	Set slider or spinbox value
`tp.focus(element)`	Move keyboard focus
`tp.action(element, name)`	Execute a raw accessibility action by name
`tp.activate_window(window)`	Bring a window to the foreground

Input

Function	Description
`tp.type_text(text)`	Type into the currently focused element
`tp.press_key(key)`	Press and release a key (`"enter"`, `"tab"`, `"escape"`)
`tp.hotkey(*keys)`	Key combination (`tp.hotkey("ctrl", "s")`)
`tp.click_at(x, y)`	Click at screen coordinates
`tp.double_click_at(x, y)`	Double-click at coordinates
`tp.right_click_at(x, y)`	Right-click at coordinates
`tp.mouse_move(x, y)`	Move the cursor
`tp.scroll(direction, amount)`	Scroll at current cursor position

Screenshot & Config

Function	Description
`tp.screenshot(app, element, ...)`	Full desktop or cropped to app/window/element/monitor
`tp.monitor_count()`	Number of connected monitors
`tp.configure(...)`	Set runtime options (see Configuration)

All action functions accept an Element object or a string ID. elements(), find(), and get_element() support format="flat", format="json", or format="tree" (elements only) to return pre-formatted strings instead of objects.

Architecture

┌───────────────────────────────────────────────────────┐
│               import touchpoint as tp                 │
│  tp.find() · tp.click() · tp.screenshot() · ...       │
│                    (Public API)                       │
├─────────────────────────┬─────────────────────────────┤
│     Backend (ABC)       │    InputProvider (ABC)      │
├─────────────────────────┼─────────────────────────────┤
│  AT-SPI2     (Linux)    │  Xdotool       (X11)        │
│  UIA         (Windows)  │  SendInput     (Win32)      │
│  AX          (macOS)    │  CGEvent       (macOS)      │
│  CDP         (browsers) │                             │
├─────────────────────────┴─────────────────────────────┤
│  Utilities: formatter · matcher · screenshot · scale  │
└───────────────────────────────────────────────────────┘

Two-layer design:

Backend reads the accessibility tree and runs structured actions (click, set_value, focus). Element-aware and reliable.
InputProvider simulates raw keyboard and mouse input. Coordinate-based and element-blind. Used as an automatic fallback when a native accessibility action isn't available.

CDP runs alongside the platform backend. Their results are merged: native window chrome (toolbar, tabs, menus) from AT-SPI2/UIA/AX, plus full web content from CDP, unified under one API.

For detailed internals, see ARCHITECTURE.md.

Configuration

tp.configure(
    fuzzy_threshold=0.6,          # minimum match score for find() (0.0–1.0)
    fallback_input=True,          # use InputProvider when native actions fail
    type_chunk_size=40,           # split long text into chunks for typing (0 = disable)
    max_elements=5000,            # max elements per query
    max_depth=10,                 # default tree depth limit
    scale_factor=None,            # display scale override (None = auto-detect)
    cdp_ports={"Chrome": 9222},   # explicit CDP port mapping
    cdp_discover=True,            # auto-discover CDP ports from running processes
    cdp_refresh_interval=5.0,     # seconds between CDP target scans
)

Development

git clone https://github.com/Touchpoint-Labs/touchpoint.git
cd touchpoint
python -m venv .venv && source .venv/bin/activate
pip install -e ".[dev]"
pytest

Status

Alpha — fully functional and tested on all three platforms. The API may change before 1.0 based on user feedback.

Platform	Backend	Input	CDP	Tests
Linux (X11)	✅ AT-SPI2	✅ xdotool	✅	✅
Windows	✅ UIA	✅ SendInput	✅	✅
macOS	✅ AX	✅ CGEvent	✅	✅

Known limitations

Wayland input — The Linux InputProvider uses xdotool, which requires X11. On pure Wayland (no XWayland), keyboard/mouse simulation is unavailable. The accessibility tree and native actions still work.
Synchronous CDP — CDP calls block on WebSocket responses. JavaScript dialogs (alert, confirm, prompt) are auto-dismissed to prevent deadlocks. An async rewrite is planned.
No browser navigation API — Touchpoint doesn't have built-in URL navigation. Agents can navigate by interacting with UI elements directly: find the address bar, type a URL, press Enter.

Roadmap

High Priority

Async CDP architecture — non-blocking WebSocket, proper dialog queuing, concurrent multi-tab queries

Medium Priority

Text selection tool — select text within an element by content (e.g. "select this word"), across all backends
Window management tools — minimize, maximize, close, move, resize windows
Backend role/state parity — close remaining role mapping gaps (especially UIA on Windows)
Batch action tool — execute a sequence of actions in one call to reduce LLM round trips
Wayland input backend — libei / xdg-desktop-portal RemoteDesktop when X11 isn't available

Lower Priority

Tooltip and notification visibility
Code organisation (split large files)
Element caching

License

MIT