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|
// file : build/file.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2015 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <build/file>
#include <map>
#include <fstream>
#include <utility> // move()
#include <butl/filesystem>
#include <build/scope>
#include <build/context>
#include <build/parser>
#include <build/diagnostics>
#include <build/token>
#include <build/lexer>
using namespace std;
using namespace butl;
namespace build
{
const dir_path build_dir ("build");
const dir_path bootstrap_dir ("build/bootstrap");
const path root_file ("build/root.build");
const path bootstrap_file ("build/bootstrap.build");
const path src_root_file ("build/bootstrap/src-root.build");
bool
is_src_root (const dir_path& d)
{
// @@ Can we have root without bootstrap? I don't think so.
//
return file_exists (d / bootstrap_file) || file_exists (d / root_file);
}
bool
is_out_root (const dir_path& d)
{
return file_exists (d / src_root_file);
}
dir_path
find_src_root (const dir_path& b)
{
for (dir_path d (b); !d.root () && d != home; d = d.directory ())
{
if (is_src_root (d))
return d;
}
return dir_path ();
}
dir_path
find_out_root (const dir_path& b, bool* src)
{
for (dir_path d (b); !d.root () && d != home; d = d.directory ())
{
bool s (false);
if ((s = is_src_root (d)) || is_out_root (d)) // Order is important!
{
if (src != nullptr)
*src = s;
return d;
}
}
return dir_path ();
}
void
source (const path& bf, scope& root, scope& base)
{
tracer trace ("source");
ifstream ifs (bf.string ());
if (!ifs.is_open ())
fail << "unable to open " << bf;
level4 ([&]{trace << "sourcing " << bf;});
ifs.exceptions (ifstream::failbit | ifstream::badbit);
parser p;
try
{
p.parse_buildfile (ifs, bf, root, base);
}
catch (const std::ios_base::failure&)
{
fail << "failed to read from " << bf;
}
}
void
source_once (const path& bf, scope& root, scope& base, scope& once)
{
tracer trace ("source_once");
if (!once.buildfiles.insert (bf).second)
{
level4 ([&]{trace << "skipping already sourced " << bf;});
return;
}
source (bf, root, base);
}
scope&
create_root (const dir_path& out_root, const dir_path& src_root)
{
scope& rs (scopes.insert (out_root, true).first);
// Enter built-in meta-operation and operation names. Note that
// the order of registration should match the id constants; see
// <operation> for details. Loading of modules (via the src
// bootstrap; see below) can result in additional names being
// added.
//
if (rs.meta_operations.empty ())
{
assert (rs.meta_operations.insert (perform) == perform_id);
assert (rs.operations.insert (default_) == default_id);
assert (rs.operations.insert (update) == update_id);
assert (rs.operations.insert (clean) == clean_id);
}
// If this is already a root scope, verify that things are
// consistent.
//
{
auto v (rs.assign ("out_root"));
if (!v)
v = out_root;
else
{
const dir_path& p (v.as<const dir_path&> ());
if (p != out_root)
fail << "new out_root " << out_root << " does not match "
<< "existing " << p;
}
}
if (!src_root.empty ())
{
auto v (rs.assign ("src_root"));
if (!v)
v = src_root;
else
{
const dir_path& p (v.as<const dir_path&> ());
if (p != src_root)
fail << "new src_root " << src_root << " does not match "
<< "existing " << p;
}
}
return rs;
}
void
bootstrap_out (scope& root)
{
path bf (root.path () / path ("build/bootstrap/src-root.build"));
if (!file_exists (bf))
return;
//@@ TODO: if bootstrap files can source other bootstrap files
// (the way to express dependecies), then we need a way to
// prevent multiple sourcing. We handle it here but we still
// need something like source_once (once [scope] source).
//
source_once (bf, root, root);
}
// Extract the specified variable value from a buildfile. It is
// expected to be the first non-comment line and not to rely on
// any variable expansion other than those from the global scope.
//
static value_ptr
extract_variable (const path& bf, const char* var)
{
ifstream ifs (bf.string ());
if (!ifs.is_open ())
fail << "unable to open " << bf;
ifs.exceptions (ifstream::failbit | ifstream::badbit);
try
{
path rbf (diag_relative (bf));
lexer l (ifs, rbf.string ());
token t (l.next ());
token_type tt;
if (t.type () != token_type::name || t.name () != var ||
((tt = l.next ().type ()) != token_type::equal &&
tt != token_type::plus_equal))
fail << "variable '" << var << "' expected as first line in " << rbf;
parser p;
temp_scope tmp (*global_scope);
p.parse_variable (l, tmp, t.name (), tt);
auto val (tmp.vars[var]);
assert (val.defined ());
value_ptr& vp (val);
return move (vp); // Steal the value, the scope is going away.
}
catch (const std::ios_base::failure&)
{
fail << "failed to read from " << bf;
}
return nullptr;
}
using subprojects = map<string, dir_path>;
// Extract the project name from bootstrap.build.
//
static string
find_project_name (const dir_path& out_root,
const dir_path& fallback_src_root,
bool* src_hint = nullptr)
{
tracer trace ("find_project_name");
// Load the project name. If this subdirectory is the subproject's
// src_root, then we can get directly to that. Otherwise, we first
// have to discover its src_root.
//
const dir_path* src_root;
value_ptr src_root_vp; // Need it to live until the end.
if (src_hint != nullptr ? *src_hint : is_src_root (out_root))
src_root = &out_root;
else
{
path f (out_root / src_root_file);
if (!fallback_src_root.empty () && !file_exists (f))
src_root = &fallback_src_root;
else
{
src_root_vp = extract_variable (f, "src_root");
value_proxy v (&src_root_vp, nullptr); // Read-only.
src_root = &v.as<const dir_path&> ();
level4 ([&]{trace << "extracted src_root " << *src_root << " for "
<< out_root;});
}
}
string name;
{
value_ptr vp (extract_variable (*src_root / bootstrap_file, "project"));
value_proxy v (&vp, nullptr); // Read-only.
name = move (v.as<string&> ());
}
level4 ([&]{trace << "extracted project name " << name << " for "
<< *src_root;});
return name;
}
// Scan the specified directory for any subprojects. If a subdirectory
// is a subproject, then enter it into the map, handling the duplicates.
// Otherwise, scan the subdirectory recursively.
//
static void
find_subprojects (subprojects& sps,
const dir_path& d,
const dir_path& root,
bool out)
{
tracer trace ("find_subprojects");
for (const dir_entry& de: dir_iterator (d))
{
if (de.ltype () != entry_type::directory)
continue;
dir_path sd (d / path_cast<dir_path> (de.path ()));
bool src (false);
if (!((out && is_out_root (sd)) || (src = is_src_root (sd))))
{
find_subprojects (sps, sd, root, out);
continue;
}
// Calculate relative subdirectory for this subproject.
//
dir_path dir (sd.leaf (root));
level4 ([&]{trace << "subproject " << sd << " as " << dir;});
// Load its name. Note that here we don't use fallback src_root
// since this function is used to scan both out_root and src_root.
//
string name (find_project_name (sd, dir_path (), &src));
// @@ Can't use move() because we may need the values in diagnostics
// below. Looks like C++17 try_emplace() is what we need.
//
auto rp (sps.emplace (name, dir));
// Handle duplicates.
//
if (!rp.second)
{
const dir_path& dir1 (rp.first->second);
if (dir != dir1)
fail << "inconsistent subproject directories for " << name <<
info << "first alternative: " << dir1 <<
info << "second alternative: " << dir;
level5 ([&]{trace << "skipping duplicate";});
}
}
}
bool
bootstrap_src (scope& root)
{
tracer trace ("bootstrap_src");
bool r (false);
const dir_path& out_root (root.path ());
const dir_path& src_root (root.src_path ());
path bf (src_root / path ("build/bootstrap.build"));
if (file_exists (bf))
{
// We assume that bootstrap out cannot load this file explicitly. It
// feels wrong to allow this since that makes the whole bootstrap
// process hard to reason about. But we may try to bootstrap the
// same root scope multiple time.
//
source_once (bf, root, root);
r = true;
}
// See if we are a part of an amalgamation. There are two key
// players: the outer root scope which may already be present
// (i.e., we were loaded as part of an amalgamation) and the
// amalgamation variable that may or may not be set by the
// user (in bootstrap.build) or by an earlier call to this
// function for the same scope. When set by the user, the
// empty special value means that the project shall not be
// amalgamated (and which we convert to NULL below). When
// calculated, the NULL value indicates that we are not
// amalgamated.
//
{
auto rp (root.vars.assign("amalgamation")); // Set NULL by default.
auto& val (rp.first);
if (!val.null () && val.empty ()) // Convert empty to NULL.
val = nullptr;
if (scope* aroot = root.parent_scope ()->root_scope ())
{
const dir_path& ad (aroot->path ());
dir_path rd (ad.relative (out_root));
// If we already have the amalgamation variable set, verify
// that aroot matches its value.
//
if (!rp.second)
{
if (val.null ())
{
fail << out_root << " cannot be amalgamated" <<
info << "amalgamated by " << ad;
}
else
{
const dir_path& vd (val.as<const dir_path&> ());
if (vd != rd)
{
fail << "inconsistent amalgamation of " << out_root <<
info << "specified: " << vd <<
info << "actual: " << rd << " by " << ad;
}
}
}
else
{
// Otherwise, use the outer root as our amalgamation.
//
level4 ([&]{trace << out_root << " amalgamated as " << rd;});
val = move (rd);
}
}
else if (rp.second)
{
// If there is no outer root and the amalgamation variable
// hasn't been set, then we need to check if any of the
// outer directories is a project's out_root. If so, then
// that's our amalgamation.
//
const dir_path& ad (find_out_root (out_root.directory ()));
if (!ad.empty ())
{
dir_path rd (ad.relative (out_root));
level4 ([&]{trace << out_root << " amalgamated as " << rd;});
val = move (rd);
}
}
}
// See if we have any subprojects. In a sense, this is the other
// side/direction of the amalgamation logic above. Here, the
// subprojects variable may or may not be set by the user (in
// bootstrap.build) or by an earlier call to this function for
// the same scope. When set by the user, the empty special value
// means that there are no subproject and none should be searched
// for (and which we convert to NULL below). Otherwise, it is a
// list of directory[=project] pairs. The directory must be
// relative to our out_root. If the project name is not specified,
// then we have to figure it out. When subprojects are calculated,
// the NULL value indicates that we found no subprojects.
//
{
auto rp (root.vars.assign("subprojects")); // Set NULL by default.
auto& val (rp.first);
if (rp.second)
{
// No subprojects set so we need to figure out if there are any.
//
// First we are going to scan our out_root and find all the
// pre-configured subprojects. Then, if out_root != src_root,
// we are going to do the same for src_root. Here, however,
// we need to watch out for duplicates.
//
subprojects sps;
if (dir_exists (out_root))
find_subprojects (sps, out_root, out_root, true);
if (out_root != src_root)
find_subprojects (sps, src_root, src_root, false);
// Transform our map to list_value.
//
if (!sps.empty ())
{
list_value_ptr vp (new list_value);
for (auto& p: sps)
{
vp->emplace_back (p.first);
vp->back ().pair = '=';
vp->emplace_back (move (p.second));
}
val = move (vp);
}
}
else if (!val.null ())
{
// Convert empty to NULL.
//
if (val.empty ())
val = nullptr;
else
{
// Scan the value and convert it to the "canonical" form,
// that is, a list of dir=simple pairs.
//
list_value& lv (val.as<list_value&> ());
for (auto i (lv.begin ()); i != lv.end (); ++i)
{
bool p (i->pair != '\0');
if (p)
{
// Project name.
//
if (!i->simple () || i->empty ())
fail << "expected project name instead of '" << *i << "' in "
<< "the subprojects variable";
++i; // Got to have the second half of the pair.
}
name& n (*i);
if (n.simple ())
{
n.dir = dir_path (move (n.value));
n.value.clear ();
}
if (!n.directory ())
fail << "expected directory instead of '" << n << "' in the "
<< "subprojects variable";
// Figure out the project name if the user didn't specify one.
//
if (!p)
{
// Pass fallback src_root since this is a subproject that
// was specified by the user so it is most likely in our
// src.
//
i = lv.emplace (i, find_project_name (out_root / n.dir,
src_root / n.dir));
i->pair = '=';
++i;
}
}
}
}
}
return r;
}
void
create_bootstrap_outer (scope& root)
{
auto v (root.vars["amalgamation"]);
if (!v)
return;
const dir_path& d (v.as<const dir_path&> ());
dir_path out_root (root.path () / d);
out_root.normalize ();
// src_root is a bit more complicated. Here we have three cases:
//
// 1. Amalgamation's src_root is "parallel" to the sub-project's.
// 2. Amalgamation's src_root is the same as its out_root.
// 3. Some other pre-configured (via src-root.build) src_root.
//
// So we need to try all these cases in some sensible order.
// #3 should probably be tried first since that src_root was
// explicitly configured by the user. After that, #2 followed
// by #1 seems reasonable.
//
scope& rs (create_root (out_root, dir_path ()));
bootstrap_out (rs); // #3 happens here, if at all.
auto val (rs.assign ("src_root"));
if (!val)
{
if (is_src_root (out_root)) // #2
val = out_root;
else // #1
{
dir_path src_root (root.src_path () / d);
src_root.normalize ();
val = move (src_root);
}
}
rs.src_path_ = &val.as<const dir_path&> ();
bootstrap_src (rs);
create_bootstrap_outer (rs);
}
scope&
create_bootstrap_inner (scope& root, const dir_path& out_base)
{
if (auto v = root.vars["subprojects"])
{
for (const name& n: v.as<const list_value&> ())
{
if (n.pair != '\0')
continue; // Skip project names.
dir_path out_root (root.path () / n.dir);
if (!out_base.sub (out_root))
continue;
// The same logic to src_root as in create_bootstrap_outer().
//
scope& rs (create_root (out_root, dir_path ()));
bootstrap_out (rs);
auto val (rs.assign ("src_root"));
if (!val)
val = is_src_root (out_root)
? out_root
: (root.src_path () / n.dir);
rs.src_path_ = &val.as<const dir_path&> ();
bootstrap_src (rs);
// See if there are more inner roots.
//
return create_bootstrap_inner (rs, out_base);
}
}
return root;
}
void
load_root_pre (scope& root)
{
tracer trace ("root_pre");
// First load outer roots, if any.
//
if (scope* rs = root.parent_scope ()->root_scope ())
load_root_pre (*rs);
path bf (root.src_path () / path ("build/root.build"));
if (file_exists (bf))
source_once (bf, root, root);
}
list_value
import (scope& ibase, const name& n, const location& l)
{
tracer trace ("import");
// Split the name into the project and target.
//
string project;
name target;
if (n.dir.empty ())
{
if (!n.simple ())
fail << "project name expected before imported target " << n;
// Note that value can be foo/bar/baz; in this case probably
// means sub-projects? Or only to a certain point, then
// (untyped) target? Looks like I will need to scan anything
// that looks like a directory checking if this is a subproject.
// If not, then that's part of the target.
//
project = n.value;
}
else
{
//@@ This can be a path inside a sub-project. So, eventually,
// we should find the innermost sub-project and load the
// export stub from there (will probably still have to
// resolve root from the top-level project). For now we
// assume the project is always top-level.
//
project = *n.dir.begin ();
target.dir = n.dir.leaf (dir_path (project));
target.type = n.type;
target.value = n.value;
}
scope& iroot (*ibase.root_scope ());
// Figure out this project's out_root.
//
dir_path out_root;
string var ("config.import." + project);
if (auto v = iroot[var])
{
if (!v.belongs (*global_scope)) // A value from (some) config.build.
out_root = v.as<const dir_path&> ();
else
{
// Process the path by making it absolute and normalized. Also,
// for usability's sake, treat a simple name that doesn't end
// with '/' as a directory.
//
list_value& lv (v.as<list_value&> ());
if (lv.size () != 1 || lv[0].empty () || !lv[0].type.empty ())
fail (l) << "invalid " << var << " value " << lv;
name& n (lv[0]);
if (n.directory ())
out_root = n.dir;
else
out_root = dir_path (n.value);
if (out_root.relative ())
out_root = work / out_root;
out_root.normalize ();
iroot.assign (var) = out_root;
// Also update the command-line value. This is necessary to avoid
// a warning issued by the config module about global/root scope
// value mismatch.
//
if (n.dir != out_root)
n = name (out_root);
}
}
else
fail (l) << "unable to find out_root for imported " << project <<
info << "consider explicitly configuring its out_root via the "
<< var << " command line variable";
// Bootstrap the imported root scope. This is pretty similar to
// what we do in main() except that here we don't try to guess
// src_root.
//
dir_path src_root (is_src_root (out_root) ? out_root : dir_path ());
scope& root (create_root (out_root, src_root));
bootstrap_out (root);
// Check that the bootstrap process set src_root.
//
if (auto v = root.vars["src_root"])
{
const dir_path& p (v.as<const dir_path&> ());
if (!src_root.empty () && p != src_root)
fail << "bootstrapped src_root " << p << " does not match "
<< "discovered " << src_root;
root.src_path_ = &p;
}
else
fail (l) << "unable to determine src_root for imported " << project <<
info << "consider configuring " << out_root;
bootstrap_src (root);
// Bootstrap outer roots if any. Loading will be done by
// load_root_pre() below.
//
create_bootstrap_outer (root);
// Load the imported root scope.
//
load_root_pre (root);
// Create a temporary scope so that the export stub does not mess
// up any of our variables.
//
temp_scope ts (ibase);
// "Pass" the imported project's roots to the stub.
//
ts.assign ("out_root") = move (out_root);
ts.assign ("src_root") = move (src_root);
// Also pass the target being imported.
//
{
auto v (ts.assign ("target"));
if (!target.empty ()) // Otherwise leave NULL.
v = list_value {move (target)};
}
// Load the export stub. Note that it is loaded in the context
// of the importing project, not the imported one. The export
// stub will normally switch to the imported root scope at some
// point.
//
path es (root.src_path () / path ("build/export.build"));
ifstream ifs (es.string ());
if (!ifs.is_open ())
fail << "unable to open " << es;
level4 ([&]{trace << "importing " << es;});
ifs.exceptions (ifstream::failbit | ifstream::badbit);
parser p;
try
{
p.parse_buildfile (ifs, es, iroot, ts);
}
catch (const std::ios_base::failure&)
{
fail << "failed to read from " << es;
}
return p.export_value ();
}
}
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