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// file : build/parser.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2015 Code Synthesis Tools CC
// license : MIT; see accompanying LICENSE file
#include <build/parser>
#include <memory> // unique_ptr
#include <fstream>
#include <utility> // move()
#include <iterator> // make_move_iterator()
#include <iostream>
#include <build/token>
#include <build/lexer>
#include <build/scope>
#include <build/target>
#include <build/prerequisite>
#include <build/variable>
#include <build/diagnostics>
#include <build/context>
using namespace std;
namespace build
{
// Output the token type and value in a format suitable for diagnostics.
//
ostream&
operator<< (ostream&, const token&);
static location
get_location (const token&, const void*);
typedef token_type type;
// Given a target or prerequisite name, figure out its type, taking
// into account extensions, trailing '/', or anything else that might
// be relevant.
//
static const char*
find_target_type (const string& n, const string* e)
{
// Empty name or a name ending with a directory separator
// signifies a directory.
//
if (n.empty () || path::traits::is_separator (n.back ()))
return "dir";
//@@ TODO: derive type from extension.
//
return "file";
}
void parser::
parse (istream& is, const path& p, scope& s)
{
string rw (diag_relative_work (p));
path_ = &rw;
lexer l (is, p.string ());
lexer_ = &l;
scope_ = &s;
token t (type::eos, 0, 0);
type tt;
next (t, tt);
clause (t, tt);
if (tt != type::eos)
fail (t) << "unexpected " << t;
}
void parser::
clause (token& t, token_type& tt)
{
tracer trace ("parser::clause", &path_);
while (tt != type::eos)
{
// We always start with one or more names.
//
if (tt != type::name && tt != type::lcbrace && tt != type::colon)
break; // Something else. Let our caller handle that.
// See if this is one of the keywords.
//
if (tt == type::name)
{
const string& n (t.name ());
if (n == "print")
{
// @@ Is this the only place where it is valid? Probably also
// in var namespace.
//
next (t, tt);
print (t, tt);
continue;
}
else if (n == "source")
{
next (t, tt);
source (t, tt);
continue;
}
else if (n == "include")
{
next (t, tt);
include (t, tt);
continue;
}
}
// ': foo' is equvalent to '{}: foo' and to 'dir{}: foo'.
//
names_type ns (tt != type::colon
? names (t, tt)
: names_type ({name ("")}));
if (tt == type::colon)
{
next (t, tt);
if (tt == type::newline)
{
// See if this is a directory/target scope.
//
if (peek () == type::lcbrace)
{
next (t, tt);
// Should be on its own line.
//
if (next (t, tt) != type::newline)
fail (t) << "expected newline after {";
// See if this is a directory or target scope. Different
// things can appear inside depending on which one it is.
//
bool dir (false);
for (const auto& n: ns)
{
if (n.type.empty () && n.value.back () == '/')
{
if (ns.size () != 1)
{
// @@ TODO: point to name.
//
fail (t) << "multiple names in directory scope";
}
dir = true;
}
}
next (t, tt);
if (dir)
{
scope& prev (*scope_);
// On Win32 translate the root path to the special empty path.
// Search for root_scope for details.
//
#ifdef _WIN32
path p (ns[0].value != "/" ? path (ns[0].value) : path ());
#else
path p (ns[0].value);
#endif
if (p.relative ())
p = prev.path () / p;
p.normalize ();
scope_ = &scopes[p];
// A directory scope can contain anything that a top level can.
//
clause (t, tt);
scope_ = &prev;
}
else
{
// @@ TODO: target scope.
}
if (tt != type::rcbrace)
fail (t) << "expected '}' instead of " << t;
// Should be on its own line.
//
if (next (t, tt) == type::newline)
next (t, tt);
else if (tt != type::eos)
fail (t) << "expected newline after }";
continue;
}
// If this is not a scope, then it is a target without any
// prerequisites.
//
}
// Dependency declaration.
//
if (tt == type::name ||
tt == type::lcbrace ||
tt == type::newline ||
tt == type::eos)
{
names_type pns (tt != type::newline && tt != type::eos
? names (t, tt)
: names_type ());
// Prepare the prerequisite list.
//
target::prerequisites_type ps;
ps.reserve (pns.size ());
for (auto& pn: pns)
{
// We need to 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 d (pn.dir);
string n;
const string* e (nullptr);
{
string& v (pn.value);
path::size_type i (path::traits::rfind_separator (v));
if (i == string::npos)
n = move (v); // NOTE: steal!
else
{
d /= path (v, i != 0 ? i : 1); // Special case: "/".
n.assign (v, i + 1, string::npos);
}
// Handle '.' and '..'.
//
if (n == ".")
n.clear ();
else if (n == "..")
{
d /= path (n);
n.clear ();
}
d.normalize ();
// Extract extension.
//
string::size_type j (path::traits::find_extension (n));
if (j != string::npos)
{
e = &extension_pool.find (n.c_str () + j);
n.resize (j - 1);
}
}
// Resolve prerequisite type.
//
const char* tt (pn.type.empty ()
? find_target_type (n, e)
: pn.type.c_str ());
auto i (target_types.find (tt));
if (i == target_types.end ())
{
//@@ TODO name (or better yet, type) location
fail (t) << "unknown prerequisite type " << tt;
}
const target_type& ti (i->second);
// Find or insert.
//
prerequisite& p (
scope_->prerequisites.insert (
ti, move (d), move (n), e, *scope_, trace).first);
ps.push_back (p);
}
for (auto& tn: ns)
{
path d (tn.dir);
string n;
const string* e (nullptr);
// The same deal as in handling prerequisites above.
//
{
string& v (tn.value);
path::size_type i (path::traits::rfind_separator (v));
if (i == string::npos)
n = move (v); // NOTE: steal!
else
{
d /= path (v, i != 0 ? i : 1); // Special case: "/".
n.assign (v, i + 1, string::npos);
}
// Handle '.' and '..'.
//
if (n == ".")
n.clear ();
else if (n == "..")
{
d /= path (n);
n.clear ();
}
if (d.empty ())
d = scope_->path (); // Already normalized.
else
{
if (d.relative ())
d = scope_->path () / d;
d.normalize ();
}
// Extract extension.
//
string::size_type j (path::traits::find_extension (n));
if (j != string::npos)
{
e = &extension_pool.find (n.c_str () + j);
n.resize (j - 1);
}
}
// Resolve target type.
//
const char* tt (tn.type.empty ()
? find_target_type (n, e)
: tn.type.c_str ());
auto i (target_types.find (tt));
if (i == target_types.end ())
{
//@@ TODO name (or better yet, type) location
fail (t) << "unknown target type " << tt;
}
const target_type& ti (i->second);
// Find or insert.
//
target& t (
targets.insert (
ti, move (d), move (n), e, trace).first);
t.prerequisites = ps; //@@ OPT: move if last target.
if (default_target == nullptr)
default_target = &t;
}
if (tt == type::newline)
next (t, tt);
else if (tt != type::eos)
fail (t) << "expected newline instead of " << t;
continue;
}
if (tt == type::eos)
continue;
fail (t) << "expected newline instead of " << t;
}
// Variable assignment.
//
if (tt == type::equal || tt == type::plus_equal)
{
bool assign (tt == type::equal);
// LHS should be a single, simple name.
//
if (ns.size () != 1 || !ns[0].type.empty () || !ns[0].dir.empty ())
fail << "variable name expected before " << t;
next (t, tt);
names_type vns (tt != type::newline && tt != type::eos
? names (t, tt)
: names_type ());
// Enter the variable.
//
string name;
if (ns[0].value.front () == '.') // Fully qualified name.
name.assign (ns[0].value, 1, string::npos);
else
//@@ TODO: append namespace if any.
name = move (ns[0].value);
const variable& var (variable_pool.find (move (name)));
if (assign)
{
value_ptr& val (scope_->variables[var]);
if (val == nullptr) // Initialization.
{
val.reset (new list_value (*scope_, move (vns)));
}
else // Assignment.
{
//@@ TODO: assuming it is a list.
//
dynamic_cast<list_value&> (*val).data = move (vns);
}
}
else
{
//@@ TODO: assuming it is a list.
//
list_value* val (dynamic_cast<list_value*> ((*scope_)[var]));
if (val == nullptr) // Initialization.
{
list_value_ptr nval (new list_value (*scope_, move (vns)));
scope_->variables.emplace (var, move (nval));
}
else if (&val->scope != scope_) // Append to value from parent scope.
{
list_value_ptr nval (new list_value (*scope_, val->data));
val = nval.get (); // Append.
scope_->variables.emplace (var, move (nval));
}
// Append.
//
if (val != nullptr)
val->data.insert (val->data.end (),
make_move_iterator (vns.begin ()),
make_move_iterator (vns.end ()));
}
if (tt == type::newline)
next (t, tt);
else if (tt != type::eos)
fail (t) << "expected newline instead of " << t;
continue;
}
fail (t) << "unexpected " << t;
}
}
void parser::
source (token& t, token_type& tt)
{
tracer trace ("parser::source", &path_);
// The rest should be a list of paths to buildfiles.
//
for (; tt != type::newline && tt != type::eos; next (t, tt))
{
if (tt != type::name)
fail (t) << "expected buildfile to source instead of " << t;
path p (t.name ());
// If the path is relative then use the src directory corresponding
// to the current directory scope.
//
if (p.relative ())
p = src_out (scope_->path ()) / p;
ifstream ifs (p.string ());
if (!ifs.is_open ())
fail (t) << "unable to open " << p;
ifs.exceptions (ifstream::failbit | ifstream::badbit);
level4 ([&]{trace (t) << "entering " << p;});
string rw (diag_relative_work (p));
const string* op (path_);
path_ = &rw;
lexer l (ifs, p.string ());
lexer* ol (lexer_);
lexer_ = &l;
next (t, tt);
clause (t, tt);
if (tt != type::eos)
fail (t) << "unexpected " << t;
level4 ([&]{trace (t) << "leaving " << p;});
lexer_ = ol;
path_ = op;
}
if (tt != type::eos)
next (t, tt); // Swallow newline.
}
void parser::
include (token& t, token_type& tt)
{
tracer trace ("parser::include", &path_);
// The rest should be a list of paths to buildfiles.
//
for (; tt != type::newline && tt != type::eos; next (t, tt))
{
if (tt != type::name)
fail (t) << "expected buildfile to include instead of " << t;
path p (t.name ());
bool in_out (false);
if (p.absolute ())
{
p.normalize ();
// Make sure the path is in this project. Include is only meant
// to be used for intra-project inclusion.
//
if (!p.sub (src_root) && !(in_out = p.sub (out_root)))
fail (t) << "out of project include " << p;
}
else
{
// Use the src directory corresponding to the current directory scope.
//
p = src_out (scope_->path ()) / p;
p.normalize ();
}
if (!include_.insert (p).second)
{
level4 ([&]{trace (t) << "skipping already included " << p;});
continue;
}
ifstream ifs (p.string ());
if (!ifs.is_open ())
fail (t) << "unable to open " << p;
ifs.exceptions (ifstream::failbit | ifstream::badbit);
level4 ([&]{trace (t) << "entering " << p;});
string rw (diag_relative_work (p));
const string* op (path_);
path_ = &rw;
lexer l (ifs, p.string ());
lexer* ol (lexer_);
lexer_ = &l;
scope* os (scope_);
scope_ = &scopes[(in_out ? p : out_src (p)).directory ()];
next (t, tt);
clause (t, tt);
if (tt != type::eos)
fail (t) << "unexpected " << t;
level4 ([&]{trace (t) << "leaving " << p;});
scope_ = os;
lexer_ = ol;
path_ = op;
}
if (tt != type::eos)
next (t, tt); // Swallow newline.
}
void parser::
print (token& t, token_type& tt)
{
for (; tt != type::newline && tt != type::eos; next (t, tt))
cout << t;
cout << endl;
if (tt != type::eos)
next (t, tt); // Swallow newline.
}
void parser::
names (token& t, type& tt, names_type& ns, const path* dp, const string* tp)
{
for (bool first (true);; first = false)
{
// Untyped name group without a directory prefix, e.g., '{foo bar}'.
//
if (tt == type::lcbrace)
{
next (t, tt);
names (t, tt, ns, dp, tp);
if (tt != type::rcbrace)
fail (t) << "expected '}' instead of " << t;
next (t, tt);
continue;
}
// Name.
//
if (tt == type::name)
{
string name (t.name ()); //@@ move?
// See if this is a type name, directory prefix, or both. That is,
// it is followed by '{'.
//
if (next (t, tt) == type::lcbrace)
{
string::size_type p (name.rfind ('/')), n (name.size () - 1);
if (p != n && tp != nullptr)
fail (t) << "nested type name " << name;
path d1;
const path* dp1 (dp);
string t1;
const string* tp1 (tp);
if (p == string::npos) // type
tp1 = &name;
else if (p == n) // directory
{
if (dp == nullptr)
d1 = path (name);
else
d1 = *dp / path (name);
dp1 = &d1;
}
else // both
{
t1.assign (name, p + 1, n - p);
if (dp == nullptr)
d1 = path (name, 0, p + 1);
else
d1 = *dp / path (name, 0, p + 1);
dp1 = &d1;
tp1 = &t1;
}
next (t, tt);
names (t, tt, ns, dp1, tp1);
if (tt != type::rcbrace)
fail (t) << "expected '}' instead of " << t;
next (t, tt);
continue;
}
ns.emplace_back ((tp != nullptr ? *tp : string ()),
(dp != nullptr ? *dp : path ()),
move (name));
continue;
}
if (!first)
break;
if (tt == type::rcbrace) // Empty name, e.g., dir{}.
{
ns.emplace_back ((tp != nullptr ? *tp : string ()),
(dp != nullptr ? *dp : path ()),
"");
break;
}
else
fail (t) << "expected name instead of " << t;
}
}
token_type parser::
next (token& t, token_type& tt)
{
if (!peeked_)
t = lexer_->next ();
else
{
t = move (peek_);
peeked_ = false;
}
tt = t.type ();
return tt;
}
token_type parser::
peek ()
{
if (!peeked_)
{
peek_ = lexer_->next ();
peeked_ = true;
}
return peek_.type ();
}
static location
get_location (const token& t, const void* data)
{
assert (data != nullptr);
const string& p (**static_cast<const string* const*> (data));
return location (p.c_str (), t.line (), t.column ());
}
// Output the token type and value in a format suitable for diagnostics.
//
ostream&
operator<< (ostream& os, const token& t)
{
switch (t.type ())
{
case token_type::eos: os << "<end-of-stream>"; break;
case token_type::newline: os << "<newline>"; break;
case token_type::colon: os << ":"; break;
case token_type::lcbrace: os << "{"; break;
case token_type::rcbrace: os << "}"; break;
case token_type::equal: os << "="; break;
case token_type::name: os << t.name (); break;
}
return os;
}
}
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