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// file : libbuild2/c/init.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/c/init.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/cc/guess.hxx>
#include <libbuild2/cc/module.hxx>
#include <libbuild2/c/target.hxx>
#ifndef BUILD2_DEFAULT_C
# ifdef BUILD2_NATIVE_C
# define BUILD2_DEFAULT_C BUILD2_NATIVE_C
# else
# define BUILD2_DEFAULT_C ""
# endif
#endif
using namespace std;
using namespace butl;
namespace build2
{
namespace c
{
using cc::compiler_id;
using cc::compiler_type;
using cc::compiler_class;
using cc::compiler_info;
class config_module: public cc::config_module
{
public:
explicit
config_module (config_data&& d): cc::config_module (move (d)) {}
virtual void
translate_std (const compiler_info&,
const target_triplet&,
scope&,
strings&,
const string*) const override;
};
using cc::module;
void config_module::
translate_std (const compiler_info& ci,
const target_triplet&,
scope& rs,
strings& mode,
const string* v) const
{
// The standard is `NN` but can also be `gnuNN`.
// This helper helps recognize both NN and [cC]NN to avoid an endless
// stream of user questions. It can also be used to recognize Nx in
// addition to NN (e.g., "23" and "2x").
//
auto stdcmp = [v] (const char* nn, const char* nx = nullptr)
{
if (v != nullptr)
{
const char* s (v->c_str ());
if (s[0] == 'c' || s[0] == 'C')
s += 1;
return strcmp (s, nn) == 0 || (nx != nullptr && strcmp (s, nx) == 0);
}
return false;
};
switch (ci.class_)
{
case compiler_class::msvc:
{
// Standard-wise, with VC you get what you get. The question is
// whether we should verify that the requested standard is provided
// by this VC version. And if so, from which version should we say
// VC supports 90, 99, and 11? We should probably be as loose as
// possible here since the author will always be able to tighten
// (but not loosen) this in the buildfile (i.e., detect unsupported
// versions).
//
// The state of affairs seem to be (from Herb Sutter's blog):
//
// 10.0 - most of C95 plus a few C99 features
// 11.0 - partial support for the C++11 subset of C11
// 12.0 - more C11 features from the C++11 subset, most of C99
//
// So let's say C99 is supported from 10.0 and C11 from 11.0. And
// C90 is supported by everything we care to support.
//
// C17/18 is a bug-fix version of C11 so here we assume it is the
// same as C11.
//
// And it's still early days for C2X. Specifically, there is not
// much about C2X in MSVC in the official places and the following
// page shows that it's pretty much unimplement at the time of the
// MSVC 17.6 release:
//
// https://en.cppreference.com/w/c/compiler_support/23
//
// From version 16.8 VC now supports /std:c11 and /std:c17 options
// which enable C11/17 conformance. However, as of version 16.10,
// neither SDK nor CRT can be compiled in these modes (see the /std
// option documentation for details/updates).
//
if (v == nullptr)
;
else if (!stdcmp ("90"))
{
uint64_t cver (ci.version.major);
if ((stdcmp ("99") && cver < 16) || // Since VS2010/10.0.
((stdcmp ("11") ||
stdcmp ("17") ||
stdcmp ("18")) && cver < 18) || // Since VS????/11.0.
(stdcmp ("23", "2x") ))
{
fail << "C " << *v << " is not supported by " << ci.signature <<
info << "required by " << project (rs) << '@' << rs;
}
}
break;
}
case compiler_class::gcc:
{
// 90 and 89 are the same standard. Translate 99 to 9x and 11 to 1x
// for compatibility with older versions of the compilers.
//
if (v == nullptr)
;
else
{
string o ("-std=");
if (stdcmp ("23", "2x")) o += "c2x"; // GCC 9, Clang 9 (8?).
else if (stdcmp ("17") ||
stdcmp ("18")) o += "c17"; // GCC 8, Clang 6.
else if (stdcmp ("11")) o += "c1x";
else if (stdcmp ("99")) o += "c9x";
else if (stdcmp ("90")) o += "c90";
else o += *v; // In case the user specifies `gnuNN` or some such.
mode.insert (mode.begin (), move (o));
}
break;
}
}
}
static const char* const hinters[] = {"cxx", nullptr};
// See cc::module for details on guess_init vs config_init.
//
bool
guess_init (scope& rs,
scope& bs,
const location& loc,
bool,
bool,
module_init_extra& extra)
{
tracer trace ("c::guess_init");
l5 ([&]{trace << "for " << bs;});
// We only support root loading (which means there can only be one).
//
if (rs != bs)
fail (loc) << "c.guess module must be loaded in project root";
// Load cc.core.vars so that we can cache all the cc.* variables.
//
load_module (rs, rs, "cc.core.vars", loc);
// Enter all the variables and initialize the module data.
//
// All the variables we enter are qualified so go straight for the
// public variable pool.
//
auto& vp (rs.var_pool (true /* public */));
cc::config_data d {
cc::lang::c,
"c",
"c",
"obj-c",
BUILD2_DEFAULT_C,
".i",
".mi",
hinters,
vp["bin.binless"],
// NOTE: remember to update documentation if changing anything here.
//
vp.insert<strings> ("config.c"),
vp.insert<string> ("config.c.id"),
vp.insert<string> ("config.c.version"),
vp.insert<string> ("config.c.target"),
vp.insert<string> ("config.c.std"),
vp.insert<strings> ("config.c.poptions"),
vp.insert<strings> ("config.c.coptions"),
vp.insert<strings> ("config.c.loptions"),
vp.insert<strings> ("config.c.aoptions"),
vp.insert<strings> ("config.c.libs"),
// See config.cxx.internal.scope for details.
//
vp.insert<string> ("config.c.internal.scope"),
nullptr /* config.c.translate_include */,
vp.insert<process_path_ex> ("c.path"),
vp.insert<strings> ("c.mode"),
vp.insert<path> ("c.config.path"),
vp.insert<strings> ("c.config.mode"),
vp.insert<dir_paths> ("c.sys_lib_dirs"),
vp.insert<dir_paths> ("c.sys_hdr_dirs"),
vp.insert<string> ("c.std"),
vp.insert<strings> ("c.poptions"),
vp.insert<strings> ("c.coptions"),
vp.insert<strings> ("c.loptions"),
vp.insert<strings> ("c.aoptions"),
vp.insert<strings> ("c.libs"),
vp.insert<string> ("c.internal.scope"),
vp.insert<strings> ("c.internal.libs"),
nullptr /* c.translate_include */,
vp["cc.poptions"],
vp["cc.coptions"],
vp["cc.loptions"],
vp["cc.aoptions"],
vp["cc.libs"],
vp.insert<strings> ("c.export.poptions"),
vp.insert<strings> ("c.export.coptions"),
vp.insert<strings> ("c.export.loptions"),
vp.insert<vector<name>> ("c.export.libs"),
vp.insert<vector<name>> ("c.export.impl_libs"),
vp["cc.export.poptions"],
vp["cc.export.coptions"],
vp["cc.export.loptions"],
vp["cc.export.libs"],
vp["cc.export.impl_libs"],
vp["cc.pkconfig.include"],
vp["cc.pkconfig.lib"],
vp.insert_alias (vp["cc.stdlib"], "c.stdlib"), // Same as cc.stdlib.
vp["cc.runtime"],
vp["cc.stdlib"],
vp["cc.type"],
vp["cc.system"],
vp["cc.module_name"],
vp["cc.importable"],
vp["cc.reprocess"],
vp.insert<string> ("c.preprocessed"), // See cxx.preprocessed.
nullptr, // No __symexport (no modules).
vp.insert<string> ("c.id"),
vp.insert<string> ("c.id.type"),
vp.insert<string> ("c.id.variant"),
vp.insert<string> ("c.class"),
&vp.insert<string> ("c.version"),
&vp.insert<uint64_t> ("c.version.major"),
&vp.insert<uint64_t> ("c.version.minor"),
&vp.insert<uint64_t> ("c.version.patch"),
&vp.insert<string> ("c.version.build"),
&vp.insert<string> ("c.variant_version"),
&vp.insert<uint64_t> ("c.variant_version.major"),
&vp.insert<uint64_t> ("c.variant_version.minor"),
&vp.insert<uint64_t> ("c.variant_version.patch"),
&vp.insert<string> ("c.variant_version.build"),
vp.insert<string> ("c.signature"),
vp.insert<string> ("c.checksum"),
vp.insert<string> ("c.pattern"),
vp.insert<target_triplet> ("c.target"),
vp.insert<string> ("c.target.cpu"),
vp.insert<string> ("c.target.vendor"),
vp.insert<string> ("c.target.system"),
vp.insert<string> ("c.target.version"),
vp.insert<string> ("c.target.class")
};
// Alias some cc. variables as c.
//
vp.insert_alias (d.c_runtime, "c.runtime");
vp.insert_alias (d.c_importable, "c.importable");
vp.insert_alias (d.c_pkgconfig_include, "c.pkgconfig.include");
vp.insert_alias (d.c_pkgconfig_lib, "c.pkgconfig.lib");
auto& m (extra.set_module (new config_module (move (d))));
m.guess (rs, loc, extra.hints);
return true;
}
bool
config_init (scope& rs,
scope& bs,
const location& loc,
bool,
bool,
module_init_extra& extra)
{
tracer trace ("c::config_init");
l5 ([&]{trace << "for " << bs;});
// We only support root loading (which means there can only be one).
//
if (rs != bs)
fail (loc) << "c.config module must be loaded in project root";
// Load c.guess and share its module instance as ours.
//
extra.module = load_module (rs, rs, "c.guess", loc, extra.hints);
extra.module_as<config_module> ().init (rs, loc, extra.hints);
return true;
}
static const target_type* const hdr[] =
{
&h::static_type,
nullptr
};
// Note that we include S{} here because .S files can include each other.
// (And maybe from inline assembler instructions?)
//
static const target_type* const inc[] =
{
&h::static_type,
&c::static_type,
&m::static_type,
&S::static_type,
&c_inc::static_type,
nullptr
};
bool
init (scope& rs,
scope& bs,
const location& loc,
bool,
bool,
module_init_extra& extra)
{
tracer trace ("c::init");
l5 ([&]{trace << "for " << bs;});
// We only support root loading (which means there can only be one).
//
if (rs != bs)
fail (loc) << "c module must be loaded in project root";
// Load c.config.
//
auto& cm (
load_module<config_module> (rs, rs, "c.config", loc, extra.hints));
cc::data d {
cm,
"c.compile",
"c.link",
"c.install",
cm.x_info->id.type,
cm.x_info->id.variant,
cm.x_info->class_,
cm.x_info->version.major,
cm.x_info->version.minor,
cm.x_info->variant_version ? cm.x_info->variant_version->major : 0,
cm.x_info->variant_version ? cm.x_info->variant_version->minor : 0,
cast<process_path> (rs[cm.x_path]),
cast<strings> (rs[cm.x_mode]),
cast<target_triplet> (rs[cm.x_target]),
cm.env_checksum,
false, // No C modules yet.
false, // No __symexport support since no modules.
cm.iscope,
cm.iscope_current,
cast_null<strings> (rs["cc.internal.libs"]),
cast_null<strings> (rs[cm.x_internal_libs]),
cast<dir_paths> (rs[cm.x_sys_lib_dirs]),
cast<dir_paths> (rs[cm.x_sys_hdr_dirs]),
cm.x_info->sys_mod_dirs ? &cm.x_info->sys_mod_dirs->first : nullptr,
cm.sys_lib_dirs_mode,
cm.sys_hdr_dirs_mode,
cm.sys_mod_dirs_mode,
cm.sys_lib_dirs_extra,
cm.sys_hdr_dirs_extra,
c::static_type,
nullptr, // No C modules yet.
c_inc::static_type,
hdr,
inc
};
auto& m (extra.set_module (new module (move (d), rs)));
m.init (rs, loc, extra.hints, *cm.x_info);
return true;
}
bool
objc_init (scope& rs,
scope& bs,
const location& loc,
bool,
bool,
module_init_extra&)
{
tracer trace ("c::objc_init");
l5 ([&]{trace << "for " << bs;});
// We only support root loading (which means there can only be one).
//
if (rs != bs)
fail (loc) << "c.objc module must be loaded in project root";
module* mod (rs.find_module<module> ("c"));
if (mod == nullptr)
fail (loc) << "c.objc module must be loaded after c module";
// Register the target type and "enable" it in the module.
//
// Note that we must register the target type regardless of whether the
// C compiler is capable of compiling Objective-C. But we enable only
// if it is.
//
// Note: see similar code in the cxx module.
//
rs.insert_target_type<m> ();
// Note that while Objective-C is supported by MinGW GCC, it's unlikely
// Clang supports it when targeting MSVC or Emscripten. But let's keep
// the check simple for now.
//
if (mod->ctype == compiler_type::gcc ||
mod->ctype == compiler_type::clang)
mod->x_obj = &m::static_type;
return true;
}
bool
as_cpp_init (scope& rs,
scope& bs,
const location& loc,
bool,
bool,
module_init_extra&)
{
tracer trace ("c::as_cpp_init");
l5 ([&]{trace << "for " << bs;});
// We only support root loading (which means there can only be one).
//
if (rs != bs)
fail (loc) << "c.as-cpp module must be loaded in project root";
module* mod (rs.find_module<module> ("c"));
if (mod == nullptr)
fail (loc) << "c.as-cpp module must be loaded after c module";
// Register the target type and "enable" it in the module.
//
// Note that we must register the target type regardless of whether the
// C compiler is capable of compiling Assember with C preprocessor. But
// we enable only if it is.
//
rs.insert_target_type<S> ();
if (mod->ctype == compiler_type::gcc ||
mod->ctype == compiler_type::clang)
mod->x_asp = &S::static_type;
return true;
}
bool
predefs_init (scope& rs,
scope& bs,
const location& loc,
bool,
bool,
module_init_extra&)
{
tracer trace ("c::predefs_init");
l5 ([&]{trace << "for " << bs;});
// We only support root loading (which means there can only be one).
//
if (rs != bs)
fail (loc) << "c.predefs module must be loaded in project root";
module* mod (rs.find_module<module> ("c"));
if (mod == nullptr)
fail (loc) << "c.predefs module must be loaded after c module";
// Register the c.predefs rule.
//
// Why invent a separate module instead of just always registering it in
// the c module? The reason is performance: this rule will be called for
// every C header.
//
cc::predefs_rule& r (*mod);
rs.insert_rule<h> (perform_update_id, r.rule_name, r);
rs.insert_rule<h> (perform_clean_id, r.rule_name, r);
rs.insert_rule<h> (configure_update_id, r.rule_name, r);
return true;
}
static const module_functions mod_functions[] =
{
// NOTE: don't forget to also update the documentation in init.hxx if
// changing anything here.
{"c.guess", nullptr, guess_init},
{"c.config", nullptr, config_init},
{"c.objc", nullptr, objc_init},
{"c.as-cpp", nullptr, as_cpp_init},
{"c.predefs", nullptr, predefs_init},
{"c", nullptr, init},
{nullptr, nullptr, nullptr}
};
const module_functions*
build2_c_load ()
{
return mod_functions;
}
}
}
|