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The variable template could be generalized like this:
template <auto F, auto... A> const auto cache = F(A...);
and instantiated like:
cache<GetSystemMetrics, SM_CXVSCROLL>
It would still be limited to constant function arguments, which
usually isn't a problem for GetSystemMetrics, but might be for
other functions.
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It seems that the debug output format changed at some point.
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If you use Emacs, make sure compilation-read-command is t and not nil.
Otherwise, you will be warned when the compile-command variable is
loaded from .dir-locals.el.
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If the main window exists, it is probably a good idea for the message
box to be owned by it. Otherwise, the user may continue to interact
with the main window. Of course, that could sometimes be a benefit,
but it SEEMS a bit unsafe... I might change this in the future.
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Not quite so awful anymore.
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No, not "awful", AWFUN!
Speaking of AWFUN, here is an alternative implementation of it:
#define AWFUN(t, f) cond_fun<t, f##A, f##W>
template <typename T, auto F, auto G>
std::enable_if_t<std::is_same_v<T, char>, decltype(F)> cond_fun = F;
template <auto F, auto G>
auto cond_fun<wchar_t, F, G> = G;
This implementation uses a variable template instead of a function
template, but I decided against it, as (at least I think) it would
instantiate useless variables that merely point to pre-existing API
functions. Like,
auto cond_fun__wchar_t__blablabla = MessageBoxW;
auto cond_fun__char__blablabla = MessageBoxA;
which is quite useless. Better to just have a constexpr function,
which the compiler may inline, return the real function pointer.
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As the message box has no owner (because the main window may not be
initialized yet), it may be unclear which application is being
terminated.
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This improves upon 79d4fa6.
Actually, ANSI compatibility may be desirable, as recent work has been
done to make the A versions of Windows API functions work with UTF-8.
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It's not very useful, but it's a fun exercise.
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In warn_nil, the return value was undefined on exception -- I think.
While informative, the names throw_nil and warn_nil don't work very
well in conditionals:
if (warn_nil<f>(...)) g();
sounds like g should be called if f returns nil and a warning is
issued. But it is actually the other way around; g is called if f is
successful.
if (prefer<f>(...)) g();
sounds less like that.
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This is equivalent, but it may be useful to highlight that `args' does
not HAVE to be declared in order to get the return type of the
function call.
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Some of the checks are likely redundant, but the Windows API
documentation rarely makes it clear WHICH errors may be returned (and
under which circumstances) rather than simply WHETHER errors may be
returned (under any circumstances, including those that do not apply
in the given case).
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Speaking of unclear documentation, it is not obvious whether it is
necessary for programs calling into Prolog to manually mark and
release strings. I suppose that it should be, if the same logic that
applies to terms apply to strings.
On the other hand, the stack in which the strings are stored belongs
to Prolog, and there is nothing that would prevent Prolog from
cleaning up the strings when called at a later time. I am not sure.
But better safe than sorry, I guess.
The Mark class acts like the Frame class. The constructor and
destructor are equivalent to the PL_STRINGS_MARK and
PL_STRINGS_RELEASE macros.
Unlike for 34c3280, I did not notice any differences in memory usage
after this change. Perhaps that is because it has no effect; perhaps
it is because Prolog's stack is very big.
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Apparently foreign frames ARE needed when calling Prolog from C. The
official documentation is very terse and could make this clearer.
To summarize, whenever a term is created (e.g., PL_new_term_refs), its
reference count is increased by one. It is garbage-collected when its
reference count hits zero. But the reference count is never decreased
unless (a) control returns to Prolog after executing a foreign
predicate -- which does not happen in my application -- or (b) the
foreign frame in which the term was created is closed.
In other words, terms must be created within a foreign frame. This is
achieved by initializing a Frame object before creating the term and
destroying it once the term has served its purpose.
The destructor for Frame does not DISCARD the frame, only CLOSE it.
The former would also invalidate all data bound by the terms, which is
usually undesirable.
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It isn't really more safe, but it removes the need for a confusing
function pointer cast, which is easy to get wrong. As far as the
compiler is concerned, the result is literally the same, but it does
force the caller to (indirectly, via the template parameter) cast the
return value, which may be a good thing.
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PL_new_atom(_wchars) creates an atom with a reference count of one,
which is never decreased, and the atom is thus never garbage
collected.
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Apparently, = {0} does not zero a structure in C++.
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f(void) is a C-ism that is valid but unnecessary in C++.
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A getter offers encapsulation, but it is also less transparent in a
sense. Thinking of ListView as a struct, it is natural to expose hWnd
as a public member variable.
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This is obviously a lot less obtuse.
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It seems that "right-spaced" pointers are more widely used among C++
programmers.
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Note that I did NOT add const to non-pointer/non-reference arguments
in function declarations (without a following definition), as they do
not mean anything there.
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If needed in the future, it is possible to simply copy it from the Git
history.
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This avoids the use of TsmFromSz.
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