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Unified Diff: src/mips/builtins-mips.cc

Issue 7891042: Add asserts to ensure that we: (Closed) Base URL: http://v8.googlecode.com/svn/branches/bleeding_edge/
Patch Set: '' Created 9 years, 3 months ago
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Index: src/mips/builtins-mips.cc
===================================================================
--- src/mips/builtins-mips.cc (revision 9277)
+++ src/mips/builtins-mips.cc (working copy)
@@ -587,10 +587,11 @@
__ bind(&convert_argument);
__ push(function); // Preserve the function.
__ IncrementCounter(counters->string_ctor_conversions(), 1, a3, t0);
- __ EnterInternalFrame();
- __ push(v0);
- __ InvokeBuiltin(Builtins::TO_STRING, CALL_FUNCTION);
- __ LeaveInternalFrame();
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
+ __ push(v0);
+ __ InvokeBuiltin(Builtins::TO_STRING, CALL_FUNCTION);
+ }
__ pop(function);
__ mov(argument, v0);
__ Branch(&argument_is_string);
@@ -606,10 +607,11 @@
// create a string wrapper.
__ bind(&gc_required);
__ IncrementCounter(counters->string_ctor_gc_required(), 1, a3, t0);
- __ EnterInternalFrame();
- __ push(argument);
- __ CallRuntime(Runtime::kNewStringWrapper, 1);
- __ LeaveInternalFrame();
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
+ __ push(argument);
+ __ CallRuntime(Runtime::kNewStringWrapper, 1);
+ }
__ Ret();
}
@@ -667,331 +669,335 @@
// -----------------------------------
// Enter a construct frame.
- __ EnterConstructFrame();
+ {
+ FrameScope scope(masm, StackFrame::CONSTRUCT);
- // Preserve the two incoming parameters on the stack.
- __ sll(a0, a0, kSmiTagSize); // Tag arguments count.
- __ MultiPushReversed(a0.bit() | a1.bit());
+ // Preserve the two incoming parameters on the stack.
+ __ sll(a0, a0, kSmiTagSize); // Tag arguments count.
+ __ MultiPushReversed(a0.bit() | a1.bit());
- // Use t7 to hold undefined, which is used in several places below.
- __ LoadRoot(t7, Heap::kUndefinedValueRootIndex);
+ // Use t7 to hold undefined, which is used in several places below.
+ __ LoadRoot(t7, Heap::kUndefinedValueRootIndex);
- Label rt_call, allocated;
- // Try to allocate the object without transitioning into C code. If any of the
- // preconditions is not met, the code bails out to the runtime call.
- if (FLAG_inline_new) {
- Label undo_allocation;
+ Label rt_call, allocated;
+ // Try to allocate the object without transitioning into C code. If any of
+ // the preconditions is not met, the code bails out to the runtime call.
+ if (FLAG_inline_new) {
+ Label undo_allocation;
#ifdef ENABLE_DEBUGGER_SUPPORT
- ExternalReference debug_step_in_fp =
- ExternalReference::debug_step_in_fp_address(isolate);
- __ li(a2, Operand(debug_step_in_fp));
- __ lw(a2, MemOperand(a2));
- __ Branch(&rt_call, ne, a2, Operand(zero_reg));
+ ExternalReference debug_step_in_fp =
+ ExternalReference::debug_step_in_fp_address(isolate);
+ __ li(a2, Operand(debug_step_in_fp));
+ __ lw(a2, MemOperand(a2));
+ __ Branch(&rt_call, ne, a2, Operand(zero_reg));
#endif
- // Load the initial map and verify that it is in fact a map.
- // a1: constructor function
- __ lw(a2, FieldMemOperand(a1, JSFunction::kPrototypeOrInitialMapOffset));
- __ And(t0, a2, Operand(kSmiTagMask));
- __ Branch(&rt_call, eq, t0, Operand(zero_reg));
- __ GetObjectType(a2, a3, t4);
- __ Branch(&rt_call, ne, t4, Operand(MAP_TYPE));
+ // Load the initial map and verify that it is in fact a map.
+ // a1: constructor function
+ __ lw(a2, FieldMemOperand(a1, JSFunction::kPrototypeOrInitialMapOffset));
+ __ And(t0, a2, Operand(kSmiTagMask));
+ __ Branch(&rt_call, eq, t0, Operand(zero_reg));
+ __ GetObjectType(a2, a3, t4);
+ __ Branch(&rt_call, ne, t4, Operand(MAP_TYPE));
- // Check that the constructor is not constructing a JSFunction (see comments
- // in Runtime_NewObject in runtime.cc). In which case the initial map's
- // instance type would be JS_FUNCTION_TYPE.
- // a1: constructor function
- // a2: initial map
- __ lbu(a3, FieldMemOperand(a2, Map::kInstanceTypeOffset));
- __ Branch(&rt_call, eq, a3, Operand(JS_FUNCTION_TYPE));
+ // Check that the constructor is not constructing a JSFunction (see
+ // comments in Runtime_NewObject in runtime.cc). In which case the
+ // initial map's instance type would be JS_FUNCTION_TYPE.
+ // a1: constructor function
+ // a2: initial map
+ __ lbu(a3, FieldMemOperand(a2, Map::kInstanceTypeOffset));
+ __ Branch(&rt_call, eq, a3, Operand(JS_FUNCTION_TYPE));
- if (count_constructions) {
- Label allocate;
- // Decrease generous allocation count.
- __ lw(a3, FieldMemOperand(a1, JSFunction::kSharedFunctionInfoOffset));
- MemOperand constructor_count =
- FieldMemOperand(a3, SharedFunctionInfo::kConstructionCountOffset);
- __ lbu(t0, constructor_count);
- __ Subu(t0, t0, Operand(1));
- __ sb(t0, constructor_count);
- __ Branch(&allocate, ne, t0, Operand(zero_reg));
+ if (count_constructions) {
+ Label allocate;
+ // Decrease generous allocation count.
+ __ lw(a3, FieldMemOperand(a1, JSFunction::kSharedFunctionInfoOffset));
+ MemOperand constructor_count =
+ FieldMemOperand(a3, SharedFunctionInfo::kConstructionCountOffset);
+ __ lbu(t0, constructor_count);
+ __ Subu(t0, t0, Operand(1));
+ __ sb(t0, constructor_count);
+ __ Branch(&allocate, ne, t0, Operand(zero_reg));
- __ Push(a1, a2);
+ __ Push(a1, a2);
- __ push(a1); // Constructor.
- // The call will replace the stub, so the countdown is only done once.
- __ CallRuntime(Runtime::kFinalizeInstanceSize, 1);
+ __ push(a1); // Constructor.
+ // The call will replace the stub, so the countdown is only done once.
+ __ CallRuntime(Runtime::kFinalizeInstanceSize, 1);
- __ pop(a2);
- __ pop(a1);
+ __ pop(a2);
+ __ pop(a1);
- __ bind(&allocate);
- }
+ __ bind(&allocate);
+ }
- // Now allocate the JSObject on the heap.
- // a1: constructor function
- // a2: initial map
- __ lbu(a3, FieldMemOperand(a2, Map::kInstanceSizeOffset));
- __ AllocateInNewSpace(a3, t4, t5, t6, &rt_call, SIZE_IN_WORDS);
+ // Now allocate the JSObject on the heap.
+ // a1: constructor function
+ // a2: initial map
+ __ lbu(a3, FieldMemOperand(a2, Map::kInstanceSizeOffset));
+ __ AllocateInNewSpace(a3, t4, t5, t6, &rt_call, SIZE_IN_WORDS);
- // Allocated the JSObject, now initialize the fields. Map is set to initial
- // map and properties and elements are set to empty fixed array.
- // a1: constructor function
- // a2: initial map
- // a3: object size
- // t4: JSObject (not tagged)
- __ LoadRoot(t6, Heap::kEmptyFixedArrayRootIndex);
- __ mov(t5, t4);
- __ sw(a2, MemOperand(t5, JSObject::kMapOffset));
- __ sw(t6, MemOperand(t5, JSObject::kPropertiesOffset));
- __ sw(t6, MemOperand(t5, JSObject::kElementsOffset));
- __ Addu(t5, t5, Operand(3*kPointerSize));
- ASSERT_EQ(0 * kPointerSize, JSObject::kMapOffset);
- ASSERT_EQ(1 * kPointerSize, JSObject::kPropertiesOffset);
- ASSERT_EQ(2 * kPointerSize, JSObject::kElementsOffset);
+ // Allocated the JSObject, now initialize the fields. Map is set to
+ // initial map and properties and elements are set to empty fixed array.
+ // a1: constructor function
+ // a2: initial map
+ // a3: object size
+ // t4: JSObject (not tagged)
+ __ LoadRoot(t6, Heap::kEmptyFixedArrayRootIndex);
+ __ mov(t5, t4);
+ __ sw(a2, MemOperand(t5, JSObject::kMapOffset));
+ __ sw(t6, MemOperand(t5, JSObject::kPropertiesOffset));
+ __ sw(t6, MemOperand(t5, JSObject::kElementsOffset));
+ __ Addu(t5, t5, Operand(3*kPointerSize));
+ ASSERT_EQ(0 * kPointerSize, JSObject::kMapOffset);
+ ASSERT_EQ(1 * kPointerSize, JSObject::kPropertiesOffset);
+ ASSERT_EQ(2 * kPointerSize, JSObject::kElementsOffset);
- // Fill all the in-object properties with appropriate filler.
- // a1: constructor function
- // a2: initial map
- // a3: object size (in words)
- // t4: JSObject (not tagged)
- // t5: First in-object property of JSObject (not tagged)
- __ sll(t0, a3, kPointerSizeLog2);
- __ addu(t6, t4, t0); // End of object.
- ASSERT_EQ(3 * kPointerSize, JSObject::kHeaderSize);
- { Label loop, entry;
- if (count_constructions) {
- // To allow for truncation.
- __ LoadRoot(t7, Heap::kOnePointerFillerMapRootIndex);
- } else {
- __ LoadRoot(t7, Heap::kUndefinedValueRootIndex);
+ // Fill all the in-object properties with appropriate filler.
+ // a1: constructor function
+ // a2: initial map
+ // a3: object size (in words)
+ // t4: JSObject (not tagged)
+ // t5: First in-object property of JSObject (not tagged)
+ __ sll(t0, a3, kPointerSizeLog2);
+ __ addu(t6, t4, t0); // End of object.
+ ASSERT_EQ(3 * kPointerSize, JSObject::kHeaderSize);
+ { Label loop, entry;
+ if (count_constructions) {
+ // To allow for truncation.
+ __ LoadRoot(t7, Heap::kOnePointerFillerMapRootIndex);
+ } else {
+ __ LoadRoot(t7, Heap::kUndefinedValueRootIndex);
+ }
+ __ jmp(&entry);
+ __ bind(&loop);
+ __ sw(t7, MemOperand(t5, 0));
+ __ addiu(t5, t5, kPointerSize);
+ __ bind(&entry);
+ __ Branch(&loop, Uless, t5, Operand(t6));
}
- __ jmp(&entry);
- __ bind(&loop);
- __ sw(t7, MemOperand(t5, 0));
- __ addiu(t5, t5, kPointerSize);
- __ bind(&entry);
- __ Branch(&loop, Uless, t5, Operand(t6));
- }
- // Add the object tag to make the JSObject real, so that we can continue and
- // jump into the continuation code at any time from now on. Any failures
- // need to undo the allocation, so that the heap is in a consistent state
- // and verifiable.
- __ Addu(t4, t4, Operand(kHeapObjectTag));
+ // Add the object tag to make the JSObject real, so that we can continue
+ // and jump into the continuation code at any time from now on. Any
+ // failures need to undo the allocation, so that the heap is in a
+ // consistent state and verifiable.
+ __ Addu(t4, t4, Operand(kHeapObjectTag));
- // Check if a non-empty properties array is needed. Continue with allocated
- // object if not fall through to runtime call if it is.
- // a1: constructor function
- // t4: JSObject
- // t5: start of next object (not tagged)
- __ lbu(a3, FieldMemOperand(a2, Map::kUnusedPropertyFieldsOffset));
- // The field instance sizes contains both pre-allocated property fields and
- // in-object properties.
- __ lw(a0, FieldMemOperand(a2, Map::kInstanceSizesOffset));
- __ And(t6,
- a0,
- Operand(0x000000FF << Map::kPreAllocatedPropertyFieldsByte * 8));
- __ srl(t0, t6, Map::kPreAllocatedPropertyFieldsByte * 8);
- __ Addu(a3, a3, Operand(t0));
- __ And(t6, a0, Operand(0x000000FF << Map::kInObjectPropertiesByte * 8));
- __ srl(t0, t6, Map::kInObjectPropertiesByte * 8);
- __ subu(a3, a3, t0);
+ // Check if a non-empty properties array is needed. Continue with
+ // allocated object if not fall through to runtime call if it is.
+ // a1: constructor function
+ // t4: JSObject
+ // t5: start of next object (not tagged)
+ __ lbu(a3, FieldMemOperand(a2, Map::kUnusedPropertyFieldsOffset));
+ // The field instance sizes contains both pre-allocated property fields
+ // and in-object properties.
+ __ lw(a0, FieldMemOperand(a2, Map::kInstanceSizesOffset));
+ __ And(t6,
+ a0,
+ Operand(0x000000FF << Map::kPreAllocatedPropertyFieldsByte * 8));
+ __ srl(t0, t6, Map::kPreAllocatedPropertyFieldsByte * 8);
+ __ Addu(a3, a3, Operand(t0));
+ __ And(t6, a0, Operand(0x000000FF << Map::kInObjectPropertiesByte * 8));
+ __ srl(t0, t6, Map::kInObjectPropertiesByte * 8);
+ __ subu(a3, a3, t0);
- // Done if no extra properties are to be allocated.
- __ Branch(&allocated, eq, a3, Operand(zero_reg));
- __ Assert(greater_equal, "Property allocation count failed.",
- a3, Operand(zero_reg));
+ // Done if no extra properties are to be allocated.
+ __ Branch(&allocated, eq, a3, Operand(zero_reg));
+ __ Assert(greater_equal, "Property allocation count failed.",
+ a3, Operand(zero_reg));
- // Scale the number of elements by pointer size and add the header for
- // FixedArrays to the start of the next object calculation from above.
- // a1: constructor
- // a3: number of elements in properties array
- // t4: JSObject
- // t5: start of next object
- __ Addu(a0, a3, Operand(FixedArray::kHeaderSize / kPointerSize));
- __ AllocateInNewSpace(
- a0,
- t5,
- t6,
- a2,
- &undo_allocation,
- static_cast<AllocationFlags>(RESULT_CONTAINS_TOP | SIZE_IN_WORDS));
+ // Scale the number of elements by pointer size and add the header for
+ // FixedArrays to the start of the next object calculation from above.
+ // a1: constructor
+ // a3: number of elements in properties array
+ // t4: JSObject
+ // t5: start of next object
+ __ Addu(a0, a3, Operand(FixedArray::kHeaderSize / kPointerSize));
+ __ AllocateInNewSpace(
+ a0,
+ t5,
+ t6,
+ a2,
+ &undo_allocation,
+ static_cast<AllocationFlags>(RESULT_CONTAINS_TOP | SIZE_IN_WORDS));
- // Initialize the FixedArray.
- // a1: constructor
- // a3: number of elements in properties array (un-tagged)
- // t4: JSObject
- // t5: start of next object
- __ LoadRoot(t6, Heap::kFixedArrayMapRootIndex);
- __ mov(a2, t5);
- __ sw(t6, MemOperand(a2, JSObject::kMapOffset));
- __ sll(a0, a3, kSmiTagSize);
- __ sw(a0, MemOperand(a2, FixedArray::kLengthOffset));
- __ Addu(a2, a2, Operand(2 * kPointerSize));
+ // Initialize the FixedArray.
+ // a1: constructor
+ // a3: number of elements in properties array (un-tagged)
+ // t4: JSObject
+ // t5: start of next object
+ __ LoadRoot(t6, Heap::kFixedArrayMapRootIndex);
+ __ mov(a2, t5);
+ __ sw(t6, MemOperand(a2, JSObject::kMapOffset));
+ __ sll(a0, a3, kSmiTagSize);
+ __ sw(a0, MemOperand(a2, FixedArray::kLengthOffset));
+ __ Addu(a2, a2, Operand(2 * kPointerSize));
- ASSERT_EQ(0 * kPointerSize, JSObject::kMapOffset);
- ASSERT_EQ(1 * kPointerSize, FixedArray::kLengthOffset);
+ ASSERT_EQ(0 * kPointerSize, JSObject::kMapOffset);
+ ASSERT_EQ(1 * kPointerSize, FixedArray::kLengthOffset);
- // Initialize the fields to undefined.
- // a1: constructor
- // a2: First element of FixedArray (not tagged)
- // a3: number of elements in properties array
- // t4: JSObject
- // t5: FixedArray (not tagged)
- __ sll(t3, a3, kPointerSizeLog2);
- __ addu(t6, a2, t3); // End of object.
- ASSERT_EQ(2 * kPointerSize, FixedArray::kHeaderSize);
- { Label loop, entry;
- if (count_constructions) {
- __ LoadRoot(t7, Heap::kUndefinedValueRootIndex);
- } else if (FLAG_debug_code) {
- __ LoadRoot(t8, Heap::kUndefinedValueRootIndex);
- __ Assert(eq, "Undefined value not loaded.", t7, Operand(t8));
+ // Initialize the fields to undefined.
+ // a1: constructor
+ // a2: First element of FixedArray (not tagged)
+ // a3: number of elements in properties array
+ // t4: JSObject
+ // t5: FixedArray (not tagged)
+ __ sll(t3, a3, kPointerSizeLog2);
+ __ addu(t6, a2, t3); // End of object.
+ ASSERT_EQ(2 * kPointerSize, FixedArray::kHeaderSize);
+ { Label loop, entry;
+ if (count_constructions) {
+ __ LoadRoot(t7, Heap::kUndefinedValueRootIndex);
+ } else if (FLAG_debug_code) {
+ __ LoadRoot(t8, Heap::kUndefinedValueRootIndex);
+ __ Assert(eq, "Undefined value not loaded.", t7, Operand(t8));
+ }
+ __ jmp(&entry);
+ __ bind(&loop);
+ __ sw(t7, MemOperand(a2));
+ __ addiu(a2, a2, kPointerSize);
+ __ bind(&entry);
+ __ Branch(&loop, less, a2, Operand(t6));
}
- __ jmp(&entry);
- __ bind(&loop);
- __ sw(t7, MemOperand(a2));
- __ addiu(a2, a2, kPointerSize);
- __ bind(&entry);
- __ Branch(&loop, less, a2, Operand(t6));
+
+ // Store the initialized FixedArray into the properties field of
+ // the JSObject.
+ // a1: constructor function
+ // t4: JSObject
+ // t5: FixedArray (not tagged)
+ __ Addu(t5, t5, Operand(kHeapObjectTag)); // Add the heap tag.
+ __ sw(t5, FieldMemOperand(t4, JSObject::kPropertiesOffset));
+
+ // Continue with JSObject being successfully allocated.
+ // a1: constructor function
+ // a4: JSObject
+ __ jmp(&allocated);
+
+ // Undo the setting of the new top so that the heap is verifiable. For
+ // example, the map's unused properties potentially do not match the
+ // allocated objects unused properties.
+ // t4: JSObject (previous new top)
+ __ bind(&undo_allocation);
+ __ UndoAllocationInNewSpace(t4, t5);
}
- // Store the initialized FixedArray into the properties field of
- // the JSObject.
+ __ bind(&rt_call);
+ // Allocate the new receiver object using the runtime call.
// a1: constructor function
+ __ push(a1); // Argument for Runtime_NewObject.
+ __ CallRuntime(Runtime::kNewObject, 1);
+ __ mov(t4, v0);
+
+ // Receiver for constructor call allocated.
// t4: JSObject
- // t5: FixedArray (not tagged)
- __ Addu(t5, t5, Operand(kHeapObjectTag)); // Add the heap tag.
- __ sw(t5, FieldMemOperand(t4, JSObject::kPropertiesOffset));
+ __ bind(&allocated);
+ __ push(t4);
- // Continue with JSObject being successfully allocated.
+ // Push the function and the allocated receiver from the stack.
+ // sp[0]: receiver (newly allocated object)
+ // sp[1]: constructor function
+ // sp[2]: number of arguments (smi-tagged)
+ __ lw(a1, MemOperand(sp, kPointerSize));
+ __ MultiPushReversed(a1.bit() | t4.bit());
+
+ // Reload the number of arguments from the stack.
// a1: constructor function
- // a4: JSObject
- __ jmp(&allocated);
+ // sp[0]: receiver
+ // sp[1]: constructor function
+ // sp[2]: receiver
+ // sp[3]: constructor function
+ // sp[4]: number of arguments (smi-tagged)
+ __ lw(a3, MemOperand(sp, 4 * kPointerSize));
- // Undo the setting of the new top so that the heap is verifiable. For
- // example, the map's unused properties potentially do not match the
- // allocated objects unused properties.
- // t4: JSObject (previous new top)
- __ bind(&undo_allocation);
- __ UndoAllocationInNewSpace(t4, t5);
- }
+ // Setup pointer to last argument.
+ __ Addu(a2, fp, Operand(StandardFrameConstants::kCallerSPOffset));
- __ bind(&rt_call);
- // Allocate the new receiver object using the runtime call.
- // a1: constructor function
- __ push(a1); // Argument for Runtime_NewObject.
- __ CallRuntime(Runtime::kNewObject, 1);
- __ mov(t4, v0);
+ // Setup number of arguments for function call below.
+ __ srl(a0, a3, kSmiTagSize);
- // Receiver for constructor call allocated.
- // t4: JSObject
- __ bind(&allocated);
- __ push(t4);
+ // Copy arguments and receiver to the expression stack.
+ // a0: number of arguments
+ // a1: constructor function
+ // a2: address of last argument (caller sp)
+ // a3: number of arguments (smi-tagged)
+ // sp[0]: receiver
+ // sp[1]: constructor function
+ // sp[2]: receiver
+ // sp[3]: constructor function
+ // sp[4]: number of arguments (smi-tagged)
+ Label loop, entry;
+ __ jmp(&entry);
+ __ bind(&loop);
+ __ sll(t0, a3, kPointerSizeLog2 - kSmiTagSize);
+ __ Addu(t0, a2, Operand(t0));
+ __ lw(t1, MemOperand(t0));
+ __ push(t1);
+ __ bind(&entry);
+ __ Addu(a3, a3, Operand(-2));
+ __ Branch(&loop, greater_equal, a3, Operand(zero_reg));
- // Push the function and the allocated receiver from the stack.
- // sp[0]: receiver (newly allocated object)
- // sp[1]: constructor function
- // sp[2]: number of arguments (smi-tagged)
- __ lw(a1, MemOperand(sp, kPointerSize));
- __ MultiPushReversed(a1.bit() | t4.bit());
+ // Call the function.
+ // a0: number of arguments
+ // a1: constructor function
+ if (is_api_function) {
+ __ lw(cp, FieldMemOperand(a1, JSFunction::kContextOffset));
+ Handle<Code> code =
+ masm->isolate()->builtins()->HandleApiCallConstruct();
+ ParameterCount expected(0);
+ __ InvokeCode(code, expected, expected,
+ RelocInfo::CODE_TARGET, CALL_FUNCTION, CALL_AS_METHOD);
+ } else {
+ ParameterCount actual(a0);
+ __ InvokeFunction(a1, actual, CALL_FUNCTION,
+ NullCallWrapper(), CALL_AS_METHOD);
+ }
- // Reload the number of arguments from the stack.
- // a1: constructor function
- // sp[0]: receiver
- // sp[1]: constructor function
- // sp[2]: receiver
- // sp[3]: constructor function
- // sp[4]: number of arguments (smi-tagged)
- __ lw(a3, MemOperand(sp, 4 * kPointerSize));
+ // Pop the function from the stack.
+ // v0: result
+ // sp[0]: constructor function
+ // sp[2]: receiver
+ // sp[3]: constructor function
+ // sp[4]: number of arguments (smi-tagged)
+ __ Pop();
- // Setup pointer to last argument.
- __ Addu(a2, fp, Operand(StandardFrameConstants::kCallerSPOffset));
+ // Restore context from the frame.
+ __ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));
- // Setup number of arguments for function call below.
- __ srl(a0, a3, kSmiTagSize);
+ // If the result is an object (in the ECMA sense), we should get rid
+ // of the receiver and use the result; see ECMA-262 section 13.2.2-7
+ // on page 74.
+ Label use_receiver, exit;
- // Copy arguments and receiver to the expression stack.
- // a0: number of arguments
- // a1: constructor function
- // a2: address of last argument (caller sp)
- // a3: number of arguments (smi-tagged)
- // sp[0]: receiver
- // sp[1]: constructor function
- // sp[2]: receiver
- // sp[3]: constructor function
- // sp[4]: number of arguments (smi-tagged)
- Label loop, entry;
- __ jmp(&entry);
- __ bind(&loop);
- __ sll(t0, a3, kPointerSizeLog2 - kSmiTagSize);
- __ Addu(t0, a2, Operand(t0));
- __ lw(t1, MemOperand(t0));
- __ push(t1);
- __ bind(&entry);
- __ Addu(a3, a3, Operand(-2));
- __ Branch(&loop, greater_equal, a3, Operand(zero_reg));
+ // If the result is a smi, it is *not* an object in the ECMA sense.
+ // v0: result
+ // sp[0]: receiver (newly allocated object)
+ // sp[1]: constructor function
+ // sp[2]: number of arguments (smi-tagged)
+ __ And(t0, v0, Operand(kSmiTagMask));
+ __ Branch(&use_receiver, eq, t0, Operand(zero_reg));
- // Call the function.
- // a0: number of arguments
- // a1: constructor function
- if (is_api_function) {
- __ lw(cp, FieldMemOperand(a1, JSFunction::kContextOffset));
- Handle<Code> code =
- masm->isolate()->builtins()->HandleApiCallConstruct();
- ParameterCount expected(0);
- __ InvokeCode(code, expected, expected,
- RelocInfo::CODE_TARGET, CALL_FUNCTION, CALL_AS_METHOD);
- } else {
- ParameterCount actual(a0);
- __ InvokeFunction(a1, actual, CALL_FUNCTION,
- NullCallWrapper(), CALL_AS_METHOD);
- }
+ // If the type of the result (stored in its map) is less than
+ // FIRST_SPEC_OBJECT_TYPE, it is not an object in the ECMA sense.
+ __ GetObjectType(v0, a3, a3);
+ __ Branch(&exit, greater_equal, a3, Operand(FIRST_SPEC_OBJECT_TYPE));
- // Pop the function from the stack.
- // v0: result
- // sp[0]: constructor function
- // sp[2]: receiver
- // sp[3]: constructor function
- // sp[4]: number of arguments (smi-tagged)
- __ Pop();
+ // Throw away the result of the constructor invocation and use the
+ // on-stack receiver as the result.
+ __ bind(&use_receiver);
+ __ lw(v0, MemOperand(sp));
- // Restore context from the frame.
- __ lw(cp, MemOperand(fp, StandardFrameConstants::kContextOffset));
+ // Remove receiver from the stack, remove caller arguments, and
+ // return.
+ __ bind(&exit);
+ // v0: result
+ // sp[0]: receiver (newly allocated object)
+ // sp[1]: constructor function
+ // sp[2]: number of arguments (smi-tagged)
+ __ lw(a1, MemOperand(sp, 2 * kPointerSize));
- // If the result is an object (in the ECMA sense), we should get rid
- // of the receiver and use the result; see ECMA-262 section 13.2.2-7
- // on page 74.
- Label use_receiver, exit;
+ // Leave construct frame.
+ }
- // If the result is a smi, it is *not* an object in the ECMA sense.
- // v0: result
- // sp[0]: receiver (newly allocated object)
- // sp[1]: constructor function
- // sp[2]: number of arguments (smi-tagged)
- __ And(t0, v0, Operand(kSmiTagMask));
- __ Branch(&use_receiver, eq, t0, Operand(zero_reg));
-
- // If the type of the result (stored in its map) is less than
- // FIRST_SPEC_OBJECT_TYPE, it is not an object in the ECMA sense.
- __ GetObjectType(v0, a3, a3);
- __ Branch(&exit, greater_equal, a3, Operand(FIRST_SPEC_OBJECT_TYPE));
-
- // Throw away the result of the constructor invocation and use the
- // on-stack receiver as the result.
- __ bind(&use_receiver);
- __ lw(v0, MemOperand(sp));
-
- // Remove receiver from the stack, remove caller arguments, and
- // return.
- __ bind(&exit);
- // v0: result
- // sp[0]: receiver (newly allocated object)
- // sp[1]: constructor function
- // sp[2]: number of arguments (smi-tagged)
- __ lw(a1, MemOperand(sp, 2 * kPointerSize));
- __ LeaveConstructFrame();
__ sll(t0, a1, kPointerSizeLog2 - 1);
__ Addu(sp, sp, t0);
__ Addu(sp, sp, kPointerSize);
@@ -1031,59 +1037,61 @@
__ mov(cp, zero_reg);
// Enter an internal frame.
- __ EnterInternalFrame();
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
- // Set up the context from the function argument.
- __ lw(cp, FieldMemOperand(a1, JSFunction::kContextOffset));
+ // Set up the context from the function argument.
+ __ lw(cp, FieldMemOperand(a1, JSFunction::kContextOffset));
- // Set up the roots register.
- ExternalReference roots_address =
- ExternalReference::roots_address(masm->isolate());
- __ li(s6, Operand(roots_address));
+ // Set up the roots register.
+ ExternalReference roots_address =
+ ExternalReference::roots_address(masm->isolate());
+ __ li(s6, Operand(roots_address));
- // Push the function and the receiver onto the stack.
- __ Push(a1, a2);
+ // Push the function and the receiver onto the stack.
+ __ Push(a1, a2);
- // Copy arguments to the stack in a loop.
- // a3: argc
- // s0: argv, ie points to first arg
- Label loop, entry;
- __ sll(t0, a3, kPointerSizeLog2);
- __ addu(t2, s0, t0);
- __ b(&entry);
- __ nop(); // Branch delay slot nop.
- // t2 points past last arg.
- __ bind(&loop);
- __ lw(t0, MemOperand(s0)); // Read next parameter.
- __ addiu(s0, s0, kPointerSize);
- __ lw(t0, MemOperand(t0)); // Dereference handle.
- __ push(t0); // Push parameter.
- __ bind(&entry);
- __ Branch(&loop, ne, s0, Operand(t2));
+ // Copy arguments to the stack in a loop.
+ // a3: argc
+ // s0: argv, ie points to first arg
+ Label loop, entry;
+ __ sll(t0, a3, kPointerSizeLog2);
+ __ addu(t2, s0, t0);
+ __ b(&entry);
+ __ nop(); // Branch delay slot nop.
+ // t2 points past last arg.
+ __ bind(&loop);
+ __ lw(t0, MemOperand(s0)); // Read next parameter.
+ __ addiu(s0, s0, kPointerSize);
+ __ lw(t0, MemOperand(t0)); // Dereference handle.
+ __ push(t0); // Push parameter.
+ __ bind(&entry);
+ __ Branch(&loop, ne, s0, Operand(t2));
- // Initialize all JavaScript callee-saved registers, since they will be seen
- // by the garbage collector as part of handlers.
- __ LoadRoot(t0, Heap::kUndefinedValueRootIndex);
- __ mov(s1, t0);
- __ mov(s2, t0);
- __ mov(s3, t0);
- __ mov(s4, t0);
- __ mov(s5, t0);
- // s6 holds the root address. Do not clobber.
- // s7 is cp. Do not init.
+ // Initialize all JavaScript callee-saved registers, since they will be seen
+ // by the garbage collector as part of handlers.
+ __ LoadRoot(t0, Heap::kUndefinedValueRootIndex);
+ __ mov(s1, t0);
+ __ mov(s2, t0);
+ __ mov(s3, t0);
+ __ mov(s4, t0);
+ __ mov(s5, t0);
+ // s6 holds the root address. Do not clobber.
+ // s7 is cp. Do not init.
- // Invoke the code and pass argc as a0.
- __ mov(a0, a3);
- if (is_construct) {
- __ Call(masm->isolate()->builtins()->JSConstructCall());
- } else {
- ParameterCount actual(a0);
- __ InvokeFunction(a1, actual, CALL_FUNCTION,
- NullCallWrapper(), CALL_AS_METHOD);
+ // Invoke the code and pass argc as a0.
+ __ mov(a0, a3);
+ if (is_construct) {
+ __ Call(masm->isolate()->builtins()->JSConstructCall());
+ } else {
+ ParameterCount actual(a0);
+ __ InvokeFunction(a1, actual, CALL_FUNCTION,
+ NullCallWrapper(), CALL_AS_METHOD);
+ }
+
+ // Leave internal frame.
}
- __ LeaveInternalFrame();
-
__ Jump(ra);
}
@@ -1100,27 +1108,28 @@
void Builtins::Generate_LazyCompile(MacroAssembler* masm) {
// Enter an internal frame.
- __ EnterInternalFrame();
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
- // Preserve the function.
- __ push(a1);
- // Push call kind information.
- __ push(t1);
+ // Preserve the function.
+ __ push(a1);
+ // Push call kind information.
+ __ push(t1);
- // Push the function on the stack as the argument to the runtime function.
- __ push(a1);
- // Call the runtime function.
- __ CallRuntime(Runtime::kLazyCompile, 1);
- // Calculate the entry point.
- __ addiu(t9, v0, Code::kHeaderSize - kHeapObjectTag);
+ // Push the function on the stack as the argument to the runtime function.
+ __ push(a1);
+ // Call the runtime function.
+ __ CallRuntime(Runtime::kLazyCompile, 1);
+ // Calculate the entry point.
+ __ addiu(t9, v0, Code::kHeaderSize - kHeapObjectTag);
- // Restore call kind information.
- __ pop(t1);
- // Restore saved function.
- __ pop(a1);
+ // Restore call kind information.
+ __ pop(t1);
+ // Restore saved function.
+ __ pop(a1);
- // Tear down temporary frame.
- __ LeaveInternalFrame();
+ // Tear down temporary frame.
+ }
// Do a tail-call of the compiled function.
__ Jump(t9);
@@ -1129,26 +1138,27 @@
void Builtins::Generate_LazyRecompile(MacroAssembler* masm) {
// Enter an internal frame.
- __ EnterInternalFrame();
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
- // Preserve the function.
- __ push(a1);
- // Push call kind information.
- __ push(t1);
+ // Preserve the function.
+ __ push(a1);
+ // Push call kind information.
+ __ push(t1);
- // Push the function on the stack as the argument to the runtime function.
- __ push(a1);
- __ CallRuntime(Runtime::kLazyRecompile, 1);
- // Calculate the entry point.
- __ Addu(t9, v0, Operand(Code::kHeaderSize - kHeapObjectTag));
+ // Push the function on the stack as the argument to the runtime function.
+ __ push(a1);
+ __ CallRuntime(Runtime::kLazyRecompile, 1);
+ // Calculate the entry point.
+ __ Addu(t9, v0, Operand(Code::kHeaderSize - kHeapObjectTag));
- // Restore call kind information.
- __ pop(t1);
- // Restore saved function.
- __ pop(a1);
+ // Restore call kind information.
+ __ pop(t1);
+ // Restore saved function.
+ __ pop(a1);
- // Tear down temporary frame.
- __ LeaveInternalFrame();
+ // Tear down temporary frame.
+ }
// Do a tail-call of the compiled function.
__ Jump(t9);
@@ -1238,17 +1248,20 @@
__ Branch(&shift_arguments, ge, a3, Operand(FIRST_SPEC_OBJECT_TYPE));
__ bind(&convert_to_object);
- __ EnterInternalFrame(); // In order to preserve argument count.
- __ sll(a0, a0, kSmiTagSize); // Smi tagged.
- __ push(a0);
+ // Enter an internal frame in order to preserve argument count.
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
+ __ sll(a0, a0, kSmiTagSize); // Smi tagged.
+ __ push(a0);
- __ push(a2);
- __ InvokeBuiltin(Builtins::TO_OBJECT, CALL_FUNCTION);
- __ mov(a2, v0);
+ __ push(a2);
+ __ InvokeBuiltin(Builtins::TO_OBJECT, CALL_FUNCTION);
+ __ mov(a2, v0);
- __ pop(a0);
- __ sra(a0, a0, kSmiTagSize); // Un-tag.
- __ LeaveInternalFrame();
+ __ pop(a0);
+ __ sra(a0, a0, kSmiTagSize); // Un-tag.
+ // Leave internal frame.
+ }
// Restore the function to a1.
__ sll(at, a0, kPointerSizeLog2);
__ addu(at, sp, at);
@@ -1350,132 +1363,133 @@
const int kRecvOffset = 3 * kPointerSize;
const int kFunctionOffset = 4 * kPointerSize;
- __ EnterInternalFrame();
+ {
+ FrameScope scope(masm, StackFrame::INTERNAL);
- __ lw(a0, MemOperand(fp, kFunctionOffset)); // Get the function.
- __ push(a0);
- __ lw(a0, MemOperand(fp, kArgsOffset)); // Get the args array.
- __ push(a0);
- // Returns (in v0) number of arguments to copy to stack as Smi.
- __ InvokeBuiltin(Builtins::APPLY_PREPARE, CALL_FUNCTION);
+ __ lw(a0, MemOperand(fp, kFunctionOffset)); // Get the function.
+ __ push(a0);
+ __ lw(a0, MemOperand(fp, kArgsOffset)); // Get the args array.
+ __ push(a0);
+ // Returns (in v0) number of arguments to copy to stack as Smi.
+ __ InvokeBuiltin(Builtins::APPLY_PREPARE, CALL_FUNCTION);
- // Check the stack for overflow. We are not trying need to catch
- // interruptions (e.g. debug break and preemption) here, so the "real stack
- // limit" is checked.
- Label okay;
- __ LoadRoot(a2, Heap::kRealStackLimitRootIndex);
- // Make a2 the space we have left. The stack might already be overflowed
- // here which will cause a2 to become negative.
- __ subu(a2, sp, a2);
- // Check if the arguments will overflow the stack.
- __ sll(t0, v0, kPointerSizeLog2 - kSmiTagSize);
- __ Branch(&okay, gt, a2, Operand(t0)); // Signed comparison.
+ // Check the stack for overflow. We are not trying need to catch
+ // interruptions (e.g. debug break and preemption) here, so the "real stack
+ // limit" is checked.
+ Label okay;
+ __ LoadRoot(a2, Heap::kRealStackLimitRootIndex);
+ // Make a2 the space we have left. The stack might already be overflowed
+ // here which will cause a2 to become negative.
+ __ subu(a2, sp, a2);
+ // Check if the arguments will overflow the stack.
+ __ sll(t0, v0, kPointerSizeLog2 - kSmiTagSize);
+ __ Branch(&okay, gt, a2, Operand(t0)); // Signed comparison.
- // Out of stack space.
- __ lw(a1, MemOperand(fp, kFunctionOffset));
- __ push(a1);
- __ push(v0);
- __ InvokeBuiltin(Builtins::APPLY_OVERFLOW, CALL_FUNCTION);
- // End of stack check.
+ // Out of stack space.
+ __ lw(a1, MemOperand(fp, kFunctionOffset));
+ __ push(a1);
+ __ push(v0);
+ __ InvokeBuiltin(Builtins::APPLY_OVERFLOW, CALL_FUNCTION);
+ // End of stack check.
- // Push current limit and index.
- __ bind(&okay);
- __ push(v0); // Limit.
- __ mov(a1, zero_reg); // Initial index.
- __ push(a1);
+ // Push current limit and index.
+ __ bind(&okay);
+ __ push(v0); // Limit.
+ __ mov(a1, zero_reg); // Initial index.
+ __ push(a1);
- // Change context eagerly to get the right global object if necessary.
- __ lw(a0, MemOperand(fp, kFunctionOffset));
- __ lw(cp, FieldMemOperand(a0, JSFunction::kContextOffset));
- // Load the shared function info while the function is still in a0.
- __ lw(a1, FieldMemOperand(a0, JSFunction::kSharedFunctionInfoOffset));
+ // Change context eagerly to get the right global object if necessary.
+ __ lw(a0, MemOperand(fp, kFunctionOffset));
+ __ lw(cp, FieldMemOperand(a0, JSFunction::kContextOffset));
+ // Load the shared function info while the function is still in a0.
+ __ lw(a1, FieldMemOperand(a0, JSFunction::kSharedFunctionInfoOffset));
- // Compute the receiver.
- Label call_to_object, use_global_receiver, push_receiver;
- __ lw(a0, MemOperand(fp, kRecvOffset));
+ // Compute the receiver.
+ Label call_to_object, use_global_receiver, push_receiver;
+ __ lw(a0, MemOperand(fp, kRecvOffset));
- // Do not transform the receiver for strict mode functions.
- __ lw(a2, FieldMemOperand(a1, SharedFunctionInfo::kCompilerHintsOffset));
- __ And(t0, a2, Operand(1 << (SharedFunctionInfo::kStrictModeFunction +
- kSmiTagSize)));
- __ Branch(&push_receiver, ne, t0, Operand(zero_reg));
+ // Do not transform the receiver for strict mode functions.
+ __ lw(a2, FieldMemOperand(a1, SharedFunctionInfo::kCompilerHintsOffset));
+ __ And(t0, a2, Operand(1 << (SharedFunctionInfo::kStrictModeFunction +
+ kSmiTagSize)));
+ __ Branch(&push_receiver, ne, t0, Operand(zero_reg));
- // Do not transform the receiver for native (Compilerhints already in a2).
- __ And(t0, a2, Operand(1 << (SharedFunctionInfo::kNative + kSmiTagSize)));
- __ Branch(&push_receiver, ne, t0, Operand(zero_reg));
+ // Do not transform the receiver for native (Compilerhints already in a2).
+ __ And(t0, a2, Operand(1 << (SharedFunctionInfo::kNative + kSmiTagSize)));
+ __ Branch(&push_receiver, ne, t0, Operand(zero_reg));
- // Compute the receiver in non-strict mode.
- __ And(t0, a0, Operand(kSmiTagMask));
- __ Branch(&call_to_object, eq, t0, Operand(zero_reg));
- __ LoadRoot(a1, Heap::kNullValueRootIndex);
- __ Branch(&use_global_receiver, eq, a0, Operand(a1));
- __ LoadRoot(a2, Heap::kUndefinedValueRootIndex);
- __ Branch(&use_global_receiver, eq, a0, Operand(a2));
+ // Compute the receiver in non-strict mode.
+ __ And(t0, a0, Operand(kSmiTagMask));
+ __ Branch(&call_to_object, eq, t0, Operand(zero_reg));
+ __ LoadRoot(a1, Heap::kNullValueRootIndex);
+ __ Branch(&use_global_receiver, eq, a0, Operand(a1));
+ __ LoadRoot(a2, Heap::kUndefinedValueRootIndex);
+ __ Branch(&use_global_receiver, eq, a0, Operand(a2));
- // Check if the receiver is already a JavaScript object.
- // a0: receiver
- STATIC_ASSERT(LAST_SPEC_OBJECT_TYPE == LAST_TYPE);
- __ GetObjectType(a0, a1, a1);
- __ Branch(&push_receiver, ge, a1, Operand(FIRST_SPEC_OBJECT_TYPE));
+ // Check if the receiver is already a JavaScript object.
+ // a0: receiver
+ STATIC_ASSERT(LAST_SPEC_OBJECT_TYPE == LAST_TYPE);
+ __ GetObjectType(a0, a1, a1);
+ __ Branch(&push_receiver, ge, a1, Operand(FIRST_SPEC_OBJECT_TYPE));
- // Convert the receiver to a regular object.
- // a0: receiver
- __ bind(&call_to_object);
- __ push(a0);
- __ InvokeBuiltin(Builtins::TO_OBJECT, CALL_FUNCTION);
- __ mov(a0, v0); // Put object in a0 to match other paths to push_receiver.
- __ Branch(&push_receiver);
+ // Convert the receiver to a regular object.
+ // a0: receiver
+ __ bind(&call_to_object);
+ __ push(a0);
+ __ InvokeBuiltin(Builtins::TO_OBJECT, CALL_FUNCTION);
+ __ mov(a0, v0); // Put object in a0 to match other paths to push_receiver.
+ __ Branch(&push_receiver);
- // Use the current global receiver object as the receiver.
- __ bind(&use_global_receiver);
- const int kGlobalOffset =
- Context::kHeaderSize + Context::GLOBAL_INDEX * kPointerSize;
- __ lw(a0, FieldMemOperand(cp, kGlobalOffset));
- __ lw(a0, FieldMemOperand(a0, GlobalObject::kGlobalContextOffset));
- __ lw(a0, FieldMemOperand(a0, kGlobalOffset));
- __ lw(a0, FieldMemOperand(a0, GlobalObject::kGlobalReceiverOffset));
+ // Use the current global receiver object as the receiver.
+ __ bind(&use_global_receiver);
+ const int kGlobalOffset =
+ Context::kHeaderSize + Context::GLOBAL_INDEX * kPointerSize;
+ __ lw(a0, FieldMemOperand(cp, kGlobalOffset));
+ __ lw(a0, FieldMemOperand(a0, GlobalObject::kGlobalContextOffset));
+ __ lw(a0, FieldMemOperand(a0, kGlobalOffset));
+ __ lw(a0, FieldMemOperand(a0, GlobalObject::kGlobalReceiverOffset));
- // Push the receiver.
- // a0: receiver
- __ bind(&push_receiver);
- __ push(a0);
+ // Push the receiver.
+ // a0: receiver
+ __ bind(&push_receiver);
+ __ push(a0);
- // Copy all arguments from the array to the stack.
- Label entry, loop;
- __ lw(a0, MemOperand(fp, kIndexOffset));
- __ Branch(&entry);
+ // Copy all arguments from the array to the stack.
+ Label entry, loop;
+ __ lw(a0, MemOperand(fp, kIndexOffset));
+ __ Branch(&entry);
- // Load the current argument from the arguments array and push it to the
- // stack.
- // a0: current argument index
- __ bind(&loop);
- __ lw(a1, MemOperand(fp, kArgsOffset));
- __ push(a1);
- __ push(a0);
+ // Load the current argument from the arguments array and push it to the
+ // stack.
+ // a0: current argument index
+ __ bind(&loop);
+ __ lw(a1, MemOperand(fp, kArgsOffset));
+ __ push(a1);
+ __ push(a0);
- // Call the runtime to access the property in the arguments array.
- __ CallRuntime(Runtime::kGetProperty, 2);
- __ push(v0);
+ // Call the runtime to access the property in the arguments array.
+ __ CallRuntime(Runtime::kGetProperty, 2);
+ __ push(v0);
- // Use inline caching to access the arguments.
- __ lw(a0, MemOperand(fp, kIndexOffset));
- __ Addu(a0, a0, Operand(1 << kSmiTagSize));
- __ sw(a0, MemOperand(fp, kIndexOffset));
+ // Use inline caching to access the arguments.
+ __ lw(a0, MemOperand(fp, kIndexOffset));
+ __ Addu(a0, a0, Operand(1 << kSmiTagSize));
+ __ sw(a0, MemOperand(fp, kIndexOffset));
- // Test if the copy loop has finished copying all the elements from the
- // arguments object.
- __ bind(&entry);
- __ lw(a1, MemOperand(fp, kLimitOffset));
- __ Branch(&loop, ne, a0, Operand(a1));
- // Invoke the function.
- ParameterCount actual(a0);
- __ sra(a0, a0, kSmiTagSize);
- __ lw(a1, MemOperand(fp, kFunctionOffset));
- __ InvokeFunction(a1, actual, CALL_FUNCTION,
- NullCallWrapper(), CALL_AS_METHOD);
+ // Test if the copy loop has finished copying all the elements from the
+ // arguments object.
+ __ bind(&entry);
+ __ lw(a1, MemOperand(fp, kLimitOffset));
+ __ Branch(&loop, ne, a0, Operand(a1));
+ // Invoke the function.
+ ParameterCount actual(a0);
+ __ sra(a0, a0, kSmiTagSize);
+ __ lw(a1, MemOperand(fp, kFunctionOffset));
+ __ InvokeFunction(a1, actual, CALL_FUNCTION,
+ NullCallWrapper(), CALL_AS_METHOD);
- // Tear down the internal frame and remove function, receiver and args.
- __ LeaveInternalFrame();
+ // Tear down the internal frame and remove function, receiver and args.
+ }
__ Addu(sp, sp, Operand(3 * kPointerSize));
__ Ret();
}
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