Before this change, it was possible to adjust constraints in a way
that removes a degree of freedom and makes the sketch unsolvable,
but rank test was performed before solving the system, and an error
was not displayed immediately. Instead, a solution would seemingly
be found, but it would be very unstable--unrelated changes to
the sketch would cause rank test to fail.
To reproduce the bug, do this:
* Draw a triangle.
* Create a length constraint for all sides.
* Set side lengths to a, b, and c such that a + b = c.
* Add a line segment.
The current messages accurately reflect what happens to the system
of equations that represents the sketch, but can be quite confusing
to users that only think in terms of the constraints.
We use "unsolvable" and not "impossible" because while most of
the cases that result in this error message will indeed stem from
mutually exclusive sets of constraints, it is still possible that
there is some solution that our solver is unable to find using
numeric methods.
Make the union anonymous so that its elements can be addressed
directly. Then, move the Expr *b field into the union, as it
already is never used at the same time as any of the union members.
This will allow us to use non-POD classes inside these objects
in future and is otherwise functionally equivalent, as well
as more concise.
Note that there are some subtleties with handling of
brace-initialization. Specifically:
On aggregates (e.g. simple C-style structures) using an empty
brace-initializer zero-initializes the aggregate, i.e. it makes
all members zero.
On non-aggregates an empty brace-initializer calls the default
constructor. And if the constructor doesn't explicitly initialize
the members (which the auto-generated constructor doesn't) then
the members will be constructed but otherwise uninitialized.
So, what is an aggregate class? To quote the C++ standard
(C++03 8.5.1 §1):
An aggregate is an array or a class (clause 9) with no
user-declared constructors (12.1), no private or protected
non-static data members (clause 11), no base classes (clause 10),
and no virtual functions (10.3).
In SolveSpace, we only have to handle the case of base classes;
Constraint and Entity have those. Thus, they had to gain a default
constructor that does nothing but initializes the members to zero.
The main benefit is that std::swap will ensure that the type
of arguments is copy-constructible and move-constructible.
It is more concise as well.
When min and max are defined as macros, they will conflict
with STL header files included by other C++ libraries;
in this case STL will #undef any other definition.
The SolveSpace top-level directory was getting a bit cluttered, so
following the example of numerous other free-software projects, we move the
main application source into a subdirectory and adjust the build systems
accordingly.
Also, got rid of the obj/ directory in favor of creating it on the fly in
Makefile.msvc.
whitequark
EvilSpirit
Daniel Richard G