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// file : build/target.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2015 Code Synthesis Tools CC
// license : MIT; see accompanying LICENSE file
#include <build/target>
#include <build/scope>
#include <build/search>
#include <build/context>
#include <build/diagnostics>
using namespace std;
namespace build
{
// target
//
const recipe target::empty_recipe_;
ostream&
operator<< (ostream& os, const target& t)
{
return os << target_set::key {&t.type (), &t.dir, &t.name, &t.ext};
}
static target*
search_target (prerequisite& p)
{
// The default behavior is to look for an existing target in the
// prerequisite's directory scope.
//
return search_existing_target (p);
}
// target_set
//
target_set targets;
auto target_set::
find (const key& k, tracer& trace) const -> iterator
{
iterator i (map_.find (k));
if (i != end ())
{
target& t (**i);
// Update the extension if the existing target has it unspecified.
//
const string* ext (*k.ext);
if (t.ext != ext)
{
level4 ([&]{
diag_record r (trace);
r << "assuming target " << t << " is the same as the one with ";
if (ext == nullptr)
r << "unspecified extension";
else if (ext->empty ())
r << "no extension";
else
r << "extension " << *ext;
});
if (ext != nullptr)
t.ext = ext;
}
}
return i;
}
pair<target&, bool> target_set::
insert (const target_type& tt,
path dir,
std::string name,
const std::string* ext,
tracer& trace)
{
iterator i (find (key {&tt, &dir, &name, &ext}, trace));
if (i != end ())
return pair<target&, bool> (**i, false);
unique_ptr<target> t (tt.factory (move (dir), move (name), ext));
i = map_.emplace (
make_pair (key {&tt, &t->dir, &t->name, &t->ext},
move (t))).first;
return pair<target&, bool> (**i, true);
}
ostream&
operator<< (ostream& os, const target_set::key& k)
{
os << k.type->name << '{';
if (!k.dir->empty ())
{
string s (diag_relative_work (*k.dir));
if (s != ".")
{
os << s;
if (!k.name->empty () &&
s.back () != path::traits::directory_separator)
os << path::traits::directory_separator;
}
}
os << *k.name;
if (*k.ext != nullptr && !(*k.ext)->empty ())
os << '.' << **k.ext;
os << '}';
return os;
}
//
//
target_type_map target_types;
const target_type* target_type_map::
find (name& n, const string*& ext) const
{
ext = nullptr;
string& v (n.value);
// First determine the target type.
//
const char* tt;
if (n.type.empty ())
{
// Empty name or '.' and '..' signify a directory.
//
if (v.empty () || v == "." || v == "..")
tt = "dir";
else
//@@ TODO: derive type from extension.
//
tt = "file";
}
else
tt = n.type.c_str ();
auto i (find (tt));
if (i == end ())
return nullptr;
const target_type& ti (i->second);
// Directories require special name processing. If we find that more
// targets deviate, then we should make this target-type-specific.
//
if (ti.id == dir::static_type.id || ti.id == fsdir::static_type.id)
{
// The canonical representation of a directory name is with empty
// value.
//
if (!v.empty ())
{
n.dir /= path (v); // Move name value to dir.
v.clear ();
}
}
else
{
// Split the path into its directory part (if any) the name part,
// and the extension (if any). We cannot assume the name part is
// a valid filesystem name so we will have to do the splitting
// manually.
//
path::size_type i (path::traits::rfind_separator (v));
if (i != string::npos)
{
n.dir /= path (v, i != 0 ? i : 1); // Special case: "/".
v = string (v, i + 1, string::npos);
}
// Extract the extension.
//
string::size_type j (path::traits::find_extension (v));
if (j != string::npos)
{
ext = &extension_pool.find (v.c_str () + j + 1);
v.resize (j);
}
}
return &ti;
}
// path_target
//
timestamp path_target::
load_mtime () const
{
assert (!path_.empty ());
return path_mtime (path_);
}
// file target
//
static target*
search_file (prerequisite& p)
{
// First see if there is an existing target.
//
if (target* t = search_existing_target (p))
return t;
// Then look for an existing file in this target-type-specific
// list of paths (@@ TODO: comes from the variable).
//
if (p.dir.relative ())
{
paths sp;
sp.push_back (src_out (p.scope.path (), p.scope)); // src_base
return search_existing_file (p, sp);
}
else
return nullptr;
}
// dir target
//
static target*
search_alias (prerequisite& p)
{
// For an alias/action we don't want to silently create a target
// since it will do nothing and it most likely not what the author
// intended.
//
target* t (search_existing_target (p));
if (t == nullptr)
fail << "no explicit target for prerequisite " << p;
return t;
}
// type info
//
const target_type target::static_type
{
typeid (target),
"target",
nullptr,
nullptr,
&search_target
};
const target_type mtime_target::static_type
{
typeid (mtime_target),
"mtime_target",
&target::static_type,
nullptr,
target::static_type.search
};
const target_type path_target::static_type
{
typeid (path_target),
"path_target",
&mtime_target::static_type,
nullptr,
mtime_target::static_type.search
};
const target_type file::static_type
{
typeid (file),
"file",
&path_target::static_type,
&target_factory<file>,
&search_file
};
const target_type dir::static_type
{
typeid (dir),
"dir",
&target::static_type,
&target_factory<dir>,
&search_alias
};
const target_type fsdir::static_type
{
typeid (fsdir),
"fsdir",
&target::static_type,
&target_factory<fsdir>,
target::static_type.search
};
}
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