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-rw-r--r--src/libexpr/parser/parser-impl1.inc.cc851
1 files changed, 851 insertions, 0 deletions
diff --git a/src/libexpr/parser/parser-impl1.inc.cc b/src/libexpr/parser/parser-impl1.inc.cc
new file mode 100644
index 000000000..0d41324b3
--- /dev/null
+++ b/src/libexpr/parser/parser-impl1.inc.cc
@@ -0,0 +1,851 @@
+// flip this define when doing parser development to enable some g checks.
+#if 0
+#include <tao/pegtl/contrib/analyze.hpp>
+#define ANALYZE_GRAMMAR \
+ ([] { \
+ const std::size_t issues = tao::pegtl::analyze<grammar::v1::root>(); \
+ assert(issues == 0); \
+ })()
+#else
+#define ANALYZE_GRAMMAR ((void) 0)
+#endif
+
+namespace p = tao::pegtl;
+
+namespace nix::parser::v1 {
+namespace {
+
+template<typename>
+inline constexpr const char * error_message = nullptr;
+
+#define error_message_for(...) \
+ template<> inline constexpr auto error_message<__VA_ARGS__>
+
+error_message_for(p::one<'{'>) = "expecting '{'";
+error_message_for(p::one<'}'>) = "expecting '}'";
+error_message_for(p::one<'"'>) = "expecting '\"'";
+error_message_for(p::one<';'>) = "expecting ';'";
+error_message_for(p::one<')'>) = "expecting ')'";
+error_message_for(p::one<']'>) = "expecting ']'";
+error_message_for(p::one<':'>) = "expecting ':'";
+error_message_for(p::string<'\'', '\''>) = "expecting \"''\"";
+error_message_for(p::any) = "expecting any character";
+error_message_for(grammar::v1::eof) = "expecting end of file";
+error_message_for(grammar::v1::seps) = "expecting separators";
+error_message_for(grammar::v1::path::forbid_prefix_triple_slash) = "too many slashes in path";
+error_message_for(grammar::v1::path::forbid_prefix_double_slash_no_interp) = "path has a trailing slash";
+error_message_for(grammar::v1::expr) = "expecting expression";
+error_message_for(grammar::v1::expr::unary) = "expecting expression";
+error_message_for(grammar::v1::binding::equal) = "expecting '='";
+error_message_for(grammar::v1::expr::lambda::arg) = "expecting identifier";
+error_message_for(grammar::v1::formals) = "expecting formals";
+error_message_for(grammar::v1::attrpath) = "expecting attribute path";
+error_message_for(grammar::v1::expr::select) = "expecting selection expression";
+error_message_for(grammar::v1::t::kw_then) = "expecting 'then'";
+error_message_for(grammar::v1::t::kw_else) = "expecting 'else'";
+error_message_for(grammar::v1::t::kw_in) = "expecting 'in'";
+
+struct SyntaxErrors
+{
+ template<typename Rule>
+ static constexpr auto message = error_message<Rule>;
+
+ template<typename Rule>
+ static constexpr bool raise_on_failure = false;
+};
+
+template<typename Rule>
+struct Control : p::must_if<SyntaxErrors>::control<Rule>
+{
+ template<typename ParseInput, typename... States>
+ [[noreturn]] static void raise(const ParseInput & in, States &&... st)
+ {
+ if (in.empty()) {
+ std::string expected;
+ if constexpr (constexpr auto msg = error_message<Rule>)
+ expected = fmt(", %s", msg);
+ throw p::parse_error("unexpected end of file" + expected, in);
+ }
+ p::must_if<SyntaxErrors>::control<Rule>::raise(in, st...);
+ }
+};
+
+struct ExprState
+ : grammar::v1::
+ operator_semantics<ExprState, PosIdx, AttrPath, std::pair<PosIdx, std::unique_ptr<Expr>>>
+{
+ std::unique_ptr<Expr> popExprOnly() {
+ return std::move(popExpr().second);
+ }
+
+ template<typename Op, typename... Args>
+ std::unique_ptr<Expr> applyUnary(Args &&... args) {
+ return std::make_unique<Op>(popExprOnly(), std::forward<Args>(args)...);
+ }
+
+ template<typename Op>
+ std::unique_ptr<Expr> applyBinary(PosIdx pos) {
+ auto right = popExprOnly(), left = popExprOnly();
+ return std::make_unique<Op>(pos, std::move(left), std::move(right));
+ }
+
+ std::unique_ptr<Expr> call(PosIdx pos, Symbol fn, bool flip = false)
+ {
+ std::vector<std::unique_ptr<Expr>> args(2);
+ args[flip ? 0 : 1] = popExprOnly();
+ args[flip ? 1 : 0] = popExprOnly();
+ return std::make_unique<ExprCall>(pos, std::make_unique<ExprVar>(fn), std::move(args));
+ }
+
+ std::unique_ptr<Expr> pipe(PosIdx pos, State & state, bool flip = false)
+ {
+ if (!state.featureSettings.isEnabled(Xp::PipeOperator))
+ throw ParseError({
+ .msg = HintFmt("Pipe operator is disabled"),
+ .pos = state.positions[pos]
+ });
+
+ // Reverse the order compared to normal function application: arg |> fn
+ std::unique_ptr<Expr> fn, arg;
+ if (flip) {
+ fn = popExprOnly();
+ arg = popExprOnly();
+ } else {
+ arg = popExprOnly();
+ fn = popExprOnly();
+ }
+ std::vector<std::unique_ptr<Expr>> args{1};
+ args[0] = std::move(arg);
+
+ return std::make_unique<ExprCall>(pos, std::move(fn), std::move(args));
+ }
+
+ std::unique_ptr<Expr> order(PosIdx pos, bool less, State & state)
+ {
+ return call(pos, state.s.lessThan, !less);
+ }
+
+ std::unique_ptr<Expr> concatStrings(PosIdx pos)
+ {
+ std::vector<std::pair<PosIdx, std::unique_ptr<Expr>>> args(2);
+ args[1] = popExpr();
+ args[0] = popExpr();
+ return std::make_unique<ExprConcatStrings>(pos, false, std::move(args));
+ }
+
+ std::unique_ptr<Expr> negate(PosIdx pos, State & state)
+ {
+ std::vector<std::unique_ptr<Expr>> args(2);
+ args[0] = std::make_unique<ExprInt>(0);
+ args[1] = popExprOnly();
+ return std::make_unique<ExprCall>(pos, std::make_unique<ExprVar>(state.s.sub), std::move(args));
+ }
+
+ std::pair<PosIdx, std::unique_ptr<Expr>> applyOp(PosIdx pos, auto & op, State & state) {
+ using Op = grammar::v1::op;
+
+ auto not_ = [] (auto e) {
+ return std::make_unique<ExprOpNot>(std::move(e));
+ };
+
+ return {
+ pos,
+ (overloaded {
+ [&] (Op::implies) { return applyBinary<ExprOpImpl>(pos); },
+ [&] (Op::or_) { return applyBinary<ExprOpOr>(pos); },
+ [&] (Op::and_) { return applyBinary<ExprOpAnd>(pos); },
+ [&] (Op::equals) { return applyBinary<ExprOpEq>(pos); },
+ [&] (Op::not_equals) { return applyBinary<ExprOpNEq>(pos); },
+ [&] (Op::less) { return order(pos, true, state); },
+ [&] (Op::greater_eq) { return not_(order(pos, true, state)); },
+ [&] (Op::greater) { return order(pos, false, state); },
+ [&] (Op::less_eq) { return not_(order(pos, false, state)); },
+ [&] (Op::update) { return applyBinary<ExprOpUpdate>(pos); },
+ [&] (Op::not_) { return applyUnary<ExprOpNot>(); },
+ [&] (Op::plus) { return concatStrings(pos); },
+ [&] (Op::minus) { return call(pos, state.s.sub); },
+ [&] (Op::mul) { return call(pos, state.s.mul); },
+ [&] (Op::div) { return call(pos, state.s.div); },
+ [&] (Op::concat) { return applyBinary<ExprOpConcatLists>(pos); },
+ [&] (has_attr & a) { return applyUnary<ExprOpHasAttr>(std::move(a.path)); },
+ [&] (Op::unary_minus) { return negate(pos, state); },
+ [&] (Op::pipe_right) { return pipe(pos, state, true); },
+ [&] (Op::pipe_left) { return pipe(pos, state); },
+ })(op)
+ };
+ }
+
+ // always_inline is needed, otherwise pushOp slows down considerably
+ [[noreturn, gnu::always_inline]]
+ static void badOperator(PosIdx pos, State & state)
+ {
+ throw ParseError({
+ .msg = HintFmt("syntax error, unexpected operator"),
+ .pos = state.positions[pos]
+ });
+ }
+
+ template<typename Expr, typename... Args>
+ Expr & pushExpr(PosIdx pos, Args && ... args)
+ {
+ auto p = std::make_unique<Expr>(std::forward<Args>(args)...);
+ auto & result = *p;
+ exprs.emplace_back(pos, std::move(p));
+ return result;
+ }
+};
+
+struct SubexprState {
+private:
+ ExprState * up;
+
+public:
+ explicit SubexprState(ExprState & up, auto &...) : up(&up) {}
+ operator ExprState &() { return *up; }
+ ExprState * operator->() { return up; }
+};
+
+
+
+template<typename Rule>
+struct BuildAST : grammar::v1::nothing<Rule> {};
+
+struct LambdaState : SubexprState {
+ using SubexprState::SubexprState;
+
+ Symbol arg;
+ std::unique_ptr<Formals> formals;
+};
+
+struct FormalsState : SubexprState {
+ using SubexprState::SubexprState;
+
+ Formals formals{};
+ Formal formal{};
+};
+
+template<> struct BuildAST<grammar::v1::formal::name> {
+ static void apply(const auto & in, FormalsState & s, State & ps) {
+ s.formal = {
+ .pos = ps.at(in),
+ .name = ps.symbols.create(in.string_view()),
+ };
+ }
+};
+
+template<> struct BuildAST<grammar::v1::formal> {
+ static void apply0(FormalsState & s, State &) {
+ s.formals.formals.emplace_back(std::move(s.formal));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::formal::default_value> {
+ static void apply0(FormalsState & s, State & ps) {
+ s.formal.def = s->popExprOnly();
+ }
+};
+
+template<> struct BuildAST<grammar::v1::formals::ellipsis> {
+ static void apply0(FormalsState & s, State &) {
+ s.formals.ellipsis = true;
+ }
+};
+
+template<> struct BuildAST<grammar::v1::formals> : change_head<FormalsState> {
+ static void success0(FormalsState & f, LambdaState & s, State &) {
+ s.formals = std::make_unique<Formals>(std::move(f.formals));
+ }
+};
+
+struct AttrState : SubexprState {
+ using SubexprState::SubexprState;
+
+ std::vector<AttrName> attrs;
+
+ template <typename T>
+ void pushAttr(T && attr, PosIdx) { attrs.emplace_back(std::forward<T>(attr)); }
+};
+
+template<> struct BuildAST<grammar::v1::attr::simple> {
+ static void apply(const auto & in, auto & s, State & ps) {
+ s.pushAttr(ps.symbols.create(in.string_view()), ps.at(in));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::attr::string> {
+ static void apply(const auto & in, auto & s, State & ps) {
+ auto e = s->popExprOnly();
+ if (auto str = dynamic_cast<ExprString *>(e.get()))
+ s.pushAttr(ps.symbols.create(str->s), ps.at(in));
+ else
+ s.pushAttr(std::move(e), ps.at(in));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::attr::expr> : BuildAST<grammar::v1::attr::string> {};
+
+struct BindingsState : SubexprState {
+ using SubexprState::SubexprState;
+
+ ExprAttrs attrs;
+ AttrPath path;
+ std::unique_ptr<Expr> value;
+};
+
+struct InheritState : SubexprState {
+ using SubexprState::SubexprState;
+
+ std::vector<std::pair<AttrName, PosIdx>> attrs;
+ std::unique_ptr<Expr> from;
+ PosIdx fromPos;
+
+ template <typename T>
+ void pushAttr(T && attr, PosIdx pos) { attrs.emplace_back(std::forward<T>(attr), pos); }
+};
+
+template<> struct BuildAST<grammar::v1::inherit::from> {
+ static void apply(const auto & in, InheritState & s, State & ps) {
+ s.from = s->popExprOnly();
+ s.fromPos = ps.at(in);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::inherit> : change_head<InheritState> {
+ static void success0(InheritState & s, BindingsState & b, State & ps) {
+ auto & attrs = b.attrs.attrs;
+ // TODO this should not reuse generic attrpath rules.
+ for (auto & [i, iPos] : s.attrs) {
+ if (i.symbol)
+ continue;
+ if (auto str = dynamic_cast<ExprString *>(i.expr.get()))
+ i = AttrName(ps.symbols.create(str->s));
+ else {
+ throw ParseError({
+ .msg = HintFmt("dynamic attributes not allowed in inherit"),
+ .pos = ps.positions[iPos]
+ });
+ }
+ }
+ if (s.from != nullptr) {
+ if (!b.attrs.inheritFromExprs)
+ b.attrs.inheritFromExprs = std::make_unique<std::vector<ref<Expr>>>();
+ auto fromExpr = ref<Expr>(std::move(s.from));
+ b.attrs.inheritFromExprs->push_back(fromExpr);
+ for (auto & [i, iPos] : s.attrs) {
+ if (attrs.find(i.symbol) != attrs.end())
+ ps.dupAttr(i.symbol, iPos, attrs[i.symbol].pos);
+ auto inheritFrom = std::make_unique<ExprInheritFrom>(
+ s.fromPos,
+ b.attrs.inheritFromExprs->size() - 1,
+ fromExpr
+ );
+ attrs.emplace(
+ i.symbol,
+ ExprAttrs::AttrDef(
+ std::make_unique<ExprSelect>(iPos, std::move(inheritFrom), i.symbol),
+ iPos,
+ ExprAttrs::AttrDef::Kind::InheritedFrom));
+ }
+ } else {
+ for (auto & [i, iPos] : s.attrs) {
+ if (attrs.find(i.symbol) != attrs.end())
+ ps.dupAttr(i.symbol, iPos, attrs[i.symbol].pos);
+ attrs.emplace(
+ i.symbol,
+ ExprAttrs::AttrDef(
+ std::make_unique<ExprVar>(iPos, i.symbol),
+ iPos,
+ ExprAttrs::AttrDef::Kind::Inherited));
+ }
+ }
+ }
+};
+
+template<> struct BuildAST<grammar::v1::binding::path> : change_head<AttrState> {
+ static void success0(AttrState & a, BindingsState & s, State & ps) {
+ s.path = std::move(a.attrs);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::binding::value> {
+ static void apply0(BindingsState & s, State & ps) {
+ s.value = s->popExprOnly();
+ }
+};
+
+template<> struct BuildAST<grammar::v1::binding> {
+ static void apply(const auto & in, BindingsState & s, State & ps) {
+ ps.addAttr(&s.attrs, std::move(s.path), std::move(s.value), ps.at(in));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::id> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ if (in.string_view() == "__curPos")
+ s.pushExpr<ExprPos>(ps.at(in), ps.at(in));
+ else
+ s.pushExpr<ExprVar>(ps.at(in), ps.at(in), ps.symbols.create(in.string_view()));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::int_> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ int64_t v;
+ if (std::from_chars(in.begin(), in.end(), v).ec != std::errc{}) {
+ throw ParseError({
+ .msg = HintFmt("invalid integer '%1%'", in.string_view()),
+ .pos = ps.positions[ps.at(in)],
+ });
+ }
+ s.pushExpr<ExprInt>(noPos, v);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::float_> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ // copy the input into a temporary string so we can call stod.
+ // can't use from_chars because libc++ (thus darwin) does not have it,
+ // and floats are not performance-sensitive anyway. if they were you'd
+ // be in much bigger trouble than this.
+ //
+ // we also get to do a locale-save dance because stod is locale-aware and
+ // something (a plugin?) may have called setlocale or uselocale.
+ static struct locale_hack {
+ locale_t posix;
+ locale_hack(): posix(newlocale(LC_ALL_MASK, "POSIX", 0))
+ {
+ if (posix == 0)
+ throw SysError("could not get POSIX locale");
+ }
+ } locale;
+
+ auto tmp = in.string();
+ double v = [&] {
+ auto oldLocale = uselocale(locale.posix);
+ Finally resetLocale([=] { uselocale(oldLocale); });
+ try {
+ return std::stod(tmp);
+ } catch (...) {
+ throw ParseError({
+ .msg = HintFmt("invalid float '%1%'", in.string_view()),
+ .pos = ps.positions[ps.at(in)],
+ });
+ }
+ }();
+ s.pushExpr<ExprFloat>(noPos, v);
+ }
+};
+
+struct StringState : SubexprState {
+ using SubexprState::SubexprState;
+
+ std::string currentLiteral;
+ PosIdx currentPos;
+ std::vector<std::pair<nix::PosIdx, std::unique_ptr<Expr>>> parts;
+
+ void append(PosIdx pos, std::string_view s)
+ {
+ if (currentLiteral.empty())
+ currentPos = pos;
+ currentLiteral += s;
+ }
+
+ // FIXME this truncates strings on NUL for compat with the old parser. ideally
+ // we should use the decomposition the g gives us instead of iterating over
+ // the entire string again.
+ static void unescapeStr(std::string & str)
+ {
+ char * s = str.data();
+ char * t = s;
+ char c;
+ while ((c = *s++)) {
+ if (c == '\\') {
+ c = *s++;
+ if (c == 'n') *t = '\n';
+ else if (c == 'r') *t = '\r';
+ else if (c == 't') *t = '\t';
+ else *t = c;
+ }
+ else if (c == '\r') {
+ /* Normalise CR and CR/LF into LF. */
+ *t = '\n';
+ if (*s == '\n') s++; /* cr/lf */
+ }
+ else *t = c;
+ t++;
+ }
+ str.resize(t - str.data());
+ }
+
+ void endLiteral()
+ {
+ if (!currentLiteral.empty()) {
+ unescapeStr(currentLiteral);
+ parts.emplace_back(currentPos, std::make_unique<ExprString>(std::move(currentLiteral)));
+ }
+ }
+
+ std::unique_ptr<Expr> finish()
+ {
+ if (parts.empty()) {
+ unescapeStr(currentLiteral);
+ return std::make_unique<ExprString>(std::move(currentLiteral));
+ } else {
+ endLiteral();
+ auto pos = parts[0].first;
+ return std::make_unique<ExprConcatStrings>(pos, true, std::move(parts));
+ }
+ }
+};
+
+template<typename... Content> struct BuildAST<grammar::v1::string::literal<Content...>> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ s.append(ps.at(in), in.string_view());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::string::cr_lf> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ s.append(ps.at(in), in.string_view()); // FIXME compat with old parser
+ }
+};
+
+template<> struct BuildAST<grammar::v1::string::interpolation> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ s.endLiteral();
+ s.parts.emplace_back(ps.at(in), s->popExprOnly());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::string::escape> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ s.append(ps.at(in), "\\"); // FIXME compat with old parser
+ s.append(ps.at(in), in.string_view());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::string> : change_head<StringState> {
+ static void success0(StringState & s, ExprState & e, State &) {
+ e.exprs.emplace_back(noPos, s.finish());
+ }
+};
+
+struct IndStringState : SubexprState {
+ using SubexprState::SubexprState;
+
+ std::vector<std::pair<PosIdx, std::variant<std::unique_ptr<Expr>, StringToken>>> parts;
+};
+
+template<bool Indented, typename... Content>
+struct BuildAST<grammar::v1::ind_string::literal<Indented, Content...>> {
+ static void apply(const auto & in, IndStringState & s, State & ps) {
+ s.parts.emplace_back(ps.at(in), StringToken{in.string_view(), Indented});
+ }
+};
+
+template<> struct BuildAST<grammar::v1::ind_string::interpolation> {
+ static void apply(const auto & in, IndStringState & s, State & ps) {
+ s.parts.emplace_back(ps.at(in), s->popExprOnly());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::ind_string::escape> {
+ static void apply(const auto & in, IndStringState & s, State & ps) {
+ switch (*in.begin()) {
+ case 'n': s.parts.emplace_back(ps.at(in), StringToken{"\n"}); break;
+ case 'r': s.parts.emplace_back(ps.at(in), StringToken{"\r"}); break;
+ case 't': s.parts.emplace_back(ps.at(in), StringToken{"\t"}); break;
+ default: s.parts.emplace_back(ps.at(in), StringToken{in.string_view()}); break;
+ }
+ }
+};
+
+template<> struct BuildAST<grammar::v1::ind_string> : change_head<IndStringState> {
+ static void success(const auto & in, IndStringState & s, ExprState & e, State & ps) {
+ e.exprs.emplace_back(noPos, ps.stripIndentation(ps.at(in), std::move(s.parts)));
+ }
+};
+
+template<typename... Content> struct BuildAST<grammar::v1::path::literal<Content...>> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ s.append(ps.at(in), in.string_view());
+ s.endLiteral();
+ }
+};
+
+template<> struct BuildAST<grammar::v1::path::interpolation> : BuildAST<grammar::v1::string::interpolation> {};
+
+template<> struct BuildAST<grammar::v1::path::anchor> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ Path path(absPath(in.string(), ps.basePath.path.abs()));
+ /* add back in the trailing '/' to the first segment */
+ if (in.string_view().ends_with('/') && in.size() > 1)
+ path += "/";
+ s.parts.emplace_back(ps.at(in), new ExprPath(std::move(path)));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::path::home_anchor> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ if (evalSettings.pureEval)
+ throw Error("the path '%s' can not be resolved in pure mode", in.string_view());
+ Path path(getHome() + in.string_view().substr(1));
+ s.parts.emplace_back(ps.at(in), new ExprPath(std::move(path)));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::path::searched_path> {
+ static void apply(const auto & in, StringState & s, State & ps) {
+ std::vector<std::unique_ptr<Expr>> args{2};
+ args[0] = std::make_unique<ExprVar>(ps.s.nixPath);
+ args[1] = std::make_unique<ExprString>(in.string());
+ s.parts.emplace_back(
+ ps.at(in),
+ std::make_unique<ExprCall>(
+ ps.at(in),
+ std::make_unique<ExprVar>(ps.s.findFile),
+ std::move(args)));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::path> : change_head<StringState> {
+ template<typename E>
+ static void check_slash(PosIdx end, StringState & s, State & ps) {
+ auto e = dynamic_cast<E *>(s.parts.back().second.get());
+ if (!e || !e->s.ends_with('/'))
+ return;
+ if (s.parts.size() > 1 || e->s != "/")
+ throw ParseError({
+ .msg = HintFmt("path has a trailing slash"),
+ .pos = ps.positions[end],
+ });
+ }
+
+ static void success(const auto & in, StringState & s, ExprState & e, State & ps) {
+ s.endLiteral();
+ check_slash<ExprPath>(ps.atEnd(in), s, ps);
+ check_slash<ExprString>(ps.atEnd(in), s, ps);
+ if (s.parts.size() == 1) {
+ e.exprs.emplace_back(noPos, std::move(s.parts.back().second));
+ } else {
+ e.pushExpr<ExprConcatStrings>(ps.at(in), ps.at(in), false, std::move(s.parts));
+ }
+ }
+};
+
+// strings and paths sare handled fully by the grammar-level rule for now
+template<> struct BuildAST<grammar::v1::expr::string> : p::maybe_nothing {};
+template<> struct BuildAST<grammar::v1::expr::ind_string> : p::maybe_nothing {};
+template<> struct BuildAST<grammar::v1::expr::path> : p::maybe_nothing {};
+
+template<> struct BuildAST<grammar::v1::expr::uri> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ bool URLLiterals = ps.featureSettings.isEnabled(Dep::UrlLiterals);
+ if (!URLLiterals)
+ throw ParseError({
+ .msg = HintFmt("URL literals are deprecated, allow using them with --extra-deprecated-features=url-literals"),
+ .pos = ps.positions[ps.at(in)]
+ });
+ s.pushExpr<ExprString>(ps.at(in), in.string());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::ancient_let> : change_head<BindingsState> {
+ static void success(const auto & in, BindingsState & b, ExprState & s, State & ps) {
+ // Added 2024-09-18. Turn into an error at some point in the future.
+ // See the documentation on deprecated features for more details.
+ if (!ps.featureSettings.isEnabled(Dep::AncientLet))
+ warn(
+ "%s found at %s. This feature is deprecated and will be removed in the future. Use %s to silence this warning.",
+ "let {",
+ ps.positions[ps.at(in)],
+ "--extra-deprecated-features ancient-let"
+ );
+
+ b.attrs.pos = ps.at(in);
+ b.attrs.recursive = true;
+ s.pushExpr<ExprSelect>(b.attrs.pos, b.attrs.pos, std::make_unique<ExprAttrs>(std::move(b.attrs)), ps.s.body);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::rec_set> : change_head<BindingsState> {
+ static void success(const auto & in, BindingsState & b, ExprState & s, State & ps) {
+ // Before inserting new attrs, check for __override and throw an error
+ // (the error will initially be a warning to ease migration)
+ if (!featureSettings.isEnabled(Dep::RecSetOverrides) && b.attrs.attrs.contains(ps.s.overrides)) {
+ ps.overridesFound(ps.at(in));
+ }
+
+ b.attrs.pos = ps.at(in);
+ b.attrs.recursive = true;
+ s.pushExpr<ExprAttrs>(b.attrs.pos, std::move(b.attrs));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::set> : change_head<BindingsState> {
+ static void success(const auto & in, BindingsState & b, ExprState & s, State & ps) {
+ b.attrs.pos = ps.at(in);
+ s.pushExpr<ExprAttrs>(b.attrs.pos, std::move(b.attrs));
+ }
+};
+
+using ListState = std::vector<std::unique_ptr<Expr>>;
+
+template<> struct BuildAST<grammar::v1::expr::list> : change_head<ListState> {
+ static void success(const auto & in, ListState & ls, ExprState & s, State & ps) {
+ auto e = std::make_unique<ExprList>();
+ e->elems = std::move(ls);
+ s.exprs.emplace_back(ps.at(in), std::move(e));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::list::entry> : change_head<ExprState> {
+ static void success0(ExprState & e, ListState & s, State & ps) {
+ s.emplace_back(e.finish(ps).second);
+ }
+};
+
+struct SelectState : SubexprState {
+ using SubexprState::SubexprState;
+
+ PosIdx pos;
+ ExprSelect * e = nullptr;
+};
+
+template<> struct BuildAST<grammar::v1::expr::select::head> {
+ static void apply(const auto & in, SelectState & s, State & ps) {
+ s.pos = ps.at(in);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::select::attr> : change_head<AttrState> {
+ static void success0(AttrState & a, SelectState & s, State &) {
+ s.e = &s->pushExpr<ExprSelect>(s.pos, s.pos, s->popExprOnly(), std::move(a.attrs), nullptr);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::select::attr_or> {
+ static void apply0(SelectState & s, State &) {
+ s.e->def = s->popExprOnly();
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::select::as_app_or> {
+ static void apply(const auto & in, SelectState & s, State & ps) {
+ std::vector<std::unique_ptr<Expr>> args(1);
+ args[0] = std::make_unique<ExprVar>(ps.at(in), ps.s.or_);
+ s->pushExpr<ExprCall>(s.pos, s.pos, s->popExprOnly(), std::move(args));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::select> : change_head<SelectState> {
+ static void success0(const auto &...) {}
+};
+
+struct AppState : SubexprState {
+ using SubexprState::SubexprState;
+
+ PosIdx pos;
+ ExprCall * e = nullptr;
+};
+
+template<> struct BuildAST<grammar::v1::expr::app::select_or_fn> {
+ static void apply(const auto & in, AppState & s, State & ps) {
+ s.pos = ps.at(in);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::app::first_arg> {
+ static void apply(auto & in, AppState & s, State & ps) {
+ auto arg = s->popExprOnly(), fn = s->popExprOnly();
+ if ((s.e = dynamic_cast<ExprCall *>(fn.get()))) {
+ // TODO remove.
+ // AST compat with old parser, semantics are the same.
+ // this can happen on occasions such as `<p> <p>` or `a or b or`,
+ // neither of which are super worth optimizing.
+ s.e->args.push_back(std::move(arg));
+ s->exprs.emplace_back(noPos, std::move(fn));
+ } else {
+ std::vector<std::unique_ptr<Expr>> args{1};
+ args[0] = std::move(arg);
+ s.e = &s->pushExpr<ExprCall>(s.pos, s.pos, std::move(fn), std::move(args));
+ }
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::app::another_arg> {
+ static void apply0(AppState & s, State & ps) {
+ s.e->args.push_back(s->popExprOnly());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::app> : change_head<AppState> {
+ static void success0(const auto &...) {}
+};
+
+template<typename Op> struct BuildAST<grammar::v1::expr::operator_<Op>> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ s.pushOp(ps.at(in), Op{}, ps);
+ }
+};
+template<> struct BuildAST<grammar::v1::expr::operator_<grammar::v1::op::has_attr>> : change_head<AttrState> {
+ static void success(const auto & in, AttrState & a, ExprState & s, State & ps) {
+ s.pushOp(ps.at(in), ExprState::has_attr{{}, std::move(a.attrs)}, ps);
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::lambda::arg> {
+ static void apply(const auto & in, LambdaState & s, State & ps) {
+ s.arg = ps.symbols.create(in.string_view());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::lambda> : change_head<LambdaState> {
+ static void success(const auto & in, LambdaState & l, ExprState & s, State & ps) {
+ if (l.formals)
+ l.formals = ps.validateFormals(std::move(l.formals), ps.at(in), l.arg);
+ s.pushExpr<ExprLambda>(ps.at(in), ps.at(in), l.arg, std::move(l.formals), l->popExprOnly());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::assert_> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ auto body = s.popExprOnly(), cond = s.popExprOnly();
+ s.pushExpr<ExprAssert>(ps.at(in), ps.at(in), std::move(cond), std::move(body));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::with> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ auto body = s.popExprOnly(), scope = s.popExprOnly();
+ s.pushExpr<ExprWith>(ps.at(in), ps.at(in), std::move(scope), std::move(body));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::let> : change_head<BindingsState> {
+ static void success(const auto & in, BindingsState & b, ExprState & s, State & ps) {
+ if (!b.attrs.dynamicAttrs.empty())
+ throw ParseError({
+ .msg = HintFmt("dynamic attributes not allowed in let"),
+ .pos = ps.positions[ps.at(in)]
+ });
+
+ s.pushExpr<ExprLet>(ps.at(in), std::make_unique<ExprAttrs>(std::move(b.attrs)), b->popExprOnly());
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr::if_> {
+ static void apply(const auto & in, ExprState & s, State & ps) {
+ auto else_ = s.popExprOnly(), then = s.popExprOnly(), cond = s.popExprOnly();
+ s.pushExpr<ExprIf>(ps.at(in), ps.at(in), std::move(cond), std::move(then), std::move(else_));
+ }
+};
+
+template<> struct BuildAST<grammar::v1::expr> : change_head<ExprState> {
+ static void success0(ExprState & inner, ExprState & outer, State & ps) {
+ outer.exprs.push_back(inner.finish(ps));
+ }
+};
+
+}
+}