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https://github.com/ryujinx-mirror/ryujinx.git
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5e0f8e8738
* Implement JIT Arm64 backend * PPTC version bump * Address some feedback from Arm64 JIT PR * Address even more PR feedback * Remove unused IsPageAligned function * Sync Qc flag before calls * Fix comment and remove unused enum * Address riperiperi PR feedback * Delete Breakpoint IR instruction that was only implemented for Arm64
173 lines
No EOL
5.8 KiB
C#
173 lines
No EOL
5.8 KiB
C#
using ARMeilleure.IntermediateRepresentation;
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using System;
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using System.Numerics;
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namespace ARMeilleure.CodeGen.Arm64
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{
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static class CodeGenCommon
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{
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public const int TcAddressRegister = 8;
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public const int ReservedRegister = 17;
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public static bool ConstFitsOnSImm7(int value, int scale)
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{
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return (((value >> scale) << 25) >> (25 - scale)) == value;
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}
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public static bool ConstFitsOnSImm9(int value)
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{
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return ((value << 23) >> 23) == value;
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}
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public static bool ConstFitsOnUImm12(int value)
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{
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return (value & 0xfff) == value;
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}
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public static bool ConstFitsOnUImm12(int value, OperandType type)
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{
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int scale = Assembler.GetScaleForType(type);
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return (((value >> scale) & 0xfff) << scale) == value;
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}
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public static bool TryEncodeBitMask(Operand operand, out int immN, out int immS, out int immR)
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{
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ulong value = operand.Value;
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if (operand.Type == OperandType.I32)
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{
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value |= value << 32;
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}
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return TryEncodeBitMask(value, out immN, out immS, out immR);
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}
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public static bool TryEncodeBitMask(ulong value, out int immN, out int immS, out int immR)
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{
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// Some special values also can't be encoded:
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// 0 can't be encoded because we need to subtract 1 from onesCount (which would became negative if 0).
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// A value with all bits set can't be encoded because it is reserved according to the spec, because:
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// Any value AND all ones will be equal itself, so it's effectively a no-op.
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// Any value OR all ones will be equal all ones, so one can just use MOV.
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// Any value XOR all ones will be equal its inverse, so one can just use MVN.
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if (value == ulong.MaxValue)
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{
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immN = 0;
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immS = 0;
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immR = 0;
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return false;
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}
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int bitLength = CountSequence(value);
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if ((value >> bitLength) != 0)
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{
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bitLength += CountSequence(value >> bitLength);
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}
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int bitLengthLog2 = BitOperations.Log2((uint)bitLength);
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int bitLengthPow2 = 1 << bitLengthLog2;
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if (bitLengthPow2 < bitLength)
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{
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bitLengthLog2++;
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bitLengthPow2 <<= 1;
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}
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int selectedESize = 64;
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int repetitions = 1;
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int onesCount = BitOperations.PopCount(value);
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if (bitLengthPow2 < 64 && (value >> bitLengthPow2) != 0)
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{
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for (int eSizeLog2 = bitLengthLog2; eSizeLog2 < 6; eSizeLog2++)
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{
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bool match = true;
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int eSize = 1 << eSizeLog2;
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ulong mask = (1UL << eSize) - 1;
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ulong eValue = value & mask;
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for (int e = 1; e < 64 / eSize; e++)
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{
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if (((value >> (e * eSize)) & mask) != eValue)
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{
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match = false;
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break;
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}
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}
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if (match)
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{
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selectedESize = eSize;
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repetitions = 64 / eSize;
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onesCount = BitOperations.PopCount(eValue);
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break;
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}
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}
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}
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// Find rotation. We have two cases, one where the highest bit is 0
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// and one where it is 1.
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// If it's 1, we just need to count the number of 1 bits on the MSB to find the right rotation.
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// If it's 0, we just need to count the number of 0 bits on the LSB to find the left rotation,
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// then we can convert it to the right rotation shift by subtracting the value from the element size.
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int rotation;
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long vHigh = (long)(value << (64 - selectedESize));
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if (vHigh < 0)
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{
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rotation = BitOperations.LeadingZeroCount(~(ulong)vHigh);
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}
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else
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{
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rotation = (selectedESize - BitOperations.TrailingZeroCount(value)) & (selectedESize - 1);
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}
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// Reconstruct value and see if it matches. If not, we can't encode.
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ulong reconstructed = onesCount == 64 ? ulong.MaxValue : RotateRight((1UL << onesCount) - 1, rotation, selectedESize);
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for (int bit = 32; bit >= selectedESize; bit >>= 1)
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{
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reconstructed |= reconstructed << bit;
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}
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if (reconstructed != value || onesCount == 0)
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{
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immN = 0;
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immS = 0;
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immR = 0;
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return false;
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}
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immR = rotation;
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// immN indicates that there are no repetitions.
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// The MSB of immS indicates the amount of repetitions, and the LSB the number of bits set.
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if (repetitions == 1)
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{
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immN = 1;
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immS = 0;
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}
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else
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{
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immN = 0;
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immS = (0xf80 >> BitOperations.Log2((uint)repetitions)) & 0x3f;
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}
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immS |= onesCount - 1;
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return true;
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}
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private static int CountSequence(ulong value)
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{
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return BitOperations.TrailingZeroCount(value) + BitOperations.TrailingZeroCount(~value);
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}
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private static ulong RotateRight(ulong bits, int shift, int size)
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{
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return (bits >> shift) | ((bits << (size - shift)) & (size == 64 ? ulong.MaxValue : (1UL << size) - 1));
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}
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}
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} |