Scrooge
Click on "Install Server".
Wait a few minutes for the server to deploy. Once ready, it will show a "Started" state.
In the chat, type
@followed by the MCP server name and your instructions, e.g., "@ScroogeI'm about to edit auth.py, what other files should I check?"
That's it! The server will respond to your query, and you can continue using it as needed.
Here is a step-by-step guide with screenshots.

Scrooge
Pre-edit situational awareness for AI coding agents.
Before an agent touches a file, Scrooge tells it the full scope of the change: what the file structurally calls, and — crucially — which other files have historically been edited together with it in the same commits, even without a direct code relationship.
This prevents the most common agent failure mode: incomplete edits — fixing the right file but missing the coupled module that also needed to change.
Available as a CLI tool and MCP server (plug directly into Claude Code and other agents).
The Problem
~35% of AI agent coding failures are incomplete edits (SWE-bench, 2024): the agent fixed the right location but missed a coupled module. Call-graph tools like Aider's repo map can't catch this — they only see structural connections (A calls B), not behavioral ones (A and B are always edited together).
Related MCP server: sourcebook
How Scrooge Addresses It
Scrooge combines two signals:
1. Structural call graph — which functions call which, ranked by graph distance + PageRank. Finds the files directly involved in a query.
2. Co-change graph — mined from git log. Finds files that have historically been modified in the same commits, even with no direct code relationship. These are the implicit dependencies: shared invariants, parallel implementations, configuration that moves with logic.
Given a query or a file the agent is about to edit, Scrooge returns:
Candidate files to read (structural)
Co-change alerts: files that will almost certainly also need editing (behavioral)
Benchmark Results
Co-change: incomplete edit prevention
Tested on real git history from two Python libraries (50+ test cases total). Ground truth: commits that changed multiple source files simultaneously. Task: given one file, does the tool surface the others that were also edited?
Tool | Recall@1 | Recall@3 | Recall@5 | MRR |
Structural only (Aider-style) | 0.135 | 0.172 | 0.183 | 0.271 |
Co-change only | 0.220 | 0.394 | 0.548 | 0.447 |
Scrooge combined | 0.278 | 0.449 | 0.557 | 0.528 |
Scrooge combined vs. Aider-style structural: +204% Recall@5, +95% MRR.
In 56% of real multi-file edits, Scrooge correctly surfaces all required co-changed files in the top 5. Structural-only navigation achieves 18%.
File navigation: finding the right module
Tested on 16 ground-truth queries across three Python repos (small/medium/large).
Metric | Result |
Recall (correct file returned at all) | 100% |
Hit@1 (correct file ranked #1) | 75% |
Hit@3 (correct file in top 3) | 94% |
File reduction vs. keyword grep | 10.5× |
Full methodology: benchmarks/BENCHMARK_REPORT.md and benchmarks/COCHANGE_REPORT.md
How It Works
repo
└── Scanner → find all .py files
└── Parser → extract functions, classes, calls (Python AST)
└── Graph Builder → directed call graph (NetworkX)
└── Ranker → score nodes by query relevance
│ (graph distance + normalized PageRank + token coverage)
└── CLI / MCP → return 2–3 ranked files with call contextQuery flow
Scrooge matches queries by substring against code identifiers — function names, class names, method names, file names. For best results, pass symbol-oriented keywords, not natural language:
User: "how does the authentication flow work?"
↓
Agent extracts keywords (built into MCP description)
↓
Scrooge query: "auth login authenticate"
↓
Matches: auth.py → authenticate(), login_user()
↓
Returns: auth.py (relevance 100) + utils.py (relevance 72)
with calls/called_by for eachThis keyword extraction step is baked into the MCP tool descriptions, so agents using Claude Code do it automatically.
Output example
{
"candidates": [
{
"file": "/path/to/auth.py",
"relevance": 100,
"matches": [{"symbol": "login_user", "line": 42}, {"symbol": "authenticate", "line": 61}],
"calls": ["utils.normalize_username", "db.get_user"],
"called_by": ["api.login_endpoint"]
}
]
}The agent reads auth.py starting at line 42. It knows before opening the file that it calls utils and db, and that the API layer calls into it.
Installation
Prerequisites: Python 3.11+, uv (recommended) or pip
git clone https://github.com/De-Cri/Scrooge.git
cd Scrooge
uv pip install -e .Both scrooge (CLI) and scrooge-mcp (MCP server) are installed.
Setup as MCP Server (Claude Code)
Open your Claude Code settings file:
OS | Path |
macOS / Linux |
|
Windows |
|
Add the Scrooge block inside mcpServers:
With uv (recommended):
{
"mcpServers": {
"Scrooge": {
"command": "uv",
"args": ["run", "--directory", "/absolute/path/to/Scrooge", "scrooge-mcp"]
}
}
}With venv (Windows):
{
"mcpServers": {
"Scrooge": {
"command": "C:/path/to/Scrooge/.venv/Scripts/python.exe",
"args": ["-m", "mcp_server.scrooge_mcp"],
"cwd": "C:/path/to/Scrooge"
}
}
}Restart Claude Code. The architecture, connections, and index tools appear automatically. Claude will use them when exploring codebases — you don't need to prompt it differently.
CLI Usage
architecture — find files relevant to a query
scrooge architecture path/to/repo auth login{
"candidates": [
{
"file": "auth.py",
"relevance": 100,
"matches": [{"symbol": "login_user", "line": 42}],
"calls": ["utils.normalize_username"],
"called_by": ["api.login_endpoint"]
}
]
}Options:
--rank-keep-pct(default 0.3) — fraction of top-ranked graph nodes to keep--file-keep-pct(default 0.35) — fraction of top-ranked files to keep
connections — trace call paths around matched symbols
scrooge connections path/to/repo auth login 2
scrooge connections path/to/repo auth login 2 --compactMCP Tools
Tool | What it does |
| Returns ranked candidate files with matches, calls, called_by. Saves result to |
| Returns the raw call graph around matched symbols (BFS, configurable depth). |
| Returns the full parsed structure + graph for the repo. |
Project Structure
Scrooge/
├── scanner/scanner.py # find source files
├── parser/ast_parser.py # Python AST → functions, classes, calls
├── indexer/symbol_extractor.py # match query tokens to symbol names + token coverage scoring
├── graph_builder/
│ ├── call_graph.py # build NetworkX directed call graph
│ └── symbols_connections.py # BFS traversal + connection output
├── intelligence/rank_graph_connections.py # node ranking (normalized PageRank + distance)
├── cli/scrooge_cli.py # CLI entry point
├── mcp_server/scrooge_mcp.py # MCP server entry point
└── benchmarks/
├── objective_benchmark.py # reproducible benchmark harness
└── BENCHMARK_REPORT.md # full results and analysisCurrent Limitations
Python only — AST parsing is implemented for Python. JS/TS file discovery exists but parsing is not implemented yet.
No caching — every query re-parses the repo. Fast enough today (0.3–0.8s), but would need a cache for very large repos or high query frequency.
Keyword queries only — Scrooge matches identifiers, not semantics. For vague conceptual questions, a semantic embedding search is complementary.
Call resolution is best-effort — dynamic dispatch, decorators, and
functools.partialare invisible to static AST analysis.
License
MIT
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