rustc: Root resources with addrspaces.
This commit is contained in:
parent
c8daf2ac16
commit
c2e99ba826
@ -54,7 +54,7 @@ fn trans_opt(bcx: block, o: opt) -> opt_result {
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let cell = empty_dest_cell();
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let cell = empty_dest_cell();
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bcx = tvec::trans_estr(bcx, s, some(ast::vstore_uniq),
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bcx = tvec::trans_estr(bcx, s, some(ast::vstore_uniq),
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by_val(cell));
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by_val(cell));
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add_clean_temp(bcx, *cell, strty);
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add_clean_temp_immediate(bcx, *cell, strty);
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return single_result(rslt(bcx, *cell));
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return single_result(rslt(bcx, *cell));
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}
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}
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_ => {
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_ => {
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@ -486,6 +486,20 @@ fn note_unique_llvm_symbol(ccx: @crate_ctxt, sym: ~str) {
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ccx.all_llvm_symbols.insert(sym, ());
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ccx.all_llvm_symbols.insert(sym, ());
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}
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}
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// Chooses the addrspace for newly declared types.
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fn declare_tydesc_addrspace(ccx: @crate_ctxt, t: ty::t) -> addrspace {
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if !ty::type_needs_drop(ccx.tcx, t) {
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return default_addrspace;
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} else if ty::type_is_immediate(t) {
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// For immediate types, we don't actually need an addrspace, because
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// e.g. boxed types include pointers to their contents which are
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// already correctly tagged with addrspaces.
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return default_addrspace;
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} else {
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return ccx.next_addrspace();
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}
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}
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// Generates the declaration for (but doesn't emit) a type descriptor.
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// Generates the declaration for (but doesn't emit) a type descriptor.
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fn declare_tydesc(ccx: @crate_ctxt, t: ty::t) -> @tydesc_info {
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fn declare_tydesc(ccx: @crate_ctxt, t: ty::t) -> @tydesc_info {
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let _icx = ccx.insn_ctxt("declare_tydesc");
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let _icx = ccx.insn_ctxt("declare_tydesc");
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@ -499,6 +513,7 @@ fn declare_tydesc(ccx: @crate_ctxt, t: ty::t) -> @tydesc_info {
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let llsize = llsize_of(ccx, llty);
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let llsize = llsize_of(ccx, llty);
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let llalign = llalign_of(ccx, llty);
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let llalign = llalign_of(ccx, llty);
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let addrspace = declare_tydesc_addrspace(ccx, t);
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//XXX this triggers duplicate LLVM symbols
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//XXX this triggers duplicate LLVM symbols
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let name = if false /*ccx.sess.opts.debuginfo*/ {
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let name = if false /*ccx.sess.opts.debuginfo*/ {
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mangle_internal_name_by_type_only(ccx, t, ~"tydesc")
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mangle_internal_name_by_type_only(ccx, t, ~"tydesc")
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@ -513,6 +528,7 @@ fn declare_tydesc(ccx: @crate_ctxt, t: ty::t) -> @tydesc_info {
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tydesc: gvar,
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tydesc: gvar,
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size: llsize,
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size: llsize,
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align: llalign,
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align: llalign,
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addrspace: addrspace,
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mut take_glue: none,
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mut take_glue: none,
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mut drop_glue: none,
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mut drop_glue: none,
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mut free_glue: none,
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mut free_glue: none,
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@ -1275,6 +1291,16 @@ fn drop_ty(cx: block, v: ValueRef, t: ty::t) -> block {
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return cx;
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return cx;
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}
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}
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fn drop_ty_root(bcx: block, v: ValueRef, rooted: bool, t: ty::t) -> block {
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if rooted {
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// NB: v is a raw ptr to an addrspace'd ptr to the value.
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let v = PointerCast(bcx, Load(bcx, v), T_ptr(type_of(bcx.ccx(), t)));
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drop_ty(bcx, v, t)
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} else {
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drop_ty(bcx, v, t)
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}
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}
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fn drop_ty_immediate(bcx: block, v: ValueRef, t: ty::t) -> block {
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fn drop_ty_immediate(bcx: block, v: ValueRef, t: ty::t) -> block {
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let _icx = bcx.insn_ctxt("drop_ty_immediate");
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let _icx = bcx.insn_ctxt("drop_ty_immediate");
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match ty::get(t).struct {
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match ty::get(t).struct {
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@ -2751,7 +2777,7 @@ fn trans_lval(cx: block, e: @ast::expr) -> lval_result {
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fn non_gc_box_cast(cx: block, val: ValueRef) -> ValueRef {
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fn non_gc_box_cast(cx: block, val: ValueRef) -> ValueRef {
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debug!("non_gc_box_cast");
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debug!("non_gc_box_cast");
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add_comment(cx, ~"non_gc_box_cast");
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add_comment(cx, ~"non_gc_box_cast");
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assert(llvm::LLVMGetPointerAddressSpace(val_ty(val)) as uint == 1u);
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assert(llvm::LLVMGetPointerAddressSpace(val_ty(val)) == gc_box_addrspace);
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let non_gc_t = T_ptr(llvm::LLVMGetElementType(val_ty(val)));
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let non_gc_t = T_ptr(llvm::LLVMGetElementType(val_ty(val)));
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PointerCast(cx, val, non_gc_t)
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PointerCast(cx, val, non_gc_t)
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}
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}
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@ -3639,12 +3665,12 @@ fn trans_temp_lval(bcx: block, e: @ast::expr) -> lval_result {
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} else if ty::type_is_immediate(ty) {
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} else if ty::type_is_immediate(ty) {
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let cell = empty_dest_cell();
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let cell = empty_dest_cell();
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bcx = trans_expr(bcx, e, by_val(cell));
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bcx = trans_expr(bcx, e, by_val(cell));
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add_clean_temp(bcx, *cell, ty);
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add_clean_temp_immediate(bcx, *cell, ty);
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return {bcx: bcx, val: *cell, kind: lv_temporary};
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return {bcx: bcx, val: *cell, kind: lv_temporary};
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} else {
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} else {
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let scratch = alloc_ty(bcx, ty);
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let scratch = alloc_ty(bcx, ty);
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let bcx = trans_expr_save_in(bcx, e, scratch);
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let bcx = trans_expr_save_in(bcx, e, scratch);
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add_clean_temp(bcx, scratch, ty);
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add_clean_temp_mem(bcx, scratch, ty);
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return {bcx: bcx, val: scratch, kind: lv_temporary};
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return {bcx: bcx, val: scratch, kind: lv_temporary};
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}
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}
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}
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}
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@ -5815,6 +5841,7 @@ fn trans_crate(sess: session::session,
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module_data: str_hash::<ValueRef>(),
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module_data: str_hash::<ValueRef>(),
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lltypes: ty::new_ty_hash(),
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lltypes: ty::new_ty_hash(),
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names: new_namegen(sess.parse_sess.interner),
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names: new_namegen(sess.parse_sess.interner),
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next_addrspace: new_addrspace_gen(),
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symbol_hasher: symbol_hasher,
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symbol_hasher: symbol_hasher,
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type_hashcodes: ty::new_ty_hash(),
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type_hashcodes: ty::new_ty_hash(),
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type_short_names: ty::new_ty_hash(),
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type_short_names: ty::new_ty_hash(),
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@ -30,11 +30,28 @@ fn new_namegen(intr: ident_interner) -> namegen {
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};
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};
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}
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}
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type addrspace = c_uint;
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// Address spaces communicate to LLVM which destructors need to run for
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// specifc types.
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// 0 is ignored by the GC, and is used for all non-GC'd pointers.
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// 1 is for opaque GC'd boxes.
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// >= 2 are for specific types (e.g. resources).
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const default_addrspace: addrspace = 0;
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const gc_box_addrspace: addrspace = 1;
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type addrspace_gen = fn@() -> addrspace;
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fn new_addrspace_gen() -> addrspace_gen {
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let i = @mut 1;
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return fn@() -> addrspace { *i += 1; *i };
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}
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type tydesc_info =
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type tydesc_info =
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{ty: ty::t,
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{ty: ty::t,
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tydesc: ValueRef,
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tydesc: ValueRef,
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size: ValueRef,
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size: ValueRef,
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align: ValueRef,
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align: ValueRef,
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addrspace: addrspace,
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mut take_glue: option<ValueRef>,
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mut take_glue: option<ValueRef>,
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mut drop_glue: option<ValueRef>,
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mut drop_glue: option<ValueRef>,
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mut free_glue: option<ValueRef>,
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mut free_glue: option<ValueRef>,
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@ -118,6 +135,7 @@ type crate_ctxt = {
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module_data: hashmap<~str, ValueRef>,
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module_data: hashmap<~str, ValueRef>,
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lltypes: hashmap<ty::t, TypeRef>,
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lltypes: hashmap<ty::t, TypeRef>,
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names: namegen,
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names: namegen,
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next_addrspace: addrspace_gen,
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symbol_hasher: @hash::State,
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symbol_hasher: @hash::State,
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type_hashcodes: hashmap<ty::t, ~str>,
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type_hashcodes: hashmap<ty::t, ~str>,
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type_short_names: hashmap<ty::t, ~str>,
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type_short_names: hashmap<ty::t, ~str>,
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@ -254,47 +272,64 @@ fn cleanup_type(cx: ty::ctxt, ty: ty::t) -> cleantype {
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}
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}
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}
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}
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fn add_clean(cx: block, val: ValueRef, ty: ty::t) {
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// This is not the same as base::root_value, which appears to be the vestigial
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if !ty::type_needs_drop(cx.tcx(), ty) { return; }
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// remains of the previous GC regime. In the new GC, we can identify
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debug!("add_clean(%s, %s, %s)",
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// immediates on the stack without difficulty, but have trouble knowing where
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cx.to_str(), val_str(cx.ccx().tn, val),
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// non-immediates are on the stack. For non-immediates, we must add an
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ty_to_str(cx.ccx().tcx, ty));
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// additional level of indirection, which allows us to alloca a pointer with
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let cleanup_type = cleanup_type(cx.tcx(), ty);
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// the right addrspace.
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do in_scope_cx(cx) |info| {
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fn root_for_cleanup(bcx: block, v: ValueRef, t: ty::t)
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vec::push(info.cleanups, clean(|a| base::drop_ty(a, val, ty),
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-> {root: ValueRef, rooted: bool} {
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cleanup_type));
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let ccx = bcx.ccx();
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scope_clean_changed(info);
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}
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let addrspace = base::get_tydesc(ccx, t).addrspace;
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}
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if addrspace > gc_box_addrspace {
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fn add_clean_temp(cx: block, val: ValueRef, ty: ty::t) {
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let llty = type_of::type_of_rooted(ccx, t);
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if !ty::type_needs_drop(cx.tcx(), ty) { return; }
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let root = base::alloca(bcx, llty);
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debug!("add_clean_temp(%s, %s, %s)",
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build::Store(bcx, build::PointerCast(bcx, v, llty), root);
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cx.to_str(), val_str(cx.ccx().tn, val),
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{root: root, rooted: true}
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ty_to_str(cx.ccx().tcx, ty));
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let cleanup_type = cleanup_type(cx.tcx(), ty);
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fn do_drop(bcx: block, val: ValueRef, ty: ty::t) ->
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block {
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if ty::type_is_immediate(ty) {
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return base::drop_ty_immediate(bcx, val, ty);
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} else {
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} else {
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return base::drop_ty(bcx, val, ty);
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{root: v, rooted: false}
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}
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}
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}
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}
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do in_scope_cx(cx) |info| {
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vec::push(info.cleanups, clean_temp(val, |a| do_drop(a, val, ty),
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fn add_clean(bcx: block, val: ValueRef, t: ty::t) {
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if !ty::type_needs_drop(bcx.tcx(), t) { return; }
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debug!("add_clean(%s, %s, %s)",
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bcx.to_str(), val_str(bcx.ccx().tn, val),
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ty_to_str(bcx.ccx().tcx, t));
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let {root, rooted} = root_for_cleanup(bcx, val, t);
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let cleanup_type = cleanup_type(bcx.tcx(), t);
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do in_scope_cx(bcx) |info| {
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vec::push(info.cleanups,
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clean(|a| base::drop_ty_root(a, root, rooted, t),
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cleanup_type));
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cleanup_type));
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scope_clean_changed(info);
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scope_clean_changed(info);
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}
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}
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}
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}
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fn add_clean_temp_mem(cx: block, val: ValueRef, ty: ty::t) {
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fn add_clean_temp_immediate(cx: block, val: ValueRef, ty: ty::t) {
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if !ty::type_needs_drop(cx.tcx(), ty) { return; }
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if !ty::type_needs_drop(cx.tcx(), ty) { return; }
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debug!("add_clean_temp_mem(%s, %s, %s)",
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debug!("add_clean_temp_immediate(%s, %s, %s)",
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cx.to_str(), val_str(cx.ccx().tn, val),
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cx.to_str(), val_str(cx.ccx().tn, val),
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ty_to_str(cx.ccx().tcx, ty));
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ty_to_str(cx.ccx().tcx, ty));
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let cleanup_type = cleanup_type(cx.tcx(), ty);
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let cleanup_type = cleanup_type(cx.tcx(), ty);
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do in_scope_cx(cx) |info| {
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do in_scope_cx(cx) |info| {
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vec::push(info.cleanups,
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vec::push(info.cleanups,
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clean_temp(val, |a| base::drop_ty(a, val, ty),
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clean_temp(val, |a| base::drop_ty_immediate(a, val, ty),
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cleanup_type));
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scope_clean_changed(info);
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}
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}
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fn add_clean_temp_mem(bcx: block, val: ValueRef, t: ty::t) {
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if !ty::type_needs_drop(bcx.tcx(), t) { return; }
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debug!("add_clean_temp_mem(%s, %s, %s)",
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bcx.to_str(), val_str(bcx.ccx().tn, val),
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ty_to_str(bcx.ccx().tcx, t));
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let {root, rooted} = root_for_cleanup(bcx, val, t);
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let cleanup_type = cleanup_type(bcx.tcx(), t);
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do in_scope_cx(bcx) |info| {
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vec::push(info.cleanups,
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clean_temp(val, |a| base::drop_ty_root(a, root, rooted, t),
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cleanup_type));
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cleanup_type));
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scope_clean_changed(info);
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scope_clean_changed(info);
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}
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}
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@ -607,7 +642,11 @@ fn T_fn_pair(cx: @crate_ctxt, tfn: TypeRef) -> TypeRef {
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}
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}
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fn T_ptr(t: TypeRef) -> TypeRef {
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fn T_ptr(t: TypeRef) -> TypeRef {
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return llvm::LLVMPointerType(t, 0u as c_uint);
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return llvm::LLVMPointerType(t, default_addrspace);
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}
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fn T_root(t: TypeRef, addrspace: addrspace) -> TypeRef {
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return llvm::LLVMPointerType(t, addrspace);
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}
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}
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fn T_struct(elts: ~[TypeRef]) -> TypeRef unsafe {
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fn T_struct(elts: ~[TypeRef]) -> TypeRef unsafe {
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@ -738,8 +777,7 @@ fn T_box(cx: @crate_ctxt, t: TypeRef) -> TypeRef {
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}
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}
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fn T_box_ptr(t: TypeRef) -> TypeRef {
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fn T_box_ptr(t: TypeRef) -> TypeRef {
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const box_addrspace: uint = 1u;
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return llvm::LLVMPointerType(t, gc_box_addrspace);
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return llvm::LLVMPointerType(t, box_addrspace as c_uint);
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}
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}
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fn T_opaque_box(cx: @crate_ctxt) -> TypeRef {
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fn T_opaque_box(cx: @crate_ctxt) -> TypeRef {
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@ -755,8 +793,7 @@ fn T_unique(cx: @crate_ctxt, t: TypeRef) -> TypeRef {
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}
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}
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fn T_unique_ptr(t: TypeRef) -> TypeRef {
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fn T_unique_ptr(t: TypeRef) -> TypeRef {
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const unique_addrspace: uint = 1u;
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return llvm::LLVMPointerType(t, gc_box_addrspace);
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return llvm::LLVMPointerType(t, unique_addrspace as c_uint);
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}
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}
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fn T_port(cx: @crate_ctxt, _t: TypeRef) -> TypeRef {
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fn T_port(cx: @crate_ctxt, _t: TypeRef) -> TypeRef {
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@ -12,6 +12,7 @@ export type_of_fn_from_ty;
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export type_of_fn;
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export type_of_fn;
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export type_of_glue_fn;
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export type_of_glue_fn;
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export type_of_non_gc_box;
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export type_of_non_gc_box;
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export type_of_rooted;
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fn type_of_explicit_args(cx: @crate_ctxt,
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fn type_of_explicit_args(cx: @crate_ctxt,
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inputs: ~[ty::arg]) -> ~[TypeRef] {
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inputs: ~[ty::arg]) -> ~[TypeRef] {
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@ -245,6 +246,13 @@ fn type_of_dtor(ccx: @crate_ctxt, self_ty: ty::t) -> TypeRef {
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llvm::LLVMVoidType())
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llvm::LLVMVoidType())
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}
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}
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fn type_of_rooted(ccx: @crate_ctxt, t: ty::t) -> TypeRef {
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let addrspace = base::get_tydesc(ccx, t).addrspace;
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debug!{"type_of_rooted %s in addrspace %u",
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ty_to_str(ccx.tcx, t), addrspace as uint};
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return T_root(type_of(ccx, t), addrspace);
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}
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fn type_of_glue_fn(ccx: @crate_ctxt, t: ty::t) -> TypeRef {
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fn type_of_glue_fn(ccx: @crate_ctxt, t: ty::t) -> TypeRef {
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let tydescpp = T_ptr(T_ptr(ccx.tydesc_type));
|
let tydescpp = T_ptr(T_ptr(ccx.tydesc_type));
|
||||||
let llty = T_ptr(type_of(ccx, t));
|
let llty = T_ptr(type_of(ccx, t));
|
||||||
|
Loading…
Reference in New Issue
Block a user