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// file : libbuild2/config/utility.txx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
namespace build2
{
namespace config
{
template <typename T>
pair<lookup, bool>
lookup_config_impl (scope& rs,
const variable& var,
T&& def_val,
uint64_t sflags,
bool def_ovr)
{
// Note: see also the other lookup_config() implementation if changing
// anything here.
save_variable (rs, var, sflags);
pair<lookup, size_t> org (rs.lookup_original (var));
bool n (false); // New flag.
lookup l (org.first);
// The interaction with command line overrides can get tricky. For
// example, the override to default value could make (non-recursive)
// command line override in the outer scope no longer apply. So what we
// are going to do is first ignore overrides and perform the normal
// logic on the original. Then we apply the overrides on the result.
//
// Note that this is not exactly the "lookup and set to default if
// undefined" semantics in case there is no original but there is an
// override. In this case we will set original to default and then apply
// the override, which could be append or non-recursive (as mentioned
// above). It does, however, feel like taking into account the default
// in such cases is the correct semantics since append is meant as an
// addition to something existing and non-recursive override is only
// meant to override at the level it was specified. Though it won't be
// surprising at all if we end up with some counter-intuitive behavior
// here.
//
// Actually, the above analysis is not the full picture: if we have one
// of those overrides (append, non-recursive) in the outer project, then
// the lookup_config() call at that level will set the corresponding
// variable on that scope and we will see it as "original-defined" from
// our scope. Of course if there is no call to lookup_config() for this
// variable in the outer scope, then we won't see anything but then our
// behavior in this case seems correct: since that value is not part of
// the configuration (and won't be saved), then we should stick to our
// default. In other words, we should only inherit the value if it is
// actually recognized as a configuration value by the outer project.
//
// So, to summarize the current understanding, while our semantics is
// not exactly "lookup and set to default if undefined" in some obscure
// corner cases, it seem to be the correct/preferred one.
//
if (!l.defined () || (def_ovr && !l.belongs (rs)))
{
value& v (rs.assign (var) = std::forward<T> (def_val)); // VC14
v.extra = 1; // Default value flag.
n = (sflags & save_default_commented) == 0; // Absence means default.
l = lookup (v, var, rs);
org = make_pair (l, 1); // Lookup depth is 1 since it's in rs.vars.
}
// Treat an inherited value that was set to default as new.
//
else if (l->extra == 1)
n = (sflags & save_default_commented) == 0; // Absence means default.
if (var.overrides != nullptr)
{
pair<lookup, size_t> ovr (rs.lookup_override (var, move (org)));
if (l != ovr.first) // Overriden?
{
// Override is always treated as new.
//
n = true;
l = move (ovr.first);
}
}
return pair<lookup, bool> (l, n);
}
}
}
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