ci(coverage): risk-weighted coverage policy + diff-coverage gate
Adopt ADR 0004: stop chasing a single global coverage number and measure what matters instead. - Omit the genuinely-interactive `cli/init.py` shell (read_tty_line prompt loops) alongside the existing `cli/tui.py`, with a rationale comment in .coveragerc. Subprocess/backend orchestration is NOT omitted — it stays visible and is scored via the integration suite. - scripts/coverage.sh runs unit + integration under one coverage measurement (the policy's yardstick) and can report the critical security/logic core held to the >=90% target. - scripts/diff_coverage.py is a stdlib-only gate (no diff-cover dep): new/changed executable lines must be >=90% covered. This is the enforced regression guard; the global number is informational. - CI gains a `coverage` job: combined report + the diff-coverage gate. - Unit-test `cli/__init__.py` dispatch/exit-code mapping (it's logic, not I/O, so it earns tests rather than an omit). Combined unit+integration coverage now reports 83% global / 87% across the critical modules; per-module ratcheting toward 90% is the ongoing work this policy frames. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> Claude-Session: https://claude.ai/code/session_01NkwFXLFff9PYPy4wgVBJp9
This commit is contained in:
+10
@@ -3,6 +3,16 @@ branch = True
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source = .
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[report]
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# Coverage policy: see docs/decisions/0004-coverage-policy.md.
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#
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# `omit` is reserved for genuinely interactive entry-point shells whose
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# bodies are `read_tty_line()` / curses prompt loops — there is no
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# behaviour to assert that a test wouldn't have to fake wholesale, so a
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# test here would inflate the number without buying confidence. This is
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# NOT a place to hide subprocess/backend orchestration: that code is
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# security-relevant and is measured via the integration suite instead
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# (run scripts/coverage.sh for the combined unit+integration number).
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omit =
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bot_bottle/cli/tui.py
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bot_bottle/cli/init.py
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tests/*
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@@ -70,3 +70,32 @@ jobs:
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- name: Run integration tests
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run: python3 -m unittest discover -t . -s tests/integration -v
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# Combined unit+integration coverage + the diff-coverage gate.
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# See docs/decisions/0004-coverage-policy.md. The hard gate is diff
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# coverage (new/changed lines >= 90%); the combined + critical reports
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# are informational and degrade gracefully when the runner has no
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# Docker (integration tests skip, those modules just read lower).
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coverage:
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runs-on: ubuntu-latest
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steps:
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- name: Checkout
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uses: actions/checkout@v4
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with:
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fetch-depth: 0
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- name: Set up Python
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uses: actions/setup-python@v5
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with:
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python-version: "3.12"
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- name: Install dev requirements
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run: python3 -m pip install -r requirements-dev.txt
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- name: Combined coverage (unit + integration)
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run: PYTHON=python3 bash scripts/coverage.sh critical
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- name: Diff-coverage gate (changed lines >= 90%)
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run: |
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git fetch --no-tags origin main:refs/remotes/origin/main
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python3 scripts/diff_coverage.py --base origin/main --min 90
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@@ -0,0 +1,90 @@
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# ADR 0004: Risk-weighted coverage, not a single global target
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- **Status:** Accepted
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- **Date:** 2026-06-25
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- **Deciders:** didericis
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## Context
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bot-bottle is a security tool: it sandboxes agents, scans egress for
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secret exfiltration, strips credentials, and gates git pushes. A latent
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bug in that logic is expensive, so test coverage there genuinely
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matters. But the repo also contains code where coverage is a poor
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signal:
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- **Interactive entry-point shells** — `cli/init.py` (a `read_tty_line()`
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prompt loop) and `cli/tui.py` (a curses picker). Their bodies are I/O;
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a unit test has to fake the entire terminal conversation, so it
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inflates the number without asserting behaviour that would otherwise
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go unchecked.
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- **Subprocess / backend orchestration** — the docker / smolmachines /
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macos-container backends shell out to `docker`, `container`, `smolvm`.
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Mock-heavy unit tests here mostly re-assert the argv you already
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wrote (the test passes whether or not the real teardown works), while
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many of the missed *branches* are failure paths you cannot provoke
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against a real daemon on cue.
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Chasing a single global percentage (e.g. 90%) pushes the most test
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effort onto the least safety-relevant code — exactly backwards — and
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invites performative tests written to colour a line rather than to catch
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a regression (Goodhart's law).
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## Decision
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Coverage is **risk-weighted**, measured over the **combined unit +
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integration** suites, with three rules:
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1. **Critical modules target ≥ 90%.** The security/logic core —
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`egress_addon{,_core}.py`, `dlp_detectors.py`, `egress.py`,
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`manifest*.py`, `git_gate.py`, `git_http_backend.py`, `supervise.py`,
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`yaml_subset.py`, `bottle_state.py` — is Docker-independent and
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unit-testable, so it carries the high bar. We ratchet toward 90% as
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these modules are touched; new gaps in them are not acceptable.
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2. **Subprocess/backend orchestration is covered by the integration
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suite, not omitted.** `scripts/coverage.sh` runs unit + integration
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under one coverage measurement so these modules are scored where they
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are actually exercised. They stay *visible* — hiding the code that
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tears down sandboxes and wires networks is the one place we will not
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omit.
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3. **Interactive entry-point shells are omitted** (`.coveragerc`), with a
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rationale comment. This is the only sanctioned use of `omit` besides
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`tests/*`.
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The forward-looking guard is a **diff-coverage gate**
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(`scripts/diff_coverage.py`): new/changed executable lines on a branch
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must be ≥ 90% covered. This catches regressions where they are
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introduced without forcing a back-fill crusade through legacy glue. The
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gate skips lines in omitted files (there is no coverage data for them),
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so the omit list cannot launder *new* logic into the dark: anything that
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needs real testing must live outside the interactive shells to be
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scored at all.
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The **global percentage is informational**, not a CI gate — it would
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otherwise be hostage to the CI runner's Docker availability and to the
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omit list.
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## Consequences
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- The number we report (`scripts/coverage.sh`) means "coverage of the
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code we consider testable, across both suites" — a dip is a real
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regression in code we control, not noise from added CLI glue.
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- No incentive to write mock-the-mock tests for orchestration to defend
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a global figure.
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- The omit list needs governance: an entry must be a genuinely
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interactive shell, justified in the `.coveragerc` comment and here.
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`cli/init.py` and `cli/tui.py` qualify; backend orchestration does
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not.
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- CI must run the integration suite under coverage to score the
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orchestration modules; where the runner lacks Docker those tests skip
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and their modules read low — accepted, because the *enforced* gates
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(critical-module standard + diff coverage) are Docker-independent.
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- "We're at N%" is now a curated figure; outsiders should read the
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policy, not just the badge.
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## Links
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- PRs #290 (cover the egress adapter), and the coverage-policy PR that
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introduces this record.
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- `.coveragerc`, `scripts/coverage.sh`, `scripts/diff_coverage.py`.
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Executable
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#!/usr/bin/env bash
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# Combined unit + integration coverage (see docs/decisions/0004-coverage-policy.md).
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#
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# Runs the unit suite, then appends the integration suite (which skips
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# cleanly when Docker / the backend CLIs are unavailable), and prints one
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# combined report. The integration suite is what scores the subprocess /
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# backend orchestration modules, so the number here is the policy's
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# yardstick — not the unit-only badge.
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#
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# Usage:
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# scripts/coverage.sh # combined report
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# scripts/coverage.sh critical # also report just the critical modules
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set -euo pipefail
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cd "$(dirname "$0")/.."
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PY="${PYTHON:-python3}"
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# Critical security/logic core held to the high bar by ADR 0004.
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CRITICAL="bot_bottle/egress_addon.py,bot_bottle/egress_addon_core.py,\
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bot_bottle/dlp_detectors.py,bot_bottle/egress.py,bot_bottle/manifest.py,\
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bot_bottle/manifest_egress.py,bot_bottle/manifest_agent.py,\
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bot_bottle/manifest_schema.py,bot_bottle/git_gate.py,\
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bot_bottle/git_http_backend.py,bot_bottle/supervise.py,\
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bot_bottle/yaml_subset.py,bot_bottle/bottle_state.py"
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rm -f .coverage
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echo "== unit ==" >&2
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"$PY" -m coverage run -m unittest discover -t . -s tests/unit
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echo "== integration (skips without Docker) ==" >&2
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"$PY" -m coverage run --append -m unittest discover -t . -s tests/integration
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echo "== combined report ==" >&2
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"$PY" -m coverage report -m
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if [ "${1:-}" = "critical" ]; then
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echo "== critical modules (ADR 0004 target: 90%) ==" >&2
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"$PY" -m coverage report --include="$CRITICAL"
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fi
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Executable
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#!/usr/bin/env python3
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"""Diff-coverage gate (see docs/decisions/0004-coverage-policy.md).
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Fails if too few of the *added/changed* executable lines on this branch
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are covered. Stdlib-only by design — the project carries no runtime deps
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and we are not adding `diff-cover` to satisfy a check.
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Reads coverage data already produced by a `coverage run` (e.g. via
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`scripts/coverage.sh`): it shells out to `coverage json` for per-line
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data and to `git diff` for the changed lines. Lines in omitted files
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(the interactive shells) have no coverage data and are skipped, by
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policy.
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Usage:
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scripts/coverage.sh # produce .coverage first
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python3 scripts/diff_coverage.py # gate against origin/main, min 90%
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python3 scripts/diff_coverage.py --base main --min 85
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"""
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from __future__ import annotations
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import argparse
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import json
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import re
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import subprocess
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import sys
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import tempfile
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from pathlib import Path
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_HUNK_RE = re.compile(r"^@@ -\d+(?:,\d+)? \+(\d+)(?:,(\d+))? @@")
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def _run(cmd: list[str]) -> str:
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return subprocess.run(
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cmd, check=True, capture_output=True, text=True,
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).stdout
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def added_lines_by_file(base: str) -> dict[str, set[int]]:
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"""Map each changed .py file to the set of line numbers added/changed
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relative to `base`, parsed from a zero-context unified diff."""
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diff = _run(["git", "diff", "--unified=0", f"{base}...HEAD", "--", "*.py"])
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out: dict[str, set[int]] = {}
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current: str | None = None
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new_line = 0
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for line in diff.splitlines():
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if line.startswith("+++ b/"):
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current = line[6:]
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out.setdefault(current, set())
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continue
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hunk = _HUNK_RE.match(line)
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if hunk:
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new_line = int(hunk.group(1))
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continue
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if current is None:
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continue
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if line.startswith("+") and not line.startswith("+++"):
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out[current].add(new_line)
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new_line += 1
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elif line.startswith("-") and not line.startswith("---"):
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# Deletion: does not advance the new-file cursor.
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continue
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return out
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def coverage_json() -> dict[str, object]:
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"""Render the existing .coverage data to JSON and load it."""
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with tempfile.NamedTemporaryFile("r", suffix=".json", delete=True) as fh:
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_run([sys.executable, "-m", "coverage", "json", "-o", fh.name])
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return json.load(open(fh.name, encoding="utf-8"))
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def main() -> int:
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ap = argparse.ArgumentParser()
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ap.add_argument("--base", default="origin/main",
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help="git ref to diff against (default: origin/main)")
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ap.add_argument("--min", type=float, default=90.0,
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help="minimum %% of changed executable lines covered")
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args = ap.parse_args()
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if not Path(".coverage").exists():
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print("diff-coverage: no .coverage data; run scripts/coverage.sh first",
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file=sys.stderr)
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return 2
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added = added_lines_by_file(args.base)
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files = coverage_json().get("files", {})
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if not isinstance(files, dict):
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files = {}
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total = 0
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covered = 0
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misses: list[str] = []
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for path, lines in sorted(added.items()):
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info = files.get(path)
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if not isinstance(info, dict):
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# Omitted file or not measured (e.g. a test file) — skip by policy.
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continue
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executed = set(info.get("executed_lines", []))
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missing = set(info.get("missing_lines", []))
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executable = lines & (executed | missing)
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for ln in sorted(executable):
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total += 1
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if ln in executed:
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covered += 1
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else:
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misses.append(f"{path}:{ln}")
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if total == 0:
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print("diff-coverage: no measured changed lines to check — pass")
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return 0
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pct = 100.0 * covered / total
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print(f"diff-coverage: {covered}/{total} changed lines covered ({pct:.1f}%)")
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if misses:
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print("uncovered changed lines:", file=sys.stderr)
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for m in misses:
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print(f" {m}", file=sys.stderr)
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if pct + 1e-9 < args.min:
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print(f"diff-coverage: below {args.min:.0f}% threshold", file=sys.stderr)
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return 1
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return 0
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if __name__ == "__main__":
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sys.exit(main())
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@@ -0,0 +1,82 @@
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"""Unit: top-level CLI dispatch in bot_bottle.cli.main (ADR 0004).
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`cli/__init__.py` is dispatch + exit-code mapping, not interactive I/O,
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so it carries real unit tests rather than being omitted like the
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`cli/init` / `cli/tui` shells."""
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from __future__ import annotations
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import io
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import unittest
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from unittest.mock import patch
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import bot_bottle.cli as climod
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from bot_bottle.cli import main
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from bot_bottle.log import Die
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from bot_bottle.manifest import ManifestError
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class TestMainDispatch(unittest.TestCase):
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def test_no_args_prints_usage_returns_2(self) -> None:
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with patch("sys.stderr", io.StringIO()):
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self.assertEqual(2, main([]))
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def test_help_flags_return_0(self) -> None:
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with patch("sys.stderr", io.StringIO()):
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self.assertEqual(0, main(["-h"]))
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self.assertEqual(0, main(["--help"]))
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def test_unknown_command_dies(self) -> None:
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with patch("sys.stderr", io.StringIO()):
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with self.assertRaises(Die):
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main(["definitely-not-a-command"])
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def test_handler_return_code_passthrough(self) -> None:
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def handler(_rest: list[str]) -> int:
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return 7
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with patch.dict(climod.COMMANDS, {"x": handler}):
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self.assertEqual(7, main(["x"]))
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def test_handler_none_return_becomes_0(self) -> None:
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def handler(_rest: list[str]) -> int | None:
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return None
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with patch.dict(climod.COMMANDS, {"x": handler}):
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self.assertEqual(0, main(["x"]))
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def test_args_forwarded_to_handler(self) -> None:
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seen: list[list[str]] = []
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def handler(rest: list[str]) -> int:
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seen.append(rest)
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return 0
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with patch.dict(climod.COMMANDS, {"x": handler}):
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main(["x", "a", "b"])
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self.assertEqual([["a", "b"]], seen)
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def test_manifest_error_maps_to_1(self) -> None:
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def boom(_rest: list[str]) -> int:
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raise ManifestError("bad manifest")
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with patch.dict(climod.COMMANDS, {"x": boom}), patch("sys.stderr", io.StringIO()):
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self.assertEqual(1, main(["x"]))
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def test_die_maps_to_its_code(self) -> None:
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def boom(_rest: list[str]) -> int:
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raise Die(3)
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with patch.dict(climod.COMMANDS, {"x": boom}):
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self.assertEqual(3, main(["x"]))
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def test_keyboard_interrupt_maps_to_130(self) -> None:
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def boom(_rest: list[str]) -> int:
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raise KeyboardInterrupt()
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with patch.dict(climod.COMMANDS, {"x": boom}):
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self.assertEqual(130, main(["x"]))
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if __name__ == "__main__":
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unittest.main()
|
||||
Reference in New Issue
Block a user