Before, we did not actually prevent users from adding a field also named
Quantity to their symbols. This of course does not play nicely with the
assumptions that Quantity is a special column in the fields editor.
By making it a named variable, the user can safely add it to a symbol
and it will not be editable, and will also work in the fields table
editor as expected.
Default dialog to SPICE command.
Any of the three axis locks must lock the plotWindow Y axis (otherwise
locking Y2 but not Y1 doesn't preclude zooming).
CHANGED abandon the unpredictable behaviour of the Simulation Command
dialog. You now separately add simulation tabs (which have invariant
command types once created), and the dialog edits the current tab.
Also a bunch of bug fixes to make multiple simulation plots actually
work.
You must first check the checkbox in the Simulation Command dialog,
after which the signals will appear in the User Defined Signals
autocomplete lists.
Using a boolean argument just leads to a lot of trailing booleans in the
function calls and is not user friendly. Instead, introduce PostAction()
to send an action that runs after the coroutine (equivalent to passing
false or the default argument), and leave RunAction as the immediate
execution function.
Also fixes a bug where Convert Symbol wasn't undoable.
Also cleans up some SetModified() call no longer needed with SCH_COMMIT.
Also fixes bug where revert of a modification didn't update the screen's
RTree.
Fixes https://gitlab.com/kicad/code/kicad/-/issues/15030
The connection graph should only be updated within the commit structure
because this is the only time the connectivity should be changed. We
want any connectivity changes to be included in the commit as well, so
this should be stored prior to the undo/redo list mods
Late bind the range selection event so we don't lose our selection as a
result of loading data into the table, then jumping to the selected
value.
Fixes: https://gitlab.com/kicad/code/kicad/-/issues/14186
Change teardrop generation to rely more heavily on BOARD_CONNECTIVITY
for improved performance.
Add updating of teardrops on BOARD_COMMIT::Push().
Also converts m_CopperItemRTreeCache to std::shared_ptr.
We don't copy it around anyway, and having to create a new set
of std::unique_ptr's for each operation is likely to be more
expensive than std::shared_ptr's overhead.
SCH_CONNECTION objects are temporary and can become stale any time the
connectivity is updated. Keeping them around to reference later is a
bad idea. Even if the object pointer is still valid in an SCH_ITEM in
the undo/redo buffers, comparing the pointer against another pointer as
a test to see if they are the same connection is not valid. Saving the
connection name is safe and ensures the connection is the same even if
the pointers differ.
A sheetpath is required to correctly resolve text variables.
Depending on currentSheet is rife with bugs.
There are many places where we do *not* want to be prepending
field names to the field values, such as netlisting,
building PDF hypertext menus, etc.
Also, Find/Replace needs to work on unresolved text, as
that's what we're going to display (and if replace nuked
your variable references you wouldn't be happy).
Also simplifies the scoring algorithm so that it only
differentiates between exact-match, match-at-start and
any-match. The rest of the position-based matching
stuff is gone, as is the knowledge of the name vs the
keywords vs the description. All that is left to the
provider of the weighted search terms array.
Provides a single-point access for modifying the schematic and symbol
elements that allows chaining updates and reverting partial changes.
Standardizes the undo hierarchy between pcb and schematic editors
As this is another layer on the existing undo/redo structure, the
initial commit does not replace all undo/redo calls currently existing.
These will be handled in a series of follow-on commits
- Ensure a change in plugin type is detected
- do not force automatic plugin type selection for *.lib files that need
an access to these libraries: they can be not always available.
in GetMsgPanelInfo() (PPI, scale).
m_image name was confusing: it is not a wxImage, but a BITMAP_BASE item,
and m_image name was already in use in BITMAP_BASE, used inside SCH_IMAGE.
Bitmap properties dialog: show PPI value and add Title to dialog.
- Ensure that critical paths (ERC/netlister) are fully-rechecked
- Handle symbol/pin distinction in change markers
- Fully connect hierarchical pins in one pass descending
Previously, almost all connectivity updates were full updates, meaning
that the entire connectivity graph would be rebuilt each time a change
was made to the schematic. This update modifies the update to only
correct the subgraphs that are directly affected by the change.
It uses the existing connection graph to find all affected subgraphs as
well as connections to the changes based on the visible schematic.
These elements are removed from the existing connectivity graph and
marked dirty. They then have a new connectivity graph built only around
their changes. The resulting graph is merged into the original.
Currently, this ability is behind an advanced config flag
`IncrementalConnectivity` while testing.
Fixes https://gitlab.com/kicad/code/kicad/issues/10846
Fixes https://gitlab.com/kicad/code/kicad/issues/1794
Adds maximum step size setting used by transient analysis solver,
and 'use initial conditions (uic)' setting. Enabling uic disables
DC operating point analysis and may introduce singularities. It requires
a careful selection of initial conditions of circuit elements.
Fixes https://gitlab.com/kicad/code/kicad/issues/2515
Previously, bus elements that were not instantiated as individual nets
could not connect to each other. This caused issues for complex
schematics where busses needed to connect to other busses with elements
that resolved to the same net names. Functionally, this means mixing
bus elements, which we will replace with first-class elements in version
8 but currently can only be accomplished either by using bus aliases and
this patch or by individually instantiating each bus element as a
local label
Fixes https://gitlab.com/kicad/code/kicad/issues/14300
Move the internal columns and rebuild the table when a user moves the
columns. This is the only way to fix selection issues across reordered
columns.
Fixes: https://gitlab.com/kicad/code/kicad/-/issues/12295
Qty column can now be hidden.
We eventually need to get to the point that we are able to rearrange the
columns in the internal data model to work around wxGrid selection
issues.
The simulator has advanced considerably, and it is seeing lots of active
development, so make it a required part of KiCad. Additionally, the
build without the simulator has actually been broken for a while, so no
one clearly is building without ngspice right now.
1) More REPORTER, less exception processing
2) Remove UI calls from SPICE_MODEL
3) Don't replace netlist with errors; show both
4) Don't bail out of netlist generation after single error
Fixes https://gitlab.com/kicad/code/kicad/issues/14295
The list of candidates (names) must be restricted to existing global labels
and symbols creating a global net name: power symbols having only one power
input pin (a power output does not create net name).
Fixes#14319https://gitlab.com/kicad/code/kicad/issues/14319
Also makes the strings match the GUI better so people will know where
to find them later.
And fixes a couple of ERC items that referred to Board Setup (oops).
Don't assume the dialog is mode-less and call Destroy() from within a
dialog method. This will most assuredly crash if the dialog is shown
modally or quasi-modally.
Don't leak memory for mode-less dialogs created on the stack. Make sure
when the parent frame window is closed that all mode-less dialog memory
is cleaned up. Dialogs are not child windows like controls and toolbars
so their memory does not automatically get cleaned up when the parent
window is destroyed.
Do not directly access frame parent window's pointer in dialog destructors.
Apparently the tear down order when destroying mode-less dialogs is not
guaranteed so the parent window may get deleted before the dialog causing
a crash when accessing the parent window pointer from the dialog dtor.
Do not close mode-less dialogs in the parent frame's destructor. This
doesn't guarantee that the dialog(s) will be destroyed before the parent
but it may reduce some careless mode-less dialog event handling in the
future.
- Avoid repetition and errors from typos
- Allow simple changes
- Simpler data type handling, the constants are wxString
(Cherry-picked from f135881bd6 in 7.0)
Note that the PCB editor's propGrid doesn't seem to need this workaround,
but I haven't yet figured out what's different between it and the sim model
propGrid.
Fixes https://gitlab.com/kicad/code/kicad/issues/13852
This adds Reset() method to KIFACE to reload global libs stored in
global static vars.
Also refactors some lib reload code in various frames to have
common MAIL_RELOAD_LIB handler.
Fixes https://gitlab.com/kicad/code/kicad/-/issues/12500
Create() is done without execption processing, while ReadDataFields
should have exception processing.
(This also fixes a case where exception processing on ReadDataFields
was missing.)
Also fixes a bug where the pinSelect menu wasn't checked for -1 before
fetching.
Fixes https://gitlab.com/kicad/code/kicad/issues/13856
Also fixes a bug so that voltages, currents and power dissipations are
only probed if the flag is set -- this keeps ngspice from throwing an
error if you probe something twice (for instance, if you have .probe
commands in text and turn off the auto-probing).
Remove some useless spacers, and do not force some widgets to have a to
large size (by removing empty areas).
Work in progress: one panel is still too big.
Rather than update library symbols one at a time, queue them up by
schematic symbol to prevent multiple updates to the same symbol in
complex hierarchies. This also removes all of the library symbols
first which will clear out all of the library symbol variants that
were created by modifying library symbols in place and/or changes to
the symbol in the library.
Don't add new variant library symbol if an equivalent variant already
exists in the schematic local cache. This prevents duplicate library
symbols from being added to the local cache when the first variant in
the cache does not match that of the symbol being added.
Fixes#10926
Contains the following changes:
- Adds a new ERC_SCH_PIN_CONTEXT class which is used to provide deterministic
comparison between items causing ERC violations (e.g. pins) when associated
with a SCH_SHEET_PATH context.
- Adds association of SCH_SHEET_PATHs for ERC_ITEMs and the sub-schematic items
which caused an ERC violation. This allows correct display of markers on the
sheets of interest only, and allows correct naming resolution and cross-probing
from the ERC dialog.
- Adds a new ERC_TREE_MODEL class, derived from RC_TREE_MODEL, which correctly
resolves component references across heirarchical sheets using the associated
SCH_SHEET_PATHs. This allows sheet-specific component references to be displayed
correctly in the ERC results tree.
- Updates SCH_MARKER to only draw sheet-specific markers on the sheet causing
an ERC violation.
- Increments the schematic file version.
- When loading a schematic with legacy ERC exclusions, discards those of type
ERCE_PIN_TO_PIN_WARNING, ERCE_PIN_TO_PIN_ERROR, ERCE_HIERACHICAL_LABEL, and
ERCE_DIFFERENT_UNIT_NET as there is no safe way to automatically infer the
information which is now stored with these exclusions (sheet paths for error
location and related items). Requiring users to (once) re-add exclusions is
preferable to silently incorrectly matching new ERC issues to legacy exclusions.
The pressure relief valve was not useful for common work patterns as it
forced the recalculation on many common actions such as bus expansion.
This caused it to actually feel slower than with the pressure relief
valve off.
For most schematics, realtime is now fast enough to not need the valve
and for those that are extremely complex, removing the valve helps this
run more predictably
This iterated over all pins to find the pin after a given item. Because
out pattern is consistently to iterate in the outer loop, this means
that we were an O(n^2) loop for the pins just to find their names. This
affected very large parts (e.g. FPGAs) when switching sheets to display