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https://github.com/Ryujinx/Ryujinx.git
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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.
259 lines
No EOL
8.9 KiB
C#
259 lines
No EOL
8.9 KiB
C#
using ARMeilleure.IntermediateRepresentation;
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using System;
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using System.Collections.Generic;
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using static ARMeilleure.IntermediateRepresentation.Operand.Factory;
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using static ARMeilleure.IntermediateRepresentation.Operation.Factory;
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namespace ARMeilleure.CodeGen.RegisterAllocators
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{
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class CopyResolver
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{
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private class ParallelCopy
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{
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private struct Copy
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{
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public Register Dest { get; }
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public Register Source { get; }
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public OperandType Type { get; }
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public Copy(Register dest, Register source, OperandType type)
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{
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Dest = dest;
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Source = source;
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Type = type;
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}
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}
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private readonly List<Copy> _copies;
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public int Count => _copies.Count;
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public ParallelCopy()
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{
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_copies = new List<Copy>();
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}
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public void AddCopy(Register dest, Register source, OperandType type)
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{
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_copies.Add(new Copy(dest, source, type));
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}
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public void Sequence(List<Operation> sequence)
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{
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Dictionary<Register, Register> locations = new Dictionary<Register, Register>();
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Dictionary<Register, Register> sources = new Dictionary<Register, Register>();
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Dictionary<Register, OperandType> types = new Dictionary<Register, OperandType>();
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Queue<Register> pendingQueue = new Queue<Register>();
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Queue<Register> readyQueue = new Queue<Register>();
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foreach (Copy copy in _copies)
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{
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locations[copy.Source] = copy.Source;
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sources[copy.Dest] = copy.Source;
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types[copy.Dest] = copy.Type;
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pendingQueue.Enqueue(copy.Dest);
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}
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foreach (Copy copy in _copies)
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{
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// If the destination is not used anywhere, we can assign it immediately.
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if (!locations.ContainsKey(copy.Dest))
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{
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readyQueue.Enqueue(copy.Dest);
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}
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}
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while (pendingQueue.TryDequeue(out Register current))
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{
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Register copyDest;
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Register origSource;
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Register copySource;
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while (readyQueue.TryDequeue(out copyDest))
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{
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origSource = sources[copyDest];
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copySource = locations[origSource];
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OperandType type = types[copyDest];
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EmitCopy(sequence, GetRegister(copyDest, type), GetRegister(copySource, type));
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locations[origSource] = copyDest;
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if (origSource == copySource && sources.ContainsKey(origSource))
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{
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readyQueue.Enqueue(origSource);
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}
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}
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copyDest = current;
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origSource = sources[copyDest];
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copySource = locations[origSource];
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if (copyDest != copySource)
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{
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OperandType type = types[copyDest];
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type = type.IsInteger() ? OperandType.I64 : OperandType.V128;
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EmitXorSwap(sequence, GetRegister(copyDest, type), GetRegister(copySource, type));
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locations[origSource] = copyDest;
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Register swapOther = copySource;
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if (copyDest != locations[sources[copySource]])
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{
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// Find the other swap destination register.
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// To do that, we search all the pending registers, and pick
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// the one where the copy source register is equal to the
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// current destination register being processed (copyDest).
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foreach (Register pending in pendingQueue)
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{
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// Is this a copy of pending <- copyDest?
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if (copyDest == locations[sources[pending]])
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{
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swapOther = pending;
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break;
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}
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}
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}
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// The value that was previously at "copyDest" now lives on
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// "copySource" thanks to the swap, now we need to update the
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// location for the next copy that is supposed to copy the value
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// that used to live on "copyDest".
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locations[sources[swapOther]] = copySource;
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}
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}
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}
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private static void EmitCopy(List<Operation> sequence, Operand x, Operand y)
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{
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sequence.Add(Operation(Instruction.Copy, x, y));
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}
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private static void EmitXorSwap(List<Operation> sequence, Operand x, Operand y)
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{
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sequence.Add(Operation(Instruction.BitwiseExclusiveOr, x, x, y));
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sequence.Add(Operation(Instruction.BitwiseExclusiveOr, y, y, x));
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sequence.Add(Operation(Instruction.BitwiseExclusiveOr, x, x, y));
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}
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}
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private Queue<Operation> _fillQueue = null;
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private Queue<Operation> _spillQueue = null;
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private ParallelCopy _parallelCopy = null;
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public bool HasCopy { get; private set; }
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public void AddSplit(LiveInterval left, LiveInterval right)
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{
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if (left.Local != right.Local)
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{
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throw new ArgumentException("Intervals of different variables are not allowed.");
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}
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OperandType type = left.Local.Type;
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if (left.IsSpilled && !right.IsSpilled)
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{
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// Move from the stack to a register.
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AddSplitFill(left, right, type);
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}
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else if (!left.IsSpilled && right.IsSpilled)
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{
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// Move from a register to the stack.
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AddSplitSpill(left, right, type);
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}
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else if (!left.IsSpilled && !right.IsSpilled && left.Register != right.Register)
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{
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// Move from one register to another.
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AddSplitCopy(left, right, type);
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}
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else if (left.SpillOffset != right.SpillOffset)
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{
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// This would be the stack-to-stack move case, but this is not supported.
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throw new ArgumentException("Both intervals were spilled.");
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}
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}
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private void AddSplitFill(LiveInterval left, LiveInterval right, OperandType type)
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{
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if (_fillQueue == null)
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{
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_fillQueue = new Queue<Operation>();
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}
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Operand register = GetRegister(right.Register, type);
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Operand offset = Const(left.SpillOffset);
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_fillQueue.Enqueue(Operation(Instruction.Fill, register, offset));
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HasCopy = true;
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}
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private void AddSplitSpill(LiveInterval left, LiveInterval right, OperandType type)
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{
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if (_spillQueue == null)
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{
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_spillQueue = new Queue<Operation>();
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}
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Operand offset = Const(right.SpillOffset);
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Operand register = GetRegister(left.Register, type);
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_spillQueue.Enqueue(Operation(Instruction.Spill, default, offset, register));
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HasCopy = true;
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}
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private void AddSplitCopy(LiveInterval left, LiveInterval right, OperandType type)
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{
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if (_parallelCopy == null)
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{
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_parallelCopy = new ParallelCopy();
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}
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_parallelCopy.AddCopy(right.Register, left.Register, type);
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HasCopy = true;
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}
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public Operation[] Sequence()
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{
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List<Operation> sequence = new List<Operation>();
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if (_spillQueue != null)
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{
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while (_spillQueue.TryDequeue(out Operation spillOp))
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{
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sequence.Add(spillOp);
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}
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}
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_parallelCopy?.Sequence(sequence);
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if (_fillQueue != null)
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{
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while (_fillQueue.TryDequeue(out Operation fillOp))
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{
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sequence.Add(fillOp);
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}
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}
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return sequence.ToArray();
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}
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private static Operand GetRegister(Register reg, OperandType type)
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{
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return Register(reg.Index, reg.Type, type);
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}
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}
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} |