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1 // Copyright 2015 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #include "src/v8.h"
6 
7 #include "src/factory.h"
8 #include "src/heap/heap.h"
9 #include "src/heap/heap-inl.h"
10 #include "src/runtime/runtime.h"
11 #include "test/unittests/test-utils.h"
12 
13 namespace v8 {
14 namespace internal {
15 namespace interpreter {
16 
17 class RuntimeInterpreterTest : public TestWithIsolateAndZone {
18  public:
19   typedef Object* (*RuntimeMethod)(int, Object**, Isolate*);
20 
RuntimeInterpreterTest()21   RuntimeInterpreterTest() {}
~RuntimeInterpreterTest()22   ~RuntimeInterpreterTest() override {}
23 
24   bool TestOperatorWithObjects(RuntimeMethod method, Handle<Object> lhs,
25                                Handle<Object> rhs, bool expected);
26   bool TestOperator(RuntimeMethod method, int32_t lhs, int32_t rhs,
27                     bool expected);
28   bool TestOperator(RuntimeMethod method, double lhs, double rhs,
29                     bool expected);
30   bool TestOperator(RuntimeMethod method, const char* lhs, const char* rhs,
31                     bool expected);
32 };
33 
34 
TestOperatorWithObjects(RuntimeMethod method,Handle<Object> lhs,Handle<Object> rhs,bool expected)35 bool RuntimeInterpreterTest::TestOperatorWithObjects(RuntimeMethod method,
36                                                      Handle<Object> lhs,
37                                                      Handle<Object> rhs,
38                                                      bool expected) {
39   Object* args_object[] = {*rhs, *lhs};
40   Handle<Object> result =
41       handle(method(2, &args_object[1], isolate()), isolate());
42   CHECK(result->IsTrue() || result->IsFalse());
43   return result->IsTrue() == expected;
44 }
45 
46 
TestOperator(RuntimeMethod method,int32_t lhs,int32_t rhs,bool expected)47 bool RuntimeInterpreterTest::TestOperator(RuntimeMethod method, int32_t lhs,
48                                           int32_t rhs, bool expected) {
49   Handle<Object> x = isolate()->factory()->NewNumberFromInt(lhs);
50   Handle<Object> y = isolate()->factory()->NewNumberFromInt(rhs);
51   return TestOperatorWithObjects(method, x, y, expected);
52 }
53 
54 
TestOperator(RuntimeMethod method,double lhs,double rhs,bool expected)55 bool RuntimeInterpreterTest::TestOperator(RuntimeMethod method, double lhs,
56                                           double rhs, bool expected) {
57   Handle<Object> x = isolate()->factory()->NewNumber(lhs);
58   Handle<Object> y = isolate()->factory()->NewNumber(rhs);
59   CHECK_EQ(HeapNumber::cast(*x)->value(), lhs);
60   CHECK_EQ(HeapNumber::cast(*y)->value(), rhs);
61   return TestOperatorWithObjects(method, x, y, expected);
62 }
63 
64 
TestOperator(RuntimeMethod method,const char * lhs,const char * rhs,bool expected)65 bool RuntimeInterpreterTest::TestOperator(RuntimeMethod method, const char* lhs,
66                                           const char* rhs, bool expected) {
67   Handle<Object> x = isolate()->factory()->NewStringFromAsciiChecked(lhs);
68   Handle<Object> y = isolate()->factory()->NewStringFromAsciiChecked(rhs);
69   return TestOperatorWithObjects(method, x, y, expected);
70 }
71 
72 
TEST_F(RuntimeInterpreterTest,TestOperatorsWithIntegers)73 TEST_F(RuntimeInterpreterTest, TestOperatorsWithIntegers) {
74   int32_t inputs[] = {kMinInt, Smi::kMinValue, -17,    -1, 0, 1,
75                       991,     Smi::kMaxValue, kMaxInt};
76   TRACED_FOREACH(int, lhs, inputs) {
77     TRACED_FOREACH(int, rhs, inputs) {
78 #define INTEGER_OPERATOR_CHECK(r, op, x, y) \
79   CHECK(TestOperator(Runtime_Interpreter##r, x, y, x op y))
80       INTEGER_OPERATOR_CHECK(Equals, ==, lhs, rhs);
81       INTEGER_OPERATOR_CHECK(NotEquals, !=, lhs, rhs);
82       INTEGER_OPERATOR_CHECK(StrictEquals, ==, lhs, rhs);
83       INTEGER_OPERATOR_CHECK(StrictNotEquals, !=, lhs, rhs);
84       INTEGER_OPERATOR_CHECK(LessThan, <, lhs, rhs);
85       INTEGER_OPERATOR_CHECK(GreaterThan, >, lhs, rhs);
86       INTEGER_OPERATOR_CHECK(LessThanOrEqual, <=, lhs, rhs);
87       INTEGER_OPERATOR_CHECK(GreaterThanOrEqual, >=, lhs, rhs);
88 #undef INTEGER_OPERATOR_CHECK
89     }
90   }
91 }
92 
93 
TEST_F(RuntimeInterpreterTest,TestOperatorsWithDoubles)94 TEST_F(RuntimeInterpreterTest, TestOperatorsWithDoubles) {
95   double inputs[] = {std::numeric_limits<double>::min(),
96                      std::numeric_limits<double>::max(),
97                      -0.001,
98                      0.01,
99                      3.14,
100                      -6.02214086e23};
101   TRACED_FOREACH(double, lhs, inputs) {
102     TRACED_FOREACH(double, rhs, inputs) {
103 #define DOUBLE_OPERATOR_CHECK(r, op, x, y) \
104   CHECK(TestOperator(Runtime_Interpreter##r, x, y, x op y))
105       DOUBLE_OPERATOR_CHECK(Equals, ==, lhs, rhs);
106       DOUBLE_OPERATOR_CHECK(NotEquals, !=, lhs, rhs);
107       DOUBLE_OPERATOR_CHECK(StrictEquals, ==, lhs, rhs);
108       DOUBLE_OPERATOR_CHECK(StrictNotEquals, !=, lhs, rhs);
109       DOUBLE_OPERATOR_CHECK(LessThan, <, lhs, rhs);
110       DOUBLE_OPERATOR_CHECK(GreaterThan, >, lhs, rhs);
111       DOUBLE_OPERATOR_CHECK(LessThanOrEqual, <=, lhs, rhs);
112       DOUBLE_OPERATOR_CHECK(GreaterThanOrEqual, >=, lhs, rhs);
113 #undef DOUBLE_OPERATOR_CHECK
114     }
115   }
116 }
117 
118 
TEST_F(RuntimeInterpreterTest,TestOperatorsWithString)119 TEST_F(RuntimeInterpreterTest, TestOperatorsWithString) {
120   const char* inputs[] = {"abc", "a", "def", "0"};
121   TRACED_FOREACH(const char*, lhs, inputs) {
122     TRACED_FOREACH(const char*, rhs, inputs) {
123 #define STRING_OPERATOR_CHECK(r, op, x, y)         \
124   CHECK(TestOperator(Runtime_Interpreter##r, x, y, \
125                      std::string(x) op std::string(y)))
126       STRING_OPERATOR_CHECK(Equals, ==, lhs, rhs);
127       STRING_OPERATOR_CHECK(NotEquals, !=, lhs, rhs);
128       STRING_OPERATOR_CHECK(StrictEquals, ==, lhs, rhs);
129       STRING_OPERATOR_CHECK(StrictNotEquals, !=, lhs, rhs);
130       STRING_OPERATOR_CHECK(LessThan, <, lhs, rhs);
131       STRING_OPERATOR_CHECK(GreaterThan, >, lhs, rhs);
132       STRING_OPERATOR_CHECK(LessThanOrEqual, <=, lhs, rhs);
133       STRING_OPERATOR_CHECK(GreaterThanOrEqual, >=, lhs, rhs);
134 #undef STRING_OPERATOR_CHECK
135     }
136   }
137 }
138 
139 
TEST_F(RuntimeInterpreterTest,ToBoolean)140 TEST_F(RuntimeInterpreterTest, ToBoolean) {
141   double quiet_nan = std::numeric_limits<double>::quiet_NaN();
142   std::pair<Handle<Object>, bool> cases[] = {
143       std::make_pair(isolate()->factory()->NewNumberFromInt(0), false),
144       std::make_pair(isolate()->factory()->NewNumberFromInt(1), true),
145       std::make_pair(isolate()->factory()->NewNumberFromInt(100), true),
146       std::make_pair(isolate()->factory()->NewNumberFromInt(-1), true),
147       std::make_pair(isolate()->factory()->NewNumber(7.7), true),
148       std::make_pair(isolate()->factory()->NewNumber(0.00001), true),
149       std::make_pair(isolate()->factory()->NewNumber(quiet_nan), false),
150       std::make_pair(isolate()->factory()->NewHeapNumber(0.0), false),
151       std::make_pair(isolate()->factory()->undefined_value(), false),
152       std::make_pair(isolate()->factory()->null_value(), false),
153       std::make_pair(isolate()->factory()->true_value(), true),
154       std::make_pair(isolate()->factory()->false_value(), false),
155       std::make_pair(isolate()->factory()->NewStringFromStaticChars(""), false),
156       std::make_pair(isolate()->factory()->NewStringFromStaticChars("_"), true),
157   };
158 
159   for (size_t i = 0; i < arraysize(cases); i++) {
160     auto& value_expected_tuple = cases[i];
161     Object* args_object[] = {*value_expected_tuple.first};
162     Handle<Object> result = handle(
163         Runtime_InterpreterToBoolean(1, &args_object[0], isolate()), isolate());
164     CHECK(result->IsBoolean());
165     CHECK_EQ(result->IsTrue(), value_expected_tuple.second);
166   }
167 }
168 
169 
170 }  // namespace interpreter
171 }  // namespace internal
172 }  // namespace v8
173