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@ -4821,100 +4821,6 @@ impl<'tcx> TyS<'tcx> {
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result
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}
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// True if instantiating an instance of `r_ty` requires an instance of `r_ty`.
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pub fn is_instantiable(&'tcx self, cx: &ctxt<'tcx>) -> bool {
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fn type_requires<'tcx>(cx: &ctxt<'tcx>, seen: &mut Vec<AdtDef<'tcx>>,
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r_ty: Ty<'tcx>, ty: Ty<'tcx>) -> bool {
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debug!("type_requires({:?}, {:?})?",
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r_ty, ty);
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let r = r_ty == ty || subtypes_require(cx, seen, r_ty, ty);
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debug!("type_requires({:?}, {:?})? {:?}",
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r_ty, ty, r);
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return r;
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}
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fn subtypes_require<'tcx>(cx: &ctxt<'tcx>, seen: &mut Vec<AdtDef<'tcx>>,
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r_ty: Ty<'tcx>, ty: Ty<'tcx>) -> bool {
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debug!("subtypes_require({:?}, {:?})?",
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r_ty, ty);
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let r = match ty.sty {
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// fixed length vectors need special treatment compared to
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// normal vectors, since they don't necessarily have the
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// possibility to have length zero.
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TyArray(_, 0) => false, // don't need no contents
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TyArray(ty, _) => type_requires(cx, seen, r_ty, ty),
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TyBool |
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TyChar |
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TyInt(_) |
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TyUint(_) |
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TyFloat(_) |
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TyStr |
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TyBareFn(..) |
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TyParam(_) |
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TyProjection(_) |
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TySlice(_) => {
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false
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}
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TyBox(typ) => {
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type_requires(cx, seen, r_ty, typ)
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}
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TyRef(_, ref mt) => {
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type_requires(cx, seen, r_ty, mt.ty)
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}
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TyRawPtr(..) => {
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false // unsafe ptrs can always be NULL
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}
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TyTrait(..) => {
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false
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}
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TyStruct(def, substs) | TyEnum(def, substs) => {
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if seen.contains(&def) {
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// FIXME(#27497) ???
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false
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} else if def.is_empty() {
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// HACK: required for empty types to work. This
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// check is basically a lint anyway.
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false
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} else {
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seen.push(def);
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let r = def.variants.iter().all(|v| v.fields.iter().any(|f| {
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type_requires(cx, seen, r_ty, f.ty(cx, substs))
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}));
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seen.pop().unwrap();
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r
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}
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}
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TyError |
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TyInfer(_) |
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TyClosure(..) => {
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// this check is run on type definitions, so we don't expect to see
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// inference by-products or closure types
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cx.sess.bug(&format!("requires check invoked on inapplicable type: {:?}", ty))
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}
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TyTuple(ref ts) => {
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ts.iter().any(|ty| type_requires(cx, seen, r_ty, *ty))
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}
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};
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debug!("subtypes_require({:?}, {:?})? {:?}",
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r_ty, ty, r);
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return r;
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}
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let mut seen = Vec::new();
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!subtypes_require(cx, &mut seen, self, self)
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}
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}
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/// Describes whether a type is representable. For types that are not
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@ -117,7 +117,6 @@ use syntax::attr::AttrMetaMethods;
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use syntax::ast::{self, Visibility};
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use syntax::ast_util;
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use syntax::codemap::{self, Span};
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use syntax::feature_gate::emit_feature_err;
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use syntax::owned_slice::OwnedSlice;
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use syntax::parse::token::{self, InternedString};
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use syntax::print::pprust;
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@ -669,7 +668,6 @@ pub fn check_struct(ccx: &CrateCtxt, id: ast::NodeId, span: Span) {
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let tcx = ccx.tcx;
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check_representable(tcx, span, id, "struct");
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check_instantiable(tcx, span, id);
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if tcx.lookup_simd(DefId::local(id)) {
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check_simd(tcx, span, id);
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@ -4202,22 +4200,6 @@ pub fn check_representable(tcx: &ty::ctxt,
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return true
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}
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/// Checks whether a type can be constructed at runtime without
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/// an existing instance of that type.
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pub fn check_instantiable(tcx: &ty::ctxt,
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sp: Span,
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item_id: ast::NodeId) {
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let item_ty = tcx.node_id_to_type(item_id);
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if !item_ty.is_instantiable(tcx) &&
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!tcx.sess.features.borrow().static_recursion {
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emit_feature_err(&tcx.sess.parse_sess.span_diagnostic,
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"static_recursion",
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sp,
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"this type cannot be instantiated at runtime \
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without an instance of itself");
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}
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}
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pub fn check_simd(tcx: &ty::ctxt, sp: Span, id: ast::NodeId) {
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let t = tcx.node_id_to_type(id);
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match t.sty {
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@ -4352,7 +4334,6 @@ pub fn check_enum_variants<'a,'tcx>(ccx: &CrateCtxt<'a,'tcx>,
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do_check(ccx, vs, id, hint);
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check_representable(ccx.tcx, sp, id, "enum");
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check_instantiable(ccx.tcx, sp, id);
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}
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// Returns the type parameter count and the type for the given definition.
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@ -8,7 +8,6 @@
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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struct Z(&'static Z);
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//~^ ERROR this type cannot be instantiated
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pub struct Z(&'static Z);
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pub fn main() {}
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