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jvanverthd6f80342016-06-16 04:42:30 -07001/*
2 * Copyright 2015 Google Inc.
3 *
4 * Use of this source code is governed by a BSD-style license that can be
5 * found in the LICENSE file.
6 */
7
8// This is a GPU-backend specific test. It relies on static intializers to work
9
10#include "SkTypes.h"
11
12#if SK_SUPPORT_GPU && SK_ALLOW_STATIC_GLOBAL_INITIALIZERS && defined(SK_VULKAN)
13
14#include "GrContextFactory.h"
15#include "GrTest.h"
16#include "Test.h"
17#include "vk/GrVkGpu.h"
18
19using sk_gpu_test::GrContextFactory;
20
21void subheap_test(skiatest::Reporter* reporter, GrContext* context) {
22 GrVkGpu* gpu = static_cast<GrVkGpu*>(context->getGpu());
23
jvanverth68c3d302016-09-23 10:30:04 -070024 // memtype doesn't matter, we're just testing the suballocation algorithm so we'll use 0
25 GrVkSubHeap heap(gpu, 0, 0, 64 * 1024, 32);
jvanverthd6f80342016-06-16 04:42:30 -070026 GrVkAlloc alloc0, alloc1, alloc2, alloc3;
27 // test full allocation and free
28 REPORTER_ASSERT(reporter, heap.alloc(64 * 1024, &alloc0));
29 REPORTER_ASSERT(reporter, alloc0.fOffset == 0);
30 REPORTER_ASSERT(reporter, alloc0.fSize == 64 * 1024);
31 REPORTER_ASSERT(reporter, heap.freeSize() == 0 && heap.largestBlockSize() == 0);
32 heap.free(alloc0);
33 REPORTER_ASSERT(reporter, heap.freeSize() == 64*1024 && heap.largestBlockSize() == 64 * 1024);
34
35 // now let's suballoc some memory
36 REPORTER_ASSERT(reporter, heap.alloc(16 * 1024, &alloc0));
37 REPORTER_ASSERT(reporter, heap.alloc(23 * 1024, &alloc1));
38 REPORTER_ASSERT(reporter, heap.alloc(18 * 1024, &alloc2));
39 REPORTER_ASSERT(reporter, heap.freeSize() == 7 * 1024 && heap.largestBlockSize() == 7 * 1024);
40 // free lone block
41 heap.free(alloc1);
42 REPORTER_ASSERT(reporter, heap.freeSize() == 30 * 1024 && heap.largestBlockSize() == 23 * 1024);
43 // allocate into smallest free block
44 REPORTER_ASSERT(reporter, heap.alloc(6 * 1024, &alloc3));
45 REPORTER_ASSERT(reporter, heap.freeSize() == 24 * 1024 && heap.largestBlockSize() == 23 * 1024);
46 // allocate into exact size free block
47 REPORTER_ASSERT(reporter, heap.alloc(23 * 1024, &alloc1));
48 REPORTER_ASSERT(reporter, heap.freeSize() == 1 * 1024 && heap.largestBlockSize() == 1 * 1024);
49 // free lone block
50 heap.free(alloc2);
51 REPORTER_ASSERT(reporter, heap.freeSize() == 19 * 1024 && heap.largestBlockSize() == 18 * 1024);
52 // free and merge with preceding block and following
53 heap.free(alloc3);
54 REPORTER_ASSERT(reporter, heap.freeSize() == 25 * 1024 && heap.largestBlockSize() == 25 * 1024);
55 // free and merge with following block
56 heap.free(alloc1);
57 REPORTER_ASSERT(reporter, heap.freeSize() == 48 * 1024 && heap.largestBlockSize() == 48 * 1024);
58 // free starting block and merge with following
59 heap.free(alloc0);
60 REPORTER_ASSERT(reporter, heap.freeSize() == 64 * 1024 && heap.largestBlockSize() == 64 * 1024);
61
62 // realloc
63 REPORTER_ASSERT(reporter, heap.alloc(4 * 1024, &alloc0));
64 REPORTER_ASSERT(reporter, heap.alloc(35 * 1024, &alloc1));
65 REPORTER_ASSERT(reporter, heap.alloc(10 * 1024, &alloc2));
66 REPORTER_ASSERT(reporter, heap.freeSize() == 15 * 1024 && heap.largestBlockSize() == 15 * 1024);
67 // free starting block and merge with following
68 heap.free(alloc0);
69 REPORTER_ASSERT(reporter, heap.freeSize() == 19 * 1024 && heap.largestBlockSize() == 15 * 1024);
70 // free block and merge with preceding
71 heap.free(alloc1);
72 REPORTER_ASSERT(reporter, heap.freeSize() == 54 * 1024 && heap.largestBlockSize() == 39 * 1024);
73 // free block and merge with preceding and following
74 heap.free(alloc2);
75 REPORTER_ASSERT(reporter, heap.freeSize() == 64 * 1024 && heap.largestBlockSize() == 64 * 1024);
76
77 // fragment
78 REPORTER_ASSERT(reporter, heap.alloc(19 * 1024, &alloc0));
79 REPORTER_ASSERT(reporter, heap.alloc(5 * 1024, &alloc1));
80 REPORTER_ASSERT(reporter, heap.alloc(15 * 1024, &alloc2));
81 REPORTER_ASSERT(reporter, heap.alloc(3 * 1024, &alloc3));
82 REPORTER_ASSERT(reporter, heap.freeSize() == 22 * 1024 && heap.largestBlockSize() == 22 * 1024);
83 heap.free(alloc0);
84 REPORTER_ASSERT(reporter, heap.freeSize() == 41 * 1024 && heap.largestBlockSize() == 22 * 1024);
85 heap.free(alloc2);
86 REPORTER_ASSERT(reporter, heap.freeSize() == 56 * 1024 && heap.largestBlockSize() == 22 * 1024);
87 REPORTER_ASSERT(reporter, !heap.alloc(40 * 1024, &alloc0));
88 heap.free(alloc3);
89 REPORTER_ASSERT(reporter, heap.freeSize() == 59 * 1024 && heap.largestBlockSize() == 40 * 1024);
90 REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, &alloc0));
91 REPORTER_ASSERT(reporter, heap.freeSize() == 19 * 1024 && heap.largestBlockSize() == 19 * 1024);
92 heap.free(alloc1);
93 REPORTER_ASSERT(reporter, heap.freeSize() == 24 * 1024 && heap.largestBlockSize() == 24 * 1024);
94 heap.free(alloc0);
95 REPORTER_ASSERT(reporter, heap.freeSize() == 64 * 1024 && heap.largestBlockSize() == 64 * 1024);
96
97 // unaligned sizes
98 REPORTER_ASSERT(reporter, heap.alloc(19 * 1024 - 31, &alloc0));
99 REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 5, &alloc1));
100 REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 19, &alloc2));
101 REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 3, &alloc3));
102 REPORTER_ASSERT(reporter, heap.freeSize() == 22 * 1024 && heap.largestBlockSize() == 22 * 1024);
103 heap.free(alloc0);
104 REPORTER_ASSERT(reporter, heap.freeSize() == 41 * 1024 && heap.largestBlockSize() == 22 * 1024);
105 heap.free(alloc2);
106 REPORTER_ASSERT(reporter, heap.freeSize() == 56 * 1024 && heap.largestBlockSize() == 22 * 1024);
107 REPORTER_ASSERT(reporter, !heap.alloc(40 * 1024, &alloc0));
108 heap.free(alloc3);
109 REPORTER_ASSERT(reporter, heap.freeSize() == 59 * 1024 && heap.largestBlockSize() == 40 * 1024);
110 REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, &alloc0));
111 REPORTER_ASSERT(reporter, heap.freeSize() == 19 * 1024 && heap.largestBlockSize() == 19 * 1024);
112 heap.free(alloc1);
113 REPORTER_ASSERT(reporter, heap.freeSize() == 24 * 1024 && heap.largestBlockSize() == 24 * 1024);
114 heap.free(alloc0);
115 REPORTER_ASSERT(reporter, heap.freeSize() == 64 * 1024 && heap.largestBlockSize() == 64 * 1024);
116}
117
118void suballoc_test(skiatest::Reporter* reporter, GrContext* context) {
119 GrVkGpu* gpu = static_cast<GrVkGpu*>(context->getGpu());
120
jvanverth68c3d302016-09-23 10:30:04 -0700121 // memtype/heap index don't matter, we're just testing the allocation algorithm so we'll use 0
jvanverthd6f80342016-06-16 04:42:30 -0700122 GrVkHeap heap(gpu, GrVkHeap::kSubAlloc_Strategy, 64 * 1024);
123 GrVkAlloc alloc0, alloc1, alloc2, alloc3;
124 const VkDeviceSize kAlignment = 16;
jvanverth68c3d302016-09-23 10:30:04 -0700125 const uint32_t kMemType = 0;
jvanverthd6f80342016-06-16 04:42:30 -0700126 const uint32_t kHeapIndex = 0;
127
128 REPORTER_ASSERT(reporter, heap.allocSize() == 0 && heap.usedSize() == 0);
129
130 // fragment allocations so we need to grow heap
jvanverth68c3d302016-09-23 10:30:04 -0700131 REPORTER_ASSERT(reporter, heap.alloc(19 * 1024 - 3, kAlignment, kMemType, kHeapIndex, &alloc0));
132 REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 9, kAlignment, kMemType, kHeapIndex, &alloc1));
133 REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 15, kAlignment, kMemType, kHeapIndex, &alloc2));
134 REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 6, kAlignment, kMemType, kHeapIndex, &alloc3));
jvanverthd6f80342016-06-16 04:42:30 -0700135 REPORTER_ASSERT(reporter, heap.allocSize() == 64 * 1024 && heap.usedSize() == 42 * 1024);
136 heap.free(alloc0);
137 REPORTER_ASSERT(reporter, heap.allocSize() == 64 * 1024 && heap.usedSize() == 23 * 1024);
138 heap.free(alloc2);
139 REPORTER_ASSERT(reporter, heap.allocSize() == 64 * 1024 && heap.usedSize() == 8 * 1024);
140 // we expect the heap to grow here
jvanverth68c3d302016-09-23 10:30:04 -0700141 REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
jvanverthd6f80342016-06-16 04:42:30 -0700142 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 48 * 1024);
143 heap.free(alloc3);
144 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 45 * 1024);
145 // heap should not grow here (first subheap has exactly enough room)
jvanverth68c3d302016-09-23 10:30:04 -0700146 REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc3));
jvanverthd6f80342016-06-16 04:42:30 -0700147 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 85 * 1024);
148 // heap should not grow here (second subheap has room)
jvanverth68c3d302016-09-23 10:30:04 -0700149 REPORTER_ASSERT(reporter, heap.alloc(22 * 1024, kAlignment, kMemType, kHeapIndex, &alloc2));
jvanverthd6f80342016-06-16 04:42:30 -0700150 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 107 * 1024);
151 heap.free(alloc1);
152 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 102 * 1024);
153 heap.free(alloc0);
154 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 62 * 1024);
155 heap.free(alloc2);
156 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 40 * 1024);
157 heap.free(alloc3);
158 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 0 * 1024);
jvanverth6dc3af42016-06-16 14:05:09 -0700159 // heap should not grow here (allocating more than subheap size)
jvanverth68c3d302016-09-23 10:30:04 -0700160 REPORTER_ASSERT(reporter, heap.alloc(128 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
jvanverth6dc3af42016-06-16 14:05:09 -0700161 REPORTER_ASSERT(reporter, 0 == alloc0.fSize);
162 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 0 * 1024);
163 heap.free(alloc0);
jvanverth68c3d302016-09-23 10:30:04 -0700164 REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
165 REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 24 * 1024);
166 // heap should alloc a new subheap because the memory type is different
167 REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType+1, kHeapIndex, &alloc1));
168 REPORTER_ASSERT(reporter, heap.allocSize() == 192 * 1024 && heap.usedSize() == 48 * 1024);
169 // heap should alloc a new subheap because the alignment is different
170 REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, 128, kMemType, kHeapIndex, &alloc2));
171 REPORTER_ASSERT(reporter, heap.allocSize() == 256 * 1024 && heap.usedSize() == 72 * 1024);
172 heap.free(alloc2);
173 heap.free(alloc0);
174 heap.free(alloc1);
175 REPORTER_ASSERT(reporter, heap.allocSize() == 256 * 1024 && heap.usedSize() == 0 * 1024);
jvanverthd6f80342016-06-16 04:42:30 -0700176}
177
178void singlealloc_test(skiatest::Reporter* reporter, GrContext* context) {
179 GrVkGpu* gpu = static_cast<GrVkGpu*>(context->getGpu());
180
jvanverth68c3d302016-09-23 10:30:04 -0700181 // memtype/heap index don't matter, we're just testing the allocation algorithm so we'll use 0
jvanverthd6f80342016-06-16 04:42:30 -0700182 GrVkHeap heap(gpu, GrVkHeap::kSingleAlloc_Strategy, 64 * 1024);
183 GrVkAlloc alloc0, alloc1, alloc2, alloc3;
184 const VkDeviceSize kAlignment = 64;
jvanverth68c3d302016-09-23 10:30:04 -0700185 const uint32_t kMemType = 0;
jvanverthd6f80342016-06-16 04:42:30 -0700186 const uint32_t kHeapIndex = 0;
187
188 REPORTER_ASSERT(reporter, heap.allocSize() == 0 && heap.usedSize() == 0);
189
190 // make a few allocations
jvanverth68c3d302016-09-23 10:30:04 -0700191 REPORTER_ASSERT(reporter, heap.alloc(49 * 1024 - 3, kAlignment, kMemType, kHeapIndex, &alloc0));
192 REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 37, kAlignment, kMemType, kHeapIndex, &alloc1));
193 REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 11, kAlignment, kMemType, kHeapIndex, &alloc2));
194 REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 29, kAlignment, kMemType, kHeapIndex, &alloc3));
jvanverthd6f80342016-06-16 04:42:30 -0700195 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 72 * 1024);
196 heap.free(alloc0);
197 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 23 * 1024);
198 heap.free(alloc2);
199 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 8 * 1024);
200 // heap should not grow here (first subheap has room)
jvanverth68c3d302016-09-23 10:30:04 -0700201 REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
jvanverthd6f80342016-06-16 04:42:30 -0700202 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 48 * 1024);
203 heap.free(alloc3);
204 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 45 * 1024);
205 // check for exact fit -- heap should not grow here (third subheap has room)
jvanverth68c3d302016-09-23 10:30:04 -0700206 REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 63, kAlignment, kMemType, kHeapIndex, &alloc2));
jvanverthd6f80342016-06-16 04:42:30 -0700207 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 60 * 1024);
208 heap.free(alloc2);
209 REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 45 * 1024);
210 // heap should grow here (no subheap has room)
jvanverth68c3d302016-09-23 10:30:04 -0700211 REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc3));
jvanverthd6f80342016-06-16 04:42:30 -0700212 REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 85 * 1024);
213 heap.free(alloc1);
214 REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 80 * 1024);
215 heap.free(alloc0);
216 REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 40 * 1024);
217 heap.free(alloc3);
218 REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 0 * 1024);
jvanverth68c3d302016-09-23 10:30:04 -0700219 REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
220 REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 24 * 1024);
221 // heap should alloc a new subheap because the memory type is different
222 REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType + 1, kHeapIndex, &alloc1));
223 REPORTER_ASSERT(reporter, heap.allocSize() == 136 * 1024 && heap.usedSize() == 48 * 1024);
224 // heap should alloc a new subheap because the alignment is different
225 REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, 128, kMemType, kHeapIndex, &alloc2));
226 REPORTER_ASSERT(reporter, heap.allocSize() == 160 * 1024 && heap.usedSize() == 72 * 1024);
227 heap.free(alloc1);
228 heap.free(alloc2);
229 heap.free(alloc0);
230 REPORTER_ASSERT(reporter, heap.allocSize() == 160 * 1024 && heap.usedSize() == 0 * 1024);
jvanverthd6f80342016-06-16 04:42:30 -0700231}
232
233DEF_GPUTEST_FOR_VULKAN_CONTEXT(VkHeapTests, reporter, ctxInfo) {
234 subheap_test(reporter, ctxInfo.grContext());
235 suballoc_test(reporter, ctxInfo.grContext());
236 singlealloc_test(reporter, ctxInfo.grContext());
237}
238
239#endif