core: hle: kernel: k_page_heap: Refresh.
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6257461684
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@ -44,11 +44,11 @@ size_t KPageHeap::GetNumFreePages() const {
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return num_free;
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return num_free;
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}
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}
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PAddr KPageHeap::AllocateBlock(s32 index, bool random) {
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PAddr KPageHeap::AllocateByLinearSearch(s32 index) {
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const size_t needed_size = m_blocks[index].GetSize();
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const size_t needed_size = m_blocks[index].GetSize();
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for (s32 i = index; i < static_cast<s32>(m_num_blocks); i++) {
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for (s32 i = index; i < static_cast<s32>(m_num_blocks); i++) {
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if (const PAddr addr = m_blocks[i].PopBlock(random); addr != 0) {
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if (const PAddr addr = m_blocks[i].PopBlock(false); addr != 0) {
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if (const size_t allocated_size = m_blocks[i].GetSize(); allocated_size > needed_size) {
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if (const size_t allocated_size = m_blocks[i].GetSize(); allocated_size > needed_size) {
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this->Free(addr + needed_size, (allocated_size - needed_size) / PageSize);
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this->Free(addr + needed_size, (allocated_size - needed_size) / PageSize);
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}
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}
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@ -59,6 +59,88 @@ PAddr KPageHeap::AllocateBlock(s32 index, bool random) {
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return 0;
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return 0;
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}
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}
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PAddr KPageHeap::AllocateByRandom(s32 index, size_t num_pages, size_t align_pages) {
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// Get the size and required alignment.
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const size_t needed_size = num_pages * PageSize;
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const size_t align_size = align_pages * PageSize;
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// Determine meta-alignment of our desired alignment size.
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const size_t align_shift = std::countr_zero(align_size);
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// Decide on a block to allocate from.
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constexpr size_t MinimumPossibleAlignmentsForRandomAllocation = 4;
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{
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// By default, we'll want to look at all blocks larger than our current one.
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s32 max_blocks = static_cast<s32>(m_num_blocks);
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// Determine the maximum block we should try to allocate from.
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size_t possible_alignments = 0;
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for (s32 i = index; i < max_blocks; ++i) {
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// Add the possible alignments from blocks at the current size.
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possible_alignments += (1 + ((m_blocks[i].GetSize() - needed_size) >> align_shift)) *
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m_blocks[i].GetNumFreeBlocks();
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// If there are enough possible alignments, we don't need to look at larger blocks.
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if (possible_alignments >= MinimumPossibleAlignmentsForRandomAllocation) {
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max_blocks = i + 1;
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break;
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}
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}
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// If we have any possible alignments which require a larger block, we need to pick one.
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if (possible_alignments > 0 && index + 1 < max_blocks) {
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// Select a random alignment from the possibilities.
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const size_t rnd = m_rng.GenerateRandom(possible_alignments);
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// Determine which block corresponds to the random alignment we chose.
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possible_alignments = 0;
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for (s32 i = index; i < max_blocks; ++i) {
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// Add the possible alignments from blocks at the current size.
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possible_alignments +=
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(1 + ((m_blocks[i].GetSize() - needed_size) >> align_shift)) *
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m_blocks[i].GetNumFreeBlocks();
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// If the current block gets us to our random choice, use the current block.
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if (rnd < possible_alignments) {
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index = i;
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break;
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}
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}
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}
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}
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// Pop a block from the index we selected.
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if (PAddr addr = m_blocks[index].PopBlock(true); addr != 0) {
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// Determine how much size we have left over.
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if (const size_t leftover_size = m_blocks[index].GetSize() - needed_size;
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leftover_size > 0) {
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// Determine how many valid alignments we can have.
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const size_t possible_alignments = 1 + (leftover_size >> align_shift);
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// Select a random valid alignment.
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const size_t random_offset = m_rng.GenerateRandom(possible_alignments) << align_shift;
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// Free memory before the random offset.
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if (random_offset != 0) {
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this->Free(addr, random_offset / PageSize);
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}
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// Advance our block by the random offset.
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addr += random_offset;
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// Free memory after our allocated block.
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if (random_offset != leftover_size) {
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this->Free(addr + needed_size, (leftover_size - random_offset) / PageSize);
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}
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}
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// Return the block we allocated.
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return addr;
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}
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return 0;
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}
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void KPageHeap::FreeBlock(PAddr block, s32 index) {
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void KPageHeap::FreeBlock(PAddr block, s32 index) {
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do {
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do {
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block = m_blocks[index++].PushBlock(block);
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block = m_blocks[index++].PushBlock(block);
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@ -14,13 +14,9 @@
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namespace Kernel {
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namespace Kernel {
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class KPageHeap final {
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class KPageHeap {
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public:
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public:
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YUZU_NON_COPYABLE(KPageHeap);
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YUZU_NON_MOVEABLE(KPageHeap);
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KPageHeap() = default;
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KPageHeap() = default;
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~KPageHeap() = default;
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constexpr PAddr GetAddress() const {
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constexpr PAddr GetAddress() const {
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return m_heap_address;
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return m_heap_address;
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@ -57,7 +53,20 @@ public:
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m_initial_used_size = m_heap_size - free_size - reserved_size;
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m_initial_used_size = m_heap_size - free_size - reserved_size;
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}
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}
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PAddr AllocateBlock(s32 index, bool random);
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PAddr AllocateBlock(s32 index, bool random) {
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if (random) {
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const size_t block_pages = m_blocks[index].GetNumPages();
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return this->AllocateByRandom(index, block_pages, block_pages);
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} else {
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return this->AllocateByLinearSearch(index);
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}
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}
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PAddr AllocateAligned(s32 index, size_t num_pages, size_t align_pages) {
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// TODO: linear search support?
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return this->AllocateByRandom(index, num_pages, align_pages);
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}
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void Free(PAddr addr, size_t num_pages);
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void Free(PAddr addr, size_t num_pages);
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static size_t CalculateManagementOverheadSize(size_t region_size) {
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static size_t CalculateManagementOverheadSize(size_t region_size) {
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@ -68,7 +77,7 @@ public:
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static constexpr s32 GetAlignedBlockIndex(size_t num_pages, size_t align_pages) {
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static constexpr s32 GetAlignedBlockIndex(size_t num_pages, size_t align_pages) {
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const size_t target_pages = std::max(num_pages, align_pages);
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const size_t target_pages = std::max(num_pages, align_pages);
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for (size_t i = 0; i < NumMemoryBlockPageShifts; i++) {
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for (size_t i = 0; i < NumMemoryBlockPageShifts; i++) {
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if (target_pages <= (size_t(1) << MemoryBlockPageShifts[i]) / PageSize) {
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if (target_pages <= (static_cast<size_t>(1) << MemoryBlockPageShifts[i]) / PageSize) {
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return static_cast<s32>(i);
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return static_cast<s32>(i);
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}
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}
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}
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}
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@ -77,7 +86,7 @@ public:
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static constexpr s32 GetBlockIndex(size_t num_pages) {
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static constexpr s32 GetBlockIndex(size_t num_pages) {
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for (s32 i = static_cast<s32>(NumMemoryBlockPageShifts) - 1; i >= 0; i--) {
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for (s32 i = static_cast<s32>(NumMemoryBlockPageShifts) - 1; i >= 0; i--) {
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if (num_pages >= (size_t(1) << MemoryBlockPageShifts[i]) / PageSize) {
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if (num_pages >= (static_cast<size_t>(1) << MemoryBlockPageShifts[i]) / PageSize) {
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return i;
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return i;
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}
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}
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}
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}
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@ -85,7 +94,7 @@ public:
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}
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}
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static constexpr size_t GetBlockSize(size_t index) {
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static constexpr size_t GetBlockSize(size_t index) {
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return size_t(1) << MemoryBlockPageShifts[index];
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return static_cast<size_t>(1) << MemoryBlockPageShifts[index];
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}
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}
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static constexpr size_t GetBlockNumPages(size_t index) {
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static constexpr size_t GetBlockNumPages(size_t index) {
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@ -93,13 +102,9 @@ public:
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}
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}
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private:
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private:
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class Block final {
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class Block {
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public:
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public:
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YUZU_NON_COPYABLE(Block);
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YUZU_NON_MOVEABLE(Block);
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Block() = default;
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Block() = default;
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~Block() = default;
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constexpr size_t GetShift() const {
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constexpr size_t GetShift() const {
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return m_block_shift;
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return m_block_shift;
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@ -201,6 +206,9 @@ private:
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};
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};
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private:
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private:
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PAddr AllocateByLinearSearch(s32 index);
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PAddr AllocateByRandom(s32 index, size_t num_pages, size_t align_pages);
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static size_t CalculateManagementOverheadSize(size_t region_size, const size_t* block_shifts,
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static size_t CalculateManagementOverheadSize(size_t region_size, const size_t* block_shifts,
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size_t num_block_shifts);
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size_t num_block_shifts);
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@ -209,7 +217,8 @@ private:
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size_t m_heap_size{};
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size_t m_heap_size{};
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size_t m_initial_used_size{};
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size_t m_initial_used_size{};
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size_t m_num_blocks{};
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size_t m_num_blocks{};
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std::array<Block, NumMemoryBlockPageShifts> m_blocks{};
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std::array<Block, NumMemoryBlockPageShifts> m_blocks;
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KPageBitmap::RandomBitGenerator m_rng;
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std::vector<u64> m_management_data;
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std::vector<u64> m_management_data;
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};
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};
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