lix/src/expr.cc

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#include "expr.hh"
#include "globals.hh"
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#include "store.hh"
string printTerm(ATerm t)
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{
char * s = ATwriteToString(t);
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return s;
}
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Error badTerm(const format & f, ATerm t)
{
return Error(format("%1%, in `%2%'") % f.str() % printTerm(t));
}
Hash hashTerm(ATerm t)
{
return hashString(printTerm(t));
}
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ATerm termFromId(const FSId & id)
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{
string path = expandId(id);
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ATerm t = ATreadFromNamedFile(path.c_str());
if (!t) throw Error(format("cannot read aterm from `%1%'") % path);
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return t;
}
FSId writeTerm(ATerm t, const string & suffix, FSId id)
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{
/* By default, the id of a term is its hash. */
if (id == FSId()) id = hashTerm(t);
string path = canonPath(nixStore + "/" +
(string) id + suffix + ".nix");
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if (!ATwriteToNamedTextFile(t, path.c_str()))
throw Error(format("cannot write aterm %1%") % path);
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// debug(format("written term %1% = %2%") % (string) id %
// printTerm(t));
Transaction txn(nixDB);
registerPath(txn, path, id);
txn.commit();
return id;
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}
static void parsePaths(ATermList paths, StringSet & out)
{
while (!ATisEmpty(paths)) {
char * s;
ATerm t = ATgetFirst(paths);
if (!ATmatch(t, "<str>", &s))
throw badTerm("not a path", t);
out.insert(s);
paths = ATgetNext(paths);
}
}
static void checkClosure(const Closure & closure)
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{
if (closure.elems.size() == 0)
throw Error("empty closure");
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StringSet decl;
for (ClosureElems::const_iterator i = closure.elems.begin();
i != closure.elems.end(); i++)
decl.insert(i->first);
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for (StringSet::const_iterator i = closure.roots.begin();
i != closure.roots.end(); i++)
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if (decl.find(*i) == decl.end())
throw Error(format("undefined root path `%1%'") % *i);
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for (ClosureElems::const_iterator i = closure.elems.begin();
i != closure.elems.end(); i++)
for (StringSet::const_iterator j = i->second.refs.begin();
j != i->second.refs.end(); j++)
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if (decl.find(*j) == decl.end())
throw Error(
format("undefined path `%1%' referenced by `%2%'")
% *j % i->first);
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}
/* Parse a closure. */
static bool parseClosure(ATerm t, Closure & closure)
{
ATermList roots, elems;
if (!ATmatch(t, "Closure([<list>], [<list>])", &roots, &elems))
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return false;
parsePaths(roots, closure.roots);
while (!ATisEmpty(elems)) {
char * s1, * s2;
ATermList refs;
ATerm t = ATgetFirst(elems);
if (!ATmatch(t, "(<str>, <str>, [<list>])", &s1, &s2, &refs))
throw badTerm("not a closure element", t);
ClosureElem elem;
elem.id = parseHash(s2);
parsePaths(refs, elem.refs);
closure.elems[s1] = elem;
elems = ATgetNext(elems);
}
checkClosure(closure);
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return true;
}
static bool parseDerivation(ATerm t, Derivation & derivation)
{
ATermList outs, ins, args, bnds;
char * builder;
char * platform;
if (!ATmatch(t, "Derive([<list>], [<list>], <str>, <str>, [<list>], [<list>])",
&outs, &ins, &platform, &builder, &args, &bnds))
{
/* !!! compatibility -> remove eventually */
if (!ATmatch(t, "Derive([<list>], [<list>], <str>, <str>, [<list>])",
&outs, &ins, &builder, &platform, &bnds))
return false;
args = ATempty;
}
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while (!ATisEmpty(outs)) {
char * s1, * s2;
ATerm t = ATgetFirst(outs);
if (!ATmatch(t, "(<str>, <str>)", &s1, &s2))
throw badTerm("not a derivation output", t);
derivation.outputs[s1] = parseHash(s2);
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outs = ATgetNext(outs);
}
while (!ATisEmpty(ins)) {
char * s;
ATerm t = ATgetFirst(ins);
if (!ATmatch(t, "<str>", &s))
throw badTerm("not an id", t);
derivation.inputs.insert(parseHash(s));
ins = ATgetNext(ins);
}
derivation.builder = builder;
derivation.platform = platform;
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while (!ATisEmpty(args)) {
char * s;
ATerm arg = ATgetFirst(args);
if (!ATmatch(arg, "<str>", &s))
throw badTerm("string expected", arg);
derivation.args.push_back(s);
args = ATgetNext(args);
}
while (!ATisEmpty(bnds)) {
char * s1, * s2;
ATerm bnd = ATgetFirst(bnds);
if (!ATmatch(bnd, "(<str>, <str>)", &s1, &s2))
throw badTerm("tuple of strings expected", bnd);
derivation.env[s1] = s2;
bnds = ATgetNext(bnds);
}
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return true;
}
NixExpr parseNixExpr(ATerm t)
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{
NixExpr ne;
if (parseClosure(t, ne.closure))
ne.type = NixExpr::neClosure;
else if (parseDerivation(t, ne.derivation))
ne.type = NixExpr::neDerivation;
else throw badTerm("not a Nix expression", t);
return ne;
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}
static ATermList unparsePaths(const StringSet & paths)
{
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ATermList l = ATempty;
for (StringSet::const_iterator i = paths.begin();
i != paths.end(); i++)
l = ATinsert(l, ATmake("<str>", i->c_str()));
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return ATreverse(l);
}
static ATerm unparseClosure(const Closure & closure)
{
ATermList roots = unparsePaths(closure.roots);
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ATermList elems = ATempty;
for (ClosureElems::const_iterator i = closure.elems.begin();
i != closure.elems.end(); i++)
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elems = ATinsert(elems,
ATmake("(<str>, <str>, <term>)",
i->first.c_str(),
((string) i->second.id).c_str(),
unparsePaths(i->second.refs)));
return ATmake("Closure(<term>, <term>)", roots, elems);
}
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static ATerm unparseDerivation(const Derivation & derivation)
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{
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ATermList outs = ATempty;
for (DerivationOutputs::const_iterator i = derivation.outputs.begin();
i != derivation.outputs.end(); i++)
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outs = ATinsert(outs,
ATmake("(<str>, <str>)",
i->first.c_str(), ((string) i->second).c_str()));
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ATermList ins = ATempty;
for (FSIdSet::const_iterator i = derivation.inputs.begin();
i != derivation.inputs.end(); i++)
ins = ATinsert(ins, ATmake("<str>", ((string) *i).c_str()));
ATermList args = ATempty;
for (Strings::const_iterator i = derivation.args.begin();
i != derivation.args.end(); i++)
args = ATinsert(args, ATmake("<str>", i->c_str()));
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ATermList env = ATempty;
for (StringPairs::const_iterator i = derivation.env.begin();
i != derivation.env.end(); i++)
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env = ATinsert(env,
ATmake("(<str>, <str>)",
i->first.c_str(), i->second.c_str()));
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return ATmake("Derive(<term>, <term>, <str>, <str>, <term>, <term>)",
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ATreverse(outs),
ATreverse(ins),
derivation.platform.c_str(),
derivation.builder.c_str(),
ATreverse(args),
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ATreverse(env));
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}
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ATerm unparseNixExpr(const NixExpr & ne)
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{
if (ne.type == NixExpr::neClosure)
return unparseClosure(ne.closure);
else if (ne.type == NixExpr::neDerivation)
return unparseDerivation(ne.derivation);
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else abort();
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}