mirror of
https://github.com/Ryujinx/Ryujinx.git
synced 2024-12-25 06:35:34 +00:00
22b2cb39af
* Turn `MemoryOperand` into a struct * Remove `IntrinsicOperation` * Remove `PhiNode` * Remove `Node` * Turn `Operand` into a struct * Turn `Operation` into a struct * Clean up pool management methods * Add `Arena` allocator * Move `OperationHelper` to `Operation.Factory` * Move `OperandHelper` to `Operand.Factory` * Optimize `Operation` a bit * Fix `Arena` initialization * Rename `NativeList<T>` to `ArenaList<T>` * Reduce `Operand` size from 88 to 56 bytes * Reduce `Operation` size from 56 to 40 bytes * Add optimistic interning of Register & Constant operands * Optimize `RegisterUsage` pass a bit * Optimize `RemoveUnusedNodes` pass a bit Iterating in reverse-order allows killing dependency chains in a single pass. * Fix PPTC symbols * Optimize `BasicBlock` a bit Reduce allocations from `_successor` & `DominanceFrontiers` * Fix `Operation` resize * Make `Arena` expandable Change the arena allocator to be expandable by allocating in pages, with some of them being pooled. Currently 32 pages are pooled. An LRU removal mechanism should probably be added to it. Apparently MHR can allocate bitmaps large enough to exceed the 16MB limit for the type. * Move `Arena` & `ArenaList` to `Common` * Remove `ThreadStaticPool` & co * Add `PhiOperation` * Reduce `Operand` size from 56 from 48 bytes * Add linear-probing to `Operand` intern table * Optimize `HybridAllocator` a bit * Add `Allocators` class * Tune `ArenaAllocator` sizes * Add page removal mechanism to `ArenaAllocator` Remove pages which have not been used for more than 5s after each reset. I am on fence if this would be better using a Gen2 callback object like the one in System.Buffers.ArrayPool<T>, to trim the pool. Because right now if a large translation happens, the pages will be freed only after a reset. This reset may not happen for a while because no new translation is hit, but the arena base sizes are rather small. * Fix `OOM` when allocating larger than page size in `ArenaAllocator` Tweak resizing mechanism for Operand.Uses and Assignemnts. * Optimize `Optimizer` a bit * Optimize `Operand.Add<T>/Remove<T>` a bit * Clean up `PreAllocator` * Fix phi insertion order Reduce codegen diffs. * Fix code alignment * Use new heuristics for degree of parallelism * Suppress warnings * Address gdkchan's feedback Renamed `GetValue()` to `GetValueUnsafe()` to make it more clear that `Operand.Value` should usually not be modified directly. * Add fast path to `ArenaAllocator` * Assembly for `ArenaAllocator.Allocate(ulong)`: .L0: mov rax, [rcx+0x18] lea r8, [rax+rdx] cmp r8, [rcx+0x10] ja short .L2 .L1: mov rdx, [rcx+8] add rax, [rdx+8] mov [rcx+0x18], r8 ret .L2: jmp ArenaAllocator.AllocateSlow(UInt64) A few variable/field had to be changed to ulong so that RyuJIT avoids emitting zero-extends. * Implement a new heuristic to free pooled pages. If an arena is used often, it is more likely that its pages will be needed, so the pages are kept for longer (e.g: during PPTC rebuild or burst sof compilations). If is not used often, then it is more likely that its pages will not be needed (e.g: after PPTC rebuild or bursts of compilations). * Address riperiperi's feedback * Use `EqualityComparer<T>` in `IntrusiveList<T>` Avoids a potential GC hole in `Equals(T, T)`.
394 lines
11 KiB
C#
394 lines
11 KiB
C#
using ARMeilleure.Common;
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using ARMeilleure.IntermediateRepresentation;
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using System;
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using System.Collections.Generic;
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using System.Diagnostics;
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using System.Linq;
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namespace ARMeilleure.CodeGen.RegisterAllocators
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{
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class LiveInterval : IComparable<LiveInterval>
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{
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public const int NotFound = -1;
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private LiveInterval _parent;
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private SortedIntegerList _usePositions;
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public int UsesCount => _usePositions.Count;
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private List<LiveRange> _ranges;
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private SortedList<int, LiveInterval> _childs;
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public bool IsSplit => _childs.Count != 0;
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public Operand Local { get; }
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public Register Register { get; set; }
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public int SpillOffset { get; private set; }
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public bool IsSpilled => SpillOffset != -1;
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public bool IsFixed { get; }
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public bool IsEmpty => _ranges.Count == 0;
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public LiveInterval(Operand local = default, LiveInterval parent = null)
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{
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Local = local;
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_parent = parent ?? this;
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_usePositions = new SortedIntegerList();
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_ranges = new List<LiveRange>();
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_childs = new SortedList<int, LiveInterval>();
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SpillOffset = -1;
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}
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public LiveInterval(Register register) : this()
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{
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IsFixed = true;
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Register = register;
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}
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public void SetStart(int position)
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{
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if (_ranges.Count != 0)
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{
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Debug.Assert(position != _ranges[0].End);
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_ranges[0] = new LiveRange(position, _ranges[0].End);
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}
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else
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{
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_ranges.Add(new LiveRange(position, position + 1));
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}
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}
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public int GetStart()
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{
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if (_ranges.Count == 0)
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{
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throw new InvalidOperationException("Empty interval.");
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}
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return _ranges[0].Start;
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}
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public void SetEnd(int position)
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{
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if (_ranges.Count != 0)
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{
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int lastIdx = _ranges.Count - 1;
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Debug.Assert(position != _ranges[lastIdx].Start);
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_ranges[lastIdx] = new LiveRange(_ranges[lastIdx].Start, position);
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}
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else
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{
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_ranges.Add(new LiveRange(position, position + 1));
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}
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}
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public int GetEnd()
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{
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if (_ranges.Count == 0)
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{
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throw new InvalidOperationException("Empty interval.");
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}
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return _ranges[_ranges.Count - 1].End;
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}
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public void AddRange(int start, int end)
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{
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if (start >= end)
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{
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throw new ArgumentException("Invalid range start position " + start + ", " + end);
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}
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int index = _ranges.BinarySearch(new LiveRange(start, end));
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if (index >= 0)
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{
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// New range insersects with an existing range, we need to remove
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// all the intersecting ranges before adding the new one.
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// We also extend the new range as needed, based on the values of
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// the existing ranges being removed.
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int lIndex = index;
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int rIndex = index;
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while (lIndex > 0 && _ranges[lIndex - 1].End >= start)
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{
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lIndex--;
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}
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while (rIndex + 1 < _ranges.Count && _ranges[rIndex + 1].Start <= end)
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{
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rIndex++;
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}
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if (start > _ranges[lIndex].Start)
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{
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start = _ranges[lIndex].Start;
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}
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if (end < _ranges[rIndex].End)
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{
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end = _ranges[rIndex].End;
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}
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_ranges.RemoveRange(lIndex, (rIndex - lIndex) + 1);
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InsertRange(lIndex, start, end);
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}
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else
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{
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InsertRange(~index, start, end);
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}
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}
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private void InsertRange(int index, int start, int end)
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{
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// Here we insert a new range on the ranges list.
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// If possible, we extend an existing range rather than inserting a new one.
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// We can extend an existing range if any of the following conditions are true:
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// - The new range starts right after the end of the previous range on the list.
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// - The new range ends right before the start of the next range on the list.
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// If both cases are true, we can extend either one. We prefer to extend the
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// previous range, and then remove the next one, but theres no specific reason
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// for that, extending either one will do.
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int? extIndex = null;
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if (index > 0 && _ranges[index - 1].End == start)
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{
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start = _ranges[index - 1].Start;
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extIndex = index - 1;
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}
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if (index < _ranges.Count && _ranges[index].Start == end)
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{
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end = _ranges[index].End;
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if (extIndex.HasValue)
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{
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_ranges.RemoveAt(index);
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}
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else
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{
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extIndex = index;
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}
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}
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if (extIndex.HasValue)
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{
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_ranges[extIndex.Value] = new LiveRange(start, end);
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}
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else
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{
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_ranges.Insert(index, new LiveRange(start, end));
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}
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}
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public void AddUsePosition(int position)
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{
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// Inserts are in descending order, but ascending is faster for SortedIntegerList<>.
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// We flip the ordering, then iterate backwards when using the final list.
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_usePositions.Add(-position);
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}
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public bool Overlaps(int position)
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{
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return _ranges.BinarySearch(new LiveRange(position, position + 1)) >= 0;
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}
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public bool Overlaps(LiveInterval other)
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{
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foreach (LiveRange range in other._ranges)
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{
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if (_ranges.BinarySearch(range) >= 0)
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{
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return true;
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}
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}
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return false;
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}
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public int GetOverlapPosition(LiveInterval other)
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{
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foreach (LiveRange range in other._ranges)
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{
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int overlapIndex = _ranges.BinarySearch(range);
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if (overlapIndex >= 0)
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{
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// It's possible that we have multiple overlaps within a single interval,
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// in this case, we pick the one with the lowest start position, since
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// we return the first overlap position.
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while (overlapIndex > 0 && _ranges[overlapIndex - 1].End > range.Start)
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{
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overlapIndex--;
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}
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LiveRange overlappingRange = _ranges[overlapIndex];
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return overlappingRange.Start;
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}
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}
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return NotFound;
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}
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public IEnumerable<LiveInterval> SplitChilds()
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{
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return _childs.Values;
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}
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public IList<int> UsePositions()
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{
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return _usePositions.GetList();
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}
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public int FirstUse()
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{
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if (_usePositions.Count == 0)
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{
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return NotFound;
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}
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return -_usePositions.Last();
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}
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public int NextUseAfter(int position)
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{
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int index = _usePositions.FindLessEqualIndex(-position);
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return (index >= 0) ? -_usePositions[index] : NotFound;
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}
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public void RemoveAfter(int position)
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{
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int index = _usePositions.FindLessEqualIndex(-position);
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_usePositions.RemoveRange(0, index + 1);
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}
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public LiveInterval Split(int position)
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{
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LiveInterval right = new LiveInterval(Local, _parent);
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int splitIndex = 0;
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for (; splitIndex < _ranges.Count; splitIndex++)
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{
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LiveRange range = _ranges[splitIndex];
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if (position > range.Start && position < range.End)
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{
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right._ranges.Add(new LiveRange(position, range.End));
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range = new LiveRange(range.Start, position);
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_ranges[splitIndex++] = range;
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break;
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}
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if (range.Start >= position)
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{
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break;
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}
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}
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if (splitIndex < _ranges.Count)
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{
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int count = _ranges.Count - splitIndex;
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right._ranges.AddRange(_ranges.GetRange(splitIndex, count));
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_ranges.RemoveRange(splitIndex, count);
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}
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int addAfter = _usePositions.FindLessEqualIndex(-position);
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for (int index = addAfter; index >= 0; index--)
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{
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int usePosition = _usePositions[index];
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right._usePositions.Add(usePosition);
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}
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RemoveAfter(position);
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Debug.Assert(_ranges.Count != 0, "Left interval is empty after split.");
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Debug.Assert(right._ranges.Count != 0, "Right interval is empty after split.");
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AddSplitChild(right);
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return right;
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}
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private void AddSplitChild(LiveInterval child)
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{
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Debug.Assert(!child.IsEmpty, "Trying to insert a empty interval.");
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_parent._childs.Add(child.GetStart(), child);
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}
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public LiveInterval GetSplitChild(int position)
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{
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if (Overlaps(position))
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{
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return this;
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}
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foreach (LiveInterval splitChild in _childs.Values)
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{
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if (splitChild.Overlaps(position))
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{
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return splitChild;
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}
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}
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return null;
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}
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public bool TrySpillWithSiblingOffset()
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{
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foreach (LiveInterval splitChild in _parent._childs.Values)
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{
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if (splitChild.IsSpilled)
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{
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Spill(splitChild.SpillOffset);
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return true;
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}
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}
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return false;
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}
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public void Spill(int offset)
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{
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SpillOffset = offset;
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}
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public int CompareTo(LiveInterval other)
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{
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if (_ranges.Count == 0 || other._ranges.Count == 0)
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{
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return _ranges.Count.CompareTo(other._ranges.Count);
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}
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return _ranges[0].Start.CompareTo(other._ranges[0].Start);
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}
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public override string ToString()
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{
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return string.Join("; ", _ranges);
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}
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}
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} |