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// file : libbuild2/cli/rule.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/cli/rule.hxx>
#include <libbuild2/depdb.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/context.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/filesystem.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/cli/target.hxx>
namespace build2
{
namespace cli
{
// Figure out if name contains stem and, optionally, calculate prefix and
// suffix.
//
static bool
match_stem (const string& name, const string& stem,
string* prefix = nullptr, string* suffix = nullptr)
{
size_t p (name.find (stem));
if (p != string::npos)
{
if (prefix != nullptr)
prefix->assign (name, 0, p);
if (suffix != nullptr)
suffix->assign (name, p + stem.size (), string::npos);
return true;
}
return false;
}
bool compile_rule::
match (action a, target& t) const
{
tracer trace ("cli::compile_rule::match");
// Find the .cli source file.
//
auto find = [&trace, a, &t] (auto&& r) -> optional<prerequisite_member>
{
for (prerequisite_member p: r)
{
// If excluded or ad hoc, then don't factor it into our tests.
//
if (include (a, t, p) != include_type::normal)
continue;
if (p.is_a<cli> ())
{
// Check that the stem match.
//
if (match_stem (t.name, p.name ()))
return p;
l4 ([&]{trace << ".cli file stem '" << p.name () << "' "
<< "doesn't match target " << t;});
}
}
return nullopt;
};
if (cli_cxx* pt = t.is_a<cli_cxx> ())
{
// The cli.cxx{} group.
//
cli_cxx& t (*pt);
// See if we have a .cli source file.
//
if (!find (group_prerequisite_members (a, t)))
{
l4 ([&]{trace << "no .cli source file for target " << t;});
return false;
}
// Figure out the member list.
//
// At this stage, no further changes to cli.options are possible and
// we can determine whether the --suppress-inline option is present.
//
// Passing the group as a "reference target" is a bit iffy,
// conceptually.
//
t.h = &search<cxx::hxx> (t, t.dir, t.out, t.name);
t.c = &search<cxx::cxx> (t, t.dir, t.out, t.name);
t.i = find_option ("--suppress-inline", t, "cli.options")
? nullptr
: &search<cxx::ixx> (t, t.dir, t.out, t.name);
return true;
}
else
{
// One of the ?xx{} members.
//
// Check if there is a corresponding cli.cxx{} group.
//
const cli_cxx* g (t.ctx.targets.find<cli_cxx> (t.dir, t.out, t.name));
// If not or if it has no prerequisites (happens when we use it to
// set cli.options) and this target has a cli{} prerequisite, then
// synthesize the dependency.
//
if (g == nullptr || !g->has_prerequisites ())
{
if (optional<prerequisite_member> p = find (
prerequisite_members (a, t)))
{
if (g == nullptr)
g = &t.ctx.targets.insert<cli_cxx> (t.dir, t.out, t.name, trace);
prerequisites ps;
ps.push_back (p->as_prerequisite ());
g->prerequisites (move (ps));
}
}
if (g == nullptr)
return false;
// For ixx{}, verify it is part of the group (i.e., not disabled
// via --suppress-inline).
//
if (t.is_a<cxx::ixx> () &&
find_option ("--suppress-inline", *g, "cli.options"))
return false;
t.group = g;
return true;
}
}
recipe compile_rule::
apply (action a, target& xt) const
{
if (cli_cxx* pt = xt.is_a<cli_cxx> ())
{
cli_cxx& t (*pt);
// Derive file names for the members.
//
t.h->derive_path ();
t.c->derive_path ();
if (t.i != nullptr)
t.i->derive_path ();
// Inject dependency on the output directory.
//
inject_fsdir (a, t);
// Match prerequisites.
//
match_prerequisite_members (a, t);
// For update inject dependency on the CLI compiler target.
//
if (a == perform_update_id)
inject (a, t, ctgt);
switch (a)
{
case perform_update_id: return [this] (action a, const target& t)
{
return perform_update (a, t);
};
case perform_clean_id: return &perform_clean_group_depdb;
default: return noop_recipe; // Configure/dist update.
}
}
else
{
const cli_cxx& g (xt.group->as<cli_cxx> ());
match_sync (a, g);
return group_recipe; // Execute the group's recipe.
}
}
static void
append_extension (cstrings& args,
const path_target& t,
const char* option,
const char* default_extension)
{
const string* e (t.ext ());
assert (e != nullptr); // Should have been figured out in apply().
if (*e != default_extension)
{
// CLI needs the extension with the leading dot (unless it is empty)
// while we store the extension without. But if there is an extension,
// then we can get it (with the dot) from the file name.
//
args.push_back (option);
args.push_back (e->empty ()
? e->c_str ()
: t.path ().extension_cstring () - 1);
}
}
target_state compile_rule::
perform_update (action a, const target& xt) const
{
tracer trace ("cli::compile_rule::perform_update");
// The rule has been matched which means the members should be resolved
// and paths assigned. We use the header file as our "target path" for
// timestamp, depdb, etc.
//
const cli_cxx& t (xt.as<cli_cxx> ());
const path& tp (t.h->path ());
context& ctx (t.ctx);
// Update prerequisites and determine if any relevant ones render us
// out-of-date. Note that currently we treat all the prerequisites as
// potentially affecting the result (think prologues/epilogues, CLI
// compiler target itself, etc).
//
timestamp mt (t.load_mtime (tp));
auto pr (execute_prerequisites<cli> (a, t, mt));
bool update (!pr.first);
target_state ts (update ? target_state::changed : *pr.first);
const cli& s (pr.second);
// We use depdb to track changes to the .cli file name, options,
// compiler, etc.
//
depdb dd (tp + ".d");
{
// First should come the rule name/version.
//
if (dd.expect ("cli.compile 1") != nullptr)
l4 ([&]{trace << "rule mismatch forcing update of " << t;});
// Then the compiler checksum.
//
if (dd.expect (csum) != nullptr)
l4 ([&]{trace << "compiler mismatch forcing update of " << t;});
// Then the options checksum.
//
sha256 cs;
append_options (cs, t, "cli.options");
if (dd.expect (cs.string ()) != nullptr)
l4 ([&]{trace << "options mismatch forcing update of " << t;});
// Finally the .cli input file.
//
if (dd.expect (s.path ()) != nullptr)
l4 ([&]{trace << "input file mismatch forcing update of " << t;});
}
// Update if depdb mismatch.
//
if (dd.writing () || dd.mtime > mt)
update = true;
dd.close ();
// If nothing changed, then we are done.
//
if (!update)
return ts;
// Translate paths to relative (to working directory). This results in
// easier to read diagnostics.
//
path relo (relative (t.dir));
path rels (relative (s.path ()));
const process_path& pp (ctgt.process_path ());
cstrings args {pp.recall_string ()};
// See if we need to pass --output-{prefix,suffix}
//
string prefix, suffix;
match_stem (t.name, s.name, &prefix, &suffix);
if (!prefix.empty ())
{
args.push_back ("--output-prefix");
args.push_back (prefix.c_str ());
}
if (!suffix.empty ())
{
args.push_back ("--output-suffix");
args.push_back (suffix.c_str ());
}
// See if we need to pass any --?xx-suffix options.
//
append_extension (args, *t.h, "--hxx-suffix", "hxx");
append_extension (args, *t.c, "--cxx-suffix", "cxx");
if (t.i != nullptr)
append_extension (args, *t.i, "--ixx-suffix", "ixx");
append_options (args, t, "cli.options");
if (!relo.empty ())
{
args.push_back ("-o");
args.push_back (relo.string ().c_str ());
}
args.push_back (rels.string ().c_str ());
args.push_back (nullptr);
if (verb >= 2)
print_process (args);
else if (verb)
print_diag ("cli", s, t);
if (!ctx.dry_run)
{
run (ctx, pp, args, 1 /* finish_verbosity */);
dd.check_mtime (tp);
}
t.mtime (system_clock::now ());
return target_state::changed;
}
}
}
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