// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/v8.h" #include "src/interpreter/bytecode-array-builder.h" #include "src/interpreter/bytecode-register-allocator.h" #include "test/unittests/test-utils.h" namespace v8 { namespace internal { namespace interpreter { class BytecodeRegisterAllocatorTest : public TestWithIsolateAndZone { public: BytecodeRegisterAllocatorTest() : allocator_(0) {} ~BytecodeRegisterAllocatorTest() override {} BytecodeRegisterAllocator* allocator() { return &allocator_; } private: BytecodeRegisterAllocator allocator_; }; TEST_F(BytecodeRegisterAllocatorTest, SimpleAllocations) { CHECK_EQ(allocator()->maximum_register_count(), 0); Register reg0 = allocator()->NewRegister(); CHECK_EQ(reg0.index(), 0); CHECK_EQ(allocator()->maximum_register_count(), 1); CHECK_EQ(allocator()->next_register_index(), 1); CHECK(allocator()->RegisterIsLive(reg0)); allocator()->ReleaseRegisters(0); CHECK(!allocator()->RegisterIsLive(reg0)); CHECK_EQ(allocator()->maximum_register_count(), 1); CHECK_EQ(allocator()->next_register_index(), 0); reg0 = allocator()->NewRegister(); Register reg1 = allocator()->NewRegister(); CHECK_EQ(reg0.index(), 0); CHECK_EQ(reg1.index(), 1); CHECK(allocator()->RegisterIsLive(reg0)); CHECK(allocator()->RegisterIsLive(reg1)); CHECK_EQ(allocator()->maximum_register_count(), 2); CHECK_EQ(allocator()->next_register_index(), 2); allocator()->ReleaseRegisters(1); CHECK(allocator()->RegisterIsLive(reg0)); CHECK(!allocator()->RegisterIsLive(reg1)); CHECK_EQ(allocator()->maximum_register_count(), 2); CHECK_EQ(allocator()->next_register_index(), 1); } TEST_F(BytecodeRegisterAllocatorTest, RegisterListAllocations) { CHECK_EQ(allocator()->maximum_register_count(), 0); RegisterList reg_list = allocator()->NewRegisterList(3); CHECK_EQ(reg_list.first_register().index(), 0); CHECK_EQ(reg_list.register_count(), 3); CHECK_EQ(reg_list[0].index(), 0); CHECK_EQ(reg_list[1].index(), 1); CHECK_EQ(reg_list[2].index(), 2); CHECK_EQ(allocator()->maximum_register_count(), 3); CHECK_EQ(allocator()->next_register_index(), 3); CHECK(allocator()->RegisterIsLive(reg_list[2])); Register reg = allocator()->NewRegister(); RegisterList reg_list_2 = allocator()->NewRegisterList(2); CHECK_EQ(reg.index(), 3); CHECK_EQ(reg_list_2.first_register().index(), 4); CHECK_EQ(reg_list_2.register_count(), 2); CHECK_EQ(reg_list_2[0].index(), 4); CHECK_EQ(reg_list_2[1].index(), 5); CHECK_EQ(allocator()->maximum_register_count(), 6); CHECK_EQ(allocator()->next_register_index(), 6); CHECK(allocator()->RegisterIsLive(reg)); CHECK(allocator()->RegisterIsLive(reg_list_2[1])); allocator()->ReleaseRegisters(reg.index()); CHECK(!allocator()->RegisterIsLive(reg)); CHECK(!allocator()->RegisterIsLive(reg_list_2[0])); CHECK(!allocator()->RegisterIsLive(reg_list_2[1])); CHECK(allocator()->RegisterIsLive(reg_list[2])); CHECK_EQ(allocator()->maximum_register_count(), 6); CHECK_EQ(allocator()->next_register_index(), 3); RegisterList empty_reg_list = allocator()->NewRegisterList(0); CHECK_EQ(empty_reg_list.first_register().index(), 0); CHECK_EQ(empty_reg_list.register_count(), 0); CHECK_EQ(allocator()->maximum_register_count(), 6); CHECK_EQ(allocator()->next_register_index(), 3); } TEST_F(BytecodeRegisterAllocatorTest, GrowableRegisterListAllocations) { CHECK_EQ(allocator()->maximum_register_count(), 0); Register reg = allocator()->NewRegister(); CHECK_EQ(reg.index(), 0); RegisterList reg_list = allocator()->NewGrowableRegisterList(); CHECK_EQ(reg_list.register_count(), 0); allocator()->GrowRegisterList(®_list); allocator()->GrowRegisterList(®_list); allocator()->GrowRegisterList(®_list); CHECK_EQ(reg_list.register_count(), 3); CHECK_EQ(reg_list[0].index(), 1); CHECK_EQ(reg_list[1].index(), 2); CHECK_EQ(reg_list[2].index(), 3); CHECK_EQ(allocator()->maximum_register_count(), 4); CHECK_EQ(allocator()->next_register_index(), 4); } } // namespace interpreter } // namespace internal } // namespace v8