The symbol-to-schematic y-flip was applied twice in sequence (two identical
negation blocks with matching comments), cancelling out and leaving pin
Y-coordinates mirrored about the placement Y. For symmetric passives the
bug is invisible (pin 1 and pin 2 are electrically interchangeable); for
ICs with non-equivalent pins (power pins, opamp inputs, etc.) this causes
tools that go through PinLocator — connect_to_net, add_schematic_connection,
add_schematic_net_label with componentRef+pinNumber — to place connections
at the mirror-flipped pin. Verified against kicad-cli generate_netlist
ground truth: on a Device:R placed at (111.76, 83.82), pin 1 resolves to
y=80.01 (actual) vs y=87.63 (pre-fix).
This is a regression of PR #103, which originally fixed the y-negation;
the redundant second block was added subsequently.
Includes a regression test with both a straight Device:R and a rotated
Device:C to exercise the y-flip + rotation pipeline.
connect_to_net and connect_passthrough previously only touched the
schematic: a wire stub plus a net label were added via
ConnectionManager, but the corresponding pad on the .kicad_pcb was
never updated.
pcbnew.SaveBoard() silently drops every net that is not referenced by
at least one board element (pad/track/via/zone). A net that exists
only in the schematic therefore disappears on save, and in KiCad the
board's ratsnest never shows anything.
Fix:
- new _assign_net_to_pad(component_ref, pin_name, net_name):
ensures the net exists on the board (creates NETINFO_ITEM if not)
and sets it on the matching pad of the matching footprint.
- _handle_connect_to_net calls it after the schematic op when
self.board is loaded.
- _handle_connect_passthrough parses ConnectionManager's 'connected'
entries ('J1/1 <-> J2/1 [PIN_1]') and assigns nets to both pads.
- register 'connect_to_net' in _BOARD_MUTATING_COMMANDS so the
existing auto-save path persists the pad assignment to disk.
Passing net_name='*' now deletes all tracks on the board (respecting
the include_vias flag). Useful for wiping a test layout before
re-routing without having to iterate every net by name.
board.GetLayerStack() was removed in KiCad 9. Call SetLayerName and
SetLayerType directly on the board instead, and grow the copper layer
count via SetCopperLayerCount when adding inner layers. Without this,
add_layer raises AttributeError on any KiCad 9 installation.
KiCad 10.0 on Windows ships pcbnew.py under bin/Lib/site-packages rather
than the lib/python3/dist-packages path used by KiCad 9.x. Without this
path the MCP server's Python process fails to import pcbnew and exits
immediately with "Failed to import pcbnew module - KiCAD Python API not found".
Changes:
- Prioritise 10.0 in the version list so the newer path is checked first
- Add bin/Lib/site-packages check before the existing lib/python3/dist-packages
check for every version, so both layouts are supported side-by-side
Note: the pcbnew extension is compiled against KiCad's bundled Python 3.11,
so callers must also set KICAD_PYTHON to the KiCad python.exe
(C:\Program Files\KiCad\10.0\bin\python.exe) to avoid a DLL version
conflict when the system Python differs.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
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).
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.
Adds robust multi-sheet (hierarchical) net connectivity for KiCad
schematics and switches the wire/label parsing to a direct sexpdata
pipeline that bypasses kicad-skip's collection iteration, which was
silently dropping wires, labels, and symbol instances on real-world
schematics.
python/commands/wire_connectivity.py
- New sexpdata helpers: _load_sexp, _parse_wires_sexp,
_parse_labels_sexp, _parse_symbol_instances_sexp,
_parse_hierarchical_labels_sexp, _discover_sub_sheets.
- _build_adjacency now detects T-junctions (endpoint landing on
another wire's interior segment) so adjacency captures connections
KiCad doesn't represent as separate wire segments.
- _find_connected_wires gains an interior-segment fallback so labels
placed mid-wire still seed BFS correctly.
- _parse_virtual_connections gathers label / global_label /
hierarchical_label and power-symbol pin positions, with a
kicad-skip fallback for unit tests that mock the schematic.
- _find_pins_on_net rebuilds pin positions from sexpdata symbol
instances (with mirror_x/mirror_y/rotation handling) and uses a
plus/minus 1 IU tolerance for floating-point edge cases.
- get_connections_for_net walks the top sheet plus every recursively
discovered sub-sheet, deduping pins across sheets.
python/commands/pin_locator.py
- lib_id matching now falls back to a bare-name + unit-suffix match
so instances like "stat-tis-custom:BAT_18650" resolve to
lib_symbols entries like "BAT_18650_3".
- Pin position math now y-negates lib_symbols coords, applies
mirror_x/mirror_y in local coords before rotation, and propagates
the same transform into get_pin_orientation so downstream callers
get a correct outward angle for mirrored symbols.
python/commands/connection_schematic.py
- generate_netlist now collects nets from both label and
global_label and routes them through get_connections_for_net so
netlists reflect cross-sheet connectivity instead of single-sheet
label-only nets.
python/kicad_interface.py
- list_schematic_nets aggregates net names across the top sheet and
all sub-sheets via the sexp helpers, then resolves connections
using get_connections_for_net.
- get_net_connections delegates to get_connections_for_net for
consistent multi-sheet results.
Three bugs fixed in the schematic component and pin locator pipeline:
1. component_schematic: remove redundant symbol.append() after clone()
kicad-skip's clone() already inserts the raw element into the schematic
tree. The subsequent NamedCollection.append() detects the reference as
already registered (from the elementRename triggered by setting
property.Reference.value) and renames it "R1_" with a trailing
underscore, causing all subsequent pin lookups to fail.
2. pin_locator: negate lib y coordinate before rotation
lib_symbols in .kicad_sch use library y-up convention; schematic
coordinates use y-down. get_pin_location now negates pin_rel_y before
applying rotation, matching KiCad's own transform order (same approach
as _transform_local_point in schematic_analysis.py).
3. pin_locator: add .rstrip("_") guard in all symbol reference lookups
Defensive guard against any residual cases where kicad-skip writes a
trailing underscore to the Reference property value.
Also fixes the self-test script to use template_with_symbols.kicad_sch
(which contains placed _TEMPLATE_* symbols) rather than the expanded
template (which only contains lib_symbols definitions and has no cloneable
instances).
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Adds two new MCP tools for working with free-form text annotations
(SCH_TEXT elements) in KiCad schematics:
- add_schematic_text: place a text note with optional angle, font size,
bold/italic, and justification
- list_schematic_texts: list all text annotations with optional
case-insensitive substring filter
Includes WireManager.add_text / list_texts using _text_insert + sexpdata,
handler dispatch in KiCADInterface, TypeScript tool definitions, registry
entry, reference doc updates, and 30 unit tests.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
15 tests covering:
- Empty schematic → empty maps
- Global / local / hierarchical labels at pin endpoints
- Net propagation through one and two wire hops
- Unconnected pin stays absent from map
- Power (#PWR) and flag (#FLG) symbols excluded from component map
- Components in sub-sheets collected alongside top-level components
- 90° rotated symbol produces correct absolute pin positions
Uses MagicMock skip.Schematic objects patched in both the walker
import and commands.pin_locator module namespace; lib_symbols are
provided in real on-disk .kicad_sch files so sexpdata parsing runs
without mocking.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Hierarchical KiCad schematics store all components in sub-sheets;
the top-level .kicad_sch only contains sheet references. The previous
sync_schematic_to_board implementation called generate_netlist on the
top-level file only, which has no components, so it always returned
0 pads assigned.
Replace with _build_hierarchical_pad_net_map which:
- rglobs all .kicad_sch files in the project directory
- For each sheet, collects label positions from label, global_label,
and hierarchical_label via skip.Schematic
- Adds power symbol (#PWR/#FLG) positions using their Value as net name
- Builds a wire adjacency graph and BFS-propagates net names through
wire segments to reach pins not directly under a label
- Calls PinLocator.get_all_symbol_pins to get absolute pin positions,
then matches to the propagated net map within 0.5 mm tolerance
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Adds python/annotations/loader.py (AnnotationLoader) which resolves MCP
tool names to KiCad IPC proto message annotations using three layers:
1. Explicit TOOL_TO_PROTO mapping for non-obvious name pairs
2. Automatic snake_case → PascalCase conversion
3. Suffix-stripped variants (get_nets_list → GetNets)
Integrates into kicad_interface.py tools/list handler:
- Tools with existing schemas: enrich_schema() adds blocking/interactive
ToolAnnotations hints and fills description gaps
- Tools without schemas (fallback): gets a real description from the
IPC annotation instead of the generic "KiCAD command: <name>" string
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Generated by scripts/generate_tool_annotations.py --fetch-from-gitlab --use-cli.
Covers all command messages across board, schematic, and common proto files.
Stored in python/annotations/ (data/ is gitignored for large JLCPCB databases).
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Adds a second annotation backend that shells out to the 'claude' CLI
(Claude Code) instead of calling the Anthropic SDK. This allows users
with a Claude.ai monthly subscription to run the annotation script
without needing an API key.
The SDK backend (default) still uses prompt caching on the proto context
block for cheaper repeated/resumed runs. The CLI backend skips caching
but works out of the box with a Claude.ai account.
Usage:
# Monthly plan (no API key)
python scripts/generate_tool_annotations.py --fetch-from-gitlab --use-cli
# API key (with prompt caching)
python scripts/generate_tool_annotations.py --fetch-from-gitlab
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Reads KiCad's IPC API proto definitions and uses the Claude API to generate
rich, user-facing descriptions for MCP tool metadata. The output JSON file
can be loaded by an MCP server at startup to annotate auto-generated tools.
Features:
- Fetches proto files from KiCad GitLab or loads from a local checkout
- Pure-Python proto parser (no protoc dependency)
- Prompt caching on the static proto context block — re-runs are cheap
- --resume to skip already-annotated messages after an interrupted run
- --dry-run to preview what would be annotated without calling the API
- Reports cache hit/write/read token counts after each API call
Usage:
python scripts/generate_tool_annotations.py --fetch-from-gitlab
python scripts/generate_tool_annotations.py --proto-dir /path/to/kicad/api/proto
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
The Python executable and PYTHONPATH were hardcoded to Windows paths,
causing the server to fail silently on macOS/Linux. Now reads
KICAD_PYTHON from the environment (set by setup-macos.sh) with
python3 as the fallback.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
When add_schematic_component is called with a schematic that lives in a
sub-folder (e.g. sheets/rs485.kicad_sch), the handler derived the project
path as schematic.parent — which in a hierarchical project is the sheets/
directory, not the project root. Any project-local symbol library declared
in sym-lib-table (using ${KIPRJMOD}) is invisible to DynamicSymbolLoader
from that directory, causing "Symbol 'X' not found in library 'Y'" even
though the library file and sym-lib-table entry both exist.
Fix: walk the ancestor chain from the schematic file upward until a
directory is found that contains a sym-lib-table file or a .kicad_pro
file, then use that as the project root for library resolution.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
WireManager.delete_label only checked for Symbol("label") when scanning
the schematic s-expression list, so it silently skipped and failed to
delete global_label and hierarchical_label elements — returning False
with "No matching label found" even when a visible label existed at the
given coordinates.
Fix: collect all three label-like symbol types into a set and use `in`
instead of `==` for the type check.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
In hierarchical KiCad designs, sub-sheets (.kicad_sch files referenced
via (sheet ...) blocks) do not have a (sheet_instances) section — that
only appears in the top-level schematic.
WireManager.add_label was returning False with a logged error whenever
no (sheet_instances) marker was found, making it impossible to add any
net label (local, global, or hierarchical) to a sub-sheet.
Fix: fall back to inserting before the final item of the s-expression
list, which is equivalent to appending before the closing ')' of the
outer (kicad_sch ...) block.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Covers create_component_instance and _handle_add_schematic_component:
- default unit=1 behaviour
- explicit unit 2 and 4 written to (unit N) in schematic S-expression
- (instances ...) block also records the correct unit
- multiple units of the same reference placed independently
- handler param validation (missing schematicPath, missing component)
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Allows placing a specific unit (A=1, B=2, C=3, …) of a multi-unit KiCad
symbol rather than always defaulting to unit 1. Required for quad
optocouplers, dual op-amps, and other multi-unit parts where each channel
must be placed independently.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Covers the three bugs fixed in the previous commit:
- TestAddComponentNoTrailingUnderscore (integration): verifies clone() + no extra append()
- TestPinLocatorYAxisNegation (unit): rotation=0 and 90° cases with y-negation
- TestPinLocatorReferenceRstrip (unit): lookup tolerates 'R1_' artifact from kicad-skip
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Three bugs fixed in the schematic component and pin locator pipeline:
1. component_schematic: remove redundant symbol.append() after clone()
kicad-skip's clone() already inserts the raw element into the schematic
tree. The subsequent NamedCollection.append() detects the reference as
already registered (from the elementRename triggered by setting
property.Reference.value) and renames it "R1_" with a trailing
underscore, causing all subsequent pin lookups to fail.
2. pin_locator: negate lib y coordinate before rotation
lib_symbols in .kicad_sch use library y-up convention; schematic
coordinates use y-down. get_pin_location now negates pin_rel_y before
applying rotation, matching KiCad's own transform order (same approach
as _transform_local_point in schematic_analysis.py).
3. pin_locator: add .rstrip("_") guard in all symbol reference lookups
Defensive guard against any residual cases where kicad-skip writes a
trailing underscore to the Reference property value.
Also fixes the self-test script to use template_with_symbols.kicad_sch
(which contains placed _TEMPLATE_* symbols) rather than the expanded
template (which only contains lib_symbols definitions and has no cloneable
instances).
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Moves a net label (local, global, or hierarchical) to a new position in
place, avoiding the error-prone delete-then-re-add workflow. Supports an
optional currentPosition disambiguator and labelType filter.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
The Python executable and PYTHONPATH were hardcoded to Windows paths,
causing the server to fail silently on macOS/Linux. Now reads
KICAD_PYTHON from the environment (set by setup-macos.sh) with
python3 as the fallback.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Bundles two changes for python/commands/schematic.py:
1. CRLF → LF line-ending normalization (matches the bulk renormalize
from the previous commit — was held back here because black would
also need to re-reformat it).
2. Black reflow of create_schematic()'s parameter list, which exceeded
the line length. Pre-existing drift, no logic change.
`git show --ignore-all-space HEAD` shows just the 2-line signature diff.
Mechanical application of the `.gitattributes` rules from the prior commit.
All 50 files differ only in line endings — verified by
`git diff --cached --ignore-all-space` being empty.
Before: main had 42 CRLF + 27 LF Python files plus mixed-ending in YAML,
templates, and shell scripts. After: every text file is LF (except the
Windows-native *.ps1, *.bat scripts which remain CRLF per gitattributes).
This eliminates the noisy-diff failure mode seen in PR #102, where a
small logic change produced a 918-line diff due to whole-file CRLF→LF
conversion.
Introduces a three-layer defence against CRLF/LF drift:
- `.gitattributes` normalizes all text files to LF on commit and checkout;
Windows-native scripts (*.bat, *.cmd, *.ps1) explicitly keep CRLF.
- `.editorconfig` instructs editors (VS Code, JetBrains, vim, etc.) to save
with LF by default so the problem is prevented at the source.
- `mixed-line-ending --fix=lf` hook in pre-commit catches anything that
slips through and auto-fixes it before commit.
No file contents are normalized in this commit — that follows in a
separate `git add --renormalize .` commit for easier review.
The placeholder static method on LibraryManager (library_schematic.py)
returned [] and had no dispatch entry or caller. The real tool of the
same name lives in library_symbol.py.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Add optional netName (exact case-sensitive match) and labelType
(net/global/power enum) parameters. Both are optional and AND
together when combined. Omitting both preserves current behaviour.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>