Fix iconutil build errors: “Iconset contains no image resources.”,
followed by “Failed to generate ICNS.”
The error is produced by iconutil because the AppIcon.iconset contains
only symbolic links to the icon resources which aren’t followed.
Replace the symbolic links with duplicates of the original resources,
as well as conform to the “High Resolution Guidelines for OS X” by
adding additional sizes and dpi.
This change is quite subtle. The goal is to improve responsiveness
of highlighting even further. To understand this change you need
to keep in mind that Windows and Gtk have dramatically different
behavior for paint (WM_PAINT in Windows, expose in Gtk) and
mouse move events.
In Windows, WM_PAINT and WM_MOUSEMOVE, unless sent explicitly,
are synthesized: WM_MOUSEMOVE is delivered when there are no other
messages and the current cursor position doesn't match the remembered
one, and WM_PAINT is delivered when there are no other messages,
even WM_MOUSEMOVE. This is pretty clever because it doesn't swamp
programs that are slow to process either of those events with even
more of them, ensuring they remain responsive.
In Gtk, expose events are delivered at the end of the frame whenever
there is an invalid view, and every single mouse move that happened
will result in a separate event.
If mouse move events are handled quickly, then the behavior is
identical in either case:
* process mouse move event
* perform hit testing
* invalidate view
* no more events to process!
* there are invalid views
* repaint
If, however, mouse move events are handled slower, then the behavior
diverges. With Gtk:
* process mouse move event
* perform hit testing (slow)
* while this happens, ten more mouse move events are added
* invalidate view
* end of frame!
* there are invalid views
* repaint
* process mouse move event...
As a result, the Gtk-hosted UI hopelessly lags behind user input.
This is very irritating.
With Windows:
* process mouse move event
* perform hit testing (slow)
* while this happens, mouse was moved
* invalidate view
* process mouse move event...
As a result, the Windows-hosted UI never repaints while the mouse
is moved. This is also very irritating.
Commit HEAD^ has fixed the problems with Gtk-based UI by making
hit testing so fast that mouse move events never quite overflow
the queue. There's still a barely noticeable lag but it's better.
However, the problems with Windows remained because while the queue
doesn't *overflow* with the faster hit testing code, it doesn't go
*empty* either! Thus we still don't repaint.
This commit builds on top of HEAD^ and makes it so that we don't
actually hit test anything if we haven't painted the result of
the previous hit test already. This fixes the problem on Windows
but also helps Gtk a little bit.
Curiously, the Cocoa-based UI never suffered from any of these
problems. To my understanding (it's somewhat underdocumented), it
processes mouse moves like Windows, but paints like Gtk.
This results in massive performance improvements for hit testing.
Files with very large amounts of entities (e.g. [1]) inflict
a delay of several seconds between moving the pointer and
highlighting an entity in commit HEAD^^^, whereas in this commit
the delay is barely perceptible.
[1]: http://solvespace.com/forum.pl?action=viewthread&parent=872
Before this commit, trying to export image on *nix platforms yielded
a black rectangle, since since there is nowhere to render to
when we're not in a GUI toolkit draw callback.
On Windows, nothing changes: we do a repaint without the toolbar,
glReadPixels, export. On *nix, we create another offscreen rendering
context, render into it, then destroy it. As a bonus this avoids
some minor flickering that would happen if we reused the regular
rendering path.
We had to fork libdxfrw since the upstream doesn't have a git
repository, a CMake buildsystem, and is quite buggy.
libdxfrw is also used in LibreCAD, but they just vendored
their version.
Before this commit, if a pt-line-distance constraint is placed so
that the dimension line doesn't touch the line, no extension is
drawn. After this commit, an extension line will be drawn towards
the nearest end of the line.
This is an artificial restriction that serves no useful purpose.
Just switch to the previous group if asked to delete the current
one.
The ClearSuper() calls are reshuffled, since TW.ClearSuper() calls
TW.Show() and so has to be called while the sketch is still valid,
whereas GW.ClearSuper() also recreates the default group and thus
it should be called after the first RemoveById+GenerateAll pair,
or it'll recreate the default group before the entities on it have
a chance to be pruned.
Switching active group by itself is not an editing but a viewing
action; the active group is not recorded in the savefile. However,
the entity visibility status is, and this is annoying when source
control is used, because e.g. looking up dimensions in one of
the inner groups whose display was turned off ends up changing
the savefile.
When the display has to be turned on manually, this modification
of the file becomes explicit, so there's no longer any question
of what action modified the file.
This can also be convenient when inserting a group in the middle
of the stack, which will be implemented in the future.
Most of these were just converting char* into std::string back and
forth; some more used ReadUTF8, which was converted to use nicer
STL-style iterators over UTF-8 text.
The remaining ones are:
* arguments to Expr::From, which we'll change when refactoring
the expression lexer;
* arguments to varargs functions, which we'll change when adding
localization (that requires custom printf-style functions to
allow for changing argument order);
* arguments where only string literals are ever passed, which
are OK;
* in platform-specific code, which is OK.
CMake can properly quote inputs to custom commands itself; this is
governed by the VERBATIM flag. If we pass this flag, no quoting
needs to be done except for compiler/linker flags and diagnostic
messages, as CMake doesn't treat whitespace expanded from variables
the same way it treats whitespace that separates arguments.
This will weed out compilers that are too old to build our code
(among others, recent gtkmm and glibmm have a hard dependency on
C++11, not even C++0x) and also properly communicate our wish to GCC
(Clang defaults to C++11 these days).