Drop the orphaned PluginCallbackList (dead
after the PluginManager migration) and hop
run_on_*_callbacks onto the UI thread via
CallAfter, snapshotting under the mutex on the
worker first. Keeps wx subscribers off the
detached load/unload workers.
Only one action source ever existed, so the
IActionSource interface and ScriptActionSource
are gone. ActionRegistry now subscribes to the
plugin loader and enumerates actions directly
in init() - no polymorphism for one impl.
Replace the opaque FNV-hash SpeedDialActionId
with a readable composed id of the form
prefix:title:source_key. Split AppAction's
single source field into source_key (stable
identity, e.g. plugin_key) and source_name
(display), so identity and display no longer
share one field.
* fix: impl refactor
* fix: unload/load python module, race conditions, freezes
* remove dead code
* remove extra hook
* remove more dead code
* fix gil run script
reslice() now enforces only the missing-plugin block via
refresh_missing_plugin_block (no second Print::validate); plate
ready-status returns to upstream's plain model_fits, matching
GLCanvas3D::reload_scene. Also restores main's use_bbl_device_tab and
the check_track_enable comment, and drops two unused MainFrame includes.
Merge-resolution cleanup. The #12506 re-select path kept main's preset_bundle
null check, and both select_machine calls now use effective_agent_id rather than
mixing it with the equal-but-differently-named agent_info.id.
Resolve five conflicts, all of which needed both sides rather than a pick:
- BackgroundSlicingProcess: ours was a pure tabs->spaces reformat of base, so
keep main's per-filament volume/nozzle map read-back (its only change here).
- GUI_App: main's #12506 else-if attached to an `if` this branch deleted;
re-expressed onto the same-agent early-return path (the agent factory caches
per id, so pointer equality is the same predicate).
- MainFrame: both sides relocated Sync Presets independently; keep main's
push_notification plus the branch's Plugins menu items.
- Tab: the "TODO: Orca: Support hybrid" blocks were unchanged base, not a branch
decision; take main's enabled Hybrid to match the already auto-merged siblings.
- test_config: union of both sides' cases (6 plugin + 9 multi-nozzle).
Keep action identity and display metadata
constructor-set so registry keys cannot drift
from the objects they index.
Require sources to publish unique ownership while
the registry retains shared keepalive for runs.
Preserve opaque IDs and persisted state keys.
Lifecycle callbacks can be registered while
another thread dispatches them, risking races
and iterator invalidation.
Snapshot shared callback objects under a mutex,
then invoke them unlocked to preserve reentrancy
and mutable callback state.
For non-BBL host printers (Moonraker/Klipper, Qidi, Snapmaker, Creality), switch_printer_agent() only re-selected the machine when the agent type changed. Switching between two printer presets that use the same agent left the selected machine and the agent's cached device_info pointing at the previously active preset's host, so filament sync kept hitting the old printer.
Re-select the machine when the agent type is unchanged but the target host differs, so the selected machine and device_info always follow the active printer preset.
Co-authored-by: Noisyfox <timemanager.rick@gmail.com>
Plater's pImpl (unique_ptr<priv> p) is destroyed before the wxWindow base
destructor runs DestroyChildren(), so child GLCanvas3D windows are torn down
after p is gone. GLCanvas3D::~GLCanvas3D() -> reset_volumes() then dereferences
the freed p through two paths:
- Selection::clear() -> plater()->canvas3D() -> p->get_current_canvas3D()
- _set_warning_notification() -> plater()->get_notification_manager()
Guard both with the existing wxGetApp().is_closing() flag; both are UI-only
side effects that are no-ops during shutdown, so normal-use behavior is
unchanged.
Co-authored-by: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Move plugin capability enumeration, loader
subscriptions, and action construction into
ScriptActionSource. Keep ActionRegistry focused
on generic action state, dispatch, and snapshots.
Use source rather than package for generic origin
metadata so future non-plugin providers share the
same interface. Action IDs and persisted
configuration remain unchanged.
Subscribe before initial enumeration so plugin
events cannot be missed between the snapshot and
callback registration. Add a focused test for
source startup.
Decouple registry dispatch from plugin-specific
result types so future action types can provide
their own run implementations.
Store actions behind shared pointers to keep them
alive while plugin UI pumps a nested event loop
and queued refreshes mutate the registry. Scope
"don't ask again" to an individual action instead
of its whole plugin.
* Fix issue that switching printer profile is slow.
`wxGetApp().get_tab(preset_type)->select_preset(preset_name);` is called twice when switching printer profiles. Only one needed.
* Avoid unnecessary type conversion & function call during printer profile switching:
- Don't call `config->opt_string("printer_model")` repeatedly
- Use ref when possible during iterating
- Avoid unnecessary `wxString` to `std::string` conversion
Follow-up to the rack-aware pre-print checks: after the blocking checks
pass, warn (without disabling Send) when the plate needs more matching
hotends than the rack printer currently holds - suggesting rack setup,
a nozzle info refresh, or a re-slice to avoid filament waste - or when
the only matches rely on unreliable nozzle information.
Text-only warning rows; this message board has no refresh or
don't-show-again buttons.
A print sliced for a nozzle that sits in the hotend rack (but is not
mounted) was blocked by the send dialog's mounted-nozzle diameter check,
even though the printer fetches the required nozzle itself (#14685).
Consolidate the three mounted-nozzle gates (_is_nozzle_data_valid,
is_nozzle_type_match, _is_same_nozzle_diameters) into a single
CheckErrorExtruderNozzleWithSlicing fed by s_get_slicing_extuder_nozzles,
which collects the plate's per-extruder nozzle requirements (hybrid
extruders contribute one entry per used sub-nozzle flow). The rack
extruder validates against its whole inventory (mounted + rack) with
guidance to calibrate the rack, refresh nozzle info, or re-slice, and
blocks when toolhead + rack are full (no free slot to stow a nozzle).
Other extruders keep the validity/flow/diameter checks against the
mounted nozzle.
Also add CheckErrorRackStatus, which holds Send while the printer is
still reading the rack hotend information, and judge material hardness
for the rack extruder per dispatch-mapped nozzle as a non-blocking
caution (mounted nozzles keep the blocking gate).
GUI_App::on_init_inner() carried the plugin dispatch policy inline (the
capability resolver and the slicing-pipeline dispatcher) and would grow
with every capability that fires from inside libslic3r.
plugin/PluginHooks.{hpp,cpp} now owns one file-local installer per hook,
aggregated by plugin_hooks::install() -- called from
PluginManager::initialize(), reset in shutdown() so no hook can enter
Python after the interpreter finalizes. The wx-side loader subscriptions
move into GUI_App::init_plugin_gui_wiring().
No behavior change; dispatch bodies moved verbatim.
* ENH: config: add logic to apply params to object/region config with multi-extruder
JIRA: no-jira
Change-Id: Ieab98cd8d031e5ca82a3aad2d0b89d8ae4a794f1
(cherry picked from commit 3179fd416e68ca8bc2d746f859508d07db18fe5b)
* FIX: X1C switch to H2D lose Highflow parameter
Jira: STUDIO-15272
Change-Id: Id8cf5d93a49d5542ac82f9554974b458e15c1193
(cherry picked from commit 15d9f072ff658a3beb4f916d978dfea12c2d9f16)
* Fix mishandling of `stride` param and add unit test for it
* Fix modified multi-variant per-obj option highlight
* Fix issue that per-obj FloatsOrPercents options are marked as dirty incorrectly when lost focus
---------
Co-authored-by: lane.wei <lane.wei@bambulab.com>
Co-authored-by: weiting.ji <weiting.ji@bambulab.com>
HoverLabel's constructor used SetSizerAndFit, which records the
count-hidden width as the panel's explicit minimum size. An explicit
minimum outranks best size in sizer allocation, so once the "(N)" count
was shown, any ancestor Layout() - e.g. switching the extruder flow type
to Standard or High Flow - shrank the title row back to the stale width
and clipped the trailing edit button. Hybrid only appeared correct while
nothing had re-laid the row since its own Fit().
Use plain SetSizer and, on every title/count change, invalidate the
cached best size and re-lay both the row and its parent so the sizer
always allocates the current content width.
Bind libslic3r's TriangleMesh directly with a shared_ptr holder rather than
wrapping it in a HostTriangleMesh snapshot struct. ModelVolume.mesh() hands
out the volume's own shared_ptr (via const_pointer_cast, which only serves
the holder type), so the Python object pins the snapshot exactly as the
wrapper did, and the zero-copy views now use the Python object as their
array base — deleting the capsule machinery.
The wrapper's type-level constness becomes a documented rule instead:
handed-out meshes are copy-on-write snapshots shared across threads, so the
binding exposes only const methods; a future mutable-mesh API must operate
on plugin-owned copies handed back via ModelVolume::set_mesh.
No Python-visible change (orca.host.TriangleMesh, same methods/docstrings),
and plugins now hold the real class a future set_mesh() will accept.
Verified with slic3rutils and fff_print suites.
Deleting an object's instance leaves a stale (obj_id, instance_id) pair in
PartPlate::obj_to_instance_set until it is pruned. object_list_changed() runs
during the delete path and calls has_printable_instances(), which guarded only
obj_id and then indexed object->instances[instance_id] on the now-shorter
vector, dereferencing a garbage ModelInstance* and crashing with SIGSEGV. The
reported fault address (0x12a) matches a member read on that bad pointer.
Reuse the existing valid_instance() helper, which bounds-checks both obj_id and
instance_id, at every obj_to_instance_set scan that was missing the instance-id
check: has_printable_instances(), printable_instance_size(),
is_all_instances_unprintable(), get_extruders_under_cli(),
duplicate_all_instance() and set_pos_and_size() (the last had no bounds check at
all). valid_instance() is made const so the const CLI scan can call it.
Fixes#14159
- FilamentMapDialog's manual page understands volume types: a mixed
(Hybrid) extruder shows separate Standard / High Flow drop zones
with live sub-nozzle counts, a validation timer with an inline
error + "set nozzle count" suggestion, and composes a per-filament
volume map on OK (persisted to the plate or globally)
- switching an extruder's Flow type rewrites the affected plate map
entries; plate maps stay sized across filament add/delete/count
changes (values keep their filament, no index shift)
- CLI: manual mapping on multi-nozzle printers synthesizes the volume
map from extruder flow types when absent; nozzle-manual mode
requires explicit maps; computed maps land on the plate so exported
projects carry filament_volume_maps
- filament_nozzle_map joins the project options (selection seeding +
filament-count resizing)
- pot entries for the new dialog strings
All 19 reference fixtures byte-identical; slicing an exported Hybrid
project reproduces its g-code byte-for-byte with the volume map
round-tripped through model_settings.config.
PluginHostApi.cpp had grown into one TU holding the module entry point plus
three unrelated domains (presets, model/mesh graph, app access), and
PluginHostSlicing.cpp mixed ownable geometry value types with the
non-owning live print graph. Reorganize the orca.host surface into
plugin/host/ with one registrar per domain:
- PluginHost.hpp/.cpp entry point (replaces PluginHostApi)
- PluginHostBindings.hpp internal per-domain registrar declarations
- PluginHostGeometry.cpp BoundingBox, Point, Polygon, ExPolygon + ndarray parsing
- PluginHostMesh.hpp/.cpp TriangleMesh snapshot (own TU ahead of planned
mesh construct/mutate APIs)
- PluginHostPresets.cpp Preset, PresetCollection, PresetBundle
- PluginHostModel.cpp scene graph: Model, ModelObject, ModelInstance, ModelVolume
- PluginHostApp.cpp Plater + plater()/model()/preset_bundle() accessors
- PluginHostSlicing.cpp live print graph only, now with a single lifetime story
- PluginHostUi.hpp/.cpp moved unchanged
PluginBindingUtils.hpp stays at plugin/ root: it is shared with pluginTypes/
and tests, not host/-specific.
No Python-visible change: same submodules, class names and docstrings.
Verified with slic3rutils and fff_print suites.
- the g-code writer tracks the current layer id and resolves
FILAMENT_CONFIG/NOZZLE_CONFIG (plus every non-macro variant lookup,
toolchange placeholder scalars, and the change-filament flush
overrides) through Print's per-filament, per-layer config-index
resolvers instead of the filament->extruder collapse
- update_layer_related_config refreshes the per-layer
extruder/volume/nozzle maps in the writer config;
update_placeholder_parser_with_variant_params remaps the
filament-variant arrays into filament-id space for custom g-code
(Orca's flush placeholder computation moves inside it)
- the engine's concrete per-filament volume assignment now merges into
the config write-back (the temporary hold from the producer commit
is lifted together with these consumers), and the background process
reads the computed volume map back to the plate
- append_full_config dumps the resolved filament_map_2 slots
- update_used_filament_values gains a bounds guard
- tests: per-filament Hybrid slot resolution + null-result fallback
Result: on a Hybrid extruder, each filament's features slice with its
assigned sub-nozzle's variant values (speeds, volumetric limits,
retraction). Verified on a 4-filament H2C Hybrid project: outer walls
split into three feedrate populations (30/50/200 mm/s), toolpath
geometry byte-identical, deterministic across repeated slices. All 18
non-Hybrid reference fixtures stay byte-identical except the
filament_map_2 header value now showing the real slot. Auto grouping
ties (multiple zero-flush perfect matchings) may pick a different
filament-to-nozzle isolation than other slicers; verified co-optimal.