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// file : libbuild2/cc/types.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/cc/types.hxx>
#include <libbuild2/cc/utility.hxx>
using namespace std;
namespace build2
{
namespace cc
{
const string header_group_all ("all");
const string header_group_all_importable ("all-importable");
const string header_group_std ("std");
const string header_group_std_importable ("std-importable");
// Find the position where the group should be inserted unless the group
// is already there.
//
using groups = importable_headers::groups;
static inline optional<groups::const_iterator>
find_angle (const groups& gs, const string& g)
{
for (auto i (gs.begin ()); i != gs.end (); ++i)
{
// After last angle-bracket file.
//
if (i->front () != '<' || i->back () != '>' || path_pattern (*i))
return i;
if (*i == g)
return nullopt;
}
return gs.begin ();
}
static inline optional<groups::const_iterator>
find_angle_pattern (const groups& gs, const string& g)
{
for (auto i (gs.begin ()); i != gs.end (); ++i)
{
// After last angle-bracket file pattern.
//
if (i->front () != '<' || i->back () != '>')
return i;
if (*i == g)
return nullopt;
}
return gs.begin ();
}
auto importable_headers::
insert_angle (const dir_paths& sys_hdr_dirs,
const string& s) -> pair<const path, groups>*
{
assert (s.front () == '<' && s.back () == '>');
// First see if it has already been inserted.
//
auto i (group_map.find (s));
if (i == group_map.end ())
{
path f (s, 1, s.size () - 2);
path p; // Reuse the buffer.
for (const dir_path& d: sys_hdr_dirs)
{
if (file_exists ((p = d, p /= f),
true /* follow_symlinks */,
true /* ignore_errors */))
goto found;
}
return nullptr;
found:
normalize_header (p);
// Note that it's possible this header has already been entered as
// part of a different group.
//
auto j (header_map.emplace (move (p), groups {}).first);
if (auto p = find_angle (j->second, s))
j->second.insert (*p, s);
i = group_map.emplace (s, reinterpret_cast<uintptr_t> (&*j)).first;
}
return reinterpret_cast<pair<const path, groups>*> (i->second);
}
auto importable_headers::
insert_angle (path p, const string& s) -> pair<const path, groups>&
{
assert (s.front () == '<' && s.back () == '>');
// First see if it has already been inserted.
//
auto i (group_map.find (s));
if (i == group_map.end ())
{
// Note that it's possible this header has already been entered as
// part of a different group.
//
auto j (header_map.emplace (move (p), groups {}).first);
if (auto p = find_angle (j->second, s))
j->second.insert (*p, s);
i = group_map.emplace (s, reinterpret_cast<uintptr_t> (&*j)).first;
}
return *reinterpret_cast<pair<const path, groups>*> (i->second);
}
size_t importable_headers::
insert_angle_pattern (const dir_paths& sys_hdr_dirs, const string& pat)
{
assert (pat.front () == '<' && pat.back () == '>' && path_pattern (pat));
// First see if it has already been inserted.
//
auto i (group_map.find (pat));
if (i == group_map.end ())
{
path f (pat, 1, pat.size () - 2);
struct data
{
uintptr_t n;
const string& pat;
const dir_path* dir;
} d {0, pat, nullptr};
auto process = [&d, this] (path&& pe, const string&, bool interm)
{
if (interm)
return true;
path p (*d.dir / pe);
normalize_header (p);
string s (move (pe).string ());
s.insert (0, 1, '<');
s.push_back ('>');
// Note that it's possible this header has already been entered as
// part of a different group.
//
auto j (header_map.emplace (move (p), groups {}).first);
if (auto p = find_angle (j->second, s))
j->second.insert (*p, move (s));
if (auto p = find_angle_pattern (j->second, d.pat))
j->second.insert (*p, d.pat);
d.n++;
return true;
};
for (const dir_path& dir: sys_hdr_dirs)
{
d.dir = &dir;
try
{
path_search (f, process, dir);
}
catch (const system_error& e)
{
fail << "unable to scan " << dir << ": " << e;
}
}
i = group_map.emplace (pat, d.n).first;
}
return static_cast<size_t> (i->second);
}
}
}
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