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|
// file : build2/cc/module.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <build2/cc/module.hxx>
#include <iomanip> // left, setw()
#include <libbuild2/scope.hxx>
#include <libbuild2/diagnostics.hxx>
#include <build2/bin/target.hxx>
#include <build2/cc/target.hxx> // pc*
#include <libbuild2/config/utility.hxx>
#include <libbuild2/install/utility.hxx>
#include <build2/cc/guess.hxx>
using namespace std;
using namespace butl;
namespace build2
{
namespace cc
{
void config_module::
guess (scope& rs, const location& loc, const variable_map&)
{
tracer trace (x, "guess_init");
bool cc_loaded (cast_false<bool> (rs["cc.core.guess.loaded"]));
// Adjust module priority (compiler). Also order cc module before us
// (we don't want to use priorities for that in case someone manages
// to slot in-between).
//
if (!cc_loaded)
config::save_module (rs, "cc", 250);
config::save_module (rs, x, 250);
const variable& config_c_poptions (var_pool["config.cc.poptions"]);
const variable& config_c_coptions (var_pool["config.cc.coptions"]);
const variable& config_c_loptions (var_pool["config.cc.loptions"]);
// config.x
//
// Normally we will have a persistent configuration and computing the
// default value every time will be a waste. So try without a default
// first.
//
auto p (config::omitted (rs, config_x));
if (!p.first)
{
// If there is a config.x value for one of the modules that can hint
// us the toolchain, load it's .guess module. This makes sure that the
// order in which we load the modules is unimportant and that the user
// can specify the toolchain using any of the config.x values.
//
if (!cc_loaded)
{
auto& vp (var_pool.rw (rs));
for (const char* const* pm (x_hinters); *pm != nullptr; ++pm)
{
string m (*pm);
// Must be the same as in module's init().
//
const variable& v (vp.insert<path> ("config." + m, true));
if (rs[v].defined ())
{
load_module (rs, rs, m + ".guess", loc);
cc_loaded = true;
break;
}
}
}
// If cc.core.config is already loaded then use its toolchain id and
// (optional) pattern to guess an appropriate default (e.g., for {gcc,
// *-4.9} we will get g++-4.9).
//
path d;
if (cc_loaded)
d = guess_default (x_lang,
cast<string> (rs["cc.id"]),
cast<string> (rs["cc.pattern"]));
else
{
d = path (x_default);
if (d.empty ())
fail << "not built with default " << x_lang << " compiler" <<
info << "use config." << x << " to specify";
}
// If this value was hinted, save it as commented out so that if the
// user changes the source of the pattern, this one will get updated
// as well.
//
p = config::required (rs,
config_x,
d,
false,
cc_loaded ? config::save_commented : 0);
}
// Figure out which compiler we are dealing with, its target, etc.
//
ci_ = &build2::cc::guess (
x,
x_lang,
cast<path> (*p.first),
cast_null<string> (config::omitted (rs, config_x_id).first),
cast_null<string> (config::omitted (rs, config_x_version).first),
cast_null<string> (config::omitted (rs, config_x_target).first),
cast_null<strings> (rs[config_c_poptions]),
cast_null<strings> (rs[config_x_poptions]),
cast_null<strings> (rs[config_c_coptions]),
cast_null<strings> (rs[config_x_coptions]),
cast_null<strings> (rs[config_c_loptions]),
cast_null<strings> (rs[config_x_loptions]));
const compiler_info& ci (*ci_);
// Split/canonicalize the target. First see if the user asked us to
// use config.sub.
//
target_triplet tt;
{
string ct;
if (config_sub)
{
ct = run<string> (3,
*config_sub,
ci.target.c_str (),
[] (string& l, bool) {return move (l);});
l5 ([&]{trace << "config.sub target: '" << ct << "'";});
}
try
{
tt = target_triplet (ct.empty () ? ci.target : ct);
l5 ([&]{trace << "canonical target: '" << tt.string () << "'; "
<< "class: " << tt.class_;});
}
catch (const invalid_argument& e)
{
// This is where we suggest that the user specifies --config-sub to
// help us out.
//
fail << "unable to parse " << x_lang << " compiler target '"
<< ci.target << "': " << e <<
info << "consider using the --config-sub option";
}
}
// Assign values to variables that describe the compiler.
//
rs.assign (x_id) = ci.id.string ();
rs.assign (x_id_type) = to_string (ci.id.type);
rs.assign (x_id_variant) = ci.id.variant;
rs.assign (x_class) = to_string (ci.class_);
rs.assign (x_version) = ci.version.string;
rs.assign (x_version_major) = ci.version.major;
rs.assign (x_version_minor) = ci.version.minor;
rs.assign (x_version_patch) = ci.version.patch;
rs.assign (x_version_build) = ci.version.build;
// Also enter as x.target.{cpu,vendor,system,version,class} for
// convenience of access.
//
rs.assign (x_target_cpu) = tt.cpu;
rs.assign (x_target_vendor) = tt.vendor;
rs.assign (x_target_system) = tt.system;
rs.assign (x_target_version) = tt.version;
rs.assign (x_target_class) = tt.class_;
rs.assign (x_target) = move (tt);
rs.assign (x_pattern) = ci.pattern;
if (!x_stdlib.alias (c_stdlib))
rs.assign (x_stdlib) = ci.x_stdlib;
new_ = p.second;
// Load cc.core.guess.
//
if (!cc_loaded)
{
// Prepare configuration hints.
//
variable_map h;
// Note that all these variables have already been registered.
//
h.assign ("config.cc.id") = cast<string> (rs[x_id]);
h.assign ("config.cc.hinter") = string (x);
h.assign ("config.cc.target") = cast<target_triplet> (rs[x_target]);
if (!ci.pattern.empty ())
h.assign ("config.cc.pattern") = ci.pattern;
h.assign (c_runtime) = ci.runtime;
h.assign (c_stdlib) = ci.c_stdlib;
load_module (rs, rs, "cc.core.guess", loc, false, h);
}
else
{
// If cc.core.guess is already loaded, verify its configuration
// matched ours since it could have been loaded by another c-family
// module.
//
const auto& h (cast<string> (rs["cc.hinter"]));
auto check = [&loc, &h, this] (const auto& cv,
const auto& xv,
const char* what,
bool error = true)
{
if (cv != xv)
{
diag_record dr (error ? fail (loc) : warn (loc));
dr << h << " and " << x << " module " << what << " mismatch" <<
info << h << " is '" << cv << "'" <<
info << x << " is '" << xv << "'" <<
info << "consider explicitly specifying config." << h
<< " and config." << x;
}
};
check (cast<string> (rs["cc.id"]),
cast<string> (rs[x_id]),
"toolchain");
// We used to not require that patterns match assuming that if the
// toolchain id and target are the same, then where exactly the tools
// come from doesn't really matter. But in most cases it will be the
// g++-7 vs gcc kind of mistakes. So now we warn since even if
// intentional, it is still probably a bad idea.
//
check (cast<string> (rs["cc.pattern"]),
cast<string> (rs[x_pattern]),
"toolchain pattern",
false);
check (cast<target_triplet> (rs["cc.target"]),
cast<target_triplet> (rs[x_target]),
"target");
check (cast<string> (rs["cc.runtime"]),
ci.runtime,
"runtime");
check (cast<string> (rs["cc.stdlib"]),
ci.c_stdlib,
"c standard library");
}
}
#ifndef _WIN32
static const dir_path usr_inc ("/usr/include");
static const dir_path usr_loc_lib ("/usr/local/lib");
static const dir_path usr_loc_inc ("/usr/local/include");
# ifdef __APPLE__
static const dir_path a_usr_inc (
"/Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/include");
# endif
#endif
void config_module::
init (scope& rs, const location& loc, const variable_map&)
{
tracer trace (x, "config_init");
const compiler_info& ci (*ci_);
const target_triplet& tt (cast<target_triplet> (rs[x_target]));
// config.x.std overrides x.std
//
{
lookup l (config::omitted (rs, config_x_std).first);
const string* v;
if (l.defined ())
{
v = cast_null<string> (l);
rs.assign (x_std) = v;
}
else
v = cast_null<string> (rs[x_std]);
// Translate x_std value (if any) to the compiler option(s) (if any).
//
tstd = translate_std (ci, rs, v);
}
// Extract system header/library search paths from the compiler and
// determine if we need any additional search paths.
//
dir_paths lib_dirs;
dir_paths inc_dirs;
switch (ci.class_)
{
case compiler_class::gcc:
{
lib_dirs = gcc_library_search_paths (ci.path, rs);
inc_dirs = gcc_header_search_paths (ci.path, rs);
break;
}
case compiler_class::msvc:
{
lib_dirs = msvc_library_search_paths (ci.path, rs);
inc_dirs = msvc_header_search_paths (ci.path, rs);
break;
}
}
sys_lib_dirs_extra = lib_dirs.size ();
sys_inc_dirs_extra = inc_dirs.size ();
#ifndef _WIN32
// Add /usr/local/{include,lib}. We definitely shouldn't do this if we
// are cross-compiling. But even if the build and target are the same,
// it's possible the compiler uses some carefully crafted sysroot and by
// adding /usr/local/* we will just mess things up. So the heuristics
// that we will use is this: if the compiler's system include directories
// contain /usr[/local]/include then we add /usr/local/*.
//
// Note that similar to GCC we also check for the directory existence.
// Failed that, we can end up with some bizarre yo-yo'ing cases where
// uninstall removes the directories which in turn triggers a rebuild
// on the next invocation.
//
{
auto& is (inc_dirs);
auto& ls (lib_dirs);
bool ui (find (is.begin (), is.end (), usr_inc) != is.end ());
bool uli (find (is.begin (), is.end (), usr_loc_inc) != is.end ());
#ifdef __APPLE__
// On Mac OS starting from 10.14 there is no longer /usr/include.
// Instead we get the following:
//
// Homebrew GCC 9:
//
// /Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/include
//
// Apple Clang 10.0.1:
//
// /Library/Developer/CommandLineTools/usr/include
// /Library/Developer/CommandLineTools/SDKs/MacOSX10.14.sdk/usr/include
//
// What exactly all this means is anyone's guess, of course. So for
// now we will assume that anything that is or resolves (like that
// MacOSX10.14.sdk symlink) to:
//
// /Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/include
//
// Is Apple's /usr/include.
//
if (!ui && !uli)
{
for (const dir_path& d: inc_dirs)
{
// Both Clang and GCC skip non-existent paths but let's handle
// (and ignore) directories that cause any errors, for good
// measure.
//
try
{
if (d == a_usr_inc || dir_path (d).realize () == a_usr_inc)
{
ui = true;
break;
}
}
catch (...) {}
}
}
#endif
if (ui || uli)
{
bool ull (find (ls.begin (), ls.end (), usr_loc_lib) != ls.end ());
// Many platforms don't search in /usr/local/lib by default (but do
// for headers in /usr/local/include). So add it as the last option.
//
if (!ull && exists (usr_loc_lib, true /* ignore_error */))
ls.push_back (usr_loc_lib);
// FreeBSD is at least consistent: it searches in neither. Quoting
// its wiki: "FreeBSD can't even find libraries that it installed."
// So let's help it a bit.
//
if (!uli && exists (usr_loc_inc, true /* ignore_error */))
is.push_back (usr_loc_inc);
}
}
#endif
// If this is a new value (e.g., we are configuring), then print the
// report at verbosity level 2 and up (-v).
//
if (verb >= (new_ ? 2 : 3))
{
diag_record dr (text);
{
dr << x << ' ' << project (rs) << '@' << rs << '\n'
<< " " << left << setw (11) << x << ci.path << '\n'
<< " id " << ci.id << '\n'
<< " version " << ci.version.string << '\n'
<< " major " << ci.version.major << '\n'
<< " minor " << ci.version.minor << '\n'
<< " patch " << ci.version.patch << '\n';
}
if (!ci.version.build.empty ())
{
dr << " build " << ci.version.build << '\n';
}
{
const string& ct (tt.string ()); // Canonical target.
dr << " signature " << ci.signature << '\n'
<< " checksum " << ci.checksum << '\n'
<< " target " << ct;
if (ct != ci.original_target)
dr << " (" << ci.original_target << ")";
dr << "\n runtime " << ci.runtime
<< "\n stdlib " << ci.x_stdlib;
if (!x_stdlib.alias (c_stdlib))
dr << "\n c stdlib " << ci.c_stdlib;
}
if (!tstd.empty ())
{
dr << "\n std "; // One less space.
for (const string& o: tstd) dr << ' ' << o;
}
if (!ci.pattern.empty ()) // Note: bin_pattern printed by bin
{
dr << "\n pattern " << ci.pattern;
}
if (verb >= 3 && !inc_dirs.empty ())
{
dr << "\n inc dirs";
for (size_t i (0); i != inc_dirs.size (); ++i)
{
if (i == sys_inc_dirs_extra)
dr << "\n --";
dr << "\n " << inc_dirs[i];
}
}
if (verb >= 3 && !lib_dirs.empty ())
{
dr << "\n lib dirs";
for (size_t i (0); i != lib_dirs.size (); ++i)
{
if (i == sys_lib_dirs_extra)
dr << "\n --";
dr << "\n " << lib_dirs[i];
}
}
}
rs.assign (x_path) = process_path (ci.path, false /* init */);
rs.assign (x_sys_lib_dirs) = move (lib_dirs);
rs.assign (x_sys_inc_dirs) = move (inc_dirs);
rs.assign (x_signature) = ci.signature;
rs.assign (x_checksum) = ci.checksum;
// config.x.{p,c,l}options
// config.x.libs
//
// These are optional. We also merge them into the corresponding
// x.* variables.
//
// The merging part gets a bit tricky if this module has already
// been loaded in one of the outer scopes. By doing the straight
// append we would just be repeating the same options over and
// over. So what we are going to do is only append to a value if
// it came from this scope. Then the usage for merging becomes:
//
// x.coptions = <overridable options> # Note: '='.
// using x
// x.coptions += <overriding options> # Note: '+='.
//
rs.assign (x_poptions) += cast_null<strings> (
config::optional (rs, config_x_poptions));
rs.assign (x_coptions) += cast_null<strings> (
config::optional (rs, config_x_coptions));
rs.assign (x_loptions) += cast_null<strings> (
config::optional (rs, config_x_loptions));
rs.assign (x_aoptions) += cast_null<strings> (
config::optional (rs, config_x_aoptions));
rs.assign (x_libs) += cast_null<strings> (
config::optional (rs, config_x_libs));
// config.x.importable_header
//
// It's still fuzzy whether specifying (or maybe tweaking) this list in
// the configuration will be a common thing to do so for now we use
// omitted. It's also probably too early to think whether we should have
// the cc.* version and what the semantics should be.
//
if (x_importable_headers != nullptr)
{
lookup l (config::omitted (rs, *config_x_importable_headers).first);
// @@ MODHDR: if(modules) ?
//
rs.assign (x_importable_headers) += cast_null<strings> (l);
}
// Load cc.core.config.
//
if (!cast_false<bool> (rs["cc.core.config.loaded"]))
{
variable_map h;
if (!ci.bin_pattern.empty ())
h.assign ("config.bin.pattern") = ci.bin_pattern;
load_module (rs, rs, "cc.core.config", loc, false, h);
}
}
void module::
init (scope& rs, const location& loc, const variable_map&)
{
tracer trace (x, "init");
// Load cc.core. Besides other things, this will load bin (core) plus
// extra bin.* modules we may need.
//
if (!cast_false<bool> (rs["cc.core.loaded"]))
load_module (rs, rs, "cc.core", loc);
// Process, sort, and cache (in this->import_hdr) importable headers.
// Keep the cache NULL if unused or empty.
//
// @@ MODHDR TODO: support exclusions entries (e.g., -<stdio.h>)?
//
if (modules && x_importable_headers != nullptr)
{
strings* ih (cast_null<strings> (rs.assign (x_importable_headers)));
if (ih != nullptr && !ih->empty ())
{
// Translate <>-style header names to absolute paths using the
// compiler's include search paths. Otherwise complete and normalize
// since when searching in this list we always use the absolute and
// normalized header target path.
//
for (string& h: *ih)
{
if (h.empty ())
continue;
path f;
if (h.front () == '<' && h.back () == '>')
{
h.pop_back ();
h.erase (0, 1);
for (const dir_path& d: sys_inc_dirs)
{
if (file_exists ((f = d, f /= h),
true /* follow_symlinks */,
true /* ignore_errors */))
goto found;
}
// What should we do if not found? While we can fail, this could
// be too drastic if, for example, the header is "optional" and
// may or may not be present/used. So for now let's restore the
// original form to aid debugging (it can't possibly match any
// absolute path).
//
h.insert (0, 1, '<');
h.push_back ('>');
continue;
found:
; // Fall through.
}
else
{
f = path (move (h));
if (f.relative ())
f.complete ();
}
// @@ MODHDR: should we use the more elaborate but robust
// normalize/realize scheme so the we get the same
// path? Feels right.
f.normalize ();
h = move (f).string ();
}
sort (ih->begin (), ih->end ());
import_hdr = ih;
}
}
// Register target types and configure their "installability".
//
bool install_loaded (cast_false<bool> (rs["install.loaded"]));
{
using namespace install;
auto& tts (rs.target_types);
tts.insert (x_src);
auto insert_hdr = [&rs, &tts, install_loaded] (const target_type& tt)
{
tts.insert (tt);
// Install headers into install.include.
//
if (install_loaded)
install_path (rs, tt, dir_path ("include"));
};
// Note: module (x_mod) is in x_hdr.
//
for (const target_type* const* ht (x_hdr); *ht != nullptr; ++ht)
insert_hdr (**ht);
// Also register the C header for C-derived languages.
//
if (*x_hdr != &h::static_type)
insert_hdr (h::static_type);
tts.insert<pca> ();
tts.insert<pcs> ();
if (install_loaded)
install_path<pc> (rs, dir_path ("pkgconfig"));
}
// Register rules.
//
{
using namespace bin;
auto& r (rs.rules);
// We register for configure so that we detect unresolved imports
// during configuration rather that later, e.g., during update.
//
const compile_rule& cr (*this);
const link_rule& lr (*this);
r.insert<obje> (perform_update_id, x_compile, cr);
r.insert<obje> (perform_clean_id, x_compile, cr);
r.insert<obje> (configure_update_id, x_compile, cr);
r.insert<obja> (perform_update_id, x_compile, cr);
r.insert<obja> (perform_clean_id, x_compile, cr);
r.insert<obja> (configure_update_id, x_compile, cr);
r.insert<objs> (perform_update_id, x_compile, cr);
r.insert<objs> (perform_clean_id, x_compile, cr);
r.insert<objs> (configure_update_id, x_compile, cr);
if (modules)
{
r.insert<bmie> (perform_update_id, x_compile, cr);
r.insert<bmie> (perform_clean_id, x_compile, cr);
r.insert<bmie> (configure_update_id, x_compile, cr);
r.insert<hbmie> (perform_update_id, x_compile, cr);
r.insert<hbmie> (perform_clean_id, x_compile, cr);
r.insert<hbmie> (configure_update_id, x_compile, cr);
r.insert<bmia> (perform_update_id, x_compile, cr);
r.insert<bmia> (perform_clean_id, x_compile, cr);
r.insert<bmia> (configure_update_id, x_compile, cr);
r.insert<hbmia> (perform_update_id, x_compile, cr);
r.insert<hbmia> (perform_clean_id, x_compile, cr);
r.insert<hbmia> (configure_update_id, x_compile, cr);
r.insert<bmis> (perform_update_id, x_compile, cr);
r.insert<bmis> (perform_clean_id, x_compile, cr);
r.insert<bmis> (configure_update_id, x_compile, cr);
r.insert<hbmis> (perform_update_id, x_compile, cr);
r.insert<hbmis> (perform_clean_id, x_compile, cr);
r.insert<hbmis> (configure_update_id, x_compile, cr);
}
r.insert<libue> (perform_update_id, x_link, lr);
r.insert<libue> (perform_clean_id, x_link, lr);
r.insert<libue> (configure_update_id, x_link, lr);
r.insert<libua> (perform_update_id, x_link, lr);
r.insert<libua> (perform_clean_id, x_link, lr);
r.insert<libua> (configure_update_id, x_link, lr);
r.insert<libus> (perform_update_id, x_link, lr);
r.insert<libus> (perform_clean_id, x_link, lr);
r.insert<libus> (configure_update_id, x_link, lr);
r.insert<exe> (perform_update_id, x_link, lr);
r.insert<exe> (perform_clean_id, x_link, lr);
r.insert<exe> (configure_update_id, x_link, lr);
r.insert<liba> (perform_update_id, x_link, lr);
r.insert<liba> (perform_clean_id, x_link, lr);
r.insert<liba> (configure_update_id, x_link, lr);
r.insert<libs> (perform_update_id, x_link, lr);
r.insert<libs> (perform_clean_id, x_link, lr);
r.insert<libs> (configure_update_id, x_link, lr);
// Note that while libu*{} are not installable, we need to see through
// them in case they depend on stuff that we need to install (see the
// install rule implementations for details).
//
if (install_loaded)
{
const install_rule& ir (*this);
r.insert<exe> (perform_install_id, x_install, ir);
r.insert<exe> (perform_uninstall_id, x_uninstall, ir);
r.insert<liba> (perform_install_id, x_install, ir);
r.insert<liba> (perform_uninstall_id, x_uninstall, ir);
r.insert<libs> (perform_install_id, x_install, ir);
r.insert<libs> (perform_uninstall_id, x_uninstall, ir);
const libux_install_rule& lr (*this);
r.insert<libue> (perform_install_id, x_install, lr);
r.insert<libue> (perform_uninstall_id, x_uninstall, lr);
r.insert<libua> (perform_install_id, x_install, lr);
r.insert<libua> (perform_uninstall_id, x_uninstall, lr);
r.insert<libus> (perform_install_id, x_install, lr);
r.insert<libus> (perform_uninstall_id, x_uninstall, lr);
}
}
}
}
}
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