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Remove selective attribute writeback; always synchronize all attributes.

The reasons are:
  1. Shadow memory manipulation added ~12 instructions to TTLOut.pulse
     (without inlining), and it's already barely fast enough.
  2. More importantly, code such as self.ts[1] did not trigger
     attribute writeback, and there seems to be no easy way to fix
     that.
This commit is contained in:
whitequark 2016-01-03 02:27:42 +08:00
parent e41b9db787
commit 81427af506
2 changed files with 51 additions and 107 deletions

View File

@ -418,17 +418,9 @@ class LLVMIRGenerator:
return self.llmodule return self.llmodule
def emit_attribute_writeback(self): def emit_attribute_writeback(self):
llobjects = [] llobjects = defaultdict(lambda: [])
shadow_memory_dim = defaultdict(lambda: 0)
for obj_id in self.object_map: for obj_id in self.object_map:
while len(llobjects) <= obj_id:
llobjects.append(ll.Constant(llptr, None))
llobject = self.llmodule.get_global("object.{}".format(obj_id))
if llobject is not None:
llobjects[obj_id] = llobject.bitcast(llptr)
obj_ref = self.object_map.retrieve(obj_id) obj_ref = self.object_map.retrieve(obj_id)
if isinstance(obj_ref, (pytypes.FunctionType, pytypes.MethodType)): if isinstance(obj_ref, (pytypes.FunctionType, pytypes.MethodType)):
continue continue
@ -437,19 +429,20 @@ class LLVMIRGenerator:
else: else:
typ, _ = self.type_map[type(obj_ref)] typ, _ = self.type_map[type(obj_ref)]
if shadow_memory_dim[typ] <= obj_id: llobject = self.llmodule.get_global("object.{}".format(obj_id))
shadow_memory_dim[typ] = obj_id + 1 if llobject is not None:
llobjects[typ].append(llobject.bitcast(llptr))
lldatalayout = llvm.create_target_data(self.llmodule.data_layout) lldatalayout = llvm.create_target_data(self.llmodule.data_layout)
llrpcattrty = self.llcontext.get_identified_type("shadow.attr") llrpcattrty = self.llcontext.get_identified_type("attr_desc")
llrpcattrty.elements = [lli32, llptr, llptr] llrpcattrty.elements = [lli32, llptr, llptr]
lldescty = self.llcontext.get_identified_type("shadow.desc") lldescty = self.llcontext.get_identified_type("type_desc")
lldescty.elements = [llrpcattrty.as_pointer().as_pointer(), lli32, llptr] lldescty.elements = [llrpcattrty.as_pointer().as_pointer(), llptr.as_pointer()]
lldescs = [] lldescs = []
for typ in shadow_memory_dim: for typ in llobjects:
if "__objectid__" not in typ.attributes: if "__objectid__" not in typ.attributes:
continue continue
@ -458,44 +451,25 @@ class LLVMIRGenerator:
else: else:
type_name = "instance.{}".format(typ.name) type_name = "instance.{}".format(typ.name)
shadowname = "shadow.{}".format(type_name)
llshadow = self.llmodule.get_global(shadowname)
if llshadow is None:
continue
llshadowlen = shadow_memory_dim[typ] * len(typ.attributes)
llshadowty = ll.ArrayType(lli8, llshadowlen)
llshadow.gtype = llshadowty
llshadow.type = llshadowty.as_pointer()
llshadow.initializer = ll.Constant(llshadowty, None)
def llrpcattr_of_attr(name, typ): def llrpcattr_of_attr(name, typ):
llty = self.llty_of_type(typ) size = self.llty_of_type(typ).get_abi_size(lldatalayout, context=self.llcontext)
if isinstance(llty, ll.PointerType):
# Work around llvmlite bug where it is unable to get a C++
# object for a type if it includes an identified type in a context
# other than the default.
size = llptr.get_abi_size(lldatalayout)
else:
size = llty.get_abi_size(lldatalayout)
def rpc_tag_error(typ): def rpc_tag_error(typ):
print(typ) print(typ)
assert False assert False
rpctag = b"Os" if not (types.is_function(typ) or types.is_method(typ) or
if not (types.is_function(typ) or types.is_method(typ)): name == "__objectid__"):
rpctag += self._rpc_tag(typ, error_handler=rpc_tag_error) rpctag = b"Os" + self._rpc_tag(typ, error_handler=rpc_tag_error) + b":n\x00"
else:
rpctag += b""
rpctag += b":n\x00"
llrpctag = self.llstr_of_str(rpctag) llrpctag = self.llstr_of_str(rpctag)
else:
llrpctag = ll.Constant(llptr, None)
llrpcattr = ll.GlobalVariable(self.llmodule, llrpcattrty, llrpcattr = ll.GlobalVariable(self.llmodule, llrpcattrty,
name="shadow.attr.{}.{}".format(type_name, name)) name="attr.{}.{}".format(type_name, name))
llrpcattr.initializer = ll.Constant(llrpcattrty, [ llrpcattr.initializer = ll.Constant(llrpcattrty, [
ll.Constant(lli32, size), ll.Constant(lli32, size),
self.llstr_of_str(rpctag), llrpctag,
self.llstr_of_str(name) self.llstr_of_str(name)
]) ])
llrpcattr.global_constant = True llrpcattr.global_constant = True
@ -509,33 +483,36 @@ class LLVMIRGenerator:
llrpcattraryty = ll.ArrayType(llrpcattrty.as_pointer(), len(llrpcattrs) + 1) llrpcattraryty = ll.ArrayType(llrpcattrty.as_pointer(), len(llrpcattrs) + 1)
llrpcattrary = ll.GlobalVariable(self.llmodule, llrpcattraryty, llrpcattrary = ll.GlobalVariable(self.llmodule, llrpcattraryty,
name="shadow.attrs.{}".format(type_name)) name="attrs.{}".format(type_name))
llrpcattrary.initializer = ll.Constant(llrpcattraryty, llrpcattrary.initializer = ll.Constant(llrpcattraryty,
llrpcattrs + [ll.Constant(llrpcattrty.as_pointer(), None)]) llrpcattrs + [ll.Constant(llrpcattrty.as_pointer(), None)])
llrpcattrary.global_constant = True llrpcattrary.global_constant = True
llrpcattrary.unnamed_addr = True llrpcattrary.unnamed_addr = True
llrpcattrary.linkage = 'internal' llrpcattrary.linkage = 'internal'
llobjectaryty = ll.ArrayType(llptr, len(llobjects[typ]) + 1)
llobjectary = ll.GlobalVariable(self.llmodule, llobjectaryty,
name="objects.{}".format(type_name))
llobjectary.initializer = ll.Constant(llobjectaryty,
llobjects[typ] + [ll.Constant(llptr, None)])
llobjectary.linkage = 'internal'
lldesc = ll.GlobalVariable(self.llmodule, lldescty, lldesc = ll.GlobalVariable(self.llmodule, lldescty,
name="shadow.desc.{}".format(type_name)) name="desc.{}".format(type_name))
lldesc.initializer = ll.Constant(lldescty, [ lldesc.initializer = ll.Constant(lldescty, [
llrpcattrary.bitcast(llrpcattrty.as_pointer().as_pointer()), llrpcattrary.bitcast(llrpcattrty.as_pointer().as_pointer()),
ll.Constant(lli32, shadow_memory_dim[typ]), llobjectary.bitcast(llptr.as_pointer())
llshadow.bitcast(llptr)
]) ])
lldesc.global_constant = True lldesc.global_constant = True
lldesc.linkage = 'internal' lldesc.linkage = 'internal'
lldescs.append(lldesc) lldescs.append(lldesc)
llglobaldescty = ll.ArrayType(lldescty.as_pointer(), len(lldescs) + 1) llglobaldescty = ll.ArrayType(lldescty.as_pointer(), len(lldescs) + 1)
llglobaldesc = ll.GlobalVariable(self.llmodule, llglobaldescty, name="shadow") llglobaldesc = ll.GlobalVariable(self.llmodule, llglobaldescty,
name="typeinfo")
llglobaldesc.initializer = ll.Constant(llglobaldescty, llglobaldesc.initializer = ll.Constant(llglobaldescty,
lldescs + [ll.Constant(lldescty.as_pointer(), None)]) lldescs + [ll.Constant(lldescty.as_pointer(), None)])
llobjectaryty = ll.ArrayType(llptr, len(llobjects))
llobjectary = ll.GlobalVariable(self.llmodule, llobjectaryty, name="objects")
llobjectary.initializer = ll.Constant(llobjectaryty, llobjects)
def process_function(self, func): def process_function(self, func):
try: try:
self.llfunction = self.llmodule.get_global(func.name) self.llfunction = self.llmodule.get_global(func.name)
@ -695,34 +672,6 @@ class LLVMIRGenerator:
def process_SetAttr(self, insn): def process_SetAttr(self, insn):
assert builtins.is_allocated(insn.object().type) assert builtins.is_allocated(insn.object().type)
object_type = insn.object().type.find()
value_type = insn.value().type.find()
if "__objectid__" in object_type.attributes and \
not (types.is_function(value_type) or types.is_method(value_type)):
llidptr = self.llbuilder.gep(self.map(insn.object()),
[self.llindex(0), self.llindex(0)])
llid = self.llbuilder.load(llidptr, name="shadow.id")
llattrcount = ll.Constant(lli32, len(object_type.attributes))
llshadowpos = self.llbuilder.add(
self.llbuilder.mul(llid, llattrcount),
ll.Constant(lli32, self.attr_index(insn)))
if types.is_constructor(object_type):
shadowname = "shadow.class.{}".format(object_type.name)
else:
shadowname = "shadow.instance.{}".format(object_type.name)
llshadow = self.llmodule.get_global(shadowname)
if llshadow is None:
llshadowty = ll.ArrayType(lli8, 0)
llshadow = ll.GlobalVariable(self.llmodule, llshadowty, shadowname)
llshadow.linkage = 'internal'
llshadowptr = self.llbuilder.gep(llshadow, [self.llindex(0), llshadowpos],
name="shadow.ptr")
self.llbuilder.store(ll.Constant(lli8, 1), llshadowptr)
llptr = self.llbuilder.gep(self.map(insn.object()), llptr = self.llbuilder.gep(self.map(insn.object()),
[self.llindex(0), self.llindex(self.attr_index(insn))], [self.llindex(0), self.llindex(self.attr_index(insn))],
name=insn.name) name=insn.name)

View File

@ -20,7 +20,7 @@
double round(double x); double round(double x);
void ksupport_abort(void); void ksupport_abort(void);
static void attribute_writeback(void *, void *); static void attribute_writeback(void *);
int64_t now; int64_t now;
@ -247,16 +247,15 @@ int main(void)
mailbox_send(&load_reply); mailbox_send(&load_reply);
while(1); while(1);
} }
void *__bss_start = dyld_lookup("__bss_start", request->library_info);
void *_end = dyld_lookup("_end", request->library_info);
memset(__bss_start, 0, _end - __bss_start);
} }
if(request->run_kernel) { if(request->run_kernel) {
void (*kernel_run)() = request->library_info->init; void (*kernel_run)() = request->library_info->init;
void *__bss_start = dyld_lookup("__bss_start", request->library_info); void *typeinfo = dyld_lookup("typeinfo", request->library_info);
void *_end = dyld_lookup("_end", request->library_info);
void *shadow = dyld_lookup("shadow", request->library_info);
void *objects = dyld_lookup("objects", request->library_info);
memset(__bss_start, 0, _end - __bss_start);
mailbox_send_and_wait(&load_reply); mailbox_send_and_wait(&load_reply);
@ -264,7 +263,7 @@ int main(void)
kernel_run(); kernel_run();
now_save(now); now_save(now);
attribute_writeback(shadow, objects); attribute_writeback(typeinfo);
struct msg_base finished_reply; struct msg_base finished_reply;
finished_reply.type = MESSAGE_TYPE_FINISHED; finished_reply.type = MESSAGE_TYPE_FINISHED;
@ -405,40 +404,36 @@ int recv_rpc(void *slot) {
} }
} }
struct shadow_attr { struct attr_desc {
uint32_t size; uint32_t size;
const char *tag; const char *tag;
const char *name; const char *name;
}; };
struct shadow_desc { struct type_desc {
struct shadow_attr **attributes; struct attr_desc **attributes;
uint32_t object_count; void **objects;
uint8_t *shadow;
}; };
void attribute_writeback(void *udescs, void *uobjects) { void attribute_writeback(void *utypes) {
struct shadow_desc **descs = (struct shadow_desc **)udescs; struct type_desc **types = (struct type_desc **)utypes;
void **objects = (void **)uobjects; while(*types) {
struct type_desc *type = *types++;
while(*descs) {
struct shadow_desc *desc = *descs++;
size_t attr_count = 0; size_t attr_count = 0;
for(struct shadow_attr **attr = desc->attributes; *attr; attr++) for(struct attr_desc **attr = type->attributes; *attr; attr++)
attr_count++; attr_count++;
for(int object_id = 0; object_id < desc->object_count; object_id++) { void **objects = type->objects;
uint8_t *shadow = &desc->shadow[object_id * attr_count]; while(*objects) {
void *object = objects[object_id]; void *object = *objects++;
if(object == NULL) continue;
size_t offset = 0; size_t offset = 0;
for(int attr_index = 0; attr_index < attr_count; attr_index++) { struct attr_desc **attrs = type->attributes;
struct shadow_attr *attr = desc->attributes[attr_index]; while(*attrs) {
struct attr_desc *attr = *attrs++;
if(shadow[attr_index]) { if(attr->tag) {
uintptr_t value = (uintptr_t)object + offset; uintptr_t value = (uintptr_t)object + offset;
send_rpc(0, attr->tag, &object, &attr->name, value); send_rpc(0, attr->tag, &object, &attr->name, value);
} }