982fff264d
See https://source.android.com/setup/contribute/respectful-code for reference Bug: 162536543 Change-Id: Ia9c81c2251ac7bf4eef6d37799741612989fc9c0 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/307228 Reviewed-by: Mike Klein <mtklein@google.com> Commit-Queue: Leon Scroggins <scroggo@google.com>
643 lines
25 KiB
C++
643 lines
25 KiB
C++
/*
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* Copyright 2020 Google LLC
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "src/gpu/GrBlockAllocator.h"
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#include "tests/Test.h"
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using Block = GrBlockAllocator::Block;
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using GrowthPolicy = GrBlockAllocator::GrowthPolicy;
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// Helper functions for modifying the allocator in a controlled manner
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template<size_t N>
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static int block_count(const GrSBlockAllocator<N>& pool) {
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int ct = 0;
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for (const Block* b : pool->blocks()) {
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(void) b;
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ct++;
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}
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return ct;
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}
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template<size_t N>
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static Block* get_block(GrSBlockAllocator<N>& pool, int blockIndex) {
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Block* found = nullptr;
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int i = 0;
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for (Block* b: pool->blocks()) {
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if (i == blockIndex) {
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found = b;
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break;
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}
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i++;
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}
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SkASSERT(found != nullptr);
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return found;
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}
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// GrBlockAllocator holds on to the largest last-released block to reuse for new allocations,
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// and this is still counted in its totalSize(). However, it's easier to reason about size - scratch
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// in many of these tests.
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template<size_t N>
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static size_t total_size(GrSBlockAllocator<N>& pool) {
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return pool->totalSize() - pool->testingOnly_scratchBlockSize();
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}
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template<size_t N>
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static size_t add_block(GrSBlockAllocator<N>& pool) {
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size_t currentSize = total_size(pool);
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GrBlockAllocator::Block* current = pool->currentBlock();
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while(pool->currentBlock() == current) {
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pool->template allocate<4>(pool->preallocSize() / 2);
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}
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return total_size(pool) - currentSize;
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}
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template<size_t N>
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static void* alloc_byte(GrSBlockAllocator<N>& pool) {
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auto br = pool->template allocate<1>(1);
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return br.fBlock->ptr(br.fAlignedOffset);
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}
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DEF_TEST(GrBlockAllocatorPreallocSize, r) {
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// Tests stack/member initialization, option #1 described in doc
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GrBlockAllocator stack{GrowthPolicy::kFixed, 2048};
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SkDEBUGCODE(stack.validate();)
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REPORTER_ASSERT(r, stack.preallocSize() == sizeof(GrBlockAllocator));
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REPORTER_ASSERT(r, stack.preallocUsableSpace() == (size_t) stack.currentBlock()->avail());
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// Tests placement new initialization to increase head block size, option #2
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void* mem = operator new(1024);
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GrBlockAllocator* placement = new (mem) GrBlockAllocator(GrowthPolicy::kLinear, 1024,
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1024 - sizeof(GrBlockAllocator));
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REPORTER_ASSERT(r, placement->preallocSize() == 1024);
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REPORTER_ASSERT(r, placement->preallocUsableSpace() < 1024 &&
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placement->preallocUsableSpace() >= (1024 - sizeof(GrBlockAllocator)));
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delete placement;
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// Tests inline increased preallocation, option #3
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GrSBlockAllocator<2048> inlined{};
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SkDEBUGCODE(inlined->validate();)
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REPORTER_ASSERT(r, inlined->preallocSize() == 2048);
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REPORTER_ASSERT(r, inlined->preallocUsableSpace() < 2048 &&
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inlined->preallocUsableSpace() >= (2048 - sizeof(GrBlockAllocator)));
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}
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DEF_TEST(GrBlockAllocatorAlloc, r) {
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GrSBlockAllocator<1024> pool{};
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SkDEBUGCODE(pool->validate();)
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// Assumes the previous pointer was in the same block
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auto validate_ptr = [&](int align, int size,
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GrBlockAllocator::ByteRange br,
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GrBlockAllocator::ByteRange* prevBR) {
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uintptr_t pt = reinterpret_cast<uintptr_t>(br.fBlock->ptr(br.fAlignedOffset));
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// Matches the requested align
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REPORTER_ASSERT(r, pt % align == 0);
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// And large enough
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REPORTER_ASSERT(r, br.fEnd - br.fAlignedOffset >= size);
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// And has enough padding for alignment
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REPORTER_ASSERT(r, br.fAlignedOffset - br.fStart >= 0);
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REPORTER_ASSERT(r, br.fAlignedOffset - br.fStart <= align - 1);
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// And block of the returned struct is the current block of the allocator
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REPORTER_ASSERT(r, pool->currentBlock() == br.fBlock);
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// And make sure that we're past the required end of the previous allocation
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if (prevBR) {
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uintptr_t prevEnd =
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reinterpret_cast<uintptr_t>(prevBR->fBlock->ptr(prevBR->fEnd - 1));
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REPORTER_ASSERT(r, pt > prevEnd);
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}
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};
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auto p1 = pool->allocate<1>(14);
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validate_ptr(1, 14, p1, nullptr);
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auto p2 = pool->allocate<2>(24);
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validate_ptr(2, 24, p2, &p1);
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auto p4 = pool->allocate<4>(28);
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validate_ptr(4, 28, p4, &p2);
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auto p8 = pool->allocate<8>(40);
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validate_ptr(8, 40, p8, &p4);
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auto p16 = pool->allocate<16>(64);
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validate_ptr(16, 64, p16, &p8);
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auto p32 = pool->allocate<32>(96);
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validate_ptr(32, 96, p32, &p16);
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// All of these allocations should be in the head block
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REPORTER_ASSERT(r, total_size(pool) == pool->preallocSize());
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SkDEBUGCODE(pool->validate();)
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// Requesting an allocation of avail() should not make a new block
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size_t avail = pool->currentBlock()->avail<4>();
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auto pAvail = pool->allocate<4>(avail);
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validate_ptr(4, avail, pAvail, &p32);
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// Remaining should be less than the alignment that was requested, and then
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// the next allocation will make a new block
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REPORTER_ASSERT(r, pool->currentBlock()->avail<4>() < 4);
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auto pNextBlock = pool->allocate<4>(4);
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validate_ptr(4, 4, pNextBlock, nullptr);
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REPORTER_ASSERT(r, total_size(pool) > pool->preallocSize());
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// Allocating more than avail() makes an another block
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size_t currentSize = total_size(pool);
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size_t bigRequest = pool->currentBlock()->avail<4>() * 2;
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auto pTooBig = pool->allocate<4>(bigRequest);
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validate_ptr(4, bigRequest, pTooBig, nullptr);
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REPORTER_ASSERT(r, total_size(pool) > currentSize);
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// Allocating more than the default growth policy (1024 in this case), will fulfill the request
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REPORTER_ASSERT(r, total_size(pool) - currentSize < 4096);
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currentSize = total_size(pool);
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auto pReallyTooBig = pool->allocate<4>(4096);
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validate_ptr(4, 4096, pReallyTooBig, nullptr);
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REPORTER_ASSERT(r, total_size(pool) >= currentSize + 4096);
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SkDEBUGCODE(pool->validate();)
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}
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DEF_TEST(GrBlockAllocatorResize, r) {
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GrSBlockAllocator<1024> pool{};
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SkDEBUGCODE(pool->validate();)
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// Fixed resize from 16 to 32
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auto p = pool->allocate<4>(16);
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REPORTER_ASSERT(r, p.fBlock->avail<4>() > 16);
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REPORTER_ASSERT(r, p.fBlock->resize(p.fStart, p.fEnd, 16));
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p.fEnd += 16;
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// Subsequent allocation is 32 bytes ahead of 'p' now, and 'p' cannot be resized further.
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auto pNext = pool->allocate<4>(16);
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REPORTER_ASSERT(r, reinterpret_cast<uintptr_t>(pNext.fBlock->ptr(pNext.fAlignedOffset)) -
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reinterpret_cast<uintptr_t>(pNext.fBlock->ptr(p.fAlignedOffset)) == 32);
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REPORTER_ASSERT(r, p.fBlock == pNext.fBlock);
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REPORTER_ASSERT(r, !p.fBlock->resize(p.fStart, p.fEnd, 48));
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// Confirm that releasing pNext allows 'p' to be resized, and that it can be resized up to avail
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REPORTER_ASSERT(r, p.fBlock->release(pNext.fStart, pNext.fEnd));
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int fillBlock = p.fBlock->avail<4>();
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REPORTER_ASSERT(r, p.fBlock->resize(p.fStart, p.fEnd, fillBlock));
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p.fEnd += fillBlock;
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// Confirm that resizing when there's not enough room fails
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REPORTER_ASSERT(r, p.fBlock->avail<4>() < fillBlock);
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REPORTER_ASSERT(r, !p.fBlock->resize(p.fStart, p.fEnd, fillBlock));
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// Confirm that we can shrink 'p' back to 32 bytes and then further allocate again
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int shrinkTo32 = p.fStart - p.fEnd + 32;
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REPORTER_ASSERT(r, p.fBlock->resize(p.fStart, p.fEnd, shrinkTo32));
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p.fEnd += shrinkTo32;
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REPORTER_ASSERT(r, p.fEnd - p.fStart == 32);
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pNext = pool->allocate<4>(16);
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REPORTER_ASSERT(r, reinterpret_cast<uintptr_t>(pNext.fBlock->ptr(pNext.fAlignedOffset)) -
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reinterpret_cast<uintptr_t>(pNext.fBlock->ptr(p.fAlignedOffset)) == 32);
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SkDEBUGCODE(pool->validate();)
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// Confirm that we can't shrink past the start of the allocation, but we can shrink it to 0
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int shrinkTo0 = pNext.fStart - pNext.fEnd;
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#ifndef SK_DEBUG
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// Only test for false on release builds; a negative size should assert on debug builds
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REPORTER_ASSERT(r, !pNext.fBlock->resize(pNext.fStart, pNext.fEnd, shrinkTo0 - 1));
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#endif
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REPORTER_ASSERT(r, pNext.fBlock->resize(pNext.fStart, pNext.fEnd, shrinkTo0));
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}
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DEF_TEST(GrBlockAllocatorRelease, r) {
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GrSBlockAllocator<1024> pool{};
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SkDEBUGCODE(pool->validate();)
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// Successful allocate and release
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auto p = pool->allocate<8>(32);
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REPORTER_ASSERT(r, pool->currentBlock()->release(p.fStart, p.fEnd));
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// Ensure the above release actually means the next allocation reuses the same space
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auto p2 = pool->allocate<8>(32);
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REPORTER_ASSERT(r, p.fStart == p2.fStart);
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// Confirm that 'p2' cannot be released if another allocation came after it
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auto p3 = pool->allocate<8>(64);
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(void) p3;
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REPORTER_ASSERT(r, !p2.fBlock->release(p2.fStart, p2.fEnd));
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// Confirm that 'p4' can be released if 'p5' is released first, and confirm that 'p2' and 'p3'
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// can be released simultaneously (equivalent to 'p3' then 'p2').
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auto p4 = pool->allocate<8>(16);
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auto p5 = pool->allocate<8>(96);
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REPORTER_ASSERT(r, p5.fBlock->release(p5.fStart, p5.fEnd));
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REPORTER_ASSERT(r, p4.fBlock->release(p4.fStart, p4.fEnd));
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REPORTER_ASSERT(r, p2.fBlock->release(p2.fStart, p3.fEnd));
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// And confirm that passing in the wrong size for the allocation fails
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p = pool->allocate<8>(32);
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REPORTER_ASSERT(r, !p.fBlock->release(p.fStart, p.fEnd - 16));
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REPORTER_ASSERT(r, !p.fBlock->release(p.fStart, p.fEnd + 16));
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REPORTER_ASSERT(r, p.fBlock->release(p.fStart, p.fEnd));
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SkDEBUGCODE(pool->validate();)
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}
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DEF_TEST(GrBlockAllocatorRewind, r) {
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// Confirm that a bunch of allocations and then releases in stack order fully goes back to the
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// start of the block (i.e. unwinds the entire stack, and not just the last cursor position)
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GrSBlockAllocator<1024> pool{};
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SkDEBUGCODE(pool->validate();)
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std::vector<GrBlockAllocator::ByteRange> ptrs;
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for (int i = 0; i < 32; ++i) {
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ptrs.push_back(pool->allocate<4>(16));
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}
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// Release everything in reverse order
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SkDEBUGCODE(pool->validate();)
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for (int i = 31; i >= 0; --i) {
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auto br = ptrs[i];
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REPORTER_ASSERT(r, br.fBlock->release(br.fStart, br.fEnd));
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}
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// If correct, we've rewound all the way back to the start of the block, so a new allocation
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// will have the same location as ptrs[0]
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SkDEBUGCODE(pool->validate();)
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REPORTER_ASSERT(r, pool->allocate<4>(16).fStart == ptrs[0].fStart);
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}
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DEF_TEST(GrBlockAllocatorGrowthPolicy, r) {
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static constexpr int kInitSize = 128;
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static constexpr int kBlockCount = 5;
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static constexpr size_t kExpectedSizes[GrBlockAllocator::kGrowthPolicyCount][kBlockCount] = {
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// kFixed -> kInitSize per block
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{ kInitSize, kInitSize, kInitSize, kInitSize, kInitSize },
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// kLinear -> (block ct + 1) * kInitSize for next block
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{ kInitSize, 2 * kInitSize, 3 * kInitSize, 4 * kInitSize, 5 * kInitSize },
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// kFibonacci -> 1, 1, 2, 3, 5 * kInitSize for the blocks
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{ kInitSize, kInitSize, 2 * kInitSize, 3 * kInitSize, 5 * kInitSize },
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// kExponential -> 1, 2, 4, 8, 16 * kInitSize for the blocks
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{ kInitSize, 2 * kInitSize, 4 * kInitSize, 8 * kInitSize, 16 * kInitSize },
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};
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for (int gp = 0; gp < GrBlockAllocator::kGrowthPolicyCount; ++gp) {
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GrSBlockAllocator<kInitSize> pool{(GrowthPolicy) gp};
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SkDEBUGCODE(pool->validate();)
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REPORTER_ASSERT(r, kExpectedSizes[gp][0] == total_size(pool));
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for (int i = 1; i < kBlockCount; ++i) {
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REPORTER_ASSERT(r, kExpectedSizes[gp][i] == add_block(pool));
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}
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SkDEBUGCODE(pool->validate();)
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}
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}
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DEF_TEST(GrBlockAllocatorReset, r) {
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static constexpr int kBlockIncrement = 1024;
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GrSBlockAllocator<kBlockIncrement> pool{GrowthPolicy::kLinear};
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SkDEBUGCODE(pool->validate();)
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void* firstAlloc = alloc_byte(pool);
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// Add several blocks
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add_block(pool);
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add_block(pool);
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add_block(pool);
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SkDEBUGCODE(pool->validate();)
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REPORTER_ASSERT(r, block_count(pool) == 4); // 3 added plus the implicit head
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get_block(pool, 0)->setMetadata(2);
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// Reset and confirm that there's only one block, a new allocation matches 'firstAlloc' again,
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// and new blocks are sized based on a reset growth policy.
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pool->reset();
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SkDEBUGCODE(pool->validate();)
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REPORTER_ASSERT(r,block_count(pool) == 1);
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REPORTER_ASSERT(r, pool->preallocSize() == pool->totalSize());
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REPORTER_ASSERT(r, get_block(pool, 0)->metadata() == 0);
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REPORTER_ASSERT(r, firstAlloc == alloc_byte(pool));
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REPORTER_ASSERT(r, 2 * kBlockIncrement == add_block(pool));
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REPORTER_ASSERT(r, 3 * kBlockIncrement == add_block(pool));
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SkDEBUGCODE(pool->validate();)
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}
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DEF_TEST(GrBlockAllocatorReleaseBlock, r) {
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// This loops over all growth policies to make sure that the incremental releases update the
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// sequence correctly for each policy.
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for (int gp = 0; gp < GrBlockAllocator::kGrowthPolicyCount; ++gp) {
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GrSBlockAllocator<1024> pool{(GrowthPolicy) gp};
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SkDEBUGCODE(pool->validate();)
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void* firstAlloc = alloc_byte(pool);
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size_t b1Size = total_size(pool);
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size_t b2Size = add_block(pool);
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size_t b3Size = add_block(pool);
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size_t b4Size = add_block(pool);
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SkDEBUGCODE(pool->validate();)
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get_block(pool, 0)->setMetadata(1);
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get_block(pool, 1)->setMetadata(2);
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get_block(pool, 2)->setMetadata(3);
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get_block(pool, 3)->setMetadata(4);
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// Remove the 3 added blocks, but always remove the i = 1 to test intermediate removal (and
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// on the last iteration, will test tail removal).
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REPORTER_ASSERT(r, total_size(pool) == b1Size + b2Size + b3Size + b4Size);
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pool->releaseBlock(get_block(pool, 1));
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REPORTER_ASSERT(r, block_count(pool) == 3);
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REPORTER_ASSERT(r, get_block(pool, 1)->metadata() == 3);
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REPORTER_ASSERT(r, total_size(pool) == b1Size + b3Size + b4Size);
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pool->releaseBlock(get_block(pool, 1));
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REPORTER_ASSERT(r, block_count(pool) == 2);
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REPORTER_ASSERT(r, get_block(pool, 1)->metadata() == 4);
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REPORTER_ASSERT(r, total_size(pool) == b1Size + b4Size);
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pool->releaseBlock(get_block(pool, 1));
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REPORTER_ASSERT(r, block_count(pool) == 1);
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REPORTER_ASSERT(r, total_size(pool) == b1Size);
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// Since we're back to just the head block, if we add a new block, the growth policy should
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// match the original sequence instead of continuing with "b5Size'"
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pool->resetScratchSpace();
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size_t size = add_block(pool);
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REPORTER_ASSERT(r, size == b2Size);
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pool->releaseBlock(get_block(pool, 1));
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// Explicitly release the head block and confirm it's reset
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pool->releaseBlock(get_block(pool, 0));
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REPORTER_ASSERT(r, total_size(pool) == pool->preallocSize());
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REPORTER_ASSERT(r, block_count(pool) == 1);
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REPORTER_ASSERT(r, firstAlloc == alloc_byte(pool));
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REPORTER_ASSERT(r, get_block(pool, 0)->metadata() == 0); // metadata reset too
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// Confirm that if we have > 1 block, but release the head block we can still access the
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// others
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add_block(pool);
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add_block(pool);
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pool->releaseBlock(get_block(pool, 0));
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REPORTER_ASSERT(r, block_count(pool) == 3);
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SkDEBUGCODE(pool->validate();)
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}
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}
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DEF_TEST(GrBlockAllocatorIterateAndRelease, r) {
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GrSBlockAllocator<256> pool;
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pool->headBlock()->setMetadata(1);
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add_block(pool);
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add_block(pool);
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add_block(pool);
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// Loop forward and release the blocks
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int releaseCount = 0;
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for (auto* b : pool->blocks()) {
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pool->releaseBlock(b);
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releaseCount++;
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}
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REPORTER_ASSERT(r, releaseCount == 4);
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// pool should have just the head block, but was reset
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REPORTER_ASSERT(r, pool->headBlock()->metadata() == 0);
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REPORTER_ASSERT(r, block_count(pool) == 1);
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// Add more blocks
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pool->headBlock()->setMetadata(1);
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add_block(pool);
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add_block(pool);
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add_block(pool);
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// Loop in reverse and release the blocks
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releaseCount = 0;
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for (auto* b : pool->rblocks()) {
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pool->releaseBlock(b);
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releaseCount++;
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}
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REPORTER_ASSERT(r, releaseCount == 4);
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// pool should have just the head block, but was reset
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REPORTER_ASSERT(r, pool->headBlock()->metadata() == 0);
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REPORTER_ASSERT(r, block_count(pool) == 1);
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}
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DEF_TEST(GrBlockAllocatorScratchBlockReserve, r) {
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GrSBlockAllocator<256> pool;
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size_t added = add_block(pool);
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REPORTER_ASSERT(r, pool->testingOnly_scratchBlockSize() == 0);
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size_t total = pool->totalSize();
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pool->releaseBlock(pool->currentBlock());
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// Total size shouldn't have changed, the released block should become scratch
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REPORTER_ASSERT(r, pool->totalSize() == total);
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REPORTER_ASSERT(r, (size_t) pool->testingOnly_scratchBlockSize() == added);
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// But a reset definitely deletes any scratch block
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pool->reset();
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REPORTER_ASSERT(r, pool->testingOnly_scratchBlockSize() == 0);
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|
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// Reserving more than what's available adds a scratch block, and current block remains avail.
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size_t avail = pool->currentBlock()->avail();
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size_t reserve = avail + 1;
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pool->reserve(reserve);
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REPORTER_ASSERT(r, (size_t) pool->currentBlock()->avail() == avail);
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// And rounds up to the fixed size of this pool's growth policy
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REPORTER_ASSERT(r, (size_t) pool->testingOnly_scratchBlockSize() >= reserve &&
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pool->testingOnly_scratchBlockSize() % 256 == 0);
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|
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// Allocating more than avail activates the scratch block (so totalSize doesn't change)
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size_t preAllocTotalSize = pool->totalSize();
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pool->allocate<1>(avail + 1);
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REPORTER_ASSERT(r, (size_t) pool->testingOnly_scratchBlockSize() == 0);
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REPORTER_ASSERT(r, pool->totalSize() == preAllocTotalSize);
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|
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// When reserving less than what's still available in the current block, no scratch block is
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// added.
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pool->reserve(pool->currentBlock()->avail());
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REPORTER_ASSERT(r, pool->testingOnly_scratchBlockSize() == 0);
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|
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// Unless checking available bytes is disabled
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pool->reserve(pool->currentBlock()->avail(), GrBlockAllocator::kIgnoreExistingBytes_Flag);
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REPORTER_ASSERT(r, pool->testingOnly_scratchBlockSize() > 0);
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|
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// If kIgnoreGrowthPolicy is specified, the new scratch block should not have been updated to
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// follow the size (which in this case is a fixed 256 bytes per block).
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pool->resetScratchSpace();
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pool->reserve(32, GrBlockAllocator::kIgnoreGrowthPolicy_Flag);
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REPORTER_ASSERT(r, pool->testingOnly_scratchBlockSize() > 0 &&
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pool->testingOnly_scratchBlockSize() < 256);
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|
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// When requesting an allocation larger than the current block and the scratch block, a new
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// block is added, and the scratch block remains scratch.
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GrBlockAllocator::Block* oldTail = pool->currentBlock();
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avail = oldTail->avail();
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size_t scratchAvail = 2 * avail;
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pool->reserve(scratchAvail);
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REPORTER_ASSERT(r, (size_t) pool->testingOnly_scratchBlockSize() >= scratchAvail);
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|
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// This allocation request is higher than oldTail's available, and the scratch size so we
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|
// should add a new block and scratch size should stay the same.
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scratchAvail = pool->testingOnly_scratchBlockSize();
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pool->allocate<1>(scratchAvail + 1);
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REPORTER_ASSERT(r, pool->currentBlock() != oldTail);
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REPORTER_ASSERT(r, (size_t) pool->testingOnly_scratchBlockSize() == scratchAvail);
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}
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|
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DEF_TEST(GrBlockAllocatorStealBlocks, r) {
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GrSBlockAllocator<256> poolA;
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GrSBlockAllocator<128> poolB;
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|
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add_block(poolA);
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add_block(poolA);
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add_block(poolA);
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|
|
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add_block(poolB);
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add_block(poolB);
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|
|
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char* bAlloc = (char*) alloc_byte(poolB);
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*bAlloc = 't';
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|
|
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const GrBlockAllocator::Block* allocOwner = poolB->findOwningBlock(bAlloc);
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|
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REPORTER_ASSERT(r, block_count(poolA) == 4);
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REPORTER_ASSERT(r, block_count(poolB) == 3);
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|
|
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size_t aSize = poolA->totalSize();
|
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size_t bSize = poolB->totalSize();
|
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size_t theftSize = bSize - poolB->preallocSize();
|
|
|
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// This steal should move B's 2 heap blocks to A, bringing A to 6 and B to just its head
|
|
poolA->stealHeapBlocks(poolB.allocator());
|
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REPORTER_ASSERT(r, block_count(poolA) == 6);
|
|
REPORTER_ASSERT(r, block_count(poolB) == 1);
|
|
REPORTER_ASSERT(r, poolB->preallocSize() == poolB->totalSize());
|
|
REPORTER_ASSERT(r, poolA->totalSize() == aSize + theftSize);
|
|
|
|
REPORTER_ASSERT(r, *bAlloc == 't');
|
|
REPORTER_ASSERT(r, (uintptr_t) poolA->findOwningBlock(bAlloc) == (uintptr_t) allocOwner);
|
|
REPORTER_ASSERT(r, !poolB->findOwningBlock(bAlloc));
|
|
|
|
// Redoing the steal now that B is just a head block should be a no-op
|
|
poolA->stealHeapBlocks(poolB.allocator());
|
|
REPORTER_ASSERT(r, block_count(poolA) == 6);
|
|
REPORTER_ASSERT(r, block_count(poolB) == 1);
|
|
}
|
|
|
|
// These tests ensure that the allocation padding mechanism works as intended
|
|
struct TestMeta {
|
|
int fX1;
|
|
int fX2;
|
|
};
|
|
struct alignas(32) TestMetaBig {
|
|
int fX1;
|
|
int fX2;
|
|
};
|
|
|
|
DEF_TEST(GrBlockAllocatorMetadata, r) {
|
|
GrSBlockAllocator<1024> pool{};
|
|
SkDEBUGCODE(pool->validate();)
|
|
|
|
// Allocation where alignment of user data > alignment of metadata
|
|
SkASSERT(alignof(TestMeta) < 16);
|
|
auto p1 = pool->allocate<16, sizeof(TestMeta)>(16);
|
|
SkDEBUGCODE(pool->validate();)
|
|
|
|
REPORTER_ASSERT(r, p1.fAlignedOffset - p1.fStart >= (int) sizeof(TestMeta));
|
|
TestMeta* meta = static_cast<TestMeta*>(p1.fBlock->ptr(p1.fAlignedOffset - sizeof(TestMeta)));
|
|
// Confirm alignment for both pointers
|
|
REPORTER_ASSERT(r, reinterpret_cast<uintptr_t>(meta) % alignof(TestMeta) == 0);
|
|
REPORTER_ASSERT(r, reinterpret_cast<uintptr_t>(p1.fBlock->ptr(p1.fAlignedOffset)) % 16 == 0);
|
|
// Access fields to make sure 'meta' matches compilers expectations...
|
|
meta->fX1 = 2;
|
|
meta->fX2 = 5;
|
|
|
|
// Repeat, but for metadata that has a larger alignment than the allocation
|
|
SkASSERT(alignof(TestMetaBig) == 32);
|
|
auto p2 = pool->allocate<alignof(TestMetaBig), sizeof(TestMetaBig)>(16);
|
|
SkDEBUGCODE(pool->validate();)
|
|
|
|
REPORTER_ASSERT(r, p2.fAlignedOffset - p2.fStart >= (int) sizeof(TestMetaBig));
|
|
TestMetaBig* metaBig = static_cast<TestMetaBig*>(
|
|
p2.fBlock->ptr(p2.fAlignedOffset - sizeof(TestMetaBig)));
|
|
// Confirm alignment for both pointers
|
|
REPORTER_ASSERT(r, reinterpret_cast<uintptr_t>(metaBig) % alignof(TestMetaBig) == 0);
|
|
REPORTER_ASSERT(r, reinterpret_cast<uintptr_t>(p2.fBlock->ptr(p2.fAlignedOffset)) % 16 == 0);
|
|
// Access fields
|
|
metaBig->fX1 = 3;
|
|
metaBig->fX2 = 6;
|
|
|
|
// Ensure metadata values persist after allocations
|
|
REPORTER_ASSERT(r, meta->fX1 == 2 && meta->fX2 == 5);
|
|
REPORTER_ASSERT(r, metaBig->fX1 == 3 && metaBig->fX2 == 6);
|
|
}
|
|
|
|
DEF_TEST(GrBlockAllocatorAllocatorMetadata, r) {
|
|
GrSBlockAllocator<256> pool{};
|
|
SkDEBUGCODE(pool->validate();)
|
|
|
|
REPORTER_ASSERT(r, pool->metadata() == 0); // initial value
|
|
|
|
pool->setMetadata(4);
|
|
REPORTER_ASSERT(r, pool->metadata() == 4);
|
|
|
|
// Releasing the head block doesn't change the allocator's metadata (even though that's where
|
|
// it is stored).
|
|
pool->releaseBlock(pool->headBlock());
|
|
REPORTER_ASSERT(r, pool->metadata() == 4);
|
|
|
|
// But resetting the whole allocator brings things back to as if it were newly constructed
|
|
pool->reset();
|
|
REPORTER_ASSERT(r, pool->metadata() == 0);
|
|
}
|
|
|
|
template<size_t Align, size_t Padding>
|
|
static void run_owning_block_test(skiatest::Reporter* r, GrBlockAllocator* pool) {
|
|
auto br = pool->allocate<Align, Padding>(1);
|
|
|
|
void* userPtr = br.fBlock->ptr(br.fAlignedOffset);
|
|
void* metaPtr = br.fBlock->ptr(br.fAlignedOffset - Padding);
|
|
|
|
Block* block = pool->owningBlock<Align, Padding>(userPtr, br.fStart);
|
|
REPORTER_ASSERT(r, block == br.fBlock);
|
|
|
|
block = pool->owningBlock<Align>(metaPtr, br.fStart);
|
|
REPORTER_ASSERT(r, block == br.fBlock);
|
|
|
|
block = reinterpret_cast<Block*>(reinterpret_cast<uintptr_t>(userPtr) - br.fAlignedOffset);
|
|
REPORTER_ASSERT(r, block == br.fBlock);
|
|
}
|
|
|
|
template<size_t Padding>
|
|
static void run_owning_block_tests(skiatest::Reporter* r, GrBlockAllocator* pool) {
|
|
run_owning_block_test<1, Padding>(r, pool);
|
|
run_owning_block_test<2, Padding>(r, pool);
|
|
run_owning_block_test<4, Padding>(r, pool);
|
|
run_owning_block_test<8, Padding>(r, pool);
|
|
run_owning_block_test<16, Padding>(r, pool);
|
|
run_owning_block_test<32, Padding>(r, pool);
|
|
run_owning_block_test<64, Padding>(r, pool);
|
|
run_owning_block_test<128, Padding>(r, pool);
|
|
}
|
|
|
|
DEF_TEST(GrBlockAllocatorOwningBlock, r) {
|
|
GrSBlockAllocator<1024> pool{};
|
|
SkDEBUGCODE(pool->validate();)
|
|
|
|
run_owning_block_tests<1>(r, pool.allocator());
|
|
run_owning_block_tests<2>(r, pool.allocator());
|
|
run_owning_block_tests<4>(r, pool.allocator());
|
|
run_owning_block_tests<8>(r, pool.allocator());
|
|
run_owning_block_tests<16>(r, pool.allocator());
|
|
run_owning_block_tests<32>(r, pool.allocator());
|
|
|
|
// And some weird numbers
|
|
run_owning_block_tests<3>(r, pool.allocator());
|
|
run_owning_block_tests<9>(r, pool.allocator());
|
|
run_owning_block_tests<17>(r, pool.allocator());
|
|
}
|