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Side by Side Diff: runtime/vm/zone_test.cc

Issue 11028145: Changed StackZone and ApiZone to be containers for Zone. (Closed) Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart
Patch Set: Rewrote ApiScope unwinding functions, in-lined them. Created 8 years, 2 months ago
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1 // Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file 1 // Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
2 // for details. All rights reserved. Use of this source code is governed by a 2 // for details. All rights reserved. Use of this source code is governed by a
3 // BSD-style license that can be found in the LICENSE file. 3 // BSD-style license that can be found in the LICENSE file.
4 4
5 #include "platform/assert.h" 5 #include "platform/assert.h"
6 #include "vm/dart.h" 6 #include "vm/dart.h"
7 #include "vm/isolate.h" 7 #include "vm/isolate.h"
8 #include "vm/unit_test.h" 8 #include "vm/unit_test.h"
9 #include "vm/zone.h" 9 #include "vm/zone.h"
10 10
11 namespace dart { 11 namespace dart {
12 12
13 DECLARE_DEBUG_FLAG(bool, trace_zone_sizes); 13 DECLARE_DEBUG_FLAG(bool, trace_zone_sizes);
14 14
15 UNIT_TEST_CASE(AllocateZone) { 15 UNIT_TEST_CASE(AllocateZone) {
16 #if defined(DEBUG) 16 #if defined(DEBUG)
17 FLAG_trace_zone_sizes = true; 17 FLAG_trace_zone_sizes = true;
18 #endif 18 #endif
19 Isolate* isolate = Isolate::Init(NULL); 19 Isolate* isolate = Isolate::Init(NULL);
20 EXPECT(Isolate::Current() == isolate); 20 EXPECT(Isolate::Current() == isolate);
21 EXPECT(isolate->current_zone() == NULL); 21 EXPECT(isolate->current_zone() == NULL);
22 { 22 {
23 StackZone zone(isolate); 23 StackZone stack_zone(isolate);
24 EXPECT(isolate->current_zone() != NULL); 24 EXPECT(isolate->current_zone() != NULL);
25 Zone* zone = stack_zone.GetZone();
25 intptr_t allocated_size = 0; 26 intptr_t allocated_size = 0;
26 27
27 // The loop is to make sure we overflow one segment and go on 28 // The loop is to make sure we overflow one segment and go on
28 // to the next segment. 29 // to the next segment.
29 for (int i = 0; i < 1000; i++) { 30 for (int i = 0; i < 1000; i++) {
30 uword first = zone.AllocUnsafe(2 * kWordSize); 31 uword first = zone->AllocUnsafe(2 * kWordSize);
31 uword second = zone.AllocUnsafe(3 * kWordSize); 32 uword second = zone->AllocUnsafe(3 * kWordSize);
32 EXPECT(first != second); 33 EXPECT(first != second);
33 allocated_size = ((2 + 3) * kWordSize); 34 allocated_size = ((2 + 3) * kWordSize);
34 } 35 }
35 EXPECT_LE(allocated_size, zone.SizeInBytes()); 36 EXPECT_LE(allocated_size, zone->SizeInBytes());
36 37
37 // Test for allocation of large segments. 38 // Test for allocation of large segments.
38 const uword kLargeSize = 1 * MB; 39 const uword kLargeSize = 1 * MB;
39 const uword kSegmentSize = 64 * KB; 40 const uword kSegmentSize = 64 * KB;
40 ASSERT(kLargeSize > kSegmentSize); 41 ASSERT(kLargeSize > kSegmentSize);
41 for (int i = 0; i < 10; i++) { 42 for (int i = 0; i < 10; i++) {
42 EXPECT(zone.AllocUnsafe(kLargeSize) != 0); 43 EXPECT(zone->AllocUnsafe(kLargeSize) != 0);
43 allocated_size += kLargeSize; 44 allocated_size += kLargeSize;
44 } 45 }
45 EXPECT_LE(allocated_size, zone.SizeInBytes()); 46 EXPECT_LE(allocated_size, zone->SizeInBytes());
46 47
47 // Test corner cases of kSegmentSize. 48 // Test corner cases of kSegmentSize.
48 uint8_t* buffer = NULL; 49 uint8_t* buffer = NULL;
49 buffer = reinterpret_cast<uint8_t*>( 50 buffer = reinterpret_cast<uint8_t*>(
50 zone.AllocUnsafe(kSegmentSize - kWordSize)); 51 zone->AllocUnsafe(kSegmentSize - kWordSize));
51 EXPECT(buffer != NULL); 52 EXPECT(buffer != NULL);
52 buffer[(kSegmentSize - kWordSize) - 1] = 0; 53 buffer[(kSegmentSize - kWordSize) - 1] = 0;
53 allocated_size += (kSegmentSize - kWordSize); 54 allocated_size += (kSegmentSize - kWordSize);
54 EXPECT_LE(allocated_size, zone.SizeInBytes()); 55 EXPECT_LE(allocated_size, zone->SizeInBytes());
55 56
56 buffer = reinterpret_cast<uint8_t*>( 57 buffer = reinterpret_cast<uint8_t*>(
57 zone.AllocUnsafe(kSegmentSize - (2 * kWordSize))); 58 zone->AllocUnsafe(kSegmentSize - (2 * kWordSize)));
58 EXPECT(buffer != NULL); 59 EXPECT(buffer != NULL);
59 buffer[(kSegmentSize - (2 * kWordSize)) - 1] = 0; 60 buffer[(kSegmentSize - (2 * kWordSize)) - 1] = 0;
60 allocated_size += (kSegmentSize - (2 * kWordSize)); 61 allocated_size += (kSegmentSize - (2 * kWordSize));
61 EXPECT_LE(allocated_size, zone.SizeInBytes()); 62 EXPECT_LE(allocated_size, zone->SizeInBytes());
62 63
63 buffer = reinterpret_cast<uint8_t*>( 64 buffer = reinterpret_cast<uint8_t*>(
64 zone.AllocUnsafe(kSegmentSize + kWordSize)); 65 zone->AllocUnsafe(kSegmentSize + kWordSize));
65 EXPECT(buffer != NULL); 66 EXPECT(buffer != NULL);
66 buffer[(kSegmentSize + kWordSize) - 1] = 0; 67 buffer[(kSegmentSize + kWordSize) - 1] = 0;
67 allocated_size += (kSegmentSize + kWordSize); 68 allocated_size += (kSegmentSize + kWordSize);
68 EXPECT_LE(allocated_size, zone.SizeInBytes()); 69 EXPECT_LE(allocated_size, zone->SizeInBytes());
69 } 70 }
70 EXPECT(isolate->current_zone() == NULL); 71 EXPECT(isolate->current_zone() == NULL);
71 isolate->Shutdown(); 72 isolate->Shutdown();
72 delete isolate; 73 delete isolate;
73 } 74 }
74 75
75 76
76 UNIT_TEST_CASE(AllocGeneric_Success) { 77 UNIT_TEST_CASE(AllocGeneric_Success) {
77 #if defined(DEBUG) 78 #if defined(DEBUG)
78 FLAG_trace_zone_sizes = true; 79 FLAG_trace_zone_sizes = true;
79 #endif 80 #endif
80 Isolate* isolate = Isolate::Init(NULL); 81 Isolate* isolate = Isolate::Init(NULL);
81 EXPECT(Isolate::Current() == isolate); 82 EXPECT(Isolate::Current() == isolate);
82 EXPECT(isolate->current_zone() == NULL); 83 EXPECT(isolate->current_zone() == NULL);
83 { 84 {
84 StackZone zone(isolate); 85 StackZone zone(isolate);
85 EXPECT(isolate->current_zone() != NULL); 86 EXPECT(isolate->current_zone() != NULL);
86 intptr_t allocated_size = 0; 87 intptr_t allocated_size = 0;
87 88
88 const intptr_t kNumElements = 1000; 89 const intptr_t kNumElements = 1000;
89 zone.Alloc<uint32_t>(kNumElements); 90 zone.GetZone()->Alloc<uint32_t>(kNumElements);
90 allocated_size += sizeof(uint32_t) * kNumElements; 91 allocated_size += sizeof(uint32_t) * kNumElements;
91 EXPECT_LE(allocated_size, zone.SizeInBytes()); 92 EXPECT_LE(allocated_size, zone.SizeInBytes());
92 } 93 }
93 EXPECT(isolate->current_zone() == NULL); 94 EXPECT(isolate->current_zone() == NULL);
94 isolate->Shutdown(); 95 isolate->Shutdown();
95 delete isolate; 96 delete isolate;
96 } 97 }
97 98
98 99
99 // This test is expected to crash. 100 // This test is expected to crash.
100 UNIT_TEST_CASE(AllocGeneric_Overflow) { 101 UNIT_TEST_CASE(AllocGeneric_Overflow) {
101 #if defined(DEBUG) 102 #if defined(DEBUG)
102 FLAG_trace_zone_sizes = true; 103 FLAG_trace_zone_sizes = true;
103 #endif 104 #endif
104 Isolate* isolate = Isolate::Init(NULL); 105 Isolate* isolate = Isolate::Init(NULL);
105 EXPECT(Isolate::Current() == isolate); 106 EXPECT(Isolate::Current() == isolate);
106 EXPECT(isolate->current_zone() == NULL); 107 EXPECT(isolate->current_zone() == NULL);
107 { 108 {
108 StackZone zone(isolate); 109 StackZone zone(isolate);
109 EXPECT(isolate->current_zone() != NULL); 110 EXPECT(isolate->current_zone() != NULL);
110 111
111 const intptr_t kNumElements = (kIntptrMax / sizeof(uint32_t)) + 1; 112 const intptr_t kNumElements = (kIntptrMax / sizeof(uint32_t)) + 1;
112 zone.Alloc<uint32_t>(kNumElements); 113 zone.GetZone()->Alloc<uint32_t>(kNumElements);
113 } 114 }
114 isolate->Shutdown(); 115 isolate->Shutdown();
115 delete isolate; 116 delete isolate;
116 } 117 }
117 118
118 119
119 UNIT_TEST_CASE(ZoneAllocated) { 120 UNIT_TEST_CASE(ZoneAllocated) {
120 #if defined(DEBUG) 121 #if defined(DEBUG)
121 FLAG_trace_zone_sizes = true; 122 FLAG_trace_zone_sizes = true;
122 #endif 123 #endif
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158 EXPECT_EQ(87, second->slot); 159 EXPECT_EQ(87, second->slot);
159 } 160 }
160 EXPECT(isolate->current_zone() == NULL); 161 EXPECT(isolate->current_zone() == NULL);
161 isolate->Shutdown(); 162 isolate->Shutdown();
162 delete isolate; 163 delete isolate;
163 } 164 }
164 165
165 166
166 TEST_CASE(PrintToString) { 167 TEST_CASE(PrintToString) {
167 StackZone zone(Isolate::Current()); 168 StackZone zone(Isolate::Current());
168 const char* result = zone.PrintToString("Hello %s!", "World"); 169 const char* result = zone.GetZone()->PrintToString("Hello %s!", "World");
169 EXPECT_STREQ("Hello World!", result); 170 EXPECT_STREQ("Hello World!", result);
170 } 171 }
171 172
172 } // namespace dart 173 } // namespace dart
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