// Copyright 2013 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "v8.h" #include "api.h" #include "debug.h" #include "execution.h" #include "factory.h" #include "isolate-inl.h" #include "macro-assembler.h" #include "objects.h" #include "objects-visiting.h" #include "platform.h" #include "scopeinfo.h" namespace v8 { namespace internal { Handle Factory::NewBox(Handle value, PretenureFlag pretenure) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateBox(*value, pretenure), Box); } Handle Factory::NewFixedArray(int size, PretenureFlag pretenure) { ASSERT(0 <= size); CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateFixedArray(size, pretenure), FixedArray); } Handle Factory::NewFixedArrayWithHoles(int size, PretenureFlag pretenure) { ASSERT(0 <= size); CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateFixedArrayWithHoles(size, pretenure), FixedArray); } Handle Factory::NewFixedDoubleArray(int size, PretenureFlag pretenure) { ASSERT(0 <= size); CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateUninitializedFixedDoubleArray(size, pretenure), FixedDoubleArray); } Handle Factory::NewConstantPoolArray( int number_of_int64_entries, int number_of_ptr_entries, int number_of_int32_entries) { ASSERT(number_of_int64_entries > 0 || number_of_ptr_entries > 0 || number_of_int32_entries > 0); CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateConstantPoolArray(number_of_int64_entries, number_of_ptr_entries, number_of_int32_entries), ConstantPoolArray); } Handle Factory::NewNameDictionary(int at_least_space_for) { ASSERT(0 <= at_least_space_for); CALL_HEAP_FUNCTION(isolate(), NameDictionary::Allocate(isolate()->heap(), at_least_space_for), NameDictionary); } Handle Factory::NewSeededNumberDictionary( int at_least_space_for) { ASSERT(0 <= at_least_space_for); CALL_HEAP_FUNCTION(isolate(), SeededNumberDictionary::Allocate(isolate()->heap(), at_least_space_for), SeededNumberDictionary); } Handle Factory::NewUnseededNumberDictionary( int at_least_space_for) { ASSERT(0 <= at_least_space_for); CALL_HEAP_FUNCTION(isolate(), UnseededNumberDictionary::Allocate(isolate()->heap(), at_least_space_for), UnseededNumberDictionary); } Handle Factory::NewObjectHashSet(int at_least_space_for) { ASSERT(0 <= at_least_space_for); CALL_HEAP_FUNCTION(isolate(), ObjectHashSet::Allocate(isolate()->heap(), at_least_space_for), ObjectHashSet); } Handle Factory::NewObjectHashTable( int at_least_space_for, MinimumCapacity capacity_option) { ASSERT(0 <= at_least_space_for); CALL_HEAP_FUNCTION(isolate(), ObjectHashTable::Allocate(isolate()->heap(), at_least_space_for, capacity_option), ObjectHashTable); } Handle Factory::NewWeakHashTable(int at_least_space_for) { ASSERT(0 <= at_least_space_for); CALL_HEAP_FUNCTION( isolate(), WeakHashTable::Allocate(isolate()->heap(), at_least_space_for, USE_DEFAULT_MINIMUM_CAPACITY, TENURED), WeakHashTable); } Handle Factory::NewDescriptorArray(int number_of_descriptors, int slack) { ASSERT(0 <= number_of_descriptors); CALL_HEAP_FUNCTION(isolate(), DescriptorArray::Allocate( isolate(), number_of_descriptors, slack), DescriptorArray); } Handle Factory::NewDeoptimizationInputData( int deopt_entry_count, PretenureFlag pretenure) { ASSERT(deopt_entry_count > 0); CALL_HEAP_FUNCTION(isolate(), DeoptimizationInputData::Allocate(isolate(), deopt_entry_count, pretenure), DeoptimizationInputData); } Handle Factory::NewDeoptimizationOutputData( int deopt_entry_count, PretenureFlag pretenure) { ASSERT(deopt_entry_count > 0); CALL_HEAP_FUNCTION(isolate(), DeoptimizationOutputData::Allocate(isolate(), deopt_entry_count, pretenure), DeoptimizationOutputData); } Handle Factory::NewAccessorPair() { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->AllocateAccessorPair(), AccessorPair); } Handle Factory::NewTypeFeedbackInfo() { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->AllocateTypeFeedbackInfo(), TypeFeedbackInfo); } // Internalized strings are created in the old generation (data space). Handle Factory::InternalizeUtf8String(Vector string) { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->InternalizeUtf8String(string), String); } // Internalized strings are created in the old generation (data space). Handle Factory::InternalizeString(Handle string) { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->InternalizeString(*string), String); } Handle Factory::InternalizeOneByteString(Vector string) { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->InternalizeOneByteString(string), String); } Handle Factory::InternalizeOneByteString( Handle string, int from, int length) { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->InternalizeOneByteString( string, from, length), String); } Handle Factory::InternalizeTwoByteString(Vector string) { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->InternalizeTwoByteString(string), String); } Handle Factory::NewStringFromOneByte(Vector string, PretenureFlag pretenure) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateStringFromOneByte(string, pretenure), String); } Handle Factory::NewStringFromUtf8(Vector string, PretenureFlag pretenure) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateStringFromUtf8(string, pretenure), String); } Handle Factory::NewStringFromTwoByte(Vector string, PretenureFlag pretenure) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateStringFromTwoByte(string, pretenure), String); } Handle Factory::NewRawOneByteString(int length, PretenureFlag pretenure) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateRawOneByteString(length, pretenure), SeqOneByteString); } Handle Factory::NewRawTwoByteString(int length, PretenureFlag pretenure) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateRawTwoByteString(length, pretenure), SeqTwoByteString); } Handle Factory::NewConsString(Handle first, Handle second) { CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->AllocateConsString(*first, *second), String); } template Handle ConcatStringContent(Handle result, Handle first, Handle second) { DisallowHeapAllocation pointer_stays_valid; SinkChar* sink = result->GetChars(); String::WriteToFlat(*first, sink, 0, first->length()); String::WriteToFlat(*second, sink + first->length(), 0, second->length()); return result; } Handle Factory::NewFlatConcatString(Handle first, Handle second) { int total_length = first->length() + second->length(); if (first->IsOneByteRepresentationUnderneath() && second->IsOneByteRepresentationUnderneath()) { return ConcatStringContent( NewRawOneByteString(total_length), first, second); } else { return ConcatStringContent( NewRawTwoByteString(total_length), first, second); } } Handle Factory::NewSubString(Handle str, int begin, int end) { CALL_HEAP_FUNCTION(isolate(), str->SubString(begin, end), String); } Handle Factory::NewProperSubString(Handle str, int begin, int end) { ASSERT(begin > 0 || end < str->length()); CALL_HEAP_FUNCTION(isolate(), isolate()->heap()->AllocateSubString(*str, begin, end), String); } Handle Factory::NewExternalStringFromAscii( const ExternalAsciiString::Resource* resource) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateExternalStringFromAscii(resource), String); } Handle Factory::NewExternalStringFromTwoByte( const ExternalTwoByteString::Resource* resource) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateExternalStringFromTwoByte(resource), String); } Handle Factory::NewSymbol() { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateSymbol(), Symbol); } Handle Factory::NewNativeContext() { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateNativeContext(), Context); } Handle Factory::NewGlobalContext(Handle function, Handle scope_info) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateGlobalContext(*function, *scope_info), Context); } Handle Factory::NewModuleContext(Handle scope_info) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateModuleContext(*scope_info), Context); } Handle Factory::NewFunctionContext(int length, Handle function) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateFunctionContext(length, *function), Context); } Handle Factory::NewCatchContext(Handle function, Handle previous, Handle name, Handle thrown_object) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateCatchContext(*function, *previous, *name, *thrown_object), Context); } Handle Factory::NewWithContext(Handle function, Handle previous, Handle extension) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateWithContext(*function, *previous, *extension), Context); } Handle Factory::NewBlockContext(Handle function, Handle previous, Handle scope_info) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateBlockContext(*function, *previous, *scope_info), Context); } Handle Factory::NewStruct(InstanceType type) { CALL_HEAP_FUNCTION( isolate(), isolate()->heap()->AllocateStruct(type), Struct); } Handle Factory::NewDeclaredAccessorDescriptor() { return Handle::cast( NewStruct(DECLARED_ACCESSOR_DESCRIPTOR_TYPE)); } Handle Factory::NewDeclaredAccessorInfo() { Handle info = Handle::cast( NewStruct(DECLARED_ACCESSOR_INFO_TYPE)); info->set_flag(0); // Must clear the flag, it was initialized as undefined. return info; } Handle Factory::NewExecutableAccessorInfo() { Handle info = Handle::cast( NewStruct(EXECUTABLE_ACCESSOR_INFO_TYPE)); info->set_flag(0); // Must clear the flag, it was initialized as undefined. return info; } Handle