| Index: tests/VkHeapTests.cpp
|
| diff --git a/tests/VkHeapTests.cpp b/tests/VkHeapTests.cpp
|
| index 4561c9080349c189e31566c0b19eefb19f480b7d..c4a9beb5f23d14248e188090fadccf2a23409ae7 100755
|
| --- a/tests/VkHeapTests.cpp
|
| +++ b/tests/VkHeapTests.cpp
|
| @@ -21,8 +21,8 @@
|
| void subheap_test(skiatest::Reporter* reporter, GrContext* context) {
|
| GrVkGpu* gpu = static_cast<GrVkGpu*>(context->getGpu());
|
|
|
| - // memtype doesn't matter, we're just testing the suballocation algorithm so we'll use 0
|
| - GrVkSubHeap heap(gpu, 0, 0, 64 * 1024, 32);
|
| + // heap index doesn't matter, we're just testing the suballocation algorithm so we'll use 0
|
| + GrVkSubHeap heap(gpu, 0, 64 * 1024, 32);
|
| GrVkAlloc alloc0, alloc1, alloc2, alloc3;
|
| // test full allocation and free
|
| REPORTER_ASSERT(reporter, heap.alloc(64 * 1024, &alloc0));
|
| @@ -118,35 +118,34 @@
|
| void suballoc_test(skiatest::Reporter* reporter, GrContext* context) {
|
| GrVkGpu* gpu = static_cast<GrVkGpu*>(context->getGpu());
|
|
|
| - // memtype/heap index don't matter, we're just testing the allocation algorithm so we'll use 0
|
| + // heap index doesn't matter, we're just testing the allocation algorithm so we'll use 0
|
| GrVkHeap heap(gpu, GrVkHeap::kSubAlloc_Strategy, 64 * 1024);
|
| GrVkAlloc alloc0, alloc1, alloc2, alloc3;
|
| const VkDeviceSize kAlignment = 16;
|
| - const uint32_t kMemType = 0;
|
| const uint32_t kHeapIndex = 0;
|
|
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 0 && heap.usedSize() == 0);
|
|
|
| // fragment allocations so we need to grow heap
|
| - REPORTER_ASSERT(reporter, heap.alloc(19 * 1024 - 3, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| - REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 9, kAlignment, kMemType, kHeapIndex, &alloc1));
|
| - REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 15, kAlignment, kMemType, kHeapIndex, &alloc2));
|
| - REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 6, kAlignment, kMemType, kHeapIndex, &alloc3));
|
| + REPORTER_ASSERT(reporter, heap.alloc(19 * 1024 - 3, kAlignment, kHeapIndex, &alloc0));
|
| + REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 9, kAlignment, kHeapIndex, &alloc1));
|
| + REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 15, kAlignment, kHeapIndex, &alloc2));
|
| + REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 6, kAlignment, kHeapIndex, &alloc3));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 64 * 1024 && heap.usedSize() == 42 * 1024);
|
| heap.free(alloc0);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 64 * 1024 && heap.usedSize() == 23 * 1024);
|
| heap.free(alloc2);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 64 * 1024 && heap.usedSize() == 8 * 1024);
|
| // we expect the heap to grow here
|
| - REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| + REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kHeapIndex, &alloc0));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 48 * 1024);
|
| heap.free(alloc3);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 45 * 1024);
|
| // heap should not grow here (first subheap has exactly enough room)
|
| - REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc3));
|
| + REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kHeapIndex, &alloc3));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 85 * 1024);
|
| // heap should not grow here (second subheap has room)
|
| - REPORTER_ASSERT(reporter, heap.alloc(22 * 1024, kAlignment, kMemType, kHeapIndex, &alloc2));
|
| + REPORTER_ASSERT(reporter, heap.alloc(22 * 1024, kAlignment, kHeapIndex, &alloc2));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 107 * 1024);
|
| heap.free(alloc1);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 102 * 1024);
|
| @@ -157,58 +156,45 @@
|
| heap.free(alloc3);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 0 * 1024);
|
| // heap should not grow here (allocating more than subheap size)
|
| - REPORTER_ASSERT(reporter, heap.alloc(128 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| + REPORTER_ASSERT(reporter, heap.alloc(128 * 1024, kAlignment, kHeapIndex, &alloc0));
|
| REPORTER_ASSERT(reporter, 0 == alloc0.fSize);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 0 * 1024);
|
| heap.free(alloc0);
|
| - REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 128 * 1024 && heap.usedSize() == 24 * 1024);
|
| - // heap should alloc a new subheap because the memory type is different
|
| - REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType+1, kHeapIndex, &alloc1));
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 192 * 1024 && heap.usedSize() == 48 * 1024);
|
| - // heap should alloc a new subheap because the alignment is different
|
| - REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, 128, kMemType, kHeapIndex, &alloc2));
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 256 * 1024 && heap.usedSize() == 72 * 1024);
|
| - heap.free(alloc2);
|
| - heap.free(alloc0);
|
| - heap.free(alloc1);
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 256 * 1024 && heap.usedSize() == 0 * 1024);
|
| }
|
|
|
| void singlealloc_test(skiatest::Reporter* reporter, GrContext* context) {
|
| GrVkGpu* gpu = static_cast<GrVkGpu*>(context->getGpu());
|
|
|
| - // memtype/heap index don't matter, we're just testing the allocation algorithm so we'll use 0
|
| + // heap index doesn't matter, we're just testing the allocation algorithm so we'll use 0
|
| GrVkHeap heap(gpu, GrVkHeap::kSingleAlloc_Strategy, 64 * 1024);
|
| GrVkAlloc alloc0, alloc1, alloc2, alloc3;
|
| const VkDeviceSize kAlignment = 64;
|
| - const uint32_t kMemType = 0;
|
| const uint32_t kHeapIndex = 0;
|
|
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 0 && heap.usedSize() == 0);
|
|
|
| // make a few allocations
|
| - REPORTER_ASSERT(reporter, heap.alloc(49 * 1024 - 3, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| - REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 37, kAlignment, kMemType, kHeapIndex, &alloc1));
|
| - REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 11, kAlignment, kMemType, kHeapIndex, &alloc2));
|
| - REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 29, kAlignment, kMemType, kHeapIndex, &alloc3));
|
| + REPORTER_ASSERT(reporter, heap.alloc(49 * 1024 - 3, kAlignment, kHeapIndex, &alloc0));
|
| + REPORTER_ASSERT(reporter, heap.alloc(5 * 1024 - 37, kAlignment, kHeapIndex, &alloc1));
|
| + REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 11, kAlignment, kHeapIndex, &alloc2));
|
| + REPORTER_ASSERT(reporter, heap.alloc(3 * 1024 - 29, kAlignment, kHeapIndex, &alloc3));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 72 * 1024);
|
| heap.free(alloc0);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 23 * 1024);
|
| heap.free(alloc2);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 8 * 1024);
|
| // heap should not grow here (first subheap has room)
|
| - REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| + REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kHeapIndex, &alloc0));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 48 * 1024);
|
| heap.free(alloc3);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 45 * 1024);
|
| // check for exact fit -- heap should not grow here (third subheap has room)
|
| - REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 63, kAlignment, kMemType, kHeapIndex, &alloc2));
|
| + REPORTER_ASSERT(reporter, heap.alloc(15 * 1024 - 63, kAlignment, kHeapIndex, &alloc2));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 60 * 1024);
|
| heap.free(alloc2);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 72 * 1024 && heap.usedSize() == 45 * 1024);
|
| // heap should grow here (no subheap has room)
|
| - REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kMemType, kHeapIndex, &alloc3));
|
| + REPORTER_ASSERT(reporter, heap.alloc(40 * 1024, kAlignment, kHeapIndex, &alloc3));
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 85 * 1024);
|
| heap.free(alloc1);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 80 * 1024);
|
| @@ -216,18 +202,6 @@
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 40 * 1024);
|
| heap.free(alloc3);
|
| REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 0 * 1024);
|
| - REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType, kHeapIndex, &alloc0));
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 112 * 1024 && heap.usedSize() == 24 * 1024);
|
| - // heap should alloc a new subheap because the memory type is different
|
| - REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, kAlignment, kMemType + 1, kHeapIndex, &alloc1));
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 136 * 1024 && heap.usedSize() == 48 * 1024);
|
| - // heap should alloc a new subheap because the alignment is different
|
| - REPORTER_ASSERT(reporter, heap.alloc(24 * 1024, 128, kMemType, kHeapIndex, &alloc2));
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 160 * 1024 && heap.usedSize() == 72 * 1024);
|
| - heap.free(alloc1);
|
| - heap.free(alloc2);
|
| - heap.free(alloc0);
|
| - REPORTER_ASSERT(reporter, heap.allocSize() == 160 * 1024 && heap.usedSize() == 0 * 1024);
|
| }
|
|
|
| DEF_GPUTEST_FOR_VULKAN_CONTEXT(VkHeapTests, reporter, ctxInfo) {
|
|
|
Chromium Code Reviews
Issue 2358123004:
Revert of Some Vulkan memory fixes and cleanup (Closed)
