mirror of
https://git.naxdy.org/Mirror/Ryujinx.git
synced 2024-11-16 01:55:27 +00:00
4da44e09cb
* Make all structs readonly when applicable. It should reduce amount of needless defensive copies * Make structs with trivial boilerplate equality code record structs * Remove unnecessary readonly modifiers from TextureCreateInfo * Make BitMap structs readonly too
762 lines
28 KiB
C#
762 lines
28 KiB
C#
using Ryujinx.Graphics.Shader.Translation;
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using System;
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using System.Collections.Generic;
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using System.Linq;
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using System.Runtime.CompilerServices;
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using static Ryujinx.Graphics.Shader.IntermediateRepresentation.OperandHelper;
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namespace Ryujinx.Graphics.Shader.Decoders
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{
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static class Decoder
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{
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public static DecodedProgram Decode(ShaderConfig config, ulong startAddress)
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{
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Queue<DecodedFunction> functionsQueue = new Queue<DecodedFunction>();
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Dictionary<ulong, DecodedFunction> functionsVisited = new Dictionary<ulong, DecodedFunction>();
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DecodedFunction EnqueueFunction(ulong address)
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{
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if (!functionsVisited.TryGetValue(address, out DecodedFunction function))
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{
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functionsVisited.Add(address, function = new DecodedFunction(address));
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functionsQueue.Enqueue(function);
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}
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return function;
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}
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DecodedFunction mainFunction = EnqueueFunction(0);
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while (functionsQueue.TryDequeue(out DecodedFunction currentFunction))
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{
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List<Block> blocks = new List<Block>();
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Queue<Block> workQueue = new Queue<Block>();
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Dictionary<ulong, Block> visited = new Dictionary<ulong, Block>();
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Block GetBlock(ulong blkAddress)
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{
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if (!visited.TryGetValue(blkAddress, out Block block))
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{
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block = new Block(blkAddress);
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workQueue.Enqueue(block);
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visited.Add(blkAddress, block);
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}
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return block;
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}
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GetBlock(currentFunction.Address);
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bool hasNewTarget;
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do
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{
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while (workQueue.TryDequeue(out Block currBlock))
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{
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// Check if the current block is inside another block.
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if (BinarySearch(blocks, currBlock.Address, out int nBlkIndex))
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{
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Block nBlock = blocks[nBlkIndex];
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if (nBlock.Address == currBlock.Address)
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{
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throw new InvalidOperationException("Found duplicate block address on the list.");
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}
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nBlock.Split(currBlock);
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blocks.Insert(nBlkIndex + 1, currBlock);
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continue;
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}
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// If we have a block after the current one, set the limit address.
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ulong limitAddress = ulong.MaxValue;
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if (nBlkIndex != blocks.Count)
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{
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Block nBlock = blocks[nBlkIndex];
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int nextIndex = nBlkIndex + 1;
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if (nBlock.Address < currBlock.Address && nextIndex < blocks.Count)
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{
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limitAddress = blocks[nextIndex].Address;
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}
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else if (nBlock.Address > currBlock.Address)
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{
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limitAddress = blocks[nBlkIndex].Address;
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}
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}
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FillBlock(config, currBlock, limitAddress, startAddress);
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if (currBlock.OpCodes.Count != 0)
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{
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// We should have blocks for all possible branch targets,
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// including those from PBK/PCNT/SSY instructions.
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foreach (PushOpInfo pushOp in currBlock.PushOpCodes)
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{
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GetBlock(pushOp.Op.GetAbsoluteAddress());
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}
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// Set child blocks. "Branch" is the block the branch instruction
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// points to (when taken), "Next" is the block at the next address,
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// executed when the branch is not taken. For Unconditional Branches
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// or end of program, Next is null.
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InstOp lastOp = currBlock.GetLastOp();
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if (lastOp.Name == InstName.Cal)
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{
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EnqueueFunction(lastOp.GetAbsoluteAddress()).AddCaller(currentFunction);
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}
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else if (lastOp.Name == InstName.Bra)
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{
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Block succBlock = GetBlock(lastOp.GetAbsoluteAddress());
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currBlock.Successors.Add(succBlock);
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succBlock.Predecessors.Add(currBlock);
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}
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if (!IsUnconditionalBranch(ref lastOp))
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{
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Block succBlock = GetBlock(currBlock.EndAddress);
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currBlock.Successors.Insert(0, succBlock);
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succBlock.Predecessors.Add(currBlock);
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}
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}
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// Insert the new block on the list (sorted by address).
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if (blocks.Count != 0)
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{
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Block nBlock = blocks[nBlkIndex];
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blocks.Insert(nBlkIndex + (nBlock.Address < currBlock.Address ? 1 : 0), currBlock);
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}
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else
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{
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blocks.Add(currBlock);
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}
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}
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// Propagate SSY/PBK addresses into their uses (SYNC/BRK).
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foreach (Block block in blocks.Where(x => x.PushOpCodes.Count != 0))
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{
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for (int pushOpIndex = 0; pushOpIndex < block.PushOpCodes.Count; pushOpIndex++)
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{
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PropagatePushOp(visited, block, pushOpIndex);
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}
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}
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// Try to find targets for BRX (indirect branch) instructions.
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hasNewTarget = FindBrxTargets(config, blocks, GetBlock);
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// If we discovered new branch targets from the BRX instruction,
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// we need another round of decoding to decode the new blocks.
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// Additionally, we may have more SSY/PBK targets to propagate,
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// and new BRX instructions.
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}
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while (hasNewTarget);
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currentFunction.SetBlocks(blocks.ToArray());
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}
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return new DecodedProgram(mainFunction, functionsVisited);
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}
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private static bool BinarySearch(List<Block> blocks, ulong address, out int index)
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{
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index = 0;
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int left = 0;
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int right = blocks.Count - 1;
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while (left <= right)
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{
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int size = right - left;
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int middle = left + (size >> 1);
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Block block = blocks[middle];
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index = middle;
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if (address >= block.Address && address < block.EndAddress)
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{
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return true;
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}
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if (address < block.Address)
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{
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right = middle - 1;
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}
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else
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{
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left = middle + 1;
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}
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}
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return false;
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}
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private static void FillBlock(ShaderConfig config, Block block, ulong limitAddress, ulong startAddress)
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{
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IGpuAccessor gpuAccessor = config.GpuAccessor;
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ulong address = block.Address;
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int bufferOffset = 0;
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ReadOnlySpan<ulong> buffer = ReadOnlySpan<ulong>.Empty;
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InstOp op = default;
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do
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{
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if (address + 7 >= limitAddress)
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{
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break;
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}
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// Ignore scheduling instructions, which are written every 32 bytes.
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if ((address & 0x1f) == 0)
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{
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address += 8;
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bufferOffset++;
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continue;
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}
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if (bufferOffset >= buffer.Length)
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{
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buffer = gpuAccessor.GetCode(startAddress + address, 8);
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bufferOffset = 0;
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}
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ulong opCode = buffer[bufferOffset++];
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op = InstTable.GetOp(address, opCode);
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if (op.Props.HasFlag(InstProps.TexB))
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{
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config.SetUsedFeature(FeatureFlags.Bindless);
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}
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if (op.Name == InstName.Ald || op.Name == InstName.Ast || op.Name == InstName.Ipa)
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{
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SetUserAttributeUses(config, op.Name, opCode);
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}
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else if (op.Name == InstName.Pbk || op.Name == InstName.Pcnt || op.Name == InstName.Ssy)
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{
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block.AddPushOp(op);
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}
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block.OpCodes.Add(op);
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address += 8;
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}
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while (!op.Props.HasFlag(InstProps.Bra));
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block.EndAddress = address;
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}
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private static void SetUserAttributeUses(ShaderConfig config, InstName name, ulong opCode)
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{
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int offset;
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int count = 1;
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bool isStore = false;
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bool indexed = false;
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bool perPatch = false;
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if (name == InstName.Ast)
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{
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InstAst opAst = new InstAst(opCode);
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count = (int)opAst.AlSize + 1;
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offset = opAst.Imm11;
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indexed = opAst.Phys;
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perPatch = opAst.P;
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isStore = true;
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}
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else if (name == InstName.Ald)
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{
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InstAld opAld = new InstAld(opCode);
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count = (int)opAld.AlSize + 1;
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offset = opAld.Imm11;
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indexed = opAld.Phys;
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perPatch = opAld.P;
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isStore = opAld.O;
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}
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else /* if (name == InstName.Ipa) */
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{
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InstIpa opIpa = new InstIpa(opCode);
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offset = opIpa.Imm10;
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indexed = opIpa.Idx;
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}
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if (indexed)
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{
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if (isStore)
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{
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config.SetAllOutputUserAttributes();
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}
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else
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{
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config.SetAllInputUserAttributes();
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}
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}
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else
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{
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for (int elemIndex = 0; elemIndex < count; elemIndex++)
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{
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int attr = offset + elemIndex * 4;
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if (perPatch)
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{
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if (attr >= AttributeConsts.UserAttributePerPatchBase && attr < AttributeConsts.UserAttributePerPatchEnd)
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{
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int userAttr = attr - AttributeConsts.UserAttributePerPatchBase;
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int index = userAttr / 16;
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if (isStore)
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{
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config.SetOutputUserAttributePerPatch(index);
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}
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else
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{
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config.SetInputUserAttributePerPatch(index);
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}
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}
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}
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else if (attr >= AttributeConsts.UserAttributeBase && attr < AttributeConsts.UserAttributeEnd)
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{
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int userAttr = attr - AttributeConsts.UserAttributeBase;
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int index = userAttr / 16;
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if (isStore)
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{
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config.SetOutputUserAttribute(index);
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}
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else
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{
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config.SetInputUserAttribute(index, (userAttr >> 2) & 3);
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}
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}
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if (!isStore &&
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((attr >= AttributeConsts.FrontColorDiffuseR && attr < AttributeConsts.ClipDistance0) ||
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(attr >= AttributeConsts.TexCoordBase && attr < AttributeConsts.TexCoordEnd)))
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{
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config.SetUsedFeature(FeatureFlags.FixedFuncAttr);
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}
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}
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}
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}
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public static bool IsUnconditionalBranch(ref InstOp op)
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{
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return IsUnconditional(ref op) && op.Props.HasFlag(InstProps.Bra);
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}
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private static bool IsUnconditional(ref InstOp op)
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{
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InstConditional condOp = new InstConditional(op.RawOpCode);
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if ((op.Name == InstName.Bra || op.Name == InstName.Exit) && condOp.Ccc != Ccc.T)
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{
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return false;
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}
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return condOp.Pred == RegisterConsts.PredicateTrueIndex && !condOp.PredInv;
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}
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private static bool FindBrxTargets(ShaderConfig config, IEnumerable<Block> blocks, Func<ulong, Block> getBlock)
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{
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bool hasNewTarget = false;
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foreach (Block block in blocks)
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{
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InstOp lastOp = block.GetLastOp();
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bool hasNext = block.HasNext();
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if (lastOp.Name == InstName.Brx && block.Successors.Count == (hasNext ? 1 : 0))
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{
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HashSet<ulong> visited = new HashSet<ulong>();
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InstBrx opBrx = new InstBrx(lastOp.RawOpCode);
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ulong baseOffset = lastOp.GetAbsoluteAddress();
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// An indirect branch could go anywhere,
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// try to get the possible target offsets from the constant buffer.
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(int cbBaseOffset, int cbOffsetsCount) = FindBrxTargetRange(block, opBrx.SrcA);
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if (cbOffsetsCount != 0)
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{
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hasNewTarget = true;
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}
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for (int i = 0; i < cbOffsetsCount; i++)
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{
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uint targetOffset = config.ConstantBuffer1Read(cbBaseOffset + i * 4);
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ulong targetAddress = baseOffset + targetOffset;
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if (visited.Add(targetAddress))
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{
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Block target = getBlock(targetAddress);
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target.Predecessors.Add(block);
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block.Successors.Add(target);
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}
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}
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}
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}
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return hasNewTarget;
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}
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private static (int, int) FindBrxTargetRange(Block block, int brxReg)
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{
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// Try to match the following pattern:
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//
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// IMNMX.U32 Rx, Rx, UpperBound, PT
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// SHL Rx, Rx, 0x2
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// LDC Rx, c[0x1][Rx+BaseOffset]
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//
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// Here, Rx is an arbitrary register, "UpperBound" and "BaseOffset" are constants.
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// The above pattern is assumed to be generated by the compiler before BRX,
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// as the instruction is usually used to implement jump tables for switch statement optimizations.
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// On a successful match, "BaseOffset" is the offset in bytes where the jump offsets are
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// located on the constant buffer, and "UpperBound" is the total number of offsets for the BRX, minus 1.
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HashSet<Block> visited = new HashSet<Block>();
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var ldcLocation = FindFirstRegWrite(visited, new BlockLocation(block, block.OpCodes.Count - 1), brxReg);
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if (ldcLocation.Block == null || ldcLocation.Block.OpCodes[ldcLocation.Index].Name != InstName.Ldc)
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{
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return (0, 0);
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}
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GetOp<InstLdc>(ldcLocation, out var opLdc);
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if (opLdc.CbufSlot != 1 || opLdc.AddressMode != 0)
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{
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return (0, 0);
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}
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var shlLocation = FindFirstRegWrite(visited, ldcLocation, opLdc.SrcA);
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if (shlLocation.Block == null || !shlLocation.IsImmInst(InstName.Shl))
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{
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return (0, 0);
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}
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GetOp<InstShlI>(shlLocation, out var opShl);
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if (opShl.Imm20 != 2)
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{
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return (0, 0);
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}
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var imnmxLocation = FindFirstRegWrite(visited, shlLocation, opShl.SrcA);
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if (imnmxLocation.Block == null || !imnmxLocation.IsImmInst(InstName.Imnmx))
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{
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return (0, 0);
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}
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GetOp<InstImnmxI>(imnmxLocation, out var opImnmx);
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if (opImnmx.Signed || opImnmx.SrcPred != RegisterConsts.PredicateTrueIndex || opImnmx.SrcPredInv)
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{
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return (0, 0);
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}
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return (opLdc.CbufOffset, opImnmx.Imm20 + 1);
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}
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private static void GetOp<T>(BlockLocation location, out T op) where T : unmanaged
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{
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ulong rawOp = location.Block.OpCodes[location.Index].RawOpCode;
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op = Unsafe.As<ulong, T>(ref rawOp);
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}
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private readonly struct BlockLocation
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{
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public Block Block { get; }
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public int Index { get; }
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public BlockLocation(Block block, int index)
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{
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Block = block;
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Index = index;
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}
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public bool IsImmInst(InstName name)
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{
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InstOp op = Block.OpCodes[Index];
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return op.Name == name && op.Props.HasFlag(InstProps.Ib);
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}
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}
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private static BlockLocation FindFirstRegWrite(HashSet<Block> visited, BlockLocation location, int regIndex)
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{
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Queue<BlockLocation> toVisit = new Queue<BlockLocation>();
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toVisit.Enqueue(location);
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visited.Add(location.Block);
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while (toVisit.TryDequeue(out var currentLocation))
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{
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Block block = currentLocation.Block;
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for (int i = currentLocation.Index - 1; i >= 0; i--)
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{
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if (WritesToRegister(block.OpCodes[i], regIndex))
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{
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return new BlockLocation(block, i);
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}
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}
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foreach (Block predecessor in block.Predecessors)
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{
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if (visited.Add(predecessor))
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{
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toVisit.Enqueue(new BlockLocation(predecessor, predecessor.OpCodes.Count));
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}
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}
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}
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return new BlockLocation(null, 0);
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}
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private static bool WritesToRegister(InstOp op, int regIndex)
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{
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// Predicate instruction only ever writes to predicate, so we shouldn't check those.
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if ((op.Props & (InstProps.Rd | InstProps.Rd2)) == 0)
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{
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return false;
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}
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if (op.Props.HasFlag(InstProps.Rd2) && (byte)(op.RawOpCode >> 28) == regIndex)
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{
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return true;
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}
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return (byte)op.RawOpCode == regIndex;
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}
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private enum MergeType
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{
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Brk,
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Cont,
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Sync
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}
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private struct PathBlockState
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{
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public Block Block { get; }
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private enum RestoreType
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{
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None,
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PopPushOp,
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PushBranchOp
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}
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private RestoreType _restoreType;
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private ulong _restoreValue;
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private MergeType _restoreMergeType;
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public bool ReturningFromVisit => _restoreType != RestoreType.None;
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public PathBlockState(Block block)
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{
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Block = block;
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_restoreType = RestoreType.None;
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_restoreValue = 0;
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_restoreMergeType = default;
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}
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public PathBlockState(int oldStackSize)
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|
{
|
|
Block = null;
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|
_restoreType = RestoreType.PopPushOp;
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|
_restoreValue = (ulong)oldStackSize;
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|
_restoreMergeType = default;
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|
}
|
|
|
|
public PathBlockState(ulong syncAddress, MergeType mergeType)
|
|
{
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|
Block = null;
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|
_restoreType = RestoreType.PushBranchOp;
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|
_restoreValue = syncAddress;
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|
_restoreMergeType = mergeType;
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|
}
|
|
|
|
public void RestoreStackState(Stack<(ulong, MergeType)> branchStack)
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|
{
|
|
if (_restoreType == RestoreType.PushBranchOp)
|
|
{
|
|
branchStack.Push((_restoreValue, _restoreMergeType));
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|
}
|
|
else if (_restoreType == RestoreType.PopPushOp)
|
|
{
|
|
while (branchStack.Count > (uint)_restoreValue)
|
|
{
|
|
branchStack.Pop();
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|
}
|
|
}
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|
}
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|
}
|
|
|
|
private static void PropagatePushOp(Dictionary<ulong, Block> blocks, Block currBlock, int pushOpIndex)
|
|
{
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|
PushOpInfo pushOpInfo = currBlock.PushOpCodes[pushOpIndex];
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|
InstOp pushOp = pushOpInfo.Op;
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|
|
|
Block target = blocks[pushOp.GetAbsoluteAddress()];
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|
|
|
Stack<PathBlockState> workQueue = new Stack<PathBlockState>();
|
|
HashSet<Block> visited = new HashSet<Block>();
|
|
Stack<(ulong, MergeType)> branchStack = new Stack<(ulong, MergeType)>();
|
|
|
|
void Push(PathBlockState pbs)
|
|
{
|
|
// When block is null, this means we are pushing a restore operation.
|
|
// Restore operations are used to undo the work done inside a block
|
|
// when we return from it, for example it pops addresses pushed by
|
|
// SSY/PBK instructions inside the block, and pushes addresses poped
|
|
// by SYNC/BRK.
|
|
// For blocks, if it's already visited, we just ignore to avoid going
|
|
// around in circles and getting stuck here.
|
|
if (pbs.Block == null || !visited.Contains(pbs.Block))
|
|
{
|
|
workQueue.Push(pbs);
|
|
}
|
|
}
|
|
|
|
Push(new PathBlockState(currBlock));
|
|
|
|
while (workQueue.TryPop(out PathBlockState pbs))
|
|
{
|
|
if (pbs.ReturningFromVisit)
|
|
{
|
|
pbs.RestoreStackState(branchStack);
|
|
|
|
continue;
|
|
}
|
|
|
|
Block current = pbs.Block;
|
|
|
|
// If the block was already processed, we just ignore it, otherwise
|
|
// we would push the same child blocks of an already processed block,
|
|
// and go around in circles until memory is exhausted.
|
|
if (!visited.Add(current))
|
|
{
|
|
continue;
|
|
}
|
|
|
|
int pushOpsCount = current.PushOpCodes.Count;
|
|
if (pushOpsCount != 0)
|
|
{
|
|
Push(new PathBlockState(branchStack.Count));
|
|
|
|
for (int index = pushOpIndex; index < pushOpsCount; index++)
|
|
{
|
|
InstOp currentPushOp = current.PushOpCodes[index].Op;
|
|
MergeType pushMergeType = GetMergeTypeFromPush(currentPushOp.Name);
|
|
branchStack.Push((currentPushOp.GetAbsoluteAddress(), pushMergeType));
|
|
}
|
|
}
|
|
|
|
pushOpIndex = 0;
|
|
|
|
bool hasNext = current.HasNext();
|
|
if (hasNext)
|
|
{
|
|
Push(new PathBlockState(current.Successors[0]));
|
|
}
|
|
|
|
InstOp lastOp = current.GetLastOp();
|
|
if (IsPopBranch(lastOp.Name))
|
|
{
|
|
MergeType popMergeType = GetMergeTypeFromPop(lastOp.Name);
|
|
|
|
bool found = true;
|
|
ulong targetAddress = 0UL;
|
|
MergeType mergeType;
|
|
|
|
do
|
|
{
|
|
if (branchStack.Count == 0)
|
|
{
|
|
found = false;
|
|
break;
|
|
}
|
|
|
|
(targetAddress, mergeType) = branchStack.Pop();
|
|
|
|
// Push the target address (this will be used to push the address
|
|
// back into the PBK/PCNT/SSY stack when we return from that block),
|
|
Push(new PathBlockState(targetAddress, mergeType));
|
|
}
|
|
while (mergeType != popMergeType);
|
|
|
|
// Make sure we found the correct address,
|
|
// the push and pop instruction types must match, so:
|
|
// - BRK can only consume addresses pushed by PBK.
|
|
// - CONT can only consume addresses pushed by PCNT.
|
|
// - SYNC can only consume addresses pushed by SSY.
|
|
if (found)
|
|
{
|
|
if (branchStack.Count == 0)
|
|
{
|
|
// If the entire stack was consumed, then the current pop instruction
|
|
// just consumed the address from our push instruction.
|
|
if (current.SyncTargets.TryAdd(pushOp.Address, new SyncTarget(pushOpInfo, current.SyncTargets.Count)))
|
|
{
|
|
pushOpInfo.Consumers.Add(current, Local());
|
|
target.Predecessors.Add(current);
|
|
current.Successors.Add(target);
|
|
}
|
|
}
|
|
else
|
|
{
|
|
// Push the block itself into the work queue for processing.
|
|
Push(new PathBlockState(blocks[targetAddress]));
|
|
}
|
|
}
|
|
}
|
|
else
|
|
{
|
|
// By adding them in descending order (sorted by address), we process the blocks
|
|
// in order (of ascending address), since we work with a LIFO.
|
|
foreach (Block possibleTarget in current.Successors.OrderByDescending(x => x.Address))
|
|
{
|
|
if (!hasNext || possibleTarget != current.Successors[0])
|
|
{
|
|
Push(new PathBlockState(possibleTarget));
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
public static bool IsPopBranch(InstName name)
|
|
{
|
|
return name == InstName.Brk || name == InstName.Cont || name == InstName.Sync;
|
|
}
|
|
|
|
private static MergeType GetMergeTypeFromPush(InstName name)
|
|
{
|
|
return name switch
|
|
{
|
|
InstName.Pbk => MergeType.Brk,
|
|
InstName.Pcnt => MergeType.Cont,
|
|
_ => MergeType.Sync
|
|
};
|
|
}
|
|
|
|
private static MergeType GetMergeTypeFromPop(InstName name)
|
|
{
|
|
return name switch
|
|
{
|
|
InstName.Brk => MergeType.Brk,
|
|
InstName.Cont => MergeType.Cont,
|
|
_ => MergeType.Sync
|
|
};
|
|
}
|
|
}
|
|
} |