using System.Collections.Generic; namespace ChocolArm64.Translation { class ILBlock : IILEmit { public long IntInputs { get; private set; } public long IntOutputs { get; private set; } public long IntAwOutputs { get; private set; } public long VecInputs { get; private set; } public long VecOutputs { get; private set; } public long VecAwOutputs { get; private set; } public bool HasStateStore { get; private set; } private List _emitters; public int Count => _emitters.Count; public ILBlock Next { get; set; } public ILBlock Branch { get; set; } public ILBlock() { _emitters = new List(); } public void Add(IILEmit emitter) { if (emitter is ILBarrier) { //Those barriers are used to separate the groups of CIL //opcodes emitted by each ARM instruction. //We can only consider the new outputs for doing input elimination //after all the CIL opcodes used by the instruction being emitted. IntAwOutputs = IntOutputs; VecAwOutputs = VecOutputs; } else if (emitter is ILOpCodeLoad ld && ILMethodBuilder.IsRegIndex(ld.Index)) { switch (ld.IoType) { case IoType.Flag: IntInputs |= ((1L << ld.Index) << 32) & ~IntAwOutputs; break; case IoType.Int: IntInputs |= (1L << ld.Index) & ~IntAwOutputs; break; case IoType.Vector: VecInputs |= (1L << ld.Index) & ~VecAwOutputs; break; } } else if (emitter is ILOpCodeStore st && ILMethodBuilder.IsRegIndex(st.Index)) { switch (st.IoType) { case IoType.Flag: IntOutputs |= (1L << st.Index) << 32; break; case IoType.Int: IntOutputs |= 1L << st.Index; break; case IoType.Vector: VecOutputs |= 1L << st.Index; break; } } else if (emitter is ILOpCodeStoreState) { HasStateStore = true; } _emitters.Add(emitter); } public void Emit(ILMethodBuilder context) { foreach (IILEmit ilEmitter in _emitters) { ilEmitter.Emit(context); } } } }