By now, all calls to `addCode()` were followed by a call to
`sortCodes()`, and it seems like a task for SketchData to keep its list
sorted. Previously, this separation made some sense, since `addCode()`
was also used while loading a sketch, and you would only want to sort
once. Now, sketch loading uses a SortedSet, so this is no longer a
requirement.
With this commit, any warnings about invalid sketch filenames are not
shown when the sketch is reloaded. This reloading happens whenever the
IDE window is focused, so re-logging warnings all the time isn't really
helpful, so this hides them.
Previously, the Sketch constructor called its `load()` function, which
called the `SketchData.load()` function to load files and then
`Editor.sketchLoaded()` to initialize the GUI with the loaded files.
When external editing was enabled, `Sketch.load()` was called again
when activating the Arduino app, to reload the entire sketch.
With this commit, the `Sketch.load()` function is removed, and
`SketchData.load()` is called from the SketchData constructor. Instead
of Sketch calling `Editor.sketchLoaded()`, that method is renamed
to `createTabs()` and called by `Editor.HandleOpenInternal()` directly
after creating the Sketch object.
Handling of external editor mode has also changed. When the Arduino
application is activated, instead of fully reloading the sketch (through
the now-absent `Sketch.load()` method), the new `SketchData.reload()`
method is called to reload the list of files in the sketch. If it
changed, all tabs are re-created. If not, only the current tab is
reloaded. When the user switches from one tab to another, that tab is
also reloaded. This ensures that the visible tab is always up-to-date,
without needlessly reloading all tabs all the time. When external
editing mode is enabled or disabled, all tabs are reloaded too, to make
sure they are up-to-date.
When re-creating all tabs, no attempt is made to preserve the currently
selected tab. Since adding or removing files happens rarely, this should
not be a problem. When files are changed, the currently selected tab is
implicitly preserved (because the tab is reloaded, not recreated). The
caret (and thus scroll) position is preserved by temporarily changing
the caret update policy, so the caret does not move while the text is
swapped out. This happens in `EditorTab.setText()` now, so other callers
can also profit from it.
To support checking for a changed list of files in
`SketchData.reload()`, a `SketchCode.equals()` method is added, that
just checks if the filenames are equal. Additionally, the loading of the
file list for a sketch has now moved from `SketchData.load()` to
`SketchData.listSketchFiles()`, so `reload()` can also use it. At the
same time, this loading is greatly simplified by using a sorted Set and
`FileUtils.listFiles()`.
In external editor mode, to ensure that during compilation the version
from disk is always used instead of the in-memory version, EditorTab
detaches itself from its SketchCode, so SketchCode has no access to the
(possibly outdated) in-memory contents of the file.
Instead of manually sorting the primary file at the start, and fiddling
to keep it there during resorting, this just modifies the sorting
comparator used to sort any primary files at the start. This is slightly
more generic than needed, also supporting multiple primary files, to at
least not break the Comparator preconditions when for some reason there
are multiple primary files.
These used to iterate over the list of SketchCodes to find the right
one, and if so, let the List do the same again to remove it or find the
index. This can be simplified to just let list take care of things
instead.
Technically, there is a small difference, since `List.remove()` and
`List.indexOf()` will check using `equals()`, while the original code
used `==`, but these should be effectively the same here. Also, the
original code first used `==` to see if the object was present and then
let List find it again using `equals()`, so that was a bit inconsistent
anyway.
This makes checking for the primary file easier, without having to know
the index of a file in the list of tabs, or relying on the fact that the
primary file is always first (it still is, though).
This changes some places in Sketch to use the new
`SketchCode.isPrimary()` method, but there probably are a lot more
places in the code that could be start to use it as well.
It was not used, and since it only updated the `name` attribute, but not
the corresponding `file` attribute, nor actually handled renaming actual
files, having this method around would actually be harmful, so just drop
it.
This class served no purpose anymore, so it can be removed. The
`SketchCode.getMetadata()` and `setMetaData()` methods only served to
keep track of a SketchCodeDocument instance (and were no longer used),
so these are removed too, just like some SketchCode constructors dealing
with this metadata object.
This lets all code directly call `Editor.selectTab()`, or the newly
introduced `Editor.selectNextTab()` or `Editor.selectPrevTab()`. This
also adds a new `Editor.findTabIndex(String)` to look up a tab based on
the filename (what `Sketch.setCurrentCode(String)` used to do). At some
point, this method might need to be removed, but for now it allows other
code to keep working with minimal changes.
Instead of letting Sketch (also) keep track of the currently selected
tab, this moves the responsibility to Editor instead. When Sketch need
to know the current tab and file, it now asks Editor.
Switching between tabs is still handled through Sketch methods, but that
will be cleaned up later.
Previously, some of the GUI code would use Editor.getSketch() to get the
current sketch, and Sketch.getCurrentCode() to find out the currently
selected tab. Since this code is really concerned with the currently
open tab in the GUI, it makes more sense to query the Editor tabs list
directly.
This removes all references the current sketch code, as tracked by
Sketch, external to Sketch itself. This prepares for removing the
current tab tracking from Sketch later.
Now that each file in the sketch has its own text area in the GUI, it is
no longer needed to store the (possibly modified) contents of each file
inside SketchCode. Keeping the contents in the text area is sufficient.
Doing so allows removing the code that dealt with copying contents from
the text area into the SketchCode instance at the right time, which was
fragile and messy.
However, when compiling a sketch, the current (modified) file contents
still should be used. To allow this, the TextStorage interface is
introduced. This is a simple interface implemented by EditorTab, that
allows the SketchCode class to query the GUI for the current contents.
By using an interface, there is no direct dependency on the GUI code. If
no TextStorage instance is attached to a SketchCode, it will just assume
that the contents are always unmodified and the contents from the file
will be used during compilation.
When not using the GUI (e.g. just compiling something from the
commandline), there is no need to load the file contents from disk at
all, the filenames just have to be passed to arduino-builder and the
compiler. So, the SketchCode constructor no longer calls its `load()`
function, leaving this to the GUI code to call when appropriate. This
also modifies the `SketchCode.load()` function to return the loaded
text, instead of storing it internally.
To still support adding new files to a sketch (whose file does not
exist on disk yet), the EditorTab constructor now allows an initial
contents to be passed in, to be used instead of loading from disk. Only
the empty string is passed for new files now, but this could also be
used for the bare minimum contents of a new sketch later (which is now
down by creating a .ino file in a temporary directory).
Another side effect of this change is that all changes to the contents
now happen through the text area, which keeps track of modifications
already. This allows removing all manual calls to `Sketch.setModified()`
(even more, the entire function is removed, making `Sketch.isModified()`
always check the modification status of the contained files).
Previously, EditorTab set the Document on the SketchCodeDocument, and
the latter would listen for changes, only forwarding the modified status
to SketchCode. This commit cuts out a step and lets EditorTab call
SketchCode::setModified directly.
Additionally, the DocumentTextChangedListener helper class is added,
which wraps a simple (lambda) function to be called whenever anything
about the document text is modified. This hides the verbosity of having
to handle both insertion and deletion, and instead suffices with just
having a single lambda function instead.
RSyntaxTextArea appears to support using a single instance and replacing
the underlying text and document when switching between tabs, but in
practice this support is not complete and even though the
RSyntaxTextArea developers did some work to improve the situation, they
recommend to just use a seperate instance for each tab.
This commit implements exactly that. A new class EditorTab is introduce
to wrap the RSyntaxTextArea and containing scroll pane, and to
encapsulate the code related to handling the text area itself. Doing so
removes some quirks and prepares for some later additions. In
particular, error highlights are now no longer shared between all tabs,
which was previously the case.
This commit mostly moves code from Editor into EditorTab, and updates
the callers to use getCurrentTab() and call methods on the result
instead of calling them on Editor. Some code is added to take care of
creating multiple EditorTab objects and switching between them. Some
small changes have been made to make the flow of opening files work,
though these are mostly a bit hacky.
While moving code, changes to the rest of the code were kept minimal,
retaining existing interfaces as much as possible. This sometimes result
in less than ideal code, which should be cleaned up in subsequent
commits.
The SketchCodeDocument class has been pretty much emptied out, since
it was mostly used to store things for tabs in the background, which are
now just stored in each RSyntaxTextArea separately. The last remaining
bits of this class can probably be moved or implemented differently
later, so it can be removed.
The entire flow of working with sketches and files needs to be cleaned
up next, so no thorough attempt at testing this commit was done. It is
likely that there are plenty of corner cases and race conditions, which
will be fixed once the reset of the code is cleaned up.
Fixes#3441
For some toolbar buttons, when it is clicked while shift is pressed, its
function changes. When handling the click event, this information is
directly taken from KeyEvent.isShiftDown(). However, to also show the
proper tooltip *before* clicking, EditorToolbar listened to key events
on the main text area, to know when shift is (not) pressed.
This approach means that pressing shift while the text area is not
focused will not change the tooltip, and creates some unwanted coupling
between the toolbar and the text area.
This commit changes this approach to instead use the global
KeyboardFocusManager. Any key presses pass through there before being
dispatched to the currently focused component, so this makes sure that
any shift presses are caught, as well as making EditorToolbar a bit more
self-contained.
This fix a regression introduced in:
048a8a61 (VersionHelper now correctly strip snapshot info)
actually neither 048a8a61 nor the version before are correct becuase:
048a8a61 - strips all the extra `-snapshot` and `+build`
previous - doesn't handle the case `x.y-snapshot`
Now both are handled correctly and a test has been added to verify this.
To be completely semver compliant we should deny versions in the
format `x.y`, but this will break all legacy version that have been
published until now, so this changed should be postponed for the next
major release of the IDE.
Fix#5251
There is no reason to bundle this file.
If the index file is not available an empty index is
returned by the parser.
Fix#5143
(together with e80c08: Use a specific hardware/package_index_bundled.json)
Previously if a 3rd party core would require a tool already bundled
in the IDE then boards manager skipped the installation of that tool.
This is could lead to missing tools if the IDE is upgraded and the
bundled tools may change.
This patch fixes the bug by always installing tools when needed, even
if they are already bundled.
This covers a very convoluted use-case that may be reproduce this way:
1. Using an previous version of the IDE, a new AVR core is installed
using the board manager.
2. The IDE is then updated so the core installed in 1. is now also the
bundled one
3. The AVR core installed 1. is now removed using the board manager
4. The board manager will uninstall the (presumably) no longer used tools,
from the built-in folder leaving, in fact, the IDE without the
bundled tools that are supposed to be read-only.
This commit fix this bug by actually making the built-in tool read-only
Previously, during the build, the full package_index.json was downloaded
and distributed with the Arduino IDE.
This lead to a situation where it was difficult to test new AVR cores
before publishing them to the public package_index.json.
Now the bundled AVR core is specificed in the file:
`hardware/package_index_bundled.json`
this index is loaded from the IDE at startup and the package_index.json
is overlayed on it.
This should also solve part of #5143 (Repeatable builds and snapshots of
package/library indexes)
This reverts commits:
385edd26fc (Removed "macosx-fix-bundled-toolchain-missing-symlinks" build task)
f5fd6423c3 (Updated avrdude to 6.3-arduino2)
5a01929b8f (avrdude 6.3: fixed IDE build for macosx)
And part of this commit:
05b647721c (Update avr-gcc to 4.9.2 and avrdude to 6.3)
ApacheCommons do some command-line tweaking that doesnt fit well
with argument passing to arduino-builder, in particular for -prefs
arguments containing spaces.
Previously a NullPointer exception was thrown.
Now the build go on and fails when the recipe cannot be replaced
the correct tool path, that is a much more informative error.