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69093cf2d6
* Optimize `TryAllocateRegWithtoutSpill` a bit * Add a fast path for when all registers are live. * Do not query `GetOverlapPosition` if the register is already in use (i.e: free position is 0). * Do not allocate child split list if not parent * Turn `LiveRange` into a reference struct `LiveRange` is now a reference wrapping struct like `Operand` and `Operation`. It has also been changed into a singly linked-list. In micro-benchmarks traversing the linked-list was faster than binary search on `List<T>`. Even for quite large input sizes (e.g: 1,000,000), surprisingly. Could be because the code gen for traversing the linked-list is much much cleaner and there is no virtual dispatch happening when checking if intervals overlaps. * Turn `LiveInterval` into an iterator The LSRA allocates in forward order and never inspect previous `LiveInterval` once they are expired. Something similar can be done for the `LiveRange`s within the `LiveInterval`s themselves. The `LiveInterval` is turned into a iterator which expires `LiveRange` within it. The iterator is moved forward along with interval walking code, i.e: AllocateInterval(context, interval, cIndex). * Remove `LinearScanAllocator.Sources` Local methods are less susceptible to do allocations than lambdas. * Optimize `GetOverlapPosition(interval)` a bit Time complexity should be in O(n+m) instead of O(nm) now. * Optimize `NumberLocals` a bit Use the same idea as in `HybridAllocator` to store the visited state in the MSB of the Operand's value instead of using a `HashSet<T>`. * Optimize `InsertSplitCopies` a bit Avoid allocating a redundant `CopyResolver`. * Optimize `InsertSplitCopiesAtEdges` a bit Avoid redundant allocations of `CopyResolver`. * Use stack allocation for `freePositions` Avoid redundant computations. * Add `UseList` Replace `SortedIntegerList` with an even more specialized data structure. It allocates memory on the arena allocators and does not require copying use positions when splitting it. * Turn `LiveInterval` into a reference struct `LiveInterval` is now a reference wrapping struct like `Operand` and `Operation`. The rationale behind turning this in a reference wrapping struct is because a `LiveInterval` is associated with each local variable, and these intervals may themselves be split further. I've seen translations having up to 8000 local variables. To make the `LiveInterval` unmanaged, a new data structure called `LiveIntervalList` was added to store child splits. This differs from `SortedList<,>` because it can contain intervals with the same start position. Really wished we got some more of C++ template in C#. :^( * Optimize `GetChildSplit` a bit No need to inspect the remaining ranges if we've reached a range which starts after position, since the split list is ordered. * Optimize `CopyResolver` a bit Lazily allocate the fill, spill and parallel copy structures since most of the time only one of them is needed. * Optimize `BitMap.Enumerator` a bit Marking `MoveNext` as `AggressiveInlining` allows RyuJIT to promote the `Enumerator` struct into registers completely, reducing load/store code a lot since it does not have to store the struct on the stack for ABI purposes. * Use stack allocation for `use/blockedPositions` * Optimize `AllocateWithSpill` a bit * Address feedback * Make `LiveInterval.AddRange(,)` more conservative Produces no diff against master, but just for good measure.
394 lines
No EOL
10 KiB
C#
394 lines
No EOL
10 KiB
C#
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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namespace ARMeilleure.CodeGen.RegisterAllocators
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{
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unsafe readonly struct LiveInterval : IComparable<LiveInterval>
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{
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public const int NotFound = -1;
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private struct Data
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{
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public int End;
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public int SpillOffset;
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public LiveRange FirstRange;
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public LiveRange PrevRange;
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public LiveRange CurrRange;
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public LiveInterval Parent;
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public UseList Uses;
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public LiveIntervalList Children;
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public Operand Local;
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public Register Register;
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public bool IsFixed;
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}
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private readonly Data* _data;
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private ref int End => ref _data->End;
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private ref LiveRange FirstRange => ref _data->FirstRange;
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private ref LiveRange CurrRange => ref _data->CurrRange;
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private ref LiveRange PrevRange => ref _data->PrevRange;
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private ref LiveInterval Parent => ref _data->Parent;
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private ref UseList Uses => ref _data->Uses;
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private ref LiveIntervalList Children => ref _data->Children;
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public Operand Local => _data->Local;
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public ref Register Register => ref _data->Register;
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public ref int SpillOffset => ref _data->SpillOffset;
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public bool IsFixed => _data->IsFixed;
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public bool IsEmpty => FirstRange == default;
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public bool IsSplit => Children.Count != 0;
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public bool IsSpilled => SpillOffset != -1;
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public int UsesCount => Uses.Count;
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public LiveInterval(Operand local = default, LiveInterval parent = default)
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{
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_data = Allocators.LiveIntervals.Allocate<Data>();
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*_data = default;
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_data->IsFixed = false;
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_data->Local = local;
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Parent = parent == default ? this : parent;
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Uses = new UseList();
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Children = new LiveIntervalList();
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FirstRange = default;
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CurrRange = default;
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PrevRange = default;
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SpillOffset = -1;
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}
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public LiveInterval(Register register) : this(local: default, parent: default)
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{
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_data->IsFixed = true;
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Register = register;
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}
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public void Reset()
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{
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PrevRange = default;
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CurrRange = FirstRange;
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}
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public void Forward(int position)
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{
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LiveRange prev = PrevRange;
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LiveRange curr = CurrRange;
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while (curr != default && curr.Start < position && !curr.Overlaps(position))
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{
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prev = curr;
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curr = curr.Next;
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}
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PrevRange = prev;
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CurrRange = curr;
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}
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public int GetStart()
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{
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Debug.Assert(!IsEmpty, "Empty LiveInterval cannot have a start position.");
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return FirstRange.Start;
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}
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public void SetStart(int position)
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{
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if (FirstRange != default)
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{
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Debug.Assert(position != FirstRange.End);
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FirstRange.Start = position;
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}
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else
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{
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FirstRange = new LiveRange(position, position + 1);
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End = 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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Debug.Assert(!IsEmpty, "Empty LiveInterval cannot have an end position.");
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return End;
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}
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public void AddRange(int start, int end)
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{
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Debug.Assert(start < end, $"Invalid range start position {start}, {end}");
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if (FirstRange != default)
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{
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// If the new range ends exactly where the first range start, then coalesce together.
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if (end == FirstRange.Start)
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{
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FirstRange.Start = start;
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return;
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}
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// If the new range is already contained, then coalesce together.
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else if (FirstRange.Overlaps(start, end))
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{
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FirstRange.Start = Math.Min(FirstRange.Start, start);
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FirstRange.End = Math.Max(FirstRange.End, end);
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End = Math.Max(End, end);
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Debug.Assert(FirstRange.Next == default || !FirstRange.Overlaps(FirstRange.Next));
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return;
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}
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}
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FirstRange = new LiveRange(start, end, FirstRange);
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End = Math.Max(End, end);
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Debug.Assert(FirstRange.Next == default || !FirstRange.Overlaps(FirstRange.Next));
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}
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public void AddUsePosition(int position)
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{
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Uses.Add(position);
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}
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public bool Overlaps(int position)
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{
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LiveRange curr = CurrRange;
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while (curr != default && curr.Start <= position)
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{
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if (curr.Overlaps(position))
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{
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return true;
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}
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curr = curr.Next;
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}
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return false;
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}
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public bool Overlaps(LiveInterval other)
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{
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return GetOverlapPosition(other) != NotFound;
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}
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public int GetOverlapPosition(LiveInterval other)
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{
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LiveRange a = CurrRange;
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LiveRange b = other.CurrRange;
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while (a != default)
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{
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while (b != default && b.Start < a.Start)
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{
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if (a.Overlaps(b))
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{
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return a.Start;
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}
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b = b.Next;
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}
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if (b == default)
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{
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break;
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}
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else if (a.Overlaps(b))
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{
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return a.Start;
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}
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a = a.Next;
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}
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return NotFound;
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}
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public ReadOnlySpan<LiveInterval> SplitChildren()
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{
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return Parent.Children.Span;
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}
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public ReadOnlySpan<int> UsePositions()
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{
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return Uses.Span;
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}
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public int FirstUse()
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{
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return Uses.FirstUse;
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}
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public int NextUseAfter(int position)
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{
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return Uses.NextUse(position);
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}
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public LiveInterval Split(int position)
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{
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LiveInterval result = new(Local, Parent);
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result.End = End;
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LiveRange prev = PrevRange;
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LiveRange curr = CurrRange;
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while (curr != default && curr.Start < position && !curr.Overlaps(position))
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{
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prev = curr;
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curr = curr.Next;
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}
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if (curr.Start >= position)
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{
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prev.Next = default;
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result.FirstRange = curr;
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End = prev.End;
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}
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else
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{
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result.FirstRange = new LiveRange(position, curr.End, curr.Next);
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curr.End = position;
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curr.Next = default;
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End = curr.End;
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}
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result.Uses = Uses.Split(position);
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AddSplitChild(result);
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Debug.Assert(!IsEmpty, "Left interval is empty after split.");
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Debug.Assert(!result.IsEmpty, "Right interval is empty after split.");
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// Make sure the iterator in the new split is pointing to the start.
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result.Reset();
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return result;
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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 an empty interval.");
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Parent.Children.Add(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 SplitChildren())
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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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else if (splitChild.GetStart() > position)
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{
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break;
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}
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}
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return default;
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}
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public bool TrySpillWithSiblingOffset()
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{
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foreach (LiveInterval splitChild in SplitChildren())
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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 interval)
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{
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if (FirstRange == default || interval.FirstRange == default)
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{
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return 0;
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}
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return GetStart().CompareTo(interval.GetStart());
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}
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public bool Equals(LiveInterval interval)
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{
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return interval._data == _data;
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}
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public override bool Equals(object obj)
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{
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return obj is LiveInterval interval && Equals(interval);
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}
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public static bool operator ==(LiveInterval a, LiveInterval b)
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{
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return a.Equals(b);
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}
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public static bool operator !=(LiveInterval a, LiveInterval b)
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{
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return !a.Equals(b);
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}
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public override int GetHashCode()
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{
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return HashCode.Combine((IntPtr)_data);
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}
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public override string ToString()
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{
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LiveInterval self = this;
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IEnumerable<string> GetRanges()
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{
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LiveRange curr = self.CurrRange;
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while (curr != default)
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{
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if (curr == self.CurrRange)
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{
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yield return "*" + curr;
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}
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else
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{
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yield return curr.ToString();
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}
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curr = curr.Next;
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}
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}
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return string.Join(", ", GetRanges());
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}
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}
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} |