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// file : libbuild2/target-type.hxx -*- C++ -*-
// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#ifndef LIBBUILD2_TARGET_TYPE_HXX
#define LIBBUILD2_TARGET_TYPE_HXX
#include <map>
#include <libbuild2/types.hxx>
#include <libbuild2/forward.hxx>
#include <libbuild2/utility.hxx>
#include <libbuild2/export.hxx>
namespace build2
{
// Target type.
//
// Note that we assume there is always a single instance of this class for
// any target type. As a result, we can use address comparison to determine
// if two target types are the same.
//
// If the extension derivation functions are NULL, then it means this target
// type does not use extensions. Note that this is relied upon when deciding
// whether to print the extension.
//
// The fixed extension function should return the fixed extension (which can
// point to the key's ext member; note that for performance reasons we
// currently only verify the explicitly specified extension on target
// insersion -- see target_key comparison for details).
//
// The root scope argument to the fixed extension function may be NULL which
// means the root scope is not known. A target type that relies on this must
// be prepared to resolve the root scope itself and handle the cases where
// the target is not (yet) in any project (this is currently only used to
// handle the alternative build file/directory naming scheme and hopefully
// it will stay that way).
//
// The default extension is used in two key (there are others) places:
// search_existing_file() (called for a prerequisite with the last argument
// true) and in target::derive_extension() (called for a target with the
// last argument false); see their respective implementations for details.
// The third argument is the default extension that is supplied (e.g., by a
// rule) to derive_extension(), if any. The implementation can decide which
// takes precedence, etc (see the exe{} target type for some interesting
// logic). If the default extension function returns NULL, then it means the
// default extension for this target could not be derived.
//
// If the pattern function is not NULL, then it is used to amend a pattern
// or match (reverse is false) and then, if the amendment call returned
// true, to reverse it in the resulting matches. The pattern function for a
// non-directory target must first call target::split_name() if reverse is
// false.
//
struct LIBBUILD2_SYMEXPORT target_type
{
const char* name;
const target_type* base;
target* (*factory) (context&,
const target_type&,
dir_path,
dir_path,
string);
const char* (*fixed_extension) (const target_key&,
const scope* root);
optional<string> (*default_extension) (const target_key&,
const scope& base,
const char*,
bool search);
bool (*pattern) (const target_type&,
const scope& base,
string& name,
optional<string>& extension,
const location&,
bool reverse);
void (*print) (ostream&, const target_key&);
const target* (*search) (const target&, const prerequisite_key&);
bool see_through; // A group with the default "see through" semantics.
template <typename T>
bool
is_a () const {return is_a (T::static_type);}
bool
is_a (const target_type& tt) const
{
return this == &tt || (base != nullptr && is_a_base (tt));
}
bool
is_a (const char*) const; // Defined in target.cxx
bool
is_a_base (const target_type&) const; // Defined in target.cxx
};
inline bool
operator< (const target_type& x, const target_type& y) {return &x < &y;}
inline bool
operator== (const target_type& x, const target_type& y) {return &x == &y;}
inline bool
operator!= (const target_type& x, const target_type& y) {return &x != &y;}
inline ostream&
operator<< (ostream& os, const target_type& tt) {return os << tt.name;}
// Target type map.
//
class target_type_map
{
public:
// Target type name to target type mapping.
//
const target_type*
find (const string& n) const
{
auto i (type_map_.find (n));
return i != type_map_.end () ? &i->second.get () : nullptr;
}
bool
empty () const
{
return type_map_.empty ();
}
const target_type&
insert (const target_type& tt)
{
type_map_.emplace (tt.name, target_type_ref (tt));
return tt;
}
template <typename T>
const target_type&
insert ()
{
return insert (T::static_type);
}
pair<reference_wrapper<const target_type>, bool>
insert (const string& n, unique_ptr<target_type>&& tt)
{
target_type& rtt (*tt); // Save a non-const reference to the object.
auto p (type_map_.emplace (n, target_type_ref (move (tt))));
// Patch the alias name to use the map's key storage.
//
if (p.second)
rtt.name = p.first->first.c_str ();
return pair<reference_wrapper<const target_type>, bool> (
p.first->second.get (), p.second);
}
// File name to target type mapping.
//
const target_type*
find_file (const string& n) const
{
auto i (file_map_.find (n));
return i != file_map_.end () ? &i->second.get () : nullptr;
}
void
insert_file (const string& n, const target_type& tt)
{
file_map_.emplace (n, tt);
}
private:
struct target_type_ref
{
// Like reference_wrapper except it sometimes deletes the target type.
//
explicit
target_type_ref (const target_type& r): p_ (&r), d_ (false) {}
explicit
target_type_ref (unique_ptr<target_type>&& p)
: p_ (p.release ()), d_ (true) {}
target_type_ref (target_type_ref&& r)
: p_ (r.p_), d_ (r.d_) {r.p_ = nullptr;}
~target_type_ref () {if (p_ != nullptr && d_) delete p_;}
explicit operator const target_type& () const {return *p_;}
const target_type& get () const {return *p_;}
private:
const target_type* p_;
bool d_;
};
std::map<string, target_type_ref> type_map_;
std::map<string, reference_wrapper<const target_type>> file_map_;
};
}
#endif // LIBBUILD2_TARGET_TYPE_HXX
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