forked from Mirror/Ryujinx
Add SSE4.2 Path for CRC32, add A32 variant, add tests for non-castagnoli variants. (#1328)
* Add CRC32 A32 instructions. * Fix CRC32 instructions. * Add CRC intrinsic and fast path. Loop is currently unrolled, will look into adding temp vars after tests are added. * Begin work on Crc tests * Fix SSE4.2 path for CRC32C, finialize tests. * Remove unused IR path. * Fix spacing between prefix checks. * This should be Src. * PTC Version * OpCodeTable Order * Integer check improvement. Value and Crc can be either 32 or 64 size. * This wasn't necessary... * If size is 3, value type must be I64. * Fix same src+dest handling for non crc intrinsics. * Pre-fix (ha) issue with vex encodings
This commit is contained in:
parent
30d4f752f4
commit
d7044b10a2
15 changed files with 448 additions and 161 deletions
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@ -28,10 +28,10 @@ namespace ARMeilleure.CodeGen.X86
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Vex = 1 << 4,
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PrefixBit = 16,
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PrefixMask = 3 << PrefixBit,
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PrefixMask = 7 << PrefixBit,
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Prefix66 = 1 << PrefixBit,
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PrefixF3 = 2 << PrefixBit,
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PrefixF2 = 3 << PrefixBit
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PrefixF2 = 4 << PrefixBit
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}
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private struct InstructionInfo
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@ -104,6 +104,9 @@ namespace ARMeilleure.CodeGen.X86
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Add(X86Instruction.Comisd, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x00000f2f, InstructionFlags.Vex | InstructionFlags.Prefix66));
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Add(X86Instruction.Comiss, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x00000f2f, InstructionFlags.Vex));
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Add(X86Instruction.Cpuid, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x00000fa2, InstructionFlags.RegOnly));
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Add(X86Instruction.Crc32, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x000f38f1, InstructionFlags.PrefixF2));
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Add(X86Instruction.Crc32_16, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x000f38f1, InstructionFlags.PrefixF2 | InstructionFlags.Prefix66));
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Add(X86Instruction.Crc32_8, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x000f38f0, InstructionFlags.PrefixF2 | InstructionFlags.Reg8Src));
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Add(X86Instruction.Cvtdq2pd, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x00000fe6, InstructionFlags.Vex | InstructionFlags.PrefixF3));
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Add(X86Instruction.Cvtdq2ps, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x00000f5b, InstructionFlags.Vex));
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Add(X86Instruction.Cvtpd2dq, new InstructionInfo(BadOp, BadOp, BadOp, BadOp, 0x00000fe6, InstructionFlags.Vex | InstructionFlags.PrefixF2));
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@ -1172,7 +1175,15 @@ namespace ARMeilleure.CodeGen.X86
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if ((flags & InstructionFlags.Vex) != 0 && HardwareCapabilities.SupportsVexEncoding)
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{
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int vexByte2 = (int)(flags & InstructionFlags.PrefixMask) >> (int)InstructionFlags.PrefixBit;
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// In a vex encoding, only one prefix can be active at a time. The active prefix is encoded in the second byte using two bits.
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int vexByte2 = (flags & InstructionFlags.PrefixMask) switch
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{
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InstructionFlags.Prefix66 => 1,
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InstructionFlags.PrefixF3 => 2,
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InstructionFlags.PrefixF2 => 3,
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_ => 0
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};
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if (src1 != null)
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{
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@ -1220,11 +1231,19 @@ namespace ARMeilleure.CodeGen.X86
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}
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else
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{
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switch (flags & InstructionFlags.PrefixMask)
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if (flags.HasFlag(InstructionFlags.Prefix66))
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{
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case InstructionFlags.Prefix66: WriteByte(0x66); break;
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case InstructionFlags.PrefixF2: WriteByte(0xf2); break;
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case InstructionFlags.PrefixF3: WriteByte(0xf3); break;
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WriteByte(0x66);
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}
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if (flags.HasFlag(InstructionFlags.PrefixF2))
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{
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WriteByte(0xf2);
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}
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if (flags.HasFlag(InstructionFlags.PrefixF3))
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{
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WriteByte(0xf3);
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}
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if (rexPrefix != 0)
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@ -333,6 +333,21 @@ namespace ARMeilleure.CodeGen.X86
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break;
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}
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case IntrinsicType.Crc32:
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{
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Operand dest = operation.Destination;
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Operand src1 = operation.GetSource(0);
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Operand src2 = operation.GetSource(1);
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EnsureSameReg(dest, src1);
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Debug.Assert(dest.Type.IsInteger() && src1.Type.IsInteger() && src2.Type.IsInteger());
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context.Assembler.WriteInstruction(info.Inst, dest, src2, dest.Type);
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break;
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}
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case IntrinsicType.BinaryImm:
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{
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Operand dest = operation.Destination;
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@ -38,6 +38,9 @@ namespace ARMeilleure.CodeGen.X86
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Add(Intrinsic.X86Comisseq, new IntrinsicInfo(X86Instruction.Comiss, IntrinsicType.Comis_));
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Add(Intrinsic.X86Comissge, new IntrinsicInfo(X86Instruction.Comiss, IntrinsicType.Comis_));
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Add(Intrinsic.X86Comisslt, new IntrinsicInfo(X86Instruction.Comiss, IntrinsicType.Comis_));
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Add(Intrinsic.X86Crc32, new IntrinsicInfo(X86Instruction.Crc32, IntrinsicType.Crc32));
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Add(Intrinsic.X86Crc32_16, new IntrinsicInfo(X86Instruction.Crc32_16, IntrinsicType.Crc32));
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Add(Intrinsic.X86Crc32_8, new IntrinsicInfo(X86Instruction.Crc32_8, IntrinsicType.Crc32));
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Add(Intrinsic.X86Cvtdq2pd, new IntrinsicInfo(X86Instruction.Cvtdq2pd, IntrinsicType.Unary));
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Add(Intrinsic.X86Cvtdq2ps, new IntrinsicInfo(X86Instruction.Cvtdq2ps, IntrinsicType.Unary));
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Add(Intrinsic.X86Cvtpd2dq, new IntrinsicInfo(X86Instruction.Cvtpd2dq, IntrinsicType.Unary));
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@ -9,6 +9,7 @@ namespace ARMeilleure.CodeGen.X86
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Binary,
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BinaryGpr,
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BinaryImm,
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Crc32,
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Ternary,
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TernaryImm
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}
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@ -1294,11 +1294,22 @@ namespace ARMeilleure.CodeGen.X86
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case Instruction.VectorInsert16:
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case Instruction.VectorInsert8:
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return !HardwareCapabilities.SupportsVexEncoding;
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case Instruction.Extended:
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return IsIntrinsicSameOperandDestSrc1(operation);
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}
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return IsVexSameOperandDestSrc1(operation);
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}
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private static bool IsIntrinsicSameOperandDestSrc1(Operation operation)
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{
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IntrinsicOperation intrinOp = (IntrinsicOperation)operation;
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IntrinsicInfo info = IntrinsicTable.GetInfo(intrinOp.Intrinsic);
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return info.Type == IntrinsicType.Crc32 || IsVexSameOperandDestSrc1(operation);
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}
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private static bool IsVexSameOperandDestSrc1(Operation operation)
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{
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if (IsIntrinsic(operation.Instruction))
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@ -33,6 +33,9 @@ namespace ARMeilleure.CodeGen.X86
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Comisd,
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Comiss,
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Cpuid,
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Crc32,
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Crc32_16,
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Crc32_8,
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Cvtdq2pd,
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Cvtdq2ps,
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Cvtpd2dq,
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@ -659,6 +659,12 @@ namespace ARMeilleure.Decoders
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SetA32("<<<<00110101xxxx0000xxxxxxxxxxxx", InstName.Cmp, InstEmit32.Cmp, typeof(OpCode32AluImm));
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SetA32("<<<<00010101xxxx0000xxxxxxx0xxxx", InstName.Cmp, InstEmit32.Cmp, typeof(OpCode32AluRsImm));
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SetA32("<<<<00010101xxxx0000xxxx0xx1xxxx", InstName.Cmp, InstEmit32.Cmp, typeof(OpCode32AluRsReg));
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SetA32("<<<<00010000xxxxxxxx00000100xxxx", InstName.Crc32b, InstEmit32.Crc32b, typeof(OpCode32AluReg));
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SetA32("<<<<00010000xxxxxxxx00100100xxxx", InstName.Crc32cb, InstEmit32.Crc32cb, typeof(OpCode32AluReg));
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SetA32("<<<<00010010xxxxxxxx00100100xxxx", InstName.Crc32ch, InstEmit32.Crc32ch, typeof(OpCode32AluReg));
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SetA32("<<<<00010100xxxxxxxx00100100xxxx", InstName.Crc32cw, InstEmit32.Crc32cw, typeof(OpCode32AluReg));
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SetA32("<<<<00010010xxxxxxxx00000100xxxx", InstName.Crc32h, InstEmit32.Crc32h, typeof(OpCode32AluReg));
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SetA32("<<<<00010100xxxxxxxx00000100xxxx", InstName.Crc32w, InstEmit32.Crc32w, typeof(OpCode32AluReg));
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SetA32("1111010101111111111100000101xxxx", InstName.Dmb, InstEmit32.Dmb, typeof(OpCode32));
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SetA32("1111010101111111111100000100xxxx", InstName.Dsb, InstEmit32.Dsb, typeof(OpCode32));
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SetA32("<<<<0010001xxxxxxxxxxxxxxxxxxxxx", InstName.Eor, InstEmit32.Eor, typeof(OpCode32AluImm));
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@ -1,182 +1,67 @@
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// https://www.intel.com/content/dam/www/public/us/en/documents/white-papers/fast-crc-computation-generic-polynomials-pclmulqdq-paper.pdf
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using ARMeilleure.Decoders;
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using ARMeilleure.IntermediateRepresentation;
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using ARMeilleure.Translation;
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using static ARMeilleure.Instructions.InstEmitHashHelper;
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using static ARMeilleure.Instructions.InstEmitHelper;
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using static ARMeilleure.Instructions.InstEmitSimdHelper;
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using static ARMeilleure.IntermediateRepresentation.OperandHelper;
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namespace ARMeilleure.Instructions
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{
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static partial class InstEmit
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{
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private const int ByteSizeLog2 = 0;
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private const int HWordSizeLog2 = 1;
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private const int WordSizeLog2 = 2;
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private const int DWordSizeLog2 = 3;
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public static void Crc32b(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized(context, false, 8);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32b));
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}
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EmitCrc32Call(context, ByteSizeLog2, false);
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}
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public static void Crc32h(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized(context, false, 16);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32h));
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}
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EmitCrc32Call(context, HWordSizeLog2, false);
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}
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public static void Crc32w(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized(context, false, 32);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32w));
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}
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EmitCrc32Call(context, WordSizeLog2, false);
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}
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public static void Crc32x(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized64(context, false);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32x));
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}
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EmitCrc32Call(context, DWordSizeLog2, false);
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}
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public static void Crc32cb(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized(context, true, 8);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32cb));
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}
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EmitCrc32Call(context, ByteSizeLog2, true);
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}
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public static void Crc32ch(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized(context, true, 16);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32ch));
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}
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EmitCrc32Call(context, HWordSizeLog2, true);
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}
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public static void Crc32cw(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized(context, true, 32);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32cw));
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}
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EmitCrc32Call(context, WordSizeLog2, true);
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}
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public static void Crc32cx(ArmEmitterContext context)
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{
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if (Optimizations.UsePclmulqdq)
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{
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EmitCrc32Optimized64(context, true);
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}
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else
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{
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EmitCrc32Call(context, nameof(SoftFallback.Crc32cx));
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}
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EmitCrc32Call(context, DWordSizeLog2, true);
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}
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private static void EmitCrc32Optimized(ArmEmitterContext context, bool castagnoli, int bitsize)
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{
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OpCodeAluBinary op = (OpCodeAluBinary)context.CurrOp;
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long mu = castagnoli ? 0x0DEA713F1 : 0x1F7011641; // mu' = floor(x^64/P(x))'
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long polynomial = castagnoli ? 0x105EC76F0 : 0x1DB710641; // P'(x) << 1
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Operand crc = GetIntOrZR(context, op.Rn);
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Operand data = GetIntOrZR(context, op.Rm);
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crc = context.VectorInsert(context.VectorZero(), crc, 0);
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switch (bitsize)
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{
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case 8: data = context.VectorInsert8(context.VectorZero(), data, 0); break;
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case 16: data = context.VectorInsert16(context.VectorZero(), data, 0); break;
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case 32: data = context.VectorInsert(context.VectorZero(), data, 0); break;
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}
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Operand tmp = context.AddIntrinsic(Intrinsic.X86Pxor, crc, data);
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tmp = context.AddIntrinsic(Intrinsic.X86Psllq, tmp, Const(64 - bitsize));
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tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, mu), Const(0));
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tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, polynomial), Const(0));
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if (bitsize < 32)
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{
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crc = context.AddIntrinsic(Intrinsic.X86Pslldq, crc, Const((64 - bitsize) / 8));
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tmp = context.AddIntrinsic(Intrinsic.X86Pxor, tmp, crc);
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}
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SetIntOrZR(context, op.Rd, context.VectorExtract(OperandType.I32, tmp, 2));
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}
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private static void EmitCrc32Optimized64(ArmEmitterContext context, bool castagnoli)
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{
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OpCodeAluBinary op = (OpCodeAluBinary)context.CurrOp;
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long mu = castagnoli ? 0x0DEA713F1 : 0x1F7011641; // mu' = floor(x^64/P(x))'
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long polynomial = castagnoli ? 0x105EC76F0 : 0x1DB710641; // P'(x) << 1
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Operand crc = GetIntOrZR(context, op.Rn);
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Operand data = GetIntOrZR(context, op.Rm);
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crc = context.VectorInsert(context.VectorZero(), crc, 0);
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data = context.VectorInsert(context.VectorZero(), data, 0);
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Operand tmp = context.AddIntrinsic(Intrinsic.X86Pxor, crc, data);
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Operand res = context.AddIntrinsic(Intrinsic.X86Pslldq, tmp, Const(4));
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tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, res, X86GetScalar(context, mu), Const(0));
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tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, polynomial), Const(0));
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tmp = context.AddIntrinsic(Intrinsic.X86Pxor, tmp, res);
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tmp = context.AddIntrinsic(Intrinsic.X86Psllq, tmp, Const(32));
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tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, mu), Const(1));
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tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, polynomial), Const(0));
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SetIntOrZR(context, op.Rd, context.VectorExtract(OperandType.I32, tmp, 2));
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}
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private static void EmitCrc32Call(ArmEmitterContext context, string name)
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private static void EmitCrc32Call(ArmEmitterContext context, int size, bool c)
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{
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OpCodeAluBinary op = (OpCodeAluBinary)context.CurrOp;
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Operand n = GetIntOrZR(context, op.Rn);
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Operand m = GetIntOrZR(context, op.Rm);
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Operand d = context.Call(typeof(SoftFallback).GetMethod(name), n, m);
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Operand d = EmitCrc32(context, n, m, size, c);
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SetIntOrZR(context, op.Rd, d);
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}
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54
ARMeilleure/Instructions/InstEmitHash32.cs
Normal file
54
ARMeilleure/Instructions/InstEmitHash32.cs
Normal file
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@ -0,0 +1,54 @@
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using ARMeilleure.Decoders;
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using ARMeilleure.IntermediateRepresentation;
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using ARMeilleure.Translation;
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using static ARMeilleure.Instructions.InstEmitHelper;
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using static ARMeilleure.Instructions.InstEmitHashHelper;
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namespace ARMeilleure.Instructions
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{
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static partial class InstEmit32
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{
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public static void Crc32b(ArmEmitterContext context)
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{
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EmitCrc32Call(context, ByteSizeLog2, false);
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}
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public static void Crc32h(ArmEmitterContext context)
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{
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EmitCrc32Call(context, HWordSizeLog2, false);
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}
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public static void Crc32w(ArmEmitterContext context)
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{
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EmitCrc32Call(context, WordSizeLog2, false);
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}
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public static void Crc32cb(ArmEmitterContext context)
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{
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EmitCrc32Call(context, ByteSizeLog2, true);
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}
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public static void Crc32ch(ArmEmitterContext context)
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{
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EmitCrc32Call(context, HWordSizeLog2, true);
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}
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public static void Crc32cw(ArmEmitterContext context)
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{
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EmitCrc32Call(context, WordSizeLog2, true);
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}
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private static void EmitCrc32Call(ArmEmitterContext context, int size, bool c)
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{
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||||
IOpCode32AluReg op = (IOpCode32AluReg)context.CurrOp;
|
||||
|
||||
Operand n = GetIntA32(context, op.Rn);
|
||||
Operand m = GetIntA32(context, op.Rm);
|
||||
|
||||
Operand d = EmitCrc32(context, n, m, size, c);
|
||||
|
||||
EmitAluStore(context, d);
|
||||
}
|
||||
}
|
||||
}
|
119
ARMeilleure/Instructions/InstEmitHashHelper.cs
Normal file
119
ARMeilleure/Instructions/InstEmitHashHelper.cs
Normal file
|
@ -0,0 +1,119 @@
|
|||
// https://www.intel.com/content/dam/www/public/us/en/documents/white-papers/fast-crc-computation-generic-polynomials-pclmulqdq-paper.pdf
|
||||
|
||||
using ARMeilleure.IntermediateRepresentation;
|
||||
using ARMeilleure.Translation;
|
||||
using System;
|
||||
using System.Diagnostics;
|
||||
|
||||
using static ARMeilleure.IntermediateRepresentation.OperandHelper;
|
||||
using static ARMeilleure.Instructions.InstEmitSimdHelper;
|
||||
|
||||
namespace ARMeilleure.Instructions
|
||||
{
|
||||
static class InstEmitHashHelper
|
||||
{
|
||||
public const uint Crc32RevPoly = 0xedb88320;
|
||||
public const uint Crc32cRevPoly = 0x82f63b78;
|
||||
|
||||
public static Operand EmitCrc32(ArmEmitterContext context, Operand crc, Operand value, int size, bool castagnoli)
|
||||
{
|
||||
Debug.Assert(crc.Type.IsInteger() && value.Type.IsInteger());
|
||||
Debug.Assert(size >= 0 && size < 4);
|
||||
Debug.Assert((size < 3) || (value.Type == OperandType.I64));
|
||||
|
||||
if (castagnoli && Optimizations.UseSse42)
|
||||
{
|
||||
// The CRC32 instruction does not have an immediate variant, so ensure both inputs are in registers.
|
||||
value = (value.Kind == OperandKind.Constant) ? context.Copy(value) : value;
|
||||
crc = (crc.Kind == OperandKind.Constant) ? context.Copy(crc) : crc;
|
||||
|
||||
Intrinsic op = size switch
|
||||
{
|
||||
0 => Intrinsic.X86Crc32_8,
|
||||
1 => Intrinsic.X86Crc32_16,
|
||||
_ => Intrinsic.X86Crc32,
|
||||
};
|
||||
|
||||
return (size == 3) ? context.ConvertI64ToI32(context.AddIntrinsicLong(op, crc, value)) : context.AddIntrinsicInt(op, crc, value);
|
||||
}
|
||||
else if (Optimizations.UsePclmulqdq)
|
||||
{
|
||||
return size switch
|
||||
{
|
||||
3 => EmitCrc32Optimized64(context, crc, value, castagnoli),
|
||||
_ => EmitCrc32Optimized(context, crc, value, castagnoli, size),
|
||||
};
|
||||
}
|
||||
else
|
||||
{
|
||||
string name = (size, castagnoli) switch
|
||||
{
|
||||
(0, false) => nameof(SoftFallback.Crc32b),
|
||||
(1, false) => nameof(SoftFallback.Crc32h),
|
||||
(2, false) => nameof(SoftFallback.Crc32w),
|
||||
(3, false) => nameof(SoftFallback.Crc32x),
|
||||
(0, true) => nameof(SoftFallback.Crc32cb),
|
||||
(1, true) => nameof(SoftFallback.Crc32ch),
|
||||
(2, true) => nameof(SoftFallback.Crc32cw),
|
||||
(3, true) => nameof(SoftFallback.Crc32cx),
|
||||
_ => throw new ArgumentOutOfRangeException(nameof(size))
|
||||
};
|
||||
|
||||
return context.Call(typeof(SoftFallback).GetMethod(name), crc, value);
|
||||
}
|
||||
}
|
||||
|
||||
private static Operand EmitCrc32Optimized(ArmEmitterContext context, Operand crc, Operand data, bool castagnoli, int size)
|
||||
{
|
||||
long mu = castagnoli ? 0x0DEA713F1 : 0x1F7011641; // mu' = floor(x^64/P(x))'
|
||||
long polynomial = castagnoli ? 0x105EC76F0 : 0x1DB710641; // P'(x) << 1
|
||||
|
||||
crc = context.VectorInsert(context.VectorZero(), crc, 0);
|
||||
|
||||
switch (size)
|
||||
{
|
||||
case 0: data = context.VectorInsert8(context.VectorZero(), data, 0); break;
|
||||
case 1: data = context.VectorInsert16(context.VectorZero(), data, 0); break;
|
||||
case 2: data = context.VectorInsert(context.VectorZero(), data, 0); break;
|
||||
}
|
||||
|
||||
int bitsize = 8 << size;
|
||||
|
||||
Operand tmp = context.AddIntrinsic(Intrinsic.X86Pxor, crc, data);
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Psllq, tmp, Const(64 - bitsize));
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, mu), Const(0));
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, polynomial), Const(0));
|
||||
|
||||
if (bitsize < 32)
|
||||
{
|
||||
crc = context.AddIntrinsic(Intrinsic.X86Pslldq, crc, Const((64 - bitsize) / 8));
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pxor, tmp, crc);
|
||||
}
|
||||
|
||||
return context.VectorExtract(OperandType.I32, tmp, 2);
|
||||
}
|
||||
|
||||
private static Operand EmitCrc32Optimized64(ArmEmitterContext context, Operand crc, Operand data, bool castagnoli)
|
||||
{
|
||||
long mu = castagnoli ? 0x0DEA713F1 : 0x1F7011641; // mu' = floor(x^64/P(x))'
|
||||
long polynomial = castagnoli ? 0x105EC76F0 : 0x1DB710641; // P'(x) << 1
|
||||
|
||||
crc = context.VectorInsert(context.VectorZero(), crc, 0);
|
||||
data = context.VectorInsert(context.VectorZero(), data, 0);
|
||||
|
||||
Operand tmp = context.AddIntrinsic(Intrinsic.X86Pxor, crc, data);
|
||||
Operand res = context.AddIntrinsic(Intrinsic.X86Pslldq, tmp, Const(4));
|
||||
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, res, X86GetScalar(context, mu), Const(0));
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, polynomial), Const(0));
|
||||
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pxor, tmp, res);
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Psllq, tmp, Const(32));
|
||||
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, mu), Const(1));
|
||||
tmp = context.AddIntrinsic(Intrinsic.X86Pclmulqdq, tmp, X86GetScalar(context, polynomial), Const(0));
|
||||
|
||||
return context.VectorExtract(OperandType.I32, tmp, 2);
|
||||
}
|
||||
}
|
||||
}
|
|
@ -27,6 +27,9 @@ namespace ARMeilleure.IntermediateRepresentation
|
|||
X86Comisseq,
|
||||
X86Comissge,
|
||||
X86Comisslt,
|
||||
X86Crc32,
|
||||
X86Crc32_16,
|
||||
X86Crc32_8,
|
||||
X86Cvtdq2pd,
|
||||
X86Cvtdq2ps,
|
||||
X86Cvtpd2dq,
|
||||
|
|
|
@ -20,7 +20,7 @@ namespace ARMeilleure.Translation.PTC
|
|||
{
|
||||
private const string HeaderMagic = "PTChd";
|
||||
|
||||
private const int InternalVersion = 8; //! To be incremented manually for each change to the ARMeilleure project.
|
||||
private const int InternalVersion = 9; //! To be incremented manually for each change to the ARMeilleure project.
|
||||
|
||||
private const string BaseDir = "Ryujinx";
|
||||
|
||||
|
|
|
@ -167,11 +167,11 @@ namespace Ryujinx.Tests.Cpu
|
|||
}
|
||||
}
|
||||
|
||||
protected void ExecuteOpcodes()
|
||||
protected void ExecuteOpcodes(bool runUnicorn = true)
|
||||
{
|
||||
_cpuContext.Execute(_context, _entryPoint);
|
||||
|
||||
if (_unicornAvailable)
|
||||
if (_unicornAvailable && runUnicorn)
|
||||
{
|
||||
_unicornEmu.RunForCount((_currAddress - _entryPoint - 4) / 4);
|
||||
}
|
||||
|
@ -196,12 +196,13 @@ namespace Ryujinx.Tests.Cpu
|
|||
bool zero = false,
|
||||
bool negative = false,
|
||||
int fpcr = 0,
|
||||
int fpsr = 0)
|
||||
int fpsr = 0,
|
||||
bool runUnicorn = true)
|
||||
{
|
||||
Opcode(opcode);
|
||||
Opcode(0xD65F03C0); // RET
|
||||
SetContext(x0, x1, x2, x3, x31, v0, v1, v2, v3, v4, v5, v30, v31, overflow, carry, zero, negative, fpcr, fpsr);
|
||||
ExecuteOpcodes();
|
||||
ExecuteOpcodes(runUnicorn);
|
||||
|
||||
return GetContext();
|
||||
}
|
||||
|
|
|
@ -1,5 +1,6 @@
|
|||
#define AluBinary
|
||||
|
||||
using ARMeilleure.State;
|
||||
using NUnit.Framework;
|
||||
|
||||
namespace Ryujinx.Tests.Cpu
|
||||
|
@ -8,8 +9,78 @@ namespace Ryujinx.Tests.Cpu
|
|||
public sealed class CpuTestAluBinary : CpuTest
|
||||
{
|
||||
#if AluBinary
|
||||
public struct CrcTest
|
||||
{
|
||||
public uint Crc;
|
||||
public ulong Value;
|
||||
public bool C;
|
||||
|
||||
public uint[] Results; // One result for each CRC variant (8, 16, 32)
|
||||
|
||||
public CrcTest(uint crc, ulong value, bool c, params uint[] results)
|
||||
{
|
||||
Crc = crc;
|
||||
Value = value;
|
||||
C = c;
|
||||
Results = results;
|
||||
}
|
||||
}
|
||||
|
||||
#region "ValueSource (CRC32)"
|
||||
private static CrcTest[] _CRC32_Test_Values_()
|
||||
{
|
||||
// Created with http://www.sunshine2k.de/coding/javascript/crc/crc_js.html, with:
|
||||
// - non-reflected polynomials
|
||||
// - input reflected, result reflected
|
||||
// - bytes in order of increasing significance
|
||||
// - xor 0
|
||||
// Only includes non-C variant, as the other can be tested with unicorn.
|
||||
|
||||
return new CrcTest[]
|
||||
{
|
||||
new CrcTest(0x00000000u, 0x00_00_00_00_00_00_00_00u, false, 0x00000000, 0x00000000, 0x00000000, 0x00000000),
|
||||
new CrcTest(0x00000000u, 0x7f_ff_ff_ff_ff_ff_ff_ffu, false, 0x2d02ef8d, 0xbe2612ff, 0xdebb20e3, 0xa9de8355),
|
||||
new CrcTest(0x00000000u, 0x80_00_00_00_00_00_00_00u, false, 0x00000000, 0x00000000, 0x00000000, 0xedb88320),
|
||||
new CrcTest(0x00000000u, 0xff_ff_ff_ff_ff_ff_ff_ffu, false, 0x2d02ef8d, 0xbe2612ff, 0xdebb20e3, 0x44660075),
|
||||
new CrcTest(0x00000000u, 0xa0_02_f1_ca_52_78_8c_1cu, false, 0x14015c4f, 0x02799256, 0x9063c9e5, 0x8816610a),
|
||||
|
||||
new CrcTest(0xffffffffu, 0x00_00_00_00_00_00_00_00u, false, 0x2dfd1072, 0xbe26ed00, 0xdebb20e3, 0x9add2096),
|
||||
new CrcTest(0xffffffffu, 0x7f_ff_ff_ff_ff_ff_ff_ffu, false, 0x00ffffff, 0x0000ffff, 0x00000000, 0x3303a3c3),
|
||||
new CrcTest(0xffffffffu, 0x80_00_00_00_00_00_00_00u, false, 0x2dfd1072, 0xbe26ed00, 0xdebb20e3, 0x7765a3b6),
|
||||
new CrcTest(0xffffffffu, 0xff_ff_ff_ff_ff_ff_ff_ffu, false, 0x00ffffff, 0x0000ffff, 0x00000000, 0xdebb20e3),
|
||||
new CrcTest(0xffffffffu, 0xa0_02_f1_ca_52_78_8c_1cu, false, 0x39fc4c3d, 0xbc5f7f56, 0x4ed8e906, 0x12cb419c)
|
||||
};
|
||||
}
|
||||
#endregion
|
||||
|
||||
private const int RndCnt = 2;
|
||||
|
||||
[Test, Combinatorial]
|
||||
public void Crc32_b_h_w_x([Values(0u)] uint rd,
|
||||
[Values(1u)] uint rn,
|
||||
[Values(2u)] uint rm,
|
||||
[Range(0u, 3u)] uint size,
|
||||
[ValueSource("_CRC32_Test_Values_")] CrcTest test)
|
||||
{
|
||||
uint opcode = 0x1AC04000; // CRC32B W0, W0, W0
|
||||
|
||||
opcode |= size << 10;
|
||||
opcode |= ((rm & 31) << 16) | ((rn & 31) << 5) | ((rd & 31) << 0);
|
||||
|
||||
if (size == 3)
|
||||
{
|
||||
opcode |= 0x80000000;
|
||||
}
|
||||
|
||||
uint w31 = TestContext.CurrentContext.Random.NextUInt();
|
||||
|
||||
SingleOpcode(opcode, x1: test.Crc, x2: test.Value, x31: w31, runUnicorn: false);
|
||||
|
||||
ExecutionContext context = GetContext();
|
||||
ulong result = context.GetX((int)rd);
|
||||
Assert.That(result == test.Results[size]);
|
||||
}
|
||||
|
||||
[Test, Pairwise, Description("CRC32X <Wd>, <Wn>, <Xm>"), Ignore("Unicorn fails.")]
|
||||
public void Crc32x([Values(0u, 31u)] uint rd,
|
||||
[Values(1u, 31u)] uint rn,
|
||||
|
|
96
Ryujinx.Tests/Cpu/CpuTestAluBinary32.cs
Normal file
96
Ryujinx.Tests/Cpu/CpuTestAluBinary32.cs
Normal file
|
@ -0,0 +1,96 @@
|
|||
#define AluBinary32
|
||||
|
||||
using ARMeilleure.State;
|
||||
using NUnit.Framework;
|
||||
using System;
|
||||
|
||||
namespace Ryujinx.Tests.Cpu
|
||||
{
|
||||
|
||||
[Category("AluBinary32")]
|
||||
public sealed class CpuTestAluBinary32 : CpuTest32
|
||||
{
|
||||
#if AluBinary32
|
||||
public struct CrcTest32
|
||||
{
|
||||
public uint Crc;
|
||||
public uint Value;
|
||||
public bool C;
|
||||
|
||||
public uint[] Results; // One result for each CRC variant (8, 16, 32)
|
||||
|
||||
public CrcTest32(uint crc, uint value, bool c, params uint[] results)
|
||||
{
|
||||
Crc = crc;
|
||||
Value = value;
|
||||
C = c;
|
||||
Results = results;
|
||||
}
|
||||
}
|
||||
|
||||
#region "ValueSource (CRC32/CRC32C)"
|
||||
private static CrcTest32[] _CRC32_Test_Values_()
|
||||
{
|
||||
// Created with http://www.sunshine2k.de/coding/javascript/crc/crc_js.html, with:
|
||||
// - non-reflected polynomials
|
||||
// - input reflected, result reflected
|
||||
// - bytes in order of increasing significance
|
||||
// - xor 0
|
||||
|
||||
return new CrcTest32[]
|
||||
{
|
||||
new CrcTest32(0x00000000u, 0x00_00_00_00u, false, 0x00000000, 0x00000000, 0x00000000),
|
||||
new CrcTest32(0x00000000u, 0x7f_ff_ff_ffu, false, 0x2d02ef8d, 0xbe2612ff, 0x3303a3c3),
|
||||
new CrcTest32(0x00000000u, 0x80_00_00_00u, false, 0x00000000, 0x00000000, 0xedb88320),
|
||||
new CrcTest32(0x00000000u, 0xff_ff_ff_ffu, false, 0x2d02ef8d, 0xbe2612ff, 0xdebb20e3),
|
||||
new CrcTest32(0x00000000u, 0x9d_cb_12_f0u, false, 0xbdbdf21c, 0xe70590f5, 0x3f7480c5),
|
||||
|
||||
new CrcTest32(0xffffffffu, 0x00_00_00_00u, false, 0x2dfd1072, 0xbe26ed00, 0xdebb20e3),
|
||||
new CrcTest32(0xffffffffu, 0x7f_ff_ff_ffu, false, 0x00ffffff, 0x0000ffff, 0xedb88320),
|
||||
new CrcTest32(0xffffffffu, 0x80_00_00_00u, false, 0x2dfd1072, 0xbe26ed00, 0x3303a3c3),
|
||||
new CrcTest32(0xffffffffu, 0xff_ff_ff_ffu, false, 0x00ffffff, 0x0000ffff, 0x00000000),
|
||||
new CrcTest32(0xffffffffu, 0x9d_cb_12_f0u, false, 0x9040e26e, 0x59237df5, 0xe1cfa026),
|
||||
|
||||
new CrcTest32(0x00000000u, 0x00_00_00_00u, true, 0x00000000, 0x00000000, 0x00000000),
|
||||
new CrcTest32(0x00000000u, 0x7f_ff_ff_ffu, true, 0xad7d5351, 0x0e9e77d2, 0x356e8f40),
|
||||
new CrcTest32(0x00000000u, 0x80_00_00_00u, true, 0x00000000, 0x00000000, 0x82f63b78),
|
||||
new CrcTest32(0x00000000u, 0xff_ff_ff_ffu, true, 0xad7d5351, 0x0e9e77d2, 0xb798b438),
|
||||
new CrcTest32(0x00000000u, 0x9d_cb_12_f0u, true, 0xf36e6f75, 0xb5ff99e6, 0x782dfbf1),
|
||||
|
||||
new CrcTest32(0xffffffffu, 0x00_00_00_00u, true, 0xad82acae, 0x0e9e882d, 0xb798b438),
|
||||
new CrcTest32(0xffffffffu, 0x7f_ff_ff_ffu, true, 0x00ffffff, 0x0000ffff, 0x82f63b78),
|
||||
new CrcTest32(0xffffffffu, 0x80_00_00_00u, true, 0xad82acae, 0x0e9e882d, 0x356e8f40),
|
||||
new CrcTest32(0xffffffffu, 0xff_ff_ff_ffu, true, 0x00ffffff, 0x0000ffff, 0x00000000),
|
||||
new CrcTest32(0xffffffffu, 0x9d_cb_12_f0u, true, 0x5eecc3db, 0xbb6111cb, 0xcfb54fc9)
|
||||
};
|
||||
}
|
||||
#endregion
|
||||
|
||||
[Test, Combinatorial]
|
||||
public void Crc32_Crc32c_b_h_w([Values(0u)] uint rd,
|
||||
[Values(1u)] uint rn,
|
||||
[Values(2u)] uint rm,
|
||||
[Range(0u, 2u)] uint size,
|
||||
[ValueSource("_CRC32_Test_Values_")] CrcTest32 test)
|
||||
{
|
||||
// Unicorn does not yet support 32bit crc instructions, so test against a known table of results/values.
|
||||
|
||||
uint opcode = 0xe1000040; // CRC32B R0, R0, R0
|
||||
opcode |= ((rm & 15) << 0) | ((rd & 15) << 12) | ((rn & 15) << 16);
|
||||
opcode |= size << 21;
|
||||
if (test.C)
|
||||
{
|
||||
opcode |= 1 << 9;
|
||||
}
|
||||
|
||||
uint sp = TestContext.CurrentContext.Random.NextUInt();
|
||||
|
||||
SingleOpcode(opcode, r1: test.Crc, r2: test.Value, sp: sp, runUnicorn: false);
|
||||
|
||||
ExecutionContext context = GetContext();
|
||||
ulong result = context.GetX((int)rd);
|
||||
Assert.That(result == test.Results[size]);
|
||||
}
|
||||
#endif
|
||||
}
|
||||
}
|
Loading…
Reference in a new issue