Commit Graph

24 Commits

Author SHA1 Message Date
scorp508
6113e0c27a fix: reconnect IPC backend after KiCad starts (#140)
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
2026-05-22 17:41:47 -04:00
NiNjA-CodE
76e644e4ef feat(routing): add add_gnd_stitching_vias MCP tool with all-layer collision (#191)
Drop GND stitching vias across the board with collision checking
against every non-GND segment, via, and pad on every copper layer.
PTH vias penetrate the full stackup, so an F.Cu-only check (the most
common shortcut) silently creates shorts on inner / B.Cu copper —
this implementation explicitly walks all layers.

  grid          Regular grid across the board interior. Default
                spacing 5mm.

  around_refs   Densify around specified footprints (e.g. MCUs,
                switching regulators, RF parts). Configurable
                density via densifyRadius.

  in_zones      Restrict placements to candidates inside the filled
                polygons of GND copper zones, so each new via lands
                on copper that's already a GND equipotential.
                Recommended on boards where the GND zone is fragmented:
                these vias actually stitch real polygons rather than
                floating on silkscreen.

All three strategies use the same collision check + intra-call
clump-prevention, so passing `["grid", "around_refs", "in_zones"]`
is a safe kitchen-sink configuration.

  - Auto-detect GND net (tries GND / GROUND / VSS / /GND in order)
    OR explicit `gndNet` parameter.
  - Per-via geometry control: viaSize, viaDrill, clearance.
  - edgeMargin: keep-out distance from board edge.
  - maxVias: cap on total placements (useful for incremental work).
  - dryRun: return placements without modifying the board — for
    previewing before committing.
  - Validates viaDrill < viaSize, rejects unknown strategy names,
    surfaces clear errors when GND net can't be resolved or the
    board outline is missing.

Approach ported from morningfire-pcb-automation
(https://github.com/NiNjA-CodE/morningfire-pcb-automation,
scripts/ground/add_gnd_vias.py). The original parses the PCB text
with regex and writes vias by string concatenation; this port reads
obstacles via the pcbnew API (handles rotated footprints, integrates
with the live in-memory board so two sequential calls see each
other's placements, picks up net codes from the loaded board) and
adds the in_zones strategy, the maxVias cap, and dry-run mode.

Credit is in the docstring, the TypeScript wrapper comment, the MCP
tool description (visible to clients), and the CHANGELOG entry.

tests/test_add_gnd_stitching_vias.py — 18 cases, all passing.
Uses mocked pcbnew objects so the suite runs under both the conftest
stub and a real pcbnew install.

  - grid strategy fills empty board with correct count
  - collision blocks via near a signal track (with extent assertion)
  - GND-net obstacles are correctly ignored
  - around_refs densifies near footprints with bounded extent
  - in_zones rejects candidates outside HitTestFilledArea
  - dryRun does NOT call board.Add
  - actual run calls board.Add per placement
  - maxVias caps total placements
  - intra-call clump prevention (asserts pairwise distance)
  - viaDrill >= viaSize is rejected
  - unknown strategy name is rejected
  - missing GND net returns clear error payload
  - no board loaded returns clear error
  - named GND net (e.g. VSS) is honoured even when GND also exists
  - direct unit tests for _point_to_segment_distance_nm helper

Real-board smoke test on TuneForge_TF001 (4-layer, 44 footprints):
  - GND net auto-detected
  - grid spacing 4mm: 141 placements, 129 blocked by collision
  - grid + in_zones: 140 placed, 15 rejected by zone membership,
    115 blocked by collision

  python/commands/routing.py         (+impl, ~370 LOC)
  python/kicad_interface.py          (+handler registration)
  python/schemas/tool_schemas.py     (+MCP schema)
  src/tools/routing.ts               (+TypeScript surface, builds clean)
  tests/test_add_gnd_stitching_vias.py (+18 tests)
  CHANGELOG.md                       (+Unreleased -> New MCP Tools)
2026-05-19 21:17:25 -04:00
NiNjA-CodE
e2941631c1 feat(autoroute): add best-of-N support (attempts, targetNets, passSchedule) (#190)
The existing single-shot autoroute leaves 1-7 nets unrouted on dense
boards in my testing. Best-of-N drives that to 0 most of the time by
running Freerouting a few times with varied --max-passes and keeping
the SES with the best routing score.

New optional parameters (all backward-compatible):

  attempts:     int, default 1 (unchanged behaviour). When > 1, run
                Freerouting N times and pick the highest-scoring SES.
  targetNets:   list of critical net names. An attempt that routes all
                of them earns a 50,000-point scoring bonus.
  passSchedule: list of --max-passes values to cycle through across
                attempts. Default: [50, 60, 65, 70, 75, 80, 85, 90, 55,
                95] (wraps if attempts > len). Ignored when attempts=1
                (legacy maxPasses still used).

Scoring contract (pinned by tests):
  score = nets_routed * 1000 + segments
  if targetNets and all routed: score += 50_000

  - +1 net always beats any segment-count delta (1000 pt step).
  - Segments break ties at equal net count.
  - Target bonus dominates net-count gains from unrelated nets.

## Implementation notes

  - When attempts > 1, each attempt runs with `-mt 1` (single-thread
    optimisation). Freerouting 2.x's multi-threaded optimiser is
    documented to introduce clearance violations, so forcing
    single-thread during scoring keeps the comparison apples-to-apples.
  - One failed attempt does not abort the whole best-of-N run. The
    failure is recorded in the response under attempts[] with ok=False,
    and the remaining attempts compete for best. If every attempt fails
    the response surfaces a clear error.
  - The winning SES is preserved as <stem>_best.ses next to the
    canonical <stem>.ses so the caller can inspect it after the run.
  - Response shape:
      attempts == 1:  unchanged (no attempts/best_attempt fields)
      attempts > 1:   adds attempts[], best_attempt, best_score,
                      best_ses_path

## Attribution

Scoring approach and default pass schedule ported from
morningfire-pcb-automation
(https://github.com/NiNjA-CodE/morningfire-pcb-automation,
scripts/routing/freeroute_runner.py). Credited in the function
docstring, the TypeScript wrapper comment, the tool description (visible
to MCP clients), and the CHANGELOG entry.

The MCP version adds: cleaner per-attempt result reporting, automatic
single-thread optimisation, graceful degradation on partial failure,
and explicit validation that surfaces clean error payloads for invalid
attempts values.

## Tests

  tests/test_autoroute_score.py             8 cases, scoring contract
  tests/test_autoroute_best_of_n.py         6 cases, orchestration logic

All 14 passing. Tests are pure-Python: subprocess is mocked so the
suite runs in any environment (no Java / Freerouting / KiCad required).

  - Single-attempt response shape unchanged
  - Best-of-three picks the highest-scoring SES
  - One nonzero exit attempt doesn't abort the run
  - passSchedule wraps when attempts exceeds len
  - targetNets bonus wins over higher raw net count
  - attempts=0 rejected with clean error before DSN export
  - +1 net (1000 pts) dominates any segment delta
  - Segments tiebreak at equal net count
  - Quoted net names in SES are normalised vs unquoted targets

TypeScript builds clean.
2026-05-18 23:03:38 -04:00
NiNjA-CodE
983ffc3793 feat(component): add check_courtyard_overlaps MCP tool (#189)
Detects courtyard overlaps between footprints and flags courtyards that
extend past the board outline. Returns overlap pairs with intersection
extents (mm), per-component boundary violations, and a placement summary.

The killer feature for AI-driven workflows is the `positions` parameter,
which accepts hypothetical placements `{ref: [x, y]}` or
`{ref: [x, y, rotation_degrees]}`. The tool evaluates the proposed
placement WITHOUT writing to the board file — so an AI agent can validate
a move_component / place_component before committing it, instead of the
current loop of write -> run DRC -> parse violations -> revert.

## Implementation

- Uses the real courtyard polygons from pcbnew (`fp.GetCourtyard(F_CrtYd)`
  or B_CrtYd) for accurate AABBs even on custom and rotated footprints.
- Falls back to `fp.GetBoundingBox()` when no F/B.Courtyard polygon is
  present.
- For virtual rotation, rotates the four AABB corners and re-axis-aligns.
  Conservative: the rotated-AABB is always >= the rotated-polygon, so
  overlap reports are never false-negatives (may be marginally
  over-cautious on diagonal rectangles, which is the right error bias
  for a placement validator).
- Optional `margin` parameter expands every courtyard by N mm — useful
  for enforcing a manufacturing keepout wider than the symbol's
  declared courtyard.

## Attribution

The approach is ported from morningfire-pcb-automation
(https://github.com/NiNjA-CodE/morningfire-pcb-automation), specifically
`scripts/placement/check_overlaps.py`. The upstream uses a static
per-footprint-type courtyard lookup table; this implementation reads
the real polygons from pcbnew so it works on any footprint without
maintaining a table. Attribution is in the function docstring, the
TypeScript wrapper, the tool's description (visible to MCP clients),
and the CHANGELOG entry.

## Tests

12 pytest cases in tests/test_check_courtyard_overlaps.py, all passing:

  - No overlaps when spaced; overlap detected on intersect
  - Margin pushes borderline pairs into overlap
  - `refs` filter restricts the check
  - Boundary violations are flagged; `include_boundary=false` suppresses
  - Virtual position does not mutate the footprint (asserts
    `SetPosition` is never called)
  - Virtual rotation swaps a tall-narrow courtyard's x/y extents
  - No-board-loaded returns clean error payload
  - Bad position spec (wrong arity) returns clean error payload
  - GetCourtyard() OutlineCount=0 -> fallback to GetBoundingBox()
  - `board_outline` override replaces the Edge.Cuts bbox

Tests use mocked pcbnew objects so they run under both the conftest stub
and a real pcbnew install. Real-board smoke test on a 44-footprint
production board succeeds: 1 known overlap detected (SW1<->SW2), 0
boundary violations, virtual placement test reports 6 expected overlaps.

## Files touched

- python/commands/component.py            (impl + helpers)
- python/kicad_interface.py               (tool registration)
- python/schemas/tool_schemas.py          (MCP schema entry)
- src/tools/component.ts                  (TypeScript surface, builds clean)
- tests/test_check_courtyard_overlaps.py  (12 cases)
- CHANGELOG.md                            (Unreleased -> New MCP Tools)
2026-05-18 23:03:34 -04:00
Gavin Colonese
457e4e30ad fix(ipc): rotate_component uses absolute angle (matches schema) (#159)
* Fix: IPC rotate_component now uses absolute angle as documented

The IPC rotate handler was adding the angle to the current rotation
(relative), but the schema documents it as absolute. This caused
unexpected behavior where setting angle=0 had no effect on a component
already at 180°. Now correctly sets the rotation to the exact angle
specified, matching the SWIG backend behavior.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>

* docs(changelog): add unreleased entry for rotate_component absolute-angle fix

---------

Co-authored-by: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-05-18 23:00:22 -04:00
kevargaso
40d6d6bba1 Add query_zones tool for auditing copper pours (#174)
query_traces silently omits PCB_ZONE_T objects, so layer-usage audits
miss power planes and GND pours entirely. query_zones complements it by
iterating board.Zones() and returning each zone's net, layers, priority,
fill state, min thickness, bounding box, and filled area, with the same
net/layer/boundingBox filter surface as query_traces.
2026-05-18 14:40:18 -04:00
Michael Holm
890746c6ac Make project-scope sym-lib-table visible to symbol-discovery tools
search_symbols, list_symbol_libraries, list_library_symbols, and
get_symbol_info previously only consulted the global sym-lib-table. A
library registered with project scope (an entry in
<project>/sym-lib-table) was therefore invisible — even right after
open_project succeeded — making add_schematic_component the only tool
that could see it.

Fix has two parts:

1. Wrap project_commands.open_project and project_commands.create_project
   in handlers that rebuild SymbolLibraryCommands.library_manager against
   the project directory. After open_project, project-scope libraries are
   automatically visible to subsequent search/list/info calls.

2. Add an optional projectPath parameter to the four discovery tools
   (accepts a project directory, .kicad_pro, .kicad_pcb, or .kicad_sch
   path). Stateless callers can resolve project libraries without first
   calling open_project. SymbolLibraryCommands._derive_project_path also
   walks up from schematicPath/boardPath to find the directory that owns
   the project, mirroring the logic in _handle_add_schematic_component.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-02 20:35:15 +02:00
Eugene Mikhantyev
193e1a603f Drop research-project disclaimer from CHANGELOG header
The disclaimer is project-stance commentary, not a changelog entry; moved
to local notes outside the repo.

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-04-26 15:28:32 +01:00
Eugene Mikhantyev
7a6558b9fa Auto-sync junctions on wire/symbol mutations
Replaces the manual add_schematic_junction tool with automatic junction
management. WireManager.sync_junctions inserts/removes junction dots
based on wire endpoints plus component pin positions and is invoked
after add_wire, add_polyline_wire, delete_wire, move, and rotate.

- Pin-aware: parses lib_symbols and applies KiCad's mirror/rotate/
  translate transform to compute world pin coordinates
- Multi-unit safe: filters lib_symbols sub-units by the placed
  symbol's (unit N) field plus the unit-0 common body
- Removes the now-unused WireManager.add_junction static method
- Updates CHANGELOG [Unreleased] with the tool removal notice
- Adds .mcp.json to .gitignore (machine-local paths)

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-04-26 14:59:47 +01:00
William Viana
e96637c6c3 fix: locate placed symbols when (lib_name) precedes (lib_id)
KiCad serialises rescued or locally-customised library entries with an
extra (lib_name "...") child before (lib_id "..."):

    (symbol
      (lib_name "RESISTOR_0603_4")
      (lib_id "MF_Passives:RESISTOR_0603")
      (at 132.08 44.45 90)
      ...)

The block-matching regex in _handle_get_schematic_component,
_handle_edit_schematic_component, and _handle_delete_schematic_component
required (lib_id IMMEDIATELY after (symbol, so any placed component
using this form was silently invisible to lookup. The user-visible
symptom is "Component '<ref>' not found in schematic" even though the
component is plainly present (and reachable through list / IPC paths).
This bug also affected set/remove_schematic_component_property and the
existing footprint/value/reference rewriting paths in edit, since they
all share the same lookup code.

The parent-position lookup used a similarly-strict regex
((symbol (lib_id "...") (at ...))), which silently fell back to (0,0)
on (lib_name)-first symbols and caused new properties added through
the custom-properties path to anchor at the schematic origin instead
of the parent symbol.

Fix: relax the symbol-block opening pattern to (symbol\s+\( — matching
any opening paren after (symbol — and read the symbol's origin from
the first (at ...) inside the block. Library-definition entries inside
(lib_symbols ...) are still excluded by the existing range check
(they use the (symbol "name" ...) form with a quoted string, not a
paren).

Adds 7 regression tests in TestLibNameBeforeLibIdOrdering using a
real-world (lib_name)-first resistor block, covering get / edit /
set-property / remove-property / delete and verifying that newly
added properties anchor to the symbol origin instead of (0, 0).
2026-04-21 10:12:52 -07:00
William Viana
4d7843c03a feat: support arbitrary custom properties on schematic components
Promotes BOM / sourcing fields (MPN, Manufacturer, DigiKey_PN, LCSC,
JLCPCB_PN, Voltage, Tolerance, Dielectric, ...) to first-class citizens
on placed schematic symbols.

New MCP tools:
- set_schematic_component_property: add or update one custom property
  on a component (convenience wrapper around edit_schematic_component).
- remove_schematic_component_property: delete one custom property.
  The four built-in fields (Reference, Value, Footprint, Datasheet) are
  protected and rejected.

edit_schematic_component enhancements:
- New `properties` parameter: map of property name to either a string
  value or a full spec object { value, x?, y?, angle?, hide?, fontSize? }.
  Adds the property when missing, otherwise updates the existing field
  (and optionally its label position / visibility). Lets a single tool
  call attach an entire BOM payload to a component.
- New `removeProperties` parameter: list of custom property names to
  delete in the same call.
- Property values are now backslash-escaped so descriptions containing
  a double-quote or a backslash no longer corrupt the .kicad_sch file.
- New properties default to (hide yes) so they appear in BOM exports
  without cluttering the schematic canvas.

get_schematic_component description clarified to highlight that it
already returns every field on the symbol, including custom ones.

New MCP prompt component_sourcing_properties guides agents through the
conventional property names recognised by downstream BOM tooling and
the recommended call sequence.

Implementation (python/kicad_interface.py):
- _PROTECTED_PROPERTY_FIELDS frozenset
- _escape_sexpr_string / _find_matching_paren static helpers
- _set_property_in_block / _set_hide_on_property /
  _remove_property_from_block surgical text-level edits that preserve
  formatting and the property's UUID
- _handle_edit_schematic_component rewritten to orchestrate
  add/update/remove and return a per-property summary
- New handlers _handle_set_schematic_component_property and
  _handle_remove_schematic_component_property registered in the
  command dispatch table

Tests (tests/test_schematic_component_properties.py):
32 tests covering escape helper, paren matcher, add/update/remove
(single + batched), full spec dicts, default position, default
(hide yes), special-character escaping, UUID preservation, protected
built-in field rejection, no-op removal, both new convenience tools,
and input validation. All 590 tests in the project still pass.

Docs: README, SCHEMATIC_TOOLS_REFERENCE, TOOL_INVENTORY, CHANGELOG.
2026-04-20 17:36:38 -07:00
Eugene Mikhantyev
7d50fa1d4c style: apply Prettier formatting to TS/JS/JSON/MD files
Add Prettier as a dev dependency with .prettierrc.json config and
.prettierignore. Hook added via mirrors-prettier in pre-commit config.
All TypeScript, JSON, Markdown, and YAML files auto-formatted.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-03-29 13:05:50 +01:00
Tom
e6deaa2408 docs: add v2.2.3 changelog + README — developer mode, snapshot logging, privacy warning 2026-03-11 11:20:05 +01:00
Tom
68fd4509b9 chore: update changelog and schematic template 2026-03-06 09:59:54 +01:00
Tom
53014b9733 fix: remove invalid ;; comments from template_with_symbols_expanded.kicad_sch
PROBLEM
-------
Upstream commit b98c94b added 7 comment lines (;; PASSIVES, ;; SEMICONDUCTORS,
;; INTEGRATED CIRCUITS, ;; CONNECTORS, ;; POWER/REGULATORS, ;; MISC,
;; TEMPLATE INSTANCES) to template_with_symbols_expanded.kicad_sch.

KiCAD's S-expression parser does NOT support any comment syntax.
It expects every non-empty line to begin with '('. These comments caused
KiCAD 9 to refuse opening any schematic generated from this template:

  Expecting '(' in <file>.kicad_sch, line 8, offset 5

AFFECTED USERS
--------------
Any project whose .kicad_sch was generated by the MCP server after upstream
commit b98c94b and before this fix contains the same invalid lines. Those
files must be repaired manually: open the .kicad_sch in a text editor and
delete every line beginning with ';;'.

FIX
---
Remove all 7 ;; lines from the template. No functional change — the comments
provided no information that is not already evident from the symbol names.

ALSO
----
CHANGELOG: add critical bug-fix entry for this regression under v2.2.2-alpha
2026-03-01 21:12:51 +01:00
Tom
820097a570 docs: update CHANGELOG for v2.2.2-alpha (PR #49) 2026-03-01 17:40:40 +01:00
Tom
b1eb570183 fix: footprint param ignored, delete duplicates, add edit_schematic_component
Bug 1 - add_schematic_component: footprint parameter silently ignored
  The footprint value from MCP params was never passed through to
  DynamicSymbolLoader.add_component() / create_component_instance().
  Every placed symbol had an empty Footprint field regardless of input.
  Fix: added footprint: str='' to both functions, passed through all
  call sites, added footprint to schematic.ts tool schema.

Bug 2 - delete_schematic_component: only deleted first duplicate
  When a reference appeared multiple times (e.g. after a failed
  add attempt), only the first instance was removed due to break
  after first match. Fix: collect all matching blocks first, then
  delete back-to-front to preserve indices. Response now includes
  deleted_count.

New tool - edit_schematic_component
  Update footprint, value or reference of a placed symbol in-place.
  More efficient than delete+re-add: preserves position and UUID.
  Accepts: schematicPath, reference, footprint?, value?, newReference?

All 3 fixes verified by live tests on a real JLCPCB/KiCAD 9 project:
  - R_TEST1: footprint Resistor_SMD:R_0603_1608Metric written correctly
  - J1 duplicate: deleted_count=2 with single call
  - J2 edit: PinSocket footprint assigned in-place, no delete+add needed
  - PCB update (F8) confirmed: only components with footprint imported
2026-02-28 15:21:07 +01:00
Tom
ce78fb4111 fix: update templates to KiCAD 9 format + remove corrupt _TEMPLATE_ blocks
Verified by live test: created a fresh schematic via MCP, result shows
format version 20250114, 0 _TEMPLATE_ hits, 0 (lib_id -100) hits, 24
real components placed cleanly.

--- Format version bump (20230121 KiCAD 7 -> 20250114 KiCAD 9) ---
Files: python/templates/*.kicad_sch, python/commands/project.py,
       python/commands/schematic.py

Root cause: the MCP server targets KiCAD 9 exclusively - pcbnew.pyd is
compiled for KiCAD 9.0 / Python 3.11.5, and server.ts explicitly selects
the KiCAD 9 bundled Python on Windows. Generating new schematics with a
2-year-old format tag caused a spurious 'This file was created with an
older KiCAD version' warning on every newly created schematic.

--- Remove corrupt _TEMPLATE_* placed-symbol blocks ---
File: python/templates/template_with_symbols_expanded.kicad_sch

Root cause: the expanded template was generated by the old sexpdata
serializer (same corruption PR #40 fixed for DynamicSymbolLoader add-path).
The serializer converted the string 'Device:R' to integer -100, producing
(lib_id -100) instead of (lib_id Device:R). KiCAD cannot resolve an
integer as a library reference and crashes with a null-pointer when the
user attempts to select these symbols. They appeared as grey _TEMPLATE_R?,
_TEMPLATE_C?, _TEMPLATE_U_REG? etc. ~5000mm off-sheet - invisible during
normal work but triggering a crash on accidental box-select.

Discovered via live testing on a real JLCPCB/KiCAD 9 project.
2026-02-28 14:40:32 +01:00
Tom
1ba86f7769 feat: datasheet tools + fix missing delete_schematic_component
New tools - datasheet:
- get_datasheet_url: construct LCSC datasheet PDF URL + product page URL
  without any API key (URL schema: https://www.lcsc.com/datasheet/<C#>.pdf)
- enrich_datasheets: scan .kicad_sch, write LCSC datasheet URL into every
  symbol that has an LCSC property but an empty Datasheet field; supports
  dry_run=true for preview; text-based implementation (no skip writes)
  Implementation: python/commands/datasheet_manager.py

New tool - schematic:
- delete_schematic_component: remove a placed symbol from a .kicad_sch file
  by reference designator (e.g. R1, U3)

Bug fix - delete_schematic_component (two separate root causes):
1. No MCP tool named delete_schematic_component was registered at all.
   Any delete-symbol request fell through to the PCB-only delete_component
   tool which searches pcbnew.BOARD and always returned 'Component not found'
   for schematic symbols.
2. component_schematic.py::remove_component() still used skip for writes.
   PR #40 rewrote DynamicSymbolLoader (add path) to avoid skip-induced
   schematic corruption, but the delete path was not touched by that PR.

Fix: _handle_delete_schematic_component in kicad_interface.py uses direct
text manipulation with parenthesis-depth tracking (same technique as PR #40),
bypassing component_schematic.py entirely. Error message explicitly guides
users: 'use delete_component for PCB footprints'.

Files changed:
- python/commands/datasheet_manager.py (new)
- src/tools/datasheet.ts (new)
- python/kicad_interface.py: 3 new handlers + dispatch entries
- src/tools/schematic.ts: delete_schematic_component tool
- src/server.ts: registerDatasheetTools import + call
- src/tools/index.ts: export registerDatasheetTools
- CHANGELOG.md: document all above
2026-02-28 13:48:35 +01:00
Tom
76503b144c fix: generate_netlist schematic_path, PinLocator cache, server.ts Python detection
- connection_schematic.py: generate_netlist() now accepts schematic_path param,
  threaded through to get_net_connections() so PinLocator is actually invoked
  (previously only 1 connection per component was returned due to fallback break)
- kicad_interface.py: pass schematic_path to generate_netlist()
- pin_locator.py: add _schematic_cache to avoid loading Schematic() once per pin
  (was causing timeout: O(nets x components x pins) Schematic() calls)
- server.ts: remove fragile PYTHONPATH?.includes('KiCad') condition,
  always prefer KiCAD bundled Python on Windows when executable exists
- CHANGELOG.md: document fixes under v2.2.0-alpha
2026-02-28 01:23:36 +01:00
Tom
2945b52eae feat: Add missing routing/component tools and fix SWIG/UUID bugs
New MCP tools added (TypeScript layer):
- Routing: delete_trace, query_traces, get_nets_list, modify_trace,
  create_netclass, route_differential_pair, refill_zones (with SWIG warning)
- Component: get_component_pads, get_component_list, get_pad_position,
  place_component_array, align_components, duplicate_component

Bug fixes:
- routing.py: Fix SwigPyObject UUID comparison (str() -> m_Uuid.AsString())
- routing.py: Fix SWIG iterator invalidation after board.Remove()
  by converting board.Tracks() to list() before iteration
- routing.py: Add board.SetModified() and clear Python refs after Remove()
  to prevent dangling SWIG pointers crashing subsequent calls
- routing.py: Wrap each track access in try/except in query_traces()
  to gracefully skip invalid track objects after bulk delete
- routing.py: Add missing return statement (mypy fix)
- library.py: Fix search_footprints param mapping search_term->pattern
- library.py: Fix fp.name -> fp.full_name field access
- library.py: Accept both 'pattern' and 'search_term' parameter names
- library.py: Add library filter support in search_footprints
- library.py: Fix loop variable shadowing Path object (mypy fix)
- design_rules.py: Add type annotation for violation_counts (mypy fix)

Contribution guidelines followed (CONTRIBUTING.md):
- black python/ applied (3 touched files pass without changes)
- mypy python/ passes with 0 errors on all changed files
- npx prettier --write applied to changed TypeScript files
- npm run build passes (tsc --noEmit: 0 errors)
- Commit messages follow feat:/fix: convention

Note on diff size: The large insertion/deletion count in the changed files
is due to black and prettier reformatting previously unformatted code
(missing trailing commas, quote style, line length). The actual logic
changes are limited to the 6 files listed above.

Note: refill_zones has known SWIG segfault risk (see KNOWN_ISSUES.md).
Prefer IPC backend (KiCAD open) or zone fill via KiCAD UI.
2026-02-27 18:15:46 +01:00
KiCAD MCP Bot
6fffb39bc7 docs: Document Phase 2 power net and wire connectivity completion
Comprehensive documentation of Phase 2 achievements including power symbol support, wire graph analysis for net connectivity, critical bug fixes (template mapping, special character handling), and 100% passing integration tests. Removes emoji per style guidelines.

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
2026-01-10 11:14:18 -05:00
KiCAD MCP Bot
d396ccd61f docs: Update README and CHANGELOG with wiring implementation
Documentation Updates:
- README: Updated Schematic Design section from 6 to 9 tools
- Added "Wiring & Connections" subsection highlighting new capabilities
- Documented automatic pin discovery with rotation support
- Listed smart routing options (direct, orthogonal)
- Added net label management features
- CHANGELOG: Added Phase 1 wiring system entry with complete feature list

New Features Documented:
- add_schematic_connection with auto pin discovery
- add_schematic_net_label with orientation control
- WireManager and PinLocator implementation
- S-expression precision and format compliance

Part of Issue #26 schematic wiring implementation

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
2026-01-10 10:39:07 -05:00
KiCAD MCP Bot
994965e041 feat: Complete Phase 1 & 2 - Schematic workflow fix and JLCPCB integration
Phase 1: Schematic Workflow Fix (Issue #26)
- Fixed broken schematic workflow using template-based symbol cloning
- Updated create_project to generate both PCB and schematic files
- Rewrote add_schematic_component to use kicad-skip clone() API
- Added template schematics with cloneable R, C, LED symbols
- All schematic tests now passing

Phase 2: JLCPCB Integration Complete
- Integrated JLCSearch public API (no authentication required)
- Access to ~100k JLCPCB parts with real-time stock and pricing
- Implemented parametric search for resistors, capacitors, components
- Added package-to-footprint mapping for KiCad integration
- Cost optimization with Basic vs Extended library classification
- Alternative part suggestions with price comparison

New Components:
- python/commands/jlcsearch.py - JLCSearch API client
- python/templates/ - Template schematics for symbol cloning
- docs/JLCPCB_INTEGRATION.md - Comprehensive API documentation
- docs/SCHEMATIC_WORKFLOW_FIX.md - Phase 1 technical details
- CHANGELOG.md - Consolidated unified changelog
- PHASE_2_COMPLETE.md - Phase 2 implementation summary

MCP Tools Available:
- download_jlcpcb_database - Download full parts catalog
- search_jlcpcb_parts - Parametric search with filters
- get_jlcpcb_part - Part details + footprint suggestions
- get_jlcpcb_database_stats - Database statistics
- suggest_jlcpcb_alternatives - Find similar/cheaper parts

Technical Improvements:
- SQLite database with FTS5 full-text search
- HMAC-SHA256 authentication support (official JLCPCB API)
- Improved .gitignore to exclude credentials and databases
- Template-based schematic creation workflow

Testing:
- All integration tests passing
- Database operations validated
- Live API connectivity confirmed
- Schematic workflow end-to-end verified

Credits:
- JLCSearch API: @tscircuit
- Local JLCPCB search: @l3wi

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
2026-01-10 09:04:56 -05:00