First WIP commit, adds:
- enum GimpGradientBlendColorSpace { RGB_PERCEPTUAL, RGB_LINEAR }
- linear blending mode for gradient segments
- tool options GUI for the blend and paint tools which use gradients
... edges for MyPaint brush.
Adding the concept of "stateful" symmetry when a tool needs to make sure
of corresponding stroke numbers and orders while painting (i.e. stroke N
at time T+1 is the continuation of stroke N at time T). This is the case
for the MyPaint brushes and the ink tool.
Make sure a channel -> selection -> channel roundtrip never does any
gamma conversion.
In gimp_channel_duplicate(), make sure a created channel has the
right format, and the right data. Fixes selection -> channel.
When switching off quick mask, call gimp_item_to_selection() instead
if gimp_selection_load(), the latter was implementing a shortcut which
is now wrong.
Remove gimp_selection_load() which is now unused.
Unrelated: also remove gimp_selection_save(), it was an obvious
3-liner used only twice.
In GimpPaintTool, brush outline generation took place during
gimp_paint_tool_draw() even while painting. This function is run
concurrently with the paint thread. When using dynamics, this
introduced a race conidition between updating the brush mask in the
paint thread, and updating the brush boundary in the main thread.
Move brush outline generation during painting to
gimppainttool-paint.c, and perform it in the display-update
timeout, while the main thread and the paint thread are
synchronized.
Storing selections and layer masks as linear grayscale, but channels
as whatever-the-layers-are caused severe problems in images with
gamma-corrected layers: when combining channels with the selection,
they would go thorugh a gamma conversion before being combined, giving
unexpected results.
This commit changes all channels to always be linear, except in 8-bit
images, where they continue to be "Y' u8", for compatibility with old
XCF files, and because linear 8-bit can't really be used in
compositing (channels can be visible too).
To fix channel -> selection combinations also for these images, add a
small hack to gimp_gegl_mask_combine_buffer() which makes sure the
to-be-combined channel's pixels are always read as-is, without any
gamma conversion. After changing channels to linear, this makes no
difference except in the 8-bit images where we need this hack.
gimp_drawable_start/end_paint() are used to enter/exit paint mode
for a given drawable. While the drawable is in paint mode,
gimp_drawable_get_buffer() returns a copy of the real drawable's
buffer, referred to as the paint buffer, so that modifications to
the returned buffer don't immediately affect the projection, and
calls to gimp_drawable_update() queue the updated region, instead
of emitting an "update" signal.
gimp_drawable_flush_paint() can be called while the drawable is in
paint mode, in order to copy the updated region of the paint buffer
back to the drawable's real buffer, and to emit "update" signals
for the queued region.
We use these functions in the next commit, to move painting to a
separate thread in the paint tools.
Last commit caused -xobjective-c to be passed during linking on
Mac, causing object files to be treated as source files. Add a
-xnone flag to AM_LDFLAGS, canceling the effect of -xobjective-c.
Additinally, add a -xobjective-c++ flag to AM_CXXFLAGS, so that we
can use Objective-C in C++ files on Mac, if we ever need to.
On Mac, pass -xobjective-c to the compiler through AM_CFLAGS, not
AM_CPPFLAGS, so that it's only used for C sources, and not C++
sources. In the latter case, it clashes with the -std=... flag,
spewing an error. Thanks, Partha :)
gimp-templates.c:143:15: warning: ‘strncpy’ output truncated before terminating nul copying 3 bytes from a string of the same length [-Wstringop-truncation]
strncpy (dpi, "ppi", 3);
^~~~~~~~~~~~~~~~~~~~~~~
The next commit is going to parallelize gimpbrush-transform using
the gimp_parallel_distribute_foo() functions. To spare us a lot of
boilerplate code, we're going to use C++ lambdas as callback
arguments to these functions.
This commit does the initial conversion of gimpbrush-transform.c to
C++, renaming it to gimpbrush-transform.cc. We do this in a
separate commit, so that the changes are small enough for git to
register this as a renamed file, rather than a new file, so that we
don't lose the file's history.
Add gimp-parallel.[cc,h], which provides a set of parallel
algorithms.
These currently include:
- gimp_parallel_distribute(): Calls a callback function in
parallel on multiple threads, passing it the current thread
index, and the total number of threads. Allows specifying the
maximal number of threads used.
- gimp_parallel_distribute_range(): Splits a range of integers
between multiple threads, passing the sub-range to a callback
function. Allows specifying the minimal sub-range size.
- gimp_parallel_distribute_area(): Splits a rectangular area
between multiple threads, passing the sub-area to a callback
function. Allows specifying the minimal sub-area.
The callback function is passed using an appropriately-typed
function pointer, and a user-data pointer. Additionally, when used
in a C++ file, each of the above functions has an overloaded
template version, taking the callback through a generic parameter,
without a user-data pointer, which allows using function objects.
If variables are edited directly, in some cases, the GUI and the
symmetries may end up out-of-sync. The variable can only be edited
through property setting.
This value is actually used as a special value when removing a guide to
get rid of a symmetry, in particular it is set in the guides' callback
gimp_mirror_guide_removed_cb() for "removed" signal.
If not setting to 0, when adding back a symmetry, it starts with weird
low or high values near to border (whereas when set to 0, it is reset to
default position afterwards).
... parasite.
Not sure if that should be considered a bug. On one hand, it should
because that's core code. On the other hand, symmetry saving currently
uses parasites, which is a feature which can also be used by people
randomly. So "theoretically", there could be any data in a parasite and
we should not assume specific format.
Anyway still keep the error message but just print to standard error
output instead. Also print a bit more details (parasite name and
contents) as it would help for debugging when such a case were to occur.
Care for future changes of symmetries, by adding a version property. For
now, all symmetries are at version 0, and no real check is done. If any
symmetry bumps its settings in the future, it will have to override also
update_version() to change settings properly if necessary, according to
any new behavior.
When adding a rectangle to a projection's update area, align the
rectangle to a coarse grid, to reduce the complexity of the overall
area. We currently align the rectangle to a 32x32 grid, which
seems to be a good tradeoff between the overhead of processing a
complex area, and the overhead of processing a large area.
The debug menu is currently not included in stable versions.
Include the menu unconditionally, but hide it, and its associated
actions, by default in stable versions. Allow enabling the menu
using a new --show-debug-menu command-line option, in the same vein
as --show-playground.
when setting a custom parse error with g_scanner_error() we *must*
return G_TOKEN_NONE as expected token, or general GimpConfig error
handling will try to overwrite our error with its generic "unexpected
token" message, which triggers a warning.
In gimp_image_convert_precision(), don't overwrite the 'progress'
parameter with the object queue, since we need to call
gimp_progress_end() on it at the end of the process.
In gimp_image_resize_with_layers(), calculate the set of resized
layers before changing the image size, so that we correctly
identify image-sized layers w.r.t. the old image size. (Fixes
commit 139a23451ddc588c91610f67daa799afc2f89080.)
Add gimp_item_scale_by_factors_with_origin(), which is an extension
of gimp_item_scale_by_factors(), taking the input/output points of
origin for the transformation (both of which are (0, 0) in the case
of gimp_item_scale_by_factors()). Implement
gimp_item_scale_by_factors() in terms of the new function, and Use
the new function when scaling group layers, instead of manually
calculating the children boundaries, so that the behavior is
uniform across whole-image scaling and group-layer scaling.
The new function rounds all four edges of the boundary to the
image-global pixel grid, instead of only rounding the top/left
edges to the global grid, and the bottom/right edges to the item-
local grid. This preserves layer-adjacency when scaling.
Use GimpObjectQueue, added in the previous commit, in various
instances where we perform an action on a set of objects. This
improves progress reporting, by using a single progress for the
entire operation, rather than reporting the progress of each object
individually, and by taking the relative cost of each object into
account, instead of assuming a uniform cost for all objects.
In particular, this affects the various whole-image operations
(i.e., transformations and color conversions), operations on linked
items, and operations on layer groups. This also affects layers
with masks, whose progress is now reported together instead of
individually.
Additionally, this commit fixes erroneous group-layer mask cropping
during undo when resizing the image, by properly calling
{start,end}_move() on all the resized layers before starting the
operation, and when scaling the image, by only scaling top-level
layers, and letting group layers scale their children themselves.
GimpObjectQueue implements a queue of GimpObjects. It derives from
GimpSubProgress, and hence can be used as a GimpProgress object.
It keeps track of the total memsize of the objects that were
pushed-to and popped-from the queue, and uses these numbers to set
the corresponding subrange of the progress object when an object is
popped.
This provides an easy way to perform an operation on a set of
objects, correctly reporting progress based on the relative sizes
of the objects, which is assumed to be a good estimate of the
relative cost of processing each object.
Make the parent GimpProgress object of a GimpSubProgress instance
settable through a property during construction, so that we can use
it as a base class.
In gimp_group_layer_{start,end}_move(), push corresponding undo
steps, which perform the opposite operation during undo, and make
sure that mask-cropping is frozen during group-layer move
operations.
This fixed erroneous group-layer mask cropping when undoing/redoing
a group-layer move operation multiple times.
When pasting in place over a layer group or a content-locked item,
change the paste type to NEW_LAYER_IN_PLACE, rather than NEW_LAYER,
so that the new layer is still pasted in the right location.
Additionally, avoid showing the "Pasted as new layer because ..."
message when pasting over a layer group or a content-locked item,
when the paste type is NEW_LAYER[_IN_PLACE] to begin with.
Add a crop_input parameter to gimp_gegl_apply_[cached_]operation().
When TRUE, the functions crop the op's input to the destination
rect. This is particularly useful for functions that process the
entire input in one go (by means of get_cached_region()). See the
next commit.
Pass crop_input = FALSE at all call sites for now, to keep the
current behavior.
... (gimp-context-set-paint-method...) is called.
GimpContext initialized with standard paint info at constructed() time
to ensure there is always a paint_info even if none were set manually.
This property is currently only used for gimp_edit_blend() to control
how are computed distances. In the future, it could be used for more
functions making use of "gegl:distance-transform" operation, or even for
other algorithms, if relevant.
This new property obviously comes with 2 new PDB calls:
gimp_context_get_distance_metric() & gimp_context_set_distance_metric()
It seems old blend tool (from GIMP 2.8) was using manhattan distance,
whereas the new one uses euclidean. I guess there must be use cases for
both. In any case, it is a good idea to simply propose the option since
the property exists in the "gegl:distance-transform" operation.
See also bug 781621.
Our composite modes don't correspond directly to the Porter-Duff
operators after which they're named, and these names aren't too
descriptive anyway.
Rename the composite modes as follows:
Source Over => Union
Source Atop => Clip to Backdrop
Destination Atop => Clip to Layer
Source In => Intersection
Update relevant code, including UI text, enumerator names, function
names, and action names.
PDB function gimp_edit_blend() was based on "gimp:shapeburst" operation
whereas the rest of GIMP (in particular, the Blend tool) used
"gegl:distance-transform" which is much faster.
Setting the operation to "manhattan" metric ensures that it still
renders the same way as in 2.8 while being a lot faster.
There was still a problem regarding as how it renders differently from
the Blend tool, but it turns out that the Blend tool is the one
rendering differently from how it used to in 2.8. We should discuss
adding the "metric" property in the tool options.
gimp_spawn_async() is similar to, but more limited than,
g_spawn_sync(). Unlike the latter, gimp_spawn_async() uses
vfork(), instead of fork(), when possible.
On Linux, a process that uses large amounts of memory (as GIMP may)
can hang during a fork() if overcommitting is enabled, and there's
not enough memroy. Using vfork() avoids that, since it doesn't
duplicate the parent's address space.
Revert commit 24fcabc1ca, which
allowed passing a NULL buffer to gimp_drawable_set_buffer[_full](),
leaving the drawable without a buffer in a semi-functional state --
this is too risky.
Instead, have gimp_drawable_steal_buffer() assign an empty 1x1
buffer to the stolen-from drawable, rather than leaving it without
a buffer at all.
... which transfers a buffer from one drawable to another in a safe
manner, leaving the source drawable empty.
There are already two ad-hoc instances where we steal a drawable's
buffer through simple pointer assignment, however, this avoids
performing potentially necessary cleanup and setup. In particular,
since commit d0ae244fe8 this causes
actual errors. The next two commits replace those instances with
calls to gimp_drawable_steal_buffer().
... which clears the drawable's buffer, performing any necessary
cleanup, without setting a new buffer. While the drawable has no
buffer, it can only be used in a very limited way, in particular,
it may be destroyed, and it may be assigned a new buffer.
This is used by the next commit to implement
gimp_drawable_steal_buffer(), which transfers a buffer from one
drawable to another in a safe manner, leaving the source drawable
empty.
Since a few commits, I don't generate the traces anymore in errors.c but
delay this to gui-message.c and rely on the message severity to decide
whether or not generating traces.
Unfortunately none of the current severities are properly describing
this new type of messages. Even GIMP_MESSAGE_ERROR is used everywhere in
our code NOT for actual programming bug, but often for data errors
(which are not bugs but proper messages and should obviously not prompt
a debug trace).
Setting push_undo to FALSE in these functions is premature -- let
this stuff be handled at the actual point where the undo is
pushed, which might correspond to a different item than the one for
which gimp_item_{start,end}_move() was called.
In particular, when removing a layer from the image,
gimp_item_end_move() is called (with push_undo == TRUE) on the
layer after it's been removed, but we still need the appropriate
undo enrties to be pushed for the affected group layers.
... a selection.
The crash was the result of an unmatched gimp_item_end_move() call,
which is an error. Add the matching gimp_item_start_move() call
when starting to drag a selection in GimpEditSelectionTool. Revert
last commit, so that unmatched gimp_layer_end_move() calls are not
silently ignored, and add a check instead.
... a selection.
The regression appeared with commit 10c125c627.
gimp_layer_end_move() may sometimes run even while a symmetric
gimp_layer_start_move() had not run. For instance this happens when
releasing the mouse button after dragging a ctrl-alt-click created
floating layer.
Therefore let's check that layer->move_stack is not NULL before
dereferencing it.
We don't want an infinite number of traces because it takes some time to
get. Until now I was keeping track of traces in app/errors.c, but that
was very sucky because then I was limiting traces per session. Instead
save them as a variable of a GimpCriticalDialog instance. Therefore only
generate the traces for WARNING/CRITICAL at the last second, when
calling the dialog.
When too many traces are displayed, just fallback to just add error
messages only. But then even errors without traces can be time-consuming
(if you have dozens of thousands of errors in a few seconds, as I had
the other day, updating the dialog for all of them would just freeze the
whole application for a long time).
So also keep track of errors as well and as last fallback, just send the
remaining errors to the stderr.
which is just a #define to g_assert for now, but can now easily be
turned into something that does some nicer debugging using our new
stack trace infrastructure. This commit also reverts all constructed()
functions to use assert again.
Completing previous commit, the next switch was not raising any error,
but I believe the new "in place" variants of paste as floating selection
also have to be processed for mask removal.
In a switch(), not all paste type were listed (the new "In Place"
versions in particular were missing), therefore we were hitting a
g_return_val_if_reached() error.
Have GimpChannel connect to the drawable buffer's "changed" signal,
so that we can invalidate the channel's boundary whenever the
buffer contents change. Currently, the calls to
gimp_drawable_invalidate_boundary() dispersed throughout the code
are not enough.
Moreover, invalidate both the boundary and the bounds in
gimp_channel_invalidate_boundary(), since both are necessary when
the buffer changes.
In gimp_layer_start_move(), keep the set of ancestors for which for
which we suspended mask cropping, so that we can resume mask
cropping for the same groups in gimp_layer_end_move(). This is
necessary, since gimp_image_remove_layer() calls gimp_item
start_move() before removing the layer from the layer tree, and
gimp_item_end_move() after removing the layer from the layer tree,
at which point the layer has no ancestors.
Replacing the boolean property "generate-backtrace" by an enum
"debug-policy". This property allows one to choose whether to debug
WARNING, CRITICAL and FATAL (crashes), or CRITICAL and FATAL only, or
only FATAL, or finally nothing.
By default, a stable release will debug CRITICAL and crashes, and
unstable builds will start debugging at WARNINGs.
The reason for the settings is that if you stumble upon a reccurring bug
in your workflow (and this bug is not major enough for data corruption,
and "you can live with it"), you still have to wait for a new release.
At some point, you may want to disable getting a debug dialog, at least
temporarily. Oppositely, even when using a stable build, you may want to
obtain debug info for lesser issues, even WARNINGs, if you wish to help
the GIMP project.
It can be argued though whether the value GIMP_DEBUG_POLICY_NEVER is
really useful. There is nothing to gain from refusing debugging info
when the software crashed anyway. But I could still imagine that someone
is not interested in helping at all. It's sad but not like we are going
to force people to report. Let's just allow disabling the whole
debugging system.
We avoid resizing the mask as a result of changes in the group's
bounding box while the group is being moved (i.e., translated,
rotated, etc.), so that GimpLayer transforms the original mask,
rather than a cropped mask. We still need to crop the mask after
we're finished moving the group, however. This commit takes care
of that.
Override GimpItem::resize(), instead of GimpLayer::resize(), when
resizing a group layer, so that GimpLayer doesn't try to resize the
mask. Instead, the let the usual mask resizing logic in
GimpGroupLayer handle that.
Also, make sure that the mask is properly restored upon undo when
group resizing is suspended outside of any mask-suspension block,
which can happen when resizing the group.
Add layer-mask support for group layers. Group-layer masks work
similarly to ordinary-layer masks, with the following
considerations:
The group's mask size is the same as group's size (i.e., the
bounding box of its children) at all times. When the group's size
changes, the mask is cropped to the new size -- areas of the mask
that fall outside of the new bounds are discarded and their data is
lost (sans undo), and newly added areas are filled with black (and
hence are transparent by default).
The new gimp_group_layer_{suspend,resume}_mask() functions can be
used to modify this behavior. Between the outermost pair of
suspend/resume calls, the old mask data is remembered, and is used
to fill the newly added areas while cropping the mask when the
group is resized. We override GimpItem::{start,end}_move() for
GimpLayer, to call these functions (suspend() in start_move(), and
resume() in end_move()) for each of the layer's ancestors.
As a result, while moving a layer, or a set of layers, atomically,
such as while dragging with the move tool, or moving linked layers,
the ancestors' mask data is not lost, and is only discarded at the
end of the operation.
This commit also takes care of properly handling undo for group-
layer mask crops, properly invalidating the image when the group
layer's mask is shown, and enabling the mask actions for group
layers (obviously :).
Add gimp_item_{start,end}_move(), and corresponding
GimpItem::{start,end}_move() virtual functions, which should be
called before/after "moving" the item (i.e., translating, scaling,
resizing, flipping, rotating, or transforming the item). Moves
performed between the outermost pair of start/end calls are treated
atomically.
What exactly does "treated atomically" entail depends on the
subclasses -- GimpItem doesn't provide a default implementation for
these functions, so the current commit doesn't change any behavior.
The next commit, which adds layer-mask support for group layers,
uses the functions to avoid cropping the mask too early while a
child is moving.
GimpItem calls {start,end}_move() in the various "move" functions
(gimp_item_{translate,scale,...}(), before performing the actual
operation. Additionally we call the functions in the
gimp_image_item_list_foo() functions, for each participating item,
so that the items are moved as a unit. We call the functions in
the various gimp_image_remove_foo() functions, since removing an
item may affect the size of its ancestors, and is therefore akin to
moving. We also call the functions in GimpEditSelectionTool, so
that the move tool moves items atomically while dragging.
The result of applying a perspective-transform to a Bezier curve is
only an approximation. When the curve is highly nonlinear, the
result may diverge significantly from the real transformed curve.
Subdivide the curve as necessary in gimp_transform_bezier_coords()
to counter that. Adjust gimp_bezier_stroke_transform()
accordingly.
... which transforms a single cubic Bezier segment, performing
clipping by the near plane, to avoid erroneously transforming parts
of the curve behind the camera.
... which is the same as gimp_transform_polygon(), but using
GimpCoords for the vertices, instead of GimpVector2.
Specify when the input and output arguments may alias, in the
description of gimp_transform_polygon().
Fix indentation, typos, style. Use array parameters for the
control points, instead of using individual by-value parameters.
Use GArray* for the results, instead of GArray**. Verify
arguments.
Adapt the rest of the code to the changes.
When the resulting matrix transforms all input points behind the
camera, negate the matrix, instead of failing, which results in a
matrix that transforms the input points to the corresponding points
in front of the camera. This avoids rejecting certain valid
transforms as invalid, in the generic transform tools (unified,
perspective, and handle transform).
Make the number of input and output points explicit in the
function's signature, and add comments.
... so that the transformed boundary is properly clipped.
Adjust the boundary-size algorithms to operate on arbitrary
polygons.
Avoid using gimp_matrix3_will_explode() in
gimp_drawable_transform_buffer_affine() and falling back to
cropping the result, and avoid setting the "clip-to-input" property
of gegl:transform. Neither of those in needed anymore.
This effectively reverts the app/ part of commit
768d06614f. The next commit revets
the libgimpmath/ part.
gimp_transform_polygon() transforms an (open or closed) polygon by
a GimpMatrix3, performing clipping to the near plane, to avoid
erroneously transforming points behind the camera.
GIMP will now try to get a backtrace (on Unix machines only for now,
using g_on_error_stack_trace(); for Windows, we will likely have to look
into DrMinGW).
This is now applied to CRITICAL errors only, which usually means major
bugs but are currently mostly hidden unless you run GIMP in terminal. We
limit to 3 backtraces, because many CRITICAL typically get into domino
effect and cause more CRITICALs (for instance when a g_return*_if_fail()
returns too early).
Derive GimpUnifiedTransformTool, GimpPerspectiveTool, and
GimpHandleTransformTool from GimpGenericTransformTool, eliminating
their common logic.
Remove gimp_transform_matrix_handles(), which is no longer used.
A subclass of GimpTransformTool, to be used as a base class for
transform tools that calculate their matrix based on 4 pairs of
input/output points, and that display the transform matrix as their
GUI (this includes the unified, perspective, and handle transform
tools; the next commit ports them over to
GimpGenericTransformTool).
When the resulting matrix of the input/output mapping sends any of
the output points to, or past, infinity, GimpGenericTransformTool
sets GimpTransformTool::transform_valid to FALSE, and displays an
appropriate message in the tool GUI, instead of showing the matrix.
When picking a row whose leading coefficient is nonzero, use fuzzy
comparison against an epsilon, instead of exact comparison against
zero, to minimize the effect of numerical errors.
... on top-level layers.
There was even a comment for this, but I missed this when I moved some
code to the top of the function in commit b9577a783d. Now moving this
call up as well. This appeared to be more of a problem when merging
layers without a GUI (script-fu). I'm guessing the GUI calls this anyway
before.
Replace all g_assert_not_reached() in app/core/ by g_return_if_reached()
or g_return_val_if_reached(). GIMP may handle a lot of creative work,
sometimes unsaved for hours. We should not just crash on purpose.
g_assert*() could theoretically be turned off on a glib build, but this
is nearly never done, and is not a solution either (actually it is
probably even worse because the broken code would just continue on a
forbidden path). It is much better to return with a warning on such
forbidden code paths, allowing someone to report a bug without
experiencing a crash and data loss.
For now, I only took care of g_assert_not_reached() inside app/core.
More g_assert*() code should be replaced.
Note: assert are acceptable in plug-ins though, but not in the main
executable, unless absolutely necessary (something happening so bad that
crash is better than continuing).
Don't use g_assert(). Instead use g_return_val_if_fail().
This commit therefore does not fix the actual bug, but at least it does
not crash. GIMP simply outputs a warning upon trying to merge down a
hidden layer. The actual fix will follow later.
Fix the crashes from the third zip:
- forgot to guard the other writing place in the RLE decoder
- one byte after the buffer is still one byte too much
- protect against seeking to bogus offsets
Add brush dimension/depth/compression sanity checks for v6 brushes,
and make sure we don't overrun the RLE decoder's destination buffer.
This properly rejects all brushes from the second zip in the bug.
...in brushes user directory
Consider 8bim section size unsigned, to avoid seeking backward when a
malicious brush includes an 8bim section unknown to GIMP.
This avoids the possibility to start an infinite loop on GIMP start.
Found just a water drop in the ocean, GIMP is still not secure.
Mitch: Added more sanity checks on the Abr's width/height/bytes so now
all brushes in the zip attached to the bug are properly rejected
instead of crashing GIMP.
The C language only promotes data values up to (un)signed int,
which is 32 bit, if no larger data type is used within the
calculation. Having a multiplication of two gint variables,
even if the expected target variable is of type gsize (64 bit),
leads to a possible integer overflow.
This bug can be triggered in gimp_temp_buf_new, which is used
to allocate memory for given supplied dimensions and bytes per
pixel. If triggered, less memory than needed is allocated and
therefore allows out of boundary accesses, either resulting in
possible code execution or information leakage.
While at it, make sure that the supplied format can actually be
resolved to a bytes per pixel value. If not, return NULL.
Signed-off-by: Tobias Stoeckmann <tobias@stoeckmann.org>
Replace gimp_parameter_*() utility functions with equivalent
gimp_properties_*() functions which deal with separate arrays of names
and values, and use g_object_new_with_properties() instead of
g_object_newv().
This reverts commit 40bc5307dc.
It's not *exactly* the same. The floating selection can belong to a
channel or layer mask. Also, this belongs into the GUI layer, not the
core.
Anchoring a floating layer is basically equivalent to merge down. This
is already what we do in other merging actions (flatten image and merge
visible layers).
Current migration code would still return TRUE for success if the copy
of a regular file failed for any reason.
Also getting rid of some weird block and making sure we free dirname
only when it has been assigned a value.
When recursively browsing folders, there is always the risk of infinite
recursivity, in particular with symbolic links which can create loops.
Let's just assume that we don't have any data over 5 levels of
directories to avoid a security risk.
paintbrush.pgm and paintbrush01.pgm are binary identical. If they were
brushes we ship as data, that would be more annoying because they could
be used in scripts or in various other places. But here it looks they
are used for gimpressionist plug-in only, which means they are probably
not used in some random script. All it takes is probably only to
properly migrate gimpressionist presets.
Presets using "paintbrush.pgm" will be migrated to use
"paintbrush01.pgm" instead.
In particular, I noticed that some data can be on 2 levels (or more?).
For instance gimpressionist presets were not migrated from 2.8 to 2.9
because of this.
Replace the "lock brush size to zoom" paint option with a "lock
brush to view" option, which links the entire brush transform to
the view transform, so that the brush remains invariant in display
space under scaling, rotation, and reflection.
Add support for reflecting brushes as part of their transformation.
The reflection is performed as the last step of the transformation,
across the vertical axis.
The option to reflect the brush is not exposed in the UI, or
through the PDB, but is intended to be used for linking the brush
transformation to the view transformation, in the next commit.
Add an offset_angle parameter to gimp_constrain_line(), which
offsets the radial lines by a given angle.
Add gimpdisplayshell-utils.[ch], with two new functions:
- gimp_display_shell_get_constrained_line_offset_angle():
Returns the offset angle to be passed to
gimp_constrain_line(), in order to constrain line angles in
display space, according to the shell's rotation angle and
flip mode.
- gimp_display_shell_constrain_line(): A convenience function
which calls gimp_constrain_line() with the said offset angle.
Use the new functions in all instances where we constrain line
angles, so that angles are constrained in display space, rather
than image space.
The only exception is GimpEditSelectionTool, which keeps
constraining angles in image space, since it's not entirely obvious
that we want to constrain angles of dragged layers/selections in
display space.
The file formats GBR and PAT contain names which are supposed to be
NUL-terminated within the files. If no such terminating NUL byte
exists, the parsers of GBR and PAT trigger an out of boundary read
during utf-8 conversion.
Signed-off-by: Tobias Stoeckmann <tobias@stoeckmann.org>
Replace the GIMP_BOUNDARY_HALF_WAY macro by two others : one for perceptual and
one for linear gamma.
Use the GIMP_BOUNDARY_HALF_WAY_LINEAR to compute channels and floating selection
boundaries.
It never belonged inside "tools". Also rename its "pdb" subdirectory
to "groups". This had to happen before 2.10 so cherry-picking between
branches doesn't become a nightmare in the future.
In gimp_layer_new(), set opacity and mode using the setter
functions, instead of modifying the members directly, so that all
the necessary side effects take place.
Add gimp_item_get_merged_color_tag(), which returns the color tag
of the nearest ancestor (including the current item) that has a
color tag other than NONE. Use this function in GimpItemTreeView,
instead of gimp_item_get_color_tag(), to set the cell color of
items, so that item's with a NONE color tag inherit the color of
their parent. Add a boolean "inherited" parameter to
gimp_get_color_tag_color(), which indicates if the color tag is the
item's actual color tag, or an inherited color tag, and modify the
returned color accordingly, so that inherited colors are less
saturated/lighter than non-inherited ones.
Override GimpLayer::get_effective_mode() in GimpGroupLayer, to
perform strength-reduction of pass-through groups to normal groups
under certain conditions (see gimp_group_layer_get_effective_mode()
for the logic.)
The main motivation for this is the fact that Photoshop uses pass-
through mode as the default mode for groups, resulting in many PSDs
using pass-through groups generously and unnecessarily. Since
pass-through groups are more expensive that normal groups, reducing
them to normal groups when possible can make a big difference.
Note that, while the results of the strength-reduced composition
are theoretically equivalent, there may be small differences in
practice due to numerical errors, especially when using low
precision. This is unlikely to be an issue, but, just in case,
allow disabling this optimization using the
GIMP_NO_PASS_THROUGH_STRENGTH_REDUCTION environment variable.
gimp_layer_get_effective_mode() returns the actual layer mode,
blend space, comosite space, and composite mode used for the
layer's mode node, allowing them to be different from the values of
the corresponding layer properties. The aim is to allow us to
replace expensive layer configurations with cheaper but equivalent
ones transparently. This is used in the next commit to replace
pass-through groups with normal groups under certain conditions.
The effective values are computed by the new
GimpLayer::get_effective_mode() virtual function. The default
implementation provided by GimpLayer returns the corresponding
layer properties as-is (replaceing AUTO with concrete values).
Subclasses can override this function, providing more
sophisticated logic.
When attaching a layer as a floating selection to a drawable,
unbind its visiblility from its activeness, as per the previous
commit, and use its visibility to control the activeness of the
drawable's floating selection filter.
Properly update the drawable when the floating selection's
visibility and excludes-backdrop properties change.
Add an "active" property to GimpFilter, which replaces its
"visible" property. The new property assumes the lower-level role
"visible" had -- controlling whether the filter has any effect as
part of its parent filter-stack.
Add a "visible" property to GimpItem, separate from the "active"
property, which assumes the higher-level role "visible" had --
controlling whether the item is considered "visible", as per the
GUI. By default, the item's "visible" property is bound to the
filter's "active" property, so that changes in visibility directly
affect the filter's "activeness"; this binding can be controlled
using the new gimp_item_bind_visible_to_active() function.
This distinction is currently necessary for floating selections.
Floating selection layers must not be active in their parent stack,
regardless of their visibility, in particular, so that their mode
node doesn't hide the entire backdrop when their composite mode
excludes the backdrop (i.e., when it's dst-atop or src-in).
Instead, their visibility should affect the activeness of the
floating-selection filter of the drawable they're attached to.
This is handled by the next commit.
Currently, when a GimpFilter's visibility changes, we rely on its
various visibility-changed signal handlers to rewire the filter
node's graph to reflect the change. This has two main
disadvantages:
- There's no easy, generic way to toggle a filter's effect,
especially one that is not subclassed, since GimpFilter only
takes care of the case where visibility becomes FALSE, and does
nothing by itself when it becomes TRUE again.
- While GimpDrawable does handle the visibility => TRUE case, it
doesn't disconnect the filter's input from its mode and
(potentially) source nodes when it becomes invisible. As a
result, while none of the drawable's graph is processed as part
of the composition when not visible, the mode and source nodes
do get invalidated when the filter's input is invalidated, such
as while painting on a layer below the drawable. This is
particularly bad for pass-through groups, since their source
node can be an arbitrarily complex graph, whose invlidation
incurs a nontrivial overhead.
Instead, don't touch the filter's node at all when visibility
changes, and rather have GimpFilterStack remove it from the graph
entirely when the filter becomes invisible, and re-add it once it
becomes visible again. This solves both of the above problems, as
well as simplifies the code.
Since commit ff59aebbe8, blur-gauss plug-in and the associated
"plug-in-gauss" action don't exist anymore. Migrate any custom shortcut
to "filters-gaussian-blur", which is the expected replacement.
See also bug 775931.
Use gimp:buffer-source-validate, introduced in the previous commit,
for the source node of GimpDrawables. This avoids threading issues
with layer groups, or any other drawables that may use a validating
buffer, by making sure the buffer is validated before any
succeeding operations, and hence the associated graph is processed
on the same thread as the parent composition.
Restore multithreaded processing in GimpOperationLayerMode.
When switching a group layer from pass-through mode to a non-pass-
through mode, flush the projection synchrnously, to make sure that
the projection's buffer gets properly invalidated at that point,
and can be subsequently used as a source for the rest of the
composition.
Add a boolean 'pass_through' member to GimpGroupLayerPrivate, which
indicates if the group is a pass-through group, and use it instead
of checking the group's mode, so that we can detect that the group
used to be a pass-through group when the mode changes, and to
simplify the rest of the code.
Set the priority of group-layer projections according to the group
layer's depth, so that top-level groups have a priority of 1
(compared to a priority of 0 for the image projection), and nested
groups have a priority one greater than their parent (in other
words, shallower groups have higher priority than deeper groups,
all of which have lower priority than the image.)
This makes pass-through groups much faster, in particular.
... which control the priority of the projection's idle source.
The projection's priority is specified relatively to
GIMP_PRIORITY_PROJECTION_IDLE (i.e., a priority of 1 results in an
idle source with priority GIMP_PRIORITY_PROJECTION_IDLE + 1, etc.)
Add GimpViewable::ancestry-changed signal, which is emitted when
the viewable's ancestry changes, i.e., when its parent, or the
parent of one of its ancestors, changes.
Add gimp_viewable_get_depth() function, which returns the
viewable's depth in the hierarchy, i.e., its ancestor count.
The value descriptions of GimpGradientColor,
GimpGradientSegmentColor, and GimpGradientSegmentType enums appear
in the on-canvas gradient editor UI, as combo-box items in the tool
GUI overlay. Since we want to keep the overlay as small as
possible, we previously used abbreviations for these descriptions
(e.g., "FG (t)", instead of "Foreground (transparent)").
Replace the abbreviated descriptions with unabbreviated ones, and
move the abbreviations to the "abbrev" parameter. This way we get
the abbreviated version in the combo-box, and the full version in
the combo-box's menu.
Update the dprod production of generated enum files to include
abbreviated value descriptions, as per the previous commits.
Add a comment for translators above the abbreviated descriptions,
specifying the full description they abbreviate.
When the group's offset changes, update the item's offset *after*
updating the group's offset node, so that the item's offset nodes
and the group's offset node are in sync when the corresponding
"notify" signals are emitted.
It is possible to trigger a heap overflow while opening a malicious
pattern due to integer overflows.
The validation is adopted from plugin-parser. It also takes a proper
cast to gsize to avoid integer overflow in size calculation.
...after exporting the image
Call gimp_image_name_changed() in both gimp_image_clean_all() and
gimp_image_export_clean_all() so we clear the cached displayed URI in
all cases, even if this means we're emitting "name-changed"
redundantly some times.
... from the undo stack
When a blend-tool edit action modifies the gradient, do a deep
comparison of the original gradient against the current gradient,
to test if anything changed, instead of just assuming that
something did change.
Add "In Place" variants for all sorts of pasting:
- extend the GimpPasteType enum with IN_PLACE values
- add the needed actions and menu items
- merge the action callbacks into one, taking an enum value as parameter
- refactor the pasting code in gimp-edit.c into smaller functions
We probably have too menu items in the "Edit" menu now, needs to be
sorted out.
In gimp_group_layer_update_size(), when the layer's bounds have
changed, update the group layer's offset before the call to
gimp_pickable_flush() when reallocating the projection. Otherwise,
if the group layer's graph isn't constructed yet, it will get
constructed during the call to gimp_pickable_flush(), however,
gimp_group_layer_get_graph() will pick up the old coordinates for
the offset node.
... upon NaN values
Make the histogram bin calculation NaN-safe, by mapping NaNs to 0.
Ideally, NaNs should probably not be counted at all, but since we
already count negative values as 0, and > 1 values as 1, we might
as well not pessimize performance over it, at least until we add
support for unbounded histograms.
At the same time, improve rounding in the bin calculation, so that
the result is more accurate.
... leading to a crash
Add gimp_data_is_copyable() and gimp_data_is_dulicatable().
Use gimp_data_is_duplicatable() when setting the sensitivity of the
various "foo-duplicate" actions, instead of inspecting the object's
GimpDataClass::duplicate pointer directly, since this is no longer
an indication of whether a GimpData object is duplicatable or not
(since commit 33de4d5530).
When copying a generated brush, copy its "spacing" property, in
addition to the other properties, which hasn't been previously
copied by ::duplicate().
Finish up commit 17583ff04a, which
ported GimpGradient from ::duplicate() to ::copy(), by doing the
same for the rest of the GimpData subclasses that implement
::duplicate().
We still keep GimpData's ::duplicate() virtual function around,
even though it now points to the default implementation (which uses
::copy()) for all subclasses, since ::copy() is stronger than
::duplicate(), and we might want to have certain GimpData types
that are duplicatable, but not copyable.
Make internal data objects non-renamable, even if they're writable,
through gimp_data_is_name_editable(). Currently, the only such
object is the custom gradient.
Prevent changing the name of non-renamable data by making the name
entry of GimpDataEditor non-editable whenever
gimp_viewable_is_name_editable() is FALSE, even if the data is
otherwise editable.
Prevent the vairous PDB -rename() functions from renaming non-
renamable data, by adding a GimpPDBDataAccess flags type,
specifying the desired access mode for the data -- any combination
of READ, WRITE, and RENAME -- and replacing the 'writable'
parameter of the gimp_pdb_get_foo() functions with an 'access'
parameter. Change the various .pdb files to use READ where they'd
used FALSE, and WRITE where they'd used TRUE; use RENAME, isntead
of WRITE, in the -rename() functions.
Add a framework for saving and restoring internal data objects, in
gimp-internal-data.c. Internal data objects are saved in separate
files under a new "internal-data" subdirectory of the user's gimp
directory. The internal data is saved, restored, and cleared
together with the tool options.
Use this to save and restore the custom gradient. In the future,
we might add similar writable internal data objects that we'd want
to save.
Add an "expanded-changed" signal to GimpViewable, which should be
emitted by subclasses when the viewable's expanded state changes.
Emit this signal when the expanded state of group layers changes.
Respond to this signal in GimpContainerView, by calling a new
expand_item() virtual function. Implement expand_item() in
GimpContainerTreeView, expanding or collapsing the item as
necessary.
Add a composite_space parameter to gimp_gegl_create_flatten_node()
and gimp_gegl_apply_flatten(), which controld the color space --
linear or perceptual RGB -- used for the operation (instead of
hardcoding it to linear).
When removing a layer's alpha channel, use the layer's composite
space for the flattening. When flattening an image, use the bottom
layer's composite space. Keep using linear space when creating a
channel or a mask from a drawable with alpha.
... which return the layer's blend/composite space/mode. However,
unlike the non-"_real" versions, these functions never return AUTO
-- instead, they return the actual space/mode that AUTO maps to for
the current layer mode.
When changing a layer's blend/composite space/mode, avoid
updating the drawable if the real space/mode didn't change (i.e.,
if changing from AUTO to the concrete value, or vice versa.)
When using gimp_gradient_segment_range_compress() to expand a 0-
length segment, redistribute the range's endpoints and midpoints
uniformly, rather than using the regular code path, which would
result in NaN values.
Make sure that the left and right endpoints of the range are
*exactly* equal to the new left and right values. Previously,
they could be slightly off due to numerical errors.
Treat gradient segment exents as [left, right) ranges, instead of
[left, right], so that they don't overlap, and each point
corresponds to a unique color.
Perform less comparisons in gimp_gradient_get_segment_at_internal().
... which merges a segment range into a single segment, that spans
the entire range, and has the same endpoint colors. The merged
segment's midpoint is at its center, and its blend function and
coloring type are those of the range's segments if they're uniform,
or the default ones otherwise.
... which returns the flat (context-independent) left and right
colors of a egment. Replace code that calculates the flat color
explicitly with calls to these functions.
An internal gradient object, that will be used by the blend tool
when editing a gradient. By default, the active gradient will not
be edited directly, but rather, upon editing, the active gradient's
contents will be copied to the custom gradient, which will then
become the active gradient and be edited. This allows editing both
writable and nonwritable gradients without modifying them, and
without having to duplicate them.
... which copies the contents of a GimpData into an existing GimpData,
without creating a new instance.
Add a copy() virtual function to GimpData, which subclasses can
override to implement copying; gimp_data_copy() may only be called
for types that implement copy(). Keep the duplicate() virtual
function around, but provide a default implementation that creates
a new object of the source type, and uses copy() to copy the source
object into it.
... which is emitted when a handle is single/double/tripple clicked.
The signal handler returns a boolean value. A return value of TRUE
stops further event processing, while a return value of FALSE allows
it.
The signal is emitted when a slider is dragged away from the line,
and will be removed when the button is released, and when the
slider is dragged back to the vicinity of the line, and won't be
removed. The last parameter of the signal is a boolean flag
differentiating between the two cases.
Note that a remove-slider signal may be emitted without a preceeding
prepare-to-remove-slider signal, however, is a prepare-to-remove-
slider signal is emitted with a TRUE last parameter, it must be
eventually followed by a remove-slider signal, or by another
prepare-to-remove-slider signal with a FALSE last parameter.
Add support for adding and removing sliders to/from a GimpToolLine,
using three new signals:
- can-add-slider: Takes a double argument in the range [0,1],
indicating a location along the line, and returns a boolean
value, indicating whether a slider can be added at that
location.
- add-slider: Takes a double argument in the range [0,1],
indicating a location along the line, for which can-add-slider
returned TRUE. In response, should add a new slider at that
location, and return its index, or a negative value if no
slider was added.
- remove-slider: Takes a slider index. In response, may remove
the slider.
On the UI side, when the cursor is close enough to the line, but
not within the hit area of an existing handle, GimpToolLine checks
if a slider can be added at the cursor position, using can-add-
slider. If a slider can be added, a dashed circle appears at the
cursor position along the line, indicating where a slider will be
added. The cursor is added by clicking, which emits an add-slider
signal; if the signal returns a slider index, the new slider is
selected, and can be subsequently dragged.
Removing a slider is done by either selecting the slider and
pressing backspace (or delete, although we don't actually forward
it to the tool atm,) or by "tearing" the slider: when dragging
the slider, if the cursor is far enough from the liner, a dashed
circle appears around the slider, and releasing the mouse removes
the slider.
An empty gorup layer has no extent, so we fake its extents to be at
least 1x1 whenever its projection is being recreated, because we can't
have a 0x0 buffer in a drawable. This safeguard was forgotten in
gimp_group_layer_convert_type() which gets called on image duplicate.
glib-genmarshal was rewritten in glib 2.53.4, and as of now (2.53.6)
it has a bug where it unconditionally generates marshaler bodies,
even for standard marshalers, even with --stdinc. This causes
libgimpwidgets to define and export g_cclosure_marshal_VOID__INT()
and g_cclosure_marshal_VOID__OBJECT(), which upsets defcheck, and
breaks the build.
Work around this for now by using --header --body when generating
the marshal.c files, which includes the prototypes in the source,
instead of including the header ourselves. This is the only code
path where the new glib-genmarshal doesn't generate bodies for
standard marshalers. Note, however, that this usage is deprecated,
so we'll probably want to change it back once it's fixed.
...in both the core and libgimp.
Images now know what the default mode for new layers is:
- NORMAL for empty images
- NORMAL for images with any non-legacy layer
- NORMAL_LEGAVY for images with only legacy layers
This changes behavior when layers are created from the UI, but *also*
when created by plug-ins (yes there is a compat issue here):
- Most (all?) single-layer file importers now create NORMAL layers
- Screenshot, Webpage etc also create NORMAL layers
Scripts that create images from scratch (logos etc) should not be
affected because they usually have NORMAL_LEGACY hardcoded.
3rd party plug-ins and scripts will also behave old-style unless they
get ported to gimp_image_get_default_new_layer_mode().
gimp_layer_update_mode_node(): when showing the mask, set mode to
NORMAL, and make sure that the composite space is PERCEPTUAL for
LEGACY layers, and LINEAR (or whatever is chosen in layer attibutes)
otherwise.
this commit changes just those which make no difference to
functionality: property and object member defaults that get overridden
anyway, return values of g_return_val_if_fail(), some other stuff.
... and fix flatten-image along the way. *And* do some cleanup.
Currently, gimp_image_merge_layers() combines the layers on its own,
one by one. This is incompatible with pass-through groups, because
the group's buffer is rendered independently of its backdrop, while
we need to take the backdrop into account when mergeing the group.
Instead, render the subgraph of the parent graph, corresponding to
the set of merged layers, directly into the new layer. Since the
layers we merge are always visible and continuous, all we need is a
minor massage to the parent graph to make it work. This takes care
of pass-through groups intrinsicly.
This commit also changes the behavior of flatten-image: Currently,
the flattened layers are rendered directly on top of the opaque
background, which can make previously-hidden areas (due to layers
using composite modes other than src-over, or legacy layer modes)
visible. This is almost certainly not desirable.
Instead, construct the graph such that the flattened layers are
combined with the background only after being merged with one
another.
GimpFilter's is_last_node field only reflects the item's position
within the parent stack. When a layer is contained in a pass-
through group, it can be the last layer of the group, while not
being the last layer in the graph as a whole (paticularly, if
there are visible layers below the group). In fact, when we have
nested pass-through groups, whether or not a layer is the last
node depends on which group we're considering as the root (since
we exclude the backdrop from the group's projection, resulting in
different graphs for different groups).
Instead of rolling our own graph traversal, just move the relevant
logic to GimpOperationLayerMode, and let GEGL do the work for us.
At processing time, we can tell if we're the last node by checking
if we have any input.
For this to work, GimpOperationLayerMode's process() function needs
to have control over what's going on. Replace the derived op
classes, which override process(), with a call to the layer mode's
function (as per gimp_layer_mode_get_function()) in
GimpOperationLayerMode's process() function. (Well, actually, this
commit keeps the ops around, and just hacks around them in
gimp_layer_mode_get_operation(), because laziness :P)
Keep using the layer's is_last_node property to do the invalidation.
GimpTileHandlerProjectable is similar to GimpTileHandlerValidate,
except that it calls {begin,end}_render() on its associated
projectable before validating.
In pass-through mode, the group layer-stack's input is connected to
the backdrop. However, when rendering the group's projection, we
want to render the stack independently of the backdrop.
Unfortunately, we can't use the stack's graph as a subgraph of two
different graphs.
To work around that, the next few commits add a mechanism for a
projectable to be notified before and after its graph is being
rendered. We use this mechanism to disconnect the stack's graph
from the backdrop before rendering the projection, and reconnect
it afterwards. Yep, it's ugly, but it's better than having to
maintain n copies of (each node of) the graph (each nesting level
requires an extra copy.)
This commit adds {begin,end}_render() functions to GimpProjectable.
These functions should be called right before/after rendering the
projectable's graph.
When any of the children of a pass-through group excludes its
backdrop, the group itself should exclude the backdrop too. Override
get_excludes_backdrop() to follow this logic, and call
update_excludes_backdrop() when this condition might change.
Note that we always composite pass-through groups using src-over mode,
so to actually hide the backdrop, we need to disconnect it from the
group's mode node's input pad (and reconnect it, when the backdrop is
no longer hidden).
Override GimpDrawable::get_source_node() for GimpGroupLayer. Use
a node that contains both the drawable's buffer-source node, and the
layer stack's graph node. Choose which one of these to connect to
the source node's output based on the group's layer mode: the stack
graph for pass-through mode, and the buffer-source node for all the
rest.
When in pass-through mode, connect the source node's input (which
receives the backdrop) to the stack graph's input. Keep maintaining
the projection in pass-through mode. ATM, the projection uses the
same graph as the source node, so it's rendered against the group's
backdrop -- we don't want that. The next few commits fix it.
Update the group's drawable directly upon filter stack update in
pass-though mode, because the group's graph doesn't go through the
projection.
TODO: if any of the group's children (or a child of a nested pass-
through group, etc.) uses dst-atop/src-in, this needs special
attention.
Make sure the input of the layer's filter node is connected to its
source node (when it has an input pad), so that, once we implement
pass-though mode, the group's source node can see the backdrop.
For pass-through groups, we want to use the group's layer-stack
graph directly in its filter node, in place of the drawable's
buffer-source node. Add a get_source_node() vfunc to GimpDrawable,
which defaults to returning the buffer-source node, and use it in
gimp_drawable_get_source_node() instead of using the buffer-source
node directly. We'll later override this function for
GimpGroupLayer.
Add "gboolean with_filters" to gimp_drawable_calculate_histogram(),
which is passed as FALSE in almost all places, except the histogram
dockable where we want to see both the drawable's unmodified histogram
*and* the histogram after filters are applied.
Shift-click should actually toggle only within a given group. The new
capability of toggling only a sub-item, brought by commit 970e9ac is
still feasible in 2 steps: first toggling the parent (item group), then
the desired child.
It brings now a third possibility with exclusive toggle among many
children items, without touching other groups and top-level items.
More than 2000 lines of code less in app/, instead of
if (instance->member)
{
g_object_unref/g_free/g_whatever (instance->member);
instance->member = NULL;
}
we now simply use
g_clear_object/pointer (&instance->member);
Rename gimp_tool_widget_snap_offsets() to set_snap_offsets(),
and add gimp_tool_widget_get_snap_offsets().
Also rename gimp_tool_widget_status() to set_status(), and
add new function and signal set_status_coords().
When toggling visibility of a child in an item group, we should also
toggle the visibility of other items in the same group, as well as
top-level items. Otherwise toggling exclusive visibility of any item in
a group is identical to toggling the parent's exclusive visibility,
which is simply absurd.
We still don't touch visibility of items in other groups.
The GimpLayer implementation of the GimpItem transform functions,
and the GimpDrawable convert_type() function, apply their operation
to both the layer and its mask. The subclasses of GimpLayer --
GimpGroupLayer and GimpTextLayer -- override some of these
functions, providing their own logic for the layer part, and
duplicating the mask part.
Avoid this duplication by adding a set of virtual transform and
type-conversion functions to GimpLayer. Have the GimpLayer
implementaion of the corresponding GimpItem and GimpDrawable
functions use these functions to apply the operation to the layer,
while taking care of the mask themselves. Have GimpLayer's
subclasses override the new virtual functions, instead of the
GimpItem and GimpDrawable ones.
Note that the existing implementation of convert_type() in
GimpTextLayer neglected to convert the mask, hence text layer masks
retained their old format after conversion. This issue is fixed as
a side effect of this commit.
The identity parameter checks added to the raster brush
transformation functions in the previous commit are unnecessary,
since we're already testing for the identity matrix. Remove them.
Check if the brush parameters match the identity parameters, and
return the original brush mask/pixmap if they do, in the actual
mask/pixmap transformation virtual functions, instead of in their
wrappers. While the identity parameters for raster brushes are
always scale=1, aspect-ratio=0, angle=0, and hardness=1, for
generated brushes they depend on the specific brush
parameterization.
... when clipping, if they have an alpha channel
Right now, this case is only reachable through PDB, but it will become
relevant for the flip tool soon.
by encoding them directly in the string attached to all filter
actions. The code now supports both "gegl:some-operation" and
"gegl:some-operation\n<serialized config>".
Add "default_settings" to GimpGeglProcedure to store the settings of
the invoking action, much like the "default_run_mode" member.
Change filters-commands.c to parse the new operation string, create
GimpGeglProcedures with the deserialized settings, and use those
settings when the procedures are ran.
Change the filter history to be smarter about what is already in the
history, there can now be several different procedures with the same
name.
Remove the dilate and erode actions from the drawable group, and add
them to filters, they are just special cases of value-propagate with
fixed settings.
Commit 1e6acbd4e1 modified the
generated enum recipes to run gimp-mkenums from the source
directory, instead of the build directory, so that only the
basenames of the corresponding header files would appear in
the comment at the top of the generated files. This was a
mistake -- $(GIMP_MKENUMS) is expecting to be invoked from the
build directory.
Switch back to running gimp-mkenums from the build directory. To
avoid including the relative path from the build directory to the
source directory in the generated file, add a @basename@ production
variable to gimp-mkenums, which exapnds to the basename of the
input file, and use it instead of @filename@ in the recipes for the
generated enum files.
When regenerating an enum file, don't copy it back to the source
directory if it hasn't actually changed. This allows using a read-
only source directory where the enum header is newer than the
generated file, as long as they're not really out of sync.
OTOH, *do* touch the generated source-dir file even when unchanged,
in order to avoid re-running its recipe on the next build, however,
allow this to silently fail (which is harmless).
"layers-text-tool" action shows as "Text Tool" while "vectors-path-tool"
shows as "Path Tool". That's very confusing with tools-text and
tools-vectors respectively.
These actions are mostly about entering in edit mode with the active
layer or path. For text layers, it will enter text edition on canvas,
whereas just open the attributes edition dialog on other layers. For
consistency, layers-text-edit is renamed as well too layers-edit-text.
This also fix the side effect of commits 10099bd and 526918b where I
didn't realize that layers-text-tool was also working on non text layers
on purpose (being very badly named). Now there is a separate layers-edit
and layers-edit-text.
Thanks to Pat David for English corrections. :-)
When a layer is removed from a layer stack, and its backdrop needs
invalidating, emit the UPDATE signals for the backdrop only after
the layer has been removed from the container.
A subclass of GimpDrawableStack, for layer stacks. Invalidates the
layers' backdrop as/when necessary, according to the value of their
excludes_backdrop property.
Make gimp_drawable_stack_update() protected, instead of private, so
that we can use it in GimpLayerStack.
A boolean flag, specifying whether the backdrop is clipped to the
layer. That's the case when the layer's composite mode is dst-atop
or src-in.
This is a read-only property, derived from the other attributes of
the layer. We compute its value through a virtual function, so that
GimpGroupLayer will eventually be able to specialize it for pass-
through groups.
The next commit uses this property to actually do something useful.
Add the additional enum values to enum GimpSelectCriterion, and
the few needed lines to gimppickable-contiguous-region.c.
It's horribly slow, but works.
We check them into git, so this makes it easier to keep them in
sync when using a separate build directory.
Case in point -- this commit also syncs a few enum files that went
out-of-sync with their headers.
and use them for the new image in "Paste as new image". We were using
the resolution and unit of the image the paste command was invoked
from, which is entirely random and useless.
Add a "mask-only" property to GimpBrushClipboard. When TRUE, only
create a brush mask (not a pixmap brush with mask and image).
Keep two clipboard brushes around: one classic "Clipboard Image" one
to be used as "stamp", and one new "Clipboard Mask" one that turns the
clipboard into a brush mask.
Fix brush shrinking used to compensate for the blur: avoid over-
shrinking the brush and changing its aspect ratio.
Change the way hardness maps to blur radius: hardness == 0 maps to
the largest radius such that, when the kernel is applied to the
middle pixel of the brush, the kernel is completely within the brush
bounds, taking brush shrinking into account, *assuming the brush is
a circle*.
Use the dimensions of the unrotated brush when calculating the blur
radius, so that rotation doesn't affect the blur amount (the blur
itself is not isotropic, though, and is applied after rotation, so
while the blur amount remains uniform, its effect does depend on the
brush angle.)
Get rid of the blur-radius upper limit -- it's fast enough to handle
large radii now.
A few additional minor speedups.
Also, make sure we don't overflow for large blur radii. Not a
problem yet, since the blur radius is capped, but soon...
Add a specialized convolution algorithm for the hardness blur. It
uses the same kernel as before, but performs the convolution in
(amortized) O(1)-per-pixel time, instead of O(n^2), where n is the
size of the kernel (or the blur radius).
Note that the new code performs the convolution in the input color
space, instead of always using a linear space. Since our brush
pixmaps (but the not masks) are currently perceptual, the result is
a bit different.
Both in the GimpImage API and in the GUI. The toggle in the save
dialog now controls ZLIB compression directly. Changed the various
info labels accordingly. Ditch the XCF parasite that saved the XCF
compat mode.
Enable 64 bit file offsets in XCF files, starting with newly added XCF
version 11.
We use at least version 11 if:
- we would use the previous version 10 (essentially skipping 10)
- the in-memory size of the image is larger than 4 Gig
It was agreed that we should write "plug-in" consistently. Only possibly
user-visible strings were updated.
Thanks to scootergrisen for a first patch which could not make it
after changing decision on the canonical writing.
Use gimp_item_translate() instead of gimp_item_set_offset() to set
a pasted item's position, so that the offsets of pasted layer group
children are updated correctly. Otherwise, only the group itself
moves, while its children remain positioned relative to the top-left
corner of the image.
... since that's the color space it actually works in.
Keep the legacy "Color (HSV)" mode's name as is, wrong as it is,
since, well, that's what it used to be called...
When adding an item to a filter stack that doesn't have a graph yet,
calling gimp_filter_stack_update_last_node() may ultimately lead to
the invocation of gimp_filter_stack_get_graph(), which would create
a new graph, and add the item's node to it; gimp_filter_stack_add()
would then erroneously attempt to re-add the node to the graph.
Fix this by calling gimp_filter_stack_update_last_node() after
(potentially) adding the node to the graph in
gimp_filter_stack_add().
Merge mode lays the source layer on top of the destination, same as
normal mode, however, it assumes the source and destination are two
parts of an original whole, and are therefore mutually exclusive.
This is useful for blending cut & pasted content without artifacts,
or for replacing erased content in general.
Calculates the dot product of the two input colors, and uses that
as the value for all the output color's components. Basically,
a per-pixel mono mixer.
Useful for custom desaturation, component extraction, and crazier
stuff (bump mapping!)
Include erase mode in the menu for layers and general paint tools.
This makes the eraser tool somewhat unnecessary, but allows for
interesting use cases (e.g., airbrush eraser, etc.)
... and get rid of the dedicated op. This gives us support for all
the blend/composite options for this mode.
Rename COLOR_ERASE to COLOR_ERASE_LEGACY, with perceptual blending/
compositing and immutable everything, and add a new COLOR_ERASE
mode, defaulting to linear blending/compositing, with mutable
everything. Modify affected code.
being exported to libgimp, and having a non-exported value, this is a
horrible mess like with GimpLayerMode, but at least the cruft value
names are deprecated now.
Need to convert both from the drawable's profile to the filter's input
format and from the filter's output format back to the drawable's
profile. This change fixes things for the case where the filter's
input and output formats are different.
In particular, this enables grids whose points of intersection
are at the middle of the image's pixels, which is useful for
undistorted painting with odd-sized brushes using tools other than
the pencil.
This commit also changes the grid visibility behavior, so that the
the visibiltiy of horizontal and vertical grid lines (depending on
the zoom level) is independent.
A bitmask, specifying in which contexts a layer mode is applicable.
Can be a combination of:
- LAYER: usable as a layer mode for actual layers.
- GROUP: usable as a layer mode for layer groups. Currently, all
modes that specify LAYER also specify GROUP, and vice versa,
but the planned pass-through mode will be GROUP only.
- PAINT: can be used as a paint mode.
- FADE: can be used for fading.
Add a 'context' field to _GimpLayerModeInfo, and provide context
masks to all the modes.
Use the context mask for validation when setting a layer's mode.
The next commit will use the mask when populating the layer mode
menus.
set all legacy modes to completely immutable and the LAB modes'
blend mode to immutable. Change GimpLayer setters and the UI
accordingly. Remove the LAB color spaces from the GUI, they can
only be used with the LAB blend modes anyway and not changed.
and to operations/layer-modes/, respectively.
Add gimp_layer_modes_init() which asserts on the correct order of the
GimpLayerModeInfo array, and switch to accessing the array directly in
gimp_layer_mode_info().
Similar to the Photoshop mode of the same name. Assigns
either 0 or 1 to each of the channels, depending on whether the
sum of source and destination channel values is less than, or
greater than (or equals to), one, respectively.
This is equivalent to inverting the source, and using it to perform
per-pixel, per-channel threshold against the destination, which is
useful for various effects.
Largely based on a patch by Ell, with the enum type renamed and
various small changes. Adds another axis of configurability to the
existing layer mode madness, and is WIP too.
These variations on darken only and lighten only have the advantage over the
componentvise versions that they always use the full triplet of either original
or new layer - meaning no new colors/hues will be introduced. This is similar
to how these modes operated/operates in picture publisher and photo-paint.
For operations needing to override default behavior sub-classes should still be
used.
This commit also enables pinligh, vividlight and linearlight blend mode modes
Optionally convert all imported (not XCFs) images to 32 bit linear
floating point, and optionally add a little noise in order to
distribute the colors minimally. The new options are on a new "Image
Import & Export" prefs page that needs a new icon. Original dithering
patch by pippin.
It is used both for blending and compositing, the repeated use of the word
BLEND in code made the logic involving both blending and compositing hard to
read.
Implement a common utility function gimp_blend_composite that uses utility
functions for implementing layer modes, with separate (possibly SIMD) optimized
loops for blending and compositing, with configured linear TRC, perceptual
gamma TRC or even using CIE Lab as the space.
from gimp_applicator_new() and gimp_gegl_mode_node_set_mode().
Compositing doesn't depend on the layer format any longer, only on the
layer mode. Painting with "use applicator" unchecked is still broken
in some cases and needs more fixing.
...layer group cause a bug in the existing layer size
Change gimp_group_layer_get_size() to return FALSE if there are no
children (there is no content).
In gimp_group_layer_update_size(), skip children where get_size()
returns FALSE. Fixes bogus size calculation.
with proper value names. Mark most values as _BROKEN because they use
weird alpha compositing that has to die. Move GimpLayerModeEffects to
libgimpbase, deprecate it, and set it as compat enum for GimpLayerMode.
Add the GimpLayerModeEffects values as compat constants to script-fu
and pygimp.
when parsing of an object property fails, we need to set *expected to
G_TOKEN_NONE to tell the config parser that something has gone wrong,
or it will continue parsing and run into trouble with the inconsistent
state (it will try to set an error over the already set error, causing
a warning).
Change GimpHistogram to take a "gboolean linear" parameter and always
honor that parameter, so both kinds of histograms can now be created
for all drawables.
Add a horrible "Linear" toggle to the histogram dockable which always
defaults to the active layer's actual pixel format, but can be
switched at any time. This UI is ugly and needs to change.
On the PDB, default to gamma-corrected if the plug-in is unaware of
higher precision, and to the drawable's native pixel format otherwise.
Other places using histograms (e.g. levels, curves) are unchanged.
Current defaults are from another time. Acceptable defaults could be
common screen resolutions. 1366x768 is apparently the most common
(according to various stats on the web), but since we target advanced
graphics artists, let's go for 1920x1080, which is the second most
common resolution, also known as Full HD.
For unstable builds, let's have at least one odd number, uncommon ratio
and higher values, encouraging tests with less common numbers and bigger
images. I chose 2001x1984. Feel free to update to any other funky values
following these "unstable" rules.
... with something more suitable.
72 PPI is from a time where people thought this was a common screen
resolution. This is not the case nowadays, and anyway images targetted
for screen display should not bother with PPI resolution at all, only
with actual pixel dimensions.
PPI resolution is more useful for printing. And for this case, 300 is
quite an accepted OK value for most cases. So this is likely a better
default for GIMP.
There is no reasons not to translate the "occurs" text which will be
in the color names in palettes extracted from images. It indicates on
how many pixels a given extracted color was occuring. We should also
translate the full string (not just "occurs") since some language will
have to reorder words, and may even use different bracket characters.
So I also add a translator comment to make sure the translators get
what the %s and %d stand for in this string.
Introduce virtual function GimpViewable::is_name_editable() and class
member "gboolean name_editable" for the default value. Default to
FALSE and only return TRUE if the name can actually be edited by the
user.
When attemting an edit, check the new API and beep instead of starting
the edit.
The new properties are "virtual", they share their storage with the
"precision" property and are not serialized, they are meant for GUI
property widgets.
...instead of transforming it
Add gimp_matrix3_will_explode() which determines if a transform
matrix will blow up something in a rectangle to infinity, and use
the function so set both the GIMP and GEGL code paths to clip the
transform to the input size.
Don't migrate any paths from an older gimprc. This unfortunately kills
all manually added paths, but makes sure all paths default to the
files of the new GIMP version, could be improved by parsing the path
and replacing only the right elements.
Add color management to GimpDrawableFilter and GimpFilterTool, GEGL
ops applied to drawables can be applied in color managed space
now. Sadly, this is very slow, so disabled by default.
I'm sure the profile guessing based on the operation's format doesn't
always work, but this general bug counts as fixed now.
Fix cursor rotation jump when tablet pen is tilted horizontally.
This changes to the correct values for the special case of tilt_x == 0.0.
Reviewer (Jehan)'s note: computing the convergence of the tilt function
in the `else` block, when tilt_x approaches 0, tilt value indeed
converges to 0.25 with tilt_y > 0 and 0.75 (or -0.25 which is the same)
with tilt_y < 0.
gimp_drawable_equalize(): is mask_only is FALSE, suspend the selection
around gimp_drawable_apply_operation() so the operation affects the
entire drawable.
Add property "color-tag" of type enum GimpColorTag to GimpItem so all
layers, channels and paths can be tagged with a color.
For interoperability, use the color list from Krita which is a
superset of Photoshop's colors.
Features a "Color Tag" submenu in the layers, channels and paths
menus, a row of color radio buttons in the properties dialogs,
undo and PDB API.
As a side effect, some common code is now factores out into
items-actions.[ch] and items-commands.[ch] which adds visible, linked
and lock actions for layers and channels.
This fixes restoring of brush properties (size, spacing angle etc.)
from presets, which was utterly broken before. The fix consists of
two parts:
- In tool_manager_preset_changed(), always copy the brush properties
again after setting the preview on the tool options, in order to
override brush properites that get copied from a linked brush when
that brush gets set on the tool options.
But no amount of copying stuff again and again would help without:
- In gimp_context_set_by_type(), don't use g_object_set() to set the
object (brush, pattern etc.). Instead, build a GValue and call
gimp_context_set_property(). This may seem odd, but avoids a
g_object_freeze_notify()/thaw_notify() around the g_object_set(),
which was causing "notify" to be emitted at the very end, after
everything this context change has triggered. GimpContext is an
essential core object and there is an expectation of a reasonable
order of signal emissions and callbacks being called. The "notify"
at the end was keeping any callbacks of the context's "foo-changed"
signals to override anything an earlier callback had done, if a
"notify" callback was overriding that overriding again.
This was probably the reason for a lot of odd behavior observed over
the years. In fact, I have been searching for this for at least 5
years.
...are not submitted to respective Tool Options sliders
Treat brush angle and aspect ratio like all other paint options values
that can be linked to brush defaults and take their default values
from the brush. They were special casing their defaults to constants,
and GimpBrushGenerated was adding the passed dynamic radius and aspect
values to its own. This was totally incomprehensible.
Now GimpBrushGenerated's transform_size() and transform_mask()
implementations just translate between these APIs value ranges and the
brush's own value range and only use the passed values (not the
brush's native values), which makes the editor <-> tool options
interaction and the painted brush shape predictable.
Also connect the active brush's property notifications to the paint
options properties, so the paint options follow a brush edit live if
the respective "linked" toggles are checked.
And some cleanup.
Add a GimpFillType argument to GimpItem::resize() and fill type
widgets to the canvas and layer resize dialogs. Fill the new parts of
the drawable according to fill type in gimp_drawable_resize(). Make
sure places that need the old behavior get GIMP_FILL_TRANSPARENT
passed by hardcoding it in the GimpItem::resize() implemetations of
channel, mask, selection etc.
We didn't convert patterns to the target drawable's profile when using
gimp_drawable_fill().
Introduce gimp_drawable_fill_buffer() as single filling utility
function that does things right and use it from gimp_drawable_fill()
and gimp_fill_options_create_buffer().
making its external API "complete". Remove the redundant
"new_base_type" and "new_precision" from the internal (vfunc) API (the
Babl format has the same information).