Commit 3fdbc084 authored by sgjesse@chromium.org's avatar sgjesse@chromium.org

Reverting 2753.

Review URL: http://codereview.chromium.org/173349

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@2754 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 53531ed4
...@@ -1342,18 +1342,6 @@ Object* KeyedStoreStubCompiler::CompileStoreField(JSObject* object, ...@@ -1342,18 +1342,6 @@ Object* KeyedStoreStubCompiler::CompileStoreField(JSObject* object,
} }
Object* ConstructStubCompiler::CompileConstructStub(
SharedFunctionInfo* shared) {
// Not implemented yet - just jump to generic stub.
Code* code = Builtins::builtin(Builtins::JSConstructStubGeneric);
Handle<Code> generic_construct_stub(code);
__ Jump(generic_construct_stub, RelocInfo::CODE_TARGET);
// Return the generated code.
return GetCode();
}
#undef __ #undef __
} } // namespace v8::internal } } // namespace v8::internal
...@@ -425,13 +425,6 @@ bool Compiler::CompileLazy(Handle<SharedFunctionInfo> shared, ...@@ -425,13 +425,6 @@ bool Compiler::CompileLazy(Handle<SharedFunctionInfo> shared,
// Set the expected number of properties for instances. // Set the expected number of properties for instances.
SetExpectedNofPropertiesFromEstimate(shared, lit->expected_property_count()); SetExpectedNofPropertiesFromEstimate(shared, lit->expected_property_count());
// Set the optimication hints after performing lazy compilation, as these are
// not set when the function is set up as a lazily compiled function.
shared->SetThisPropertyAssignmentsInfo(
lit->has_only_this_property_assignments(),
lit->has_only_simple_this_property_assignments(),
*lit->this_property_assignments());
// Check the function has compiled code. // Check the function has compiled code.
ASSERT(shared->is_compiled()); ASSERT(shared->is_compiled());
return true; return true;
......
...@@ -466,14 +466,9 @@ Debug.source = function(f) { ...@@ -466,14 +466,9 @@ Debug.source = function(f) {
return %FunctionGetSourceCode(f); return %FunctionGetSourceCode(f);
}; };
Debug.disassemble = function(f) { Debug.assembler = function(f) {
if (!IS_FUNCTION(f)) throw new Error('Parameters have wrong types.'); if (!IS_FUNCTION(f)) throw new Error('Parameters have wrong types.');
return %DebugDisassembleFunction(f); return %FunctionGetAssemblerCode(f);
};
Debug.disassembleConstructor = function(f) {
if (!IS_FUNCTION(f)) throw new Error('Parameters have wrong types.');
return %DebugDisassembleConstructor(f);
}; };
Debug.sourcePosition = function(f) { Debug.sourcePosition = function(f) {
......
...@@ -132,7 +132,7 @@ void Builtins::Generate_JSConstructStubGeneric(MacroAssembler* masm) { ...@@ -132,7 +132,7 @@ void Builtins::Generate_JSConstructStubGeneric(MacroAssembler* masm) {
// Make sure that the maximum heap object size will never cause us // Make sure that the maximum heap object size will never cause us
// problem here, because it is always greater than the maximum // problem here, because it is always greater than the maximum
// instance size that can be represented in a byte. // instance size that can be represented in a byte.
ASSERT(Heap::MaxObjectSizeInPagedSpace() >= JSObject::kMaxInstanceSize); ASSERT(Heap::MaxObjectSizeInPagedSpace() >= (1 << kBitsPerByte));
ExternalReference new_space_allocation_top = ExternalReference new_space_allocation_top =
ExternalReference::new_space_allocation_top_address(); ExternalReference::new_space_allocation_top_address();
__ mov(ebx, Operand::StaticVariable(new_space_allocation_top)); __ mov(ebx, Operand::StaticVariable(new_space_allocation_top));
......
...@@ -1740,146 +1740,6 @@ Object* KeyedLoadStubCompiler::CompileLoadFunctionPrototype(String* name) { ...@@ -1740,146 +1740,6 @@ Object* KeyedLoadStubCompiler::CompileLoadFunctionPrototype(String* name) {
} }
// Specialized stub for constructing objects from functions which only have only
// simple assignments of the form this.x = ...; in their body.
Object* ConstructStubCompiler::CompileConstructStub(
SharedFunctionInfo* shared) {
// ----------- S t a t e -------------
// -- eax : argc
// -- edi : constructor
// -- esp[0] : return address
// -- esp[4] : last argument
// -----------------------------------
Label generic_stub_call;
#ifdef ENABLE_DEBUGGER_SUPPORT
// Check to see whether there are any break points in the function code. If
// there are jump to the generic constructor stub which calls the actual
// code for the function thereby hitting the break points.
__ mov(ebx, FieldOperand(edi, JSFunction::kSharedFunctionInfoOffset));
__ mov(ebx, FieldOperand(ebx, SharedFunctionInfo::kDebugInfoOffset));
__ cmp(ebx, Factory::undefined_value());
__ j(not_equal, &generic_stub_call, not_taken);
#endif
// Load the initial map and verify that it is in fact a map.
__ mov(ebx, FieldOperand(edi, JSFunction::kPrototypeOrInitialMapOffset));
// Will both indicate a NULL and a Smi.
__ test(ebx, Immediate(kSmiTagMask));
__ j(zero, &generic_stub_call);
__ CmpObjectType(ebx, MAP_TYPE, ecx);
__ j(not_equal, &generic_stub_call);
#ifdef DEBUG
// Cannot construct functions this way.
// edi: constructor
// ebx: initial map
__ CmpInstanceType(ebx, JS_FUNCTION_TYPE);
__ Assert(not_equal, "Function constructed by construct stub.");
#endif
// Now allocate the JSObject on the heap by moving the new space allocation
// top forward.
// edi: constructor
// ebx: initial map
__ movzx_b(ecx, FieldOperand(ebx, Map::kInstanceSizeOffset));
__ shl(ecx, kPointerSizeLog2);
// Make sure that the maximum heap object size will never cause us
// problems here.
ASSERT(Heap::MaxObjectSizeInPagedSpace() >= JSObject::kMaxInstanceSize);
ExternalReference new_space_allocation_top =
ExternalReference::new_space_allocation_top_address();
__ mov(edx, Operand::StaticVariable(new_space_allocation_top));
__ add(ecx, Operand(edx)); // Calculate new top.
ExternalReference new_space_allocation_limit =
ExternalReference::new_space_allocation_limit_address();
__ cmp(ecx, Operand::StaticVariable(new_space_allocation_limit));
__ j(above_equal, &generic_stub_call);
// Update new space top.
__ mov(Operand::StaticVariable(new_space_allocation_top), ecx);
// Allocated the JSObject, now initialize the fields and add the heap tag.
// ebx: initial map
// edx: JSObject
__ mov(Operand(edx, JSObject::kMapOffset), ebx);
__ mov(ebx, Factory::empty_fixed_array());
__ mov(Operand(edx, JSObject::kPropertiesOffset), ebx);
__ mov(Operand(edx, JSObject::kElementsOffset), ebx);
__ or_(Operand(edx), Immediate(kHeapObjectTag));
// Push the allocated object to the stack. This is the object that will be
// returned.
__ push(edx);
// eax: argc
// edx: JSObject
// Load the address of the first in-object property into edx.
__ lea(edx, Operand(edx, JSObject::kHeaderSize));
__ xor_(Operand(edx), Immediate(kHeapObjectTag)); // Clear heap object tag.
// Calculate the location of the first argument. The stack contains the
// allocated object and the return address on top of the argc arguments.
__ lea(ecx, Operand(esp, eax, times_4, 1 * kPointerSize));
// Use edi for holding undefined which is used in several places below.
__ mov(edi, Factory::undefined_value());
// eax: argc
// ecx: first argument
// edx: first in-object property of the JSObject
// edi: undefined
// Fill the initialized properties with a constant value or a passed argument
// depending on the this.x = ...; assignment in the function.
for (int i = 0; i < shared->this_property_assignments_count(); i++) {
if (shared->IsThisPropertyAssignmentArgument(i)) {
Label not_passed;
// Set the property to undefined.
__ mov(Operand(edx, i * kPointerSize), edi);
// Check if the argument assigned to the property is actually passed.
int arg_number = shared->GetThisPropertyAssignmentArgument(i);
__ cmp(eax, arg_number);
__ j(below_equal, &not_passed);
// Argument passed - find it on the stack.
__ mov(ebx, Operand(ecx, arg_number * -kPointerSize));
__ mov(Operand(edx, i * kPointerSize), ebx);
__ bind(&not_passed);
} else {
// Set the property to the constant value.
Handle<Object> constant(shared->GetThisPropertyAssignmentConstant(i));
__ mov(Operand(edx, i * kPointerSize), Immediate(constant));
}
}
// Fill the unused in-object property fields with undefined.
for (int i = shared->this_property_assignments_count();
i < shared->CalculateInObjectProperties();
i++) {
__ mov(Operand(edx, i * kPointerSize), edi);
}
// Move argc to ebx and retreive the JSObject to return.
__ mov(ebx, eax);
__ pop(eax);
// Remove caller arguments from the stack and return.
__ pop(ecx);
__ lea(esp, Operand(esp, ebx, times_4, 1 * kPointerSize)); // 1 ~ receiver
__ push(ecx);
__ IncrementCounter(&Counters::constructed_objects, 1);
__ IncrementCounter(&Counters::constructed_objects_stub, 1);
__ ret(0);
// Jump to the generic stub in case the specialized code cannot handle the
// construction.
__ bind(&generic_stub_call);
Code* code = Builtins::builtin(Builtins::JSConstructStubGeneric);
Handle<Code> generic_construct_stub(code);
__ jmp(generic_construct_stub, RelocInfo::CODE_TARGET);
// Return the generated code.
return GetCode();
}
#undef __ #undef __
} } // namespace v8::internal } } // namespace v8::internal
...@@ -4800,6 +4800,7 @@ void SharedFunctionInfo::SetThisPropertyAssignmentsInfo( ...@@ -4800,6 +4800,7 @@ void SharedFunctionInfo::SetThisPropertyAssignmentsInfo(
bool only_this_property_assignments, bool only_this_property_assignments,
bool only_simple_this_property_assignments, bool only_simple_this_property_assignments,
FixedArray* assignments) { FixedArray* assignments) {
ASSERT(this_property_assignments()->IsUndefined());
set_compiler_hints(BooleanBit::set(compiler_hints(), set_compiler_hints(BooleanBit::set(compiler_hints(),
kHasOnlyThisPropertyAssignments, kHasOnlyThisPropertyAssignments,
only_this_property_assignments)); only_this_property_assignments));
...@@ -4811,18 +4812,6 @@ void SharedFunctionInfo::SetThisPropertyAssignmentsInfo( ...@@ -4811,18 +4812,6 @@ void SharedFunctionInfo::SetThisPropertyAssignmentsInfo(
} }
void SharedFunctionInfo::ClearThisPropertyAssignmentsInfo() {
set_compiler_hints(BooleanBit::set(compiler_hints(),
kHasOnlyThisPropertyAssignments,
false));
set_compiler_hints(BooleanBit::set(compiler_hints(),
kHasOnlySimpleThisPropertyAssignments,
false));
set_this_property_assignments(Heap::undefined_value());
set_this_property_assignments_count(0);
}
String* SharedFunctionInfo::GetThisPropertyAssignmentName(int index) { String* SharedFunctionInfo::GetThisPropertyAssignmentName(int index) {
Object* obj = this_property_assignments(); Object* obj = this_property_assignments();
ASSERT(obj->IsFixedArray()); ASSERT(obj->IsFixedArray());
...@@ -4833,32 +4822,6 @@ String* SharedFunctionInfo::GetThisPropertyAssignmentName(int index) { ...@@ -4833,32 +4822,6 @@ String* SharedFunctionInfo::GetThisPropertyAssignmentName(int index) {
} }
bool SharedFunctionInfo::IsThisPropertyAssignmentArgument(int index) {
Object* obj = this_property_assignments();
ASSERT(obj->IsFixedArray());
ASSERT(index < this_property_assignments_count());
obj = FixedArray::cast(obj)->get(index * 3 + 1);
return Smi::cast(obj)->value() != -1;
}
int SharedFunctionInfo::GetThisPropertyAssignmentArgument(int index) {
ASSERT(IsThisPropertyAssignmentArgument(index));
Object* obj =
FixedArray::cast(this_property_assignments())->get(index * 3 + 1);
return Smi::cast(obj)->value();
}
Object* SharedFunctionInfo::GetThisPropertyAssignmentConstant(int index) {
ASSERT(!IsThisPropertyAssignmentArgument(index));
Object* obj =
FixedArray::cast(this_property_assignments())->get(index * 3 + 2);
return obj;
}
// Support function for printing the source code to a StringStream // Support function for printing the source code to a StringStream
// without any allocation in the heap. // without any allocation in the heap.
void SharedFunctionInfo::SourceCodePrint(StringStream* accumulator, void SharedFunctionInfo::SourceCodePrint(StringStream* accumulator,
......
...@@ -3108,9 +3108,6 @@ class SharedFunctionInfo: public HeapObject { ...@@ -3108,9 +3108,6 @@ class SharedFunctionInfo: public HeapObject {
bool has_only_simple_this_property_assignments, bool has_only_simple_this_property_assignments,
FixedArray* this_property_assignments); FixedArray* this_property_assignments);
// Clear information on assignments of the form this.x = ...;
void ClearThisPropertyAssignmentsInfo();
// Indicate that this function only consists of assignments of the form // Indicate that this function only consists of assignments of the form
// this.x = ...;. // this.x = ...;.
inline bool has_only_this_property_assignments(); inline bool has_only_this_property_assignments();
...@@ -3125,9 +3122,6 @@ class SharedFunctionInfo: public HeapObject { ...@@ -3125,9 +3122,6 @@ class SharedFunctionInfo: public HeapObject {
inline int this_property_assignments_count(); inline int this_property_assignments_count();
inline void set_this_property_assignments_count(int value); inline void set_this_property_assignments_count(int value);
String* GetThisPropertyAssignmentName(int index); String* GetThisPropertyAssignmentName(int index);
bool IsThisPropertyAssignmentArgument(int index);
int GetThisPropertyAssignmentArgument(int index);
Object* GetThisPropertyAssignmentConstant(int index);
// [source code]: Source code for the function. // [source code]: Source code for the function.
bool HasSourceCode(); bool HasSourceCode();
......
...@@ -45,7 +45,6 @@ ...@@ -45,7 +45,6 @@
#include "v8threads.h" #include "v8threads.h"
#include "smart-pointer.h" #include "smart-pointer.h"
#include "parser.h" #include "parser.h"
#include "stub-cache.h"
namespace v8 { namespace v8 {
namespace internal { namespace internal {
...@@ -1236,9 +1235,6 @@ static Object* Runtime_SetCode(Arguments args) { ...@@ -1236,9 +1235,6 @@ static Object* Runtime_SetCode(Arguments args) {
// Array, and Object, and some web code // Array, and Object, and some web code
// doesn't like seeing source code for constructors. // doesn't like seeing source code for constructors.
target->shared()->set_script(Heap::undefined_value()); target->shared()->set_script(Heap::undefined_value());
// Clear the optimization hints related to the compiled code as these are no
// longer valid when the code is overwritten.
target->shared()->ClearThisPropertyAssignmentsInfo();
context = Handle<Context>(fun->context()); context = Handle<Context>(fun->context());
// Make sure we get a fresh copy of the literal vector to avoid // Make sure we get a fresh copy of the literal vector to avoid
...@@ -4330,21 +4326,11 @@ static Object* Runtime_NewClosure(Arguments args) { ...@@ -4330,21 +4326,11 @@ static Object* Runtime_NewClosure(Arguments args) {
} }
static Code* ComputeConstructStub(Handle<SharedFunctionInfo> shared) { static Handle<Code> ComputeConstructStub(Handle<Map> map) {
// TODO(385): Change this to create a construct stub specialized for // TODO(385): Change this to create a construct stub specialized for
// the given map to make allocation of simple objects - and maybe // the given map to make allocation of simple objects - and maybe
// arrays - much faster. // arrays - much faster.
if (FLAG_inline_new return Handle<Code>(Builtins::builtin(Builtins::JSConstructStubGeneric));
&& shared->has_only_simple_this_property_assignments()) {
ConstructStubCompiler compiler;
Object* code = compiler.CompileConstructStub(*shared);
if (code->IsFailure()) {
return Builtins::builtin(Builtins::JSConstructStubGeneric);
}
return Code::cast(code);
}
return Builtins::builtin(Builtins::JSConstructStubGeneric);
} }
...@@ -4387,25 +4373,15 @@ static Object* Runtime_NewObject(Arguments args) { ...@@ -4387,25 +4373,15 @@ static Object* Runtime_NewObject(Arguments args) {
} }
} }
// The function should be compiled for the optimization hints to be available.
if (!function->shared()->is_compiled()) {
CompileLazyShared(Handle<SharedFunctionInfo>(function->shared()),
CLEAR_EXCEPTION,
0);
}
bool first_allocation = !function->has_initial_map(); bool first_allocation = !function->has_initial_map();
Handle<JSObject> result = Factory::NewJSObject(function); Handle<JSObject> result = Factory::NewJSObject(function);
if (first_allocation) { if (first_allocation) {
Handle<Map> map = Handle<Map>(function->initial_map()); Handle<Map> map = Handle<Map>(function->initial_map());
Handle<Code> stub = Handle<Code>( Handle<Code> stub = ComputeConstructStub(map);
ComputeConstructStub(Handle<SharedFunctionInfo>(function->shared())));
function->shared()->set_construct_stub(*stub); function->shared()->set_construct_stub(*stub);
} }
Counters::constructed_objects.Increment(); Counters::constructed_objects.Increment();
Counters::constructed_objects_runtime.Increment(); Counters::constructed_objects_runtime.Increment();
return *result; return *result;
} }
...@@ -7410,7 +7386,7 @@ static Object* Runtime_SystemBreak(Arguments args) { ...@@ -7410,7 +7386,7 @@ static Object* Runtime_SystemBreak(Arguments args) {
} }
static Object* Runtime_DebugDisassembleFunction(Arguments args) { static Object* Runtime_FunctionGetAssemblerCode(Arguments args) {
#ifdef DEBUG #ifdef DEBUG
HandleScope scope; HandleScope scope;
ASSERT(args.length() == 1); ASSERT(args.length() == 1);
...@@ -7425,21 +7401,6 @@ static Object* Runtime_DebugDisassembleFunction(Arguments args) { ...@@ -7425,21 +7401,6 @@ static Object* Runtime_DebugDisassembleFunction(Arguments args) {
} }
static Object* Runtime_DebugDisassembleConstructor(Arguments args) {
#ifdef DEBUG
HandleScope scope;
ASSERT(args.length() == 1);
// Get the function and make sure it is compiled.
CONVERT_ARG_CHECKED(JSFunction, func, 0);
if (!func->is_compiled() && !CompileLazy(func, KEEP_EXCEPTION)) {
return Failure::Exception();
}
func->shared()->construct_stub()->PrintLn();
#endif // DEBUG
return Heap::undefined_value();
}
static Object* Runtime_FunctionGetInferredName(Arguments args) { static Object* Runtime_FunctionGetInferredName(Arguments args) {
NoHandleAllocation ha; NoHandleAllocation ha;
ASSERT(args.length() == 1); ASSERT(args.length() == 1);
......
...@@ -303,8 +303,7 @@ namespace internal { ...@@ -303,8 +303,7 @@ namespace internal {
F(DebugConstructedBy, 2) \ F(DebugConstructedBy, 2) \
F(DebugGetPrototype, 1) \ F(DebugGetPrototype, 1) \
F(SystemBreak, 0) \ F(SystemBreak, 0) \
F(DebugDisassembleFunction, 1) \ F(FunctionGetAssemblerCode, 1) \
F(DebugDisassembleConstructor, 1) \
F(FunctionGetInferredName, 1) F(FunctionGetInferredName, 1)
#else #else
#define RUNTIME_FUNCTION_LIST_DEBUGGER_SUPPORT(F) #define RUNTIME_FUNCTION_LIST_DEBUGGER_SUPPORT(F)
......
...@@ -1097,11 +1097,4 @@ Object* CallStubCompiler::GetCode(PropertyType type, String* name) { ...@@ -1097,11 +1097,4 @@ Object* CallStubCompiler::GetCode(PropertyType type, String* name) {
} }
Object* ConstructStubCompiler::GetCode() {
Code::Flags flags = Code::ComputeFlags(Code::STUB);
return GetCodeWithFlags(flags, "ConstructStub");
}
} } // namespace v8::internal } } // namespace v8::internal
...@@ -561,17 +561,6 @@ class CallStubCompiler: public StubCompiler { ...@@ -561,17 +561,6 @@ class CallStubCompiler: public StubCompiler {
}; };
class ConstructStubCompiler: public StubCompiler {
public:
explicit ConstructStubCompiler() {}
Object* CompileConstructStub(SharedFunctionInfo* shared);
private:
Object* GetCode();
};
} } // namespace v8::internal } } // namespace v8::internal
#endif // V8_STUB_CACHE_H_ #endif // V8_STUB_CACHE_H_
...@@ -141,7 +141,6 @@ namespace internal { ...@@ -141,7 +141,6 @@ namespace internal {
SC(call_global_inline_miss, V8.CallGlobalInlineMiss) \ SC(call_global_inline_miss, V8.CallGlobalInlineMiss) \
SC(constructed_objects, V8.ConstructedObjects) \ SC(constructed_objects, V8.ConstructedObjects) \
SC(constructed_objects_runtime, V8.ConstructedObjectsRuntime) \ SC(constructed_objects_runtime, V8.ConstructedObjectsRuntime) \
SC(constructed_objects_stub, V8.ConstructedObjectsStub) \
SC(for_in, V8.ForIn) \ SC(for_in, V8.ForIn) \
SC(enum_cache_hits, V8.EnumCacheHits) \ SC(enum_cache_hits, V8.EnumCacheHits) \
SC(enum_cache_misses, V8.EnumCacheMisses) \ SC(enum_cache_misses, V8.EnumCacheMisses) \
......
...@@ -1738,18 +1738,6 @@ void StubCompiler::GenerateLoadConstant(JSObject* object, ...@@ -1738,18 +1738,6 @@ void StubCompiler::GenerateLoadConstant(JSObject* object,
} }
Object* ConstructStubCompiler::CompileConstructStub(
SharedFunctionInfo* shared) {
// Not implemented yet - just jump to generic stub.
Code* code = Builtins::builtin(Builtins::JSConstructStubGeneric);
Handle<Code> generic_construct_stub(code);
__ Jump(generic_construct_stub, RelocInfo::CODE_TARGET);
// Return the generated code.
return GetCode();
}
#undef __ #undef __
} } // namespace v8::internal } } // namespace v8::internal
...@@ -59,10 +59,6 @@ function f() { ...@@ -59,10 +59,6 @@ function f() {
break_break_point_hit_count = 0; break_break_point_hit_count = 0;
f(); f();
assertEquals(5, break_break_point_hit_count); assertEquals(5, break_break_point_hit_count);
f();
assertEquals(10, break_break_point_hit_count);
f();
assertEquals(15, break_break_point_hit_count);
// Test step into constructor with builtin constructor. // Test step into constructor with builtin constructor.
function g() { function g() {
......
...@@ -53,11 +53,9 @@ function f4(x) { ...@@ -53,11 +53,9 @@ function f4(x) {
} }
o1_1 = new f1(); o1_1 = new f1();
assertEquals(1, o1_1.x, "1");
o1_2 = new f1(); o1_2 = new f1();
assertEquals(1, o1_1.x, "2"); assertArrayEquals(["x"], props(o1_1));
assertArrayEquals(["x"], props(o1_1), "3"); assertArrayEquals(["x"], props(o1_2));
assertArrayEquals(["x"], props(o1_2), "4");
o2_1 = new f2(0); o2_1 = new f2(0);
o2_2 = new f2(0); o2_2 = new f2(0);
...@@ -78,46 +76,3 @@ o4_1_1 = new f4(1); ...@@ -78,46 +76,3 @@ o4_1_1 = new f4(1);
o4_1_2 = new f4(1); o4_1_2 = new f4(1);
assertArrayEquals(["x", "y"], props(o4_1_1)); assertArrayEquals(["x", "y"], props(o4_1_1));
assertArrayEquals(["x", "y"], props(o4_1_2)); assertArrayEquals(["x", "y"], props(o4_1_2));
function f5(x, y) {
this.x = x;
this.y = y;
}
function f6(x, y) {
this.y = y;
this.x = x;
}
function f7(x, y, z) {
this.x = x;
this.y = y;
}
function testArgs(fun) {
obj = new fun();
assertArrayEquals(["x", "y"], props(obj));
assertEquals(void 0, obj.x);
assertEquals(void 0, obj.y);
obj = new fun("x");
assertArrayEquals(["x", "y"], props(obj));
assertEquals("x", obj.x);
assertEquals(void 0, obj.y);
obj = new fun("x", "y");
assertArrayEquals(["x", "y"], props(obj));
assertEquals("x", obj.x);
assertEquals("y", obj.y);
obj = new fun("x", "y", "z");
assertArrayEquals(["x", "y"], props(obj));
assertEquals("x", obj.x);
assertEquals("y", obj.y);
}
for (var i = 0; i < 10; i++) {
testArgs(f5);
testArgs(f6);
testArgs(f7);
}
\ No newline at end of file
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