using ChocolArm64.Decoder; using ChocolArm64.State; using System; namespace ChocolArm64.Instruction32 { static class A32InstInterpretHelper { public static bool IsConditionTrue(AThreadState State, ACond Cond) { switch (Cond) { case ACond.Eq: return State.Zero; case ACond.Ne: return !State.Zero; case ACond.Ge_Un: return State.Carry; case ACond.Lt_Un: return !State.Carry; case ACond.Mi: return State.Negative; case ACond.Pl: return !State.Negative; case ACond.Vs: return State.Overflow; case ACond.Vc: return !State.Overflow; case ACond.Gt_Un: return State.Carry && !State.Zero; case ACond.Le_Un: return !State.Carry && State.Zero; case ACond.Ge: return State.Negative == State.Overflow; case ACond.Lt: return State.Negative != State.Overflow; case ACond.Gt: return State.Negative == State.Overflow && !State.Zero; case ACond.Le: return State.Negative != State.Overflow && State.Zero; } return true; } public unsafe static uint GetReg(AThreadState State, int Reg) { if ((uint)Reg > 15) { throw new ArgumentOutOfRangeException(nameof(Reg)); } fixed (uint* Ptr = &State.R0) { return *(Ptr + Reg); } } public unsafe static void SetReg(AThreadState State, int Reg, uint Value) { if ((uint)Reg > 15) { throw new ArgumentOutOfRangeException(nameof(Reg)); } fixed (uint* Ptr = &State.R0) { *(Ptr + Reg) = Value; } } public static uint GetPc(AThreadState State) { //Due to the old fetch-decode-execute pipeline of old ARM CPUs, //the PC is 4 or 8 bytes (2 instructions) ahead of the current instruction. return State.R15 + (State.Thumb ? 2U : 4U); } } }