[AArch64] Add the float emitter.
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5a0133c478
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c511ee763a
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@ -1607,5 +1607,498 @@ void ARM64XEmitter::ABI_PopRegisters(BitSet32 registers, BitSet32 ignore_mask)
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}
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}
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// Float Emitter
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void ARM64FloatEmitter::EmitLoadStoreImmediate(u8 size, u32 opc, IndexType type, ARM64Reg Rt, ARM64Reg Rn, s32 imm)
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{
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Rt = DecodeReg(Rt);
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Rn = DecodeReg(Rn);
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u32 encoded_size = 0;
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u32 encoded_imm = 0;
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if (size == 8)
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encoded_size = 0;
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else if (size == 16)
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encoded_size = 1;
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else if (size == 32)
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encoded_size = 2;
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else if (size == 64)
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encoded_size = 3;
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else if (size == 128)
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encoded_size = 0;
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if (type == INDEX_UNSIGNED)
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{
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_assert_msg_(DYNA_REC, imm & (size - 1), "%s(INDEX_UNSIGNED) immediate offset must be aligned to size!", __FUNCTION__);
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_assert_msg_(DYNA_REC, imm < 0, "%s(INDEX_UNSIGNED) immediate offset must be positive!", __FUNCTION__);
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if (size == 16)
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imm >>= 1;
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else if (size == 32)
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imm >>= 2;
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else if (size == 64)
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imm >>= 3;
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else if (size == 128)
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imm >>= 4;
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encoded_imm = (imm & 0xFFF);
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}
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else
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{
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_assert_msg_(DYNA_REC, imm < -256 || imm > 255, "%s immediate offset must be within range of -256 to 256!", __FUNCTION__);
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encoded_imm = (imm & 0x1FF) << 2;
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if (type == INDEX_POST)
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encoded_imm |= 1;
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else
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encoded_imm |= 3;
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}
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Write32((encoded_size << 30) | (0b1111 << 26) | (type == INDEX_UNSIGNED ? (1 << 24) : 0) | \
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(size == 128 ? (1 << 23) : 0) | (opc << 22) | (encoded_imm << 10) | (Rn << 5) | Rt);
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}
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void ARM64FloatEmitter::Emit2Source(bool M, bool S, u32 type, u32 opcode, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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_assert_msg_(DYNA_REC, IsQuad(Rd), "%s only supports double and single registers!", __FUNCTION__);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Rm = DecodeReg(Rm);
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Write32((M << 31) | (S << 29) | (0b11110001 << 21) | (type << 22) | (Rm << 16) | \
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(opcode << 12) | (1 << 11) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::EmitThreeSame(bool U, u32 size, u32 opcode, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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_assert_msg_(DYNA_REC, IsSingle(Rd), "%s doesn't support singles!", __FUNCTION__);
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bool quad = IsQuad(Rd);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Rm = DecodeReg(Rm);
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Write32((quad << 30) | (U << 29) | (0b1110001 << 21) | (size << 22) | \
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(Rm << 16) | (opcode << 11) | (1 << 10) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::EmitCopy(bool Q, u32 op, u32 imm5, u32 imm4, ARM64Reg Rd, ARM64Reg Rn)
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{
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_assert_msg_(DYNA_REC, Rn <= SP, "%s only supports VFP registers!", __FUNCTION__);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Write32((Q << 30) | (op << 29) | (0b111 << 25) | (imm5 << 16) | (imm4 << 11) | \
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(1 << 10) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::Emit2RegMisc(bool U, u32 size, u32 opcode, ARM64Reg Rd, ARM64Reg Rn)
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{
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_assert_msg_(DYNA_REC, IsSingle(Rd), "%s doesn't support singles!", __FUNCTION__);
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bool quad = IsQuad(Rd);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Write32((quad << 30) | (U << 29) | (0b1110001 << 21) | (size << 22) | \
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(opcode << 12) | (1 << 11) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::EmitLoadStoreSingleStructure(bool L, bool R, u32 opcode, bool S, u32 size, ARM64Reg Rt, ARM64Reg Rn)
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{
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_assert_msg_(DYNA_REC, IsSingle(Rt), "%s doesn't support singles!", __FUNCTION__);
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bool quad = IsQuad(Rt);
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Rt = DecodeReg(Rt);
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Rn = DecodeReg(Rn);
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Write32((quad << 30) | (0b1101 << 24) | (L << 22) | (R << 21) | (opcode << 13) | \
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(S << 12) | (size << 10) | (Rn << 5) | Rt);
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}
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void ARM64FloatEmitter::Emit1Source(bool M, bool S, u32 type, u32 opcode, ARM64Reg Rd, ARM64Reg Rn)
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{
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_assert_msg_(DYNA_REC, IsQuad(Rd), "%s doesn't support vector!", __FUNCTION__);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Write32((M << 31) | (S << 29) | (0b11110001 << 21) | (type << 22) | (opcode << 15) | \
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(1 << 14) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::EmitConversion(bool sf, bool S, u32 type, u32 rmode, u32 opcode, ARM64Reg Rd, ARM64Reg Rn)
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{
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_assert_msg_(DYNA_REC, !(Rn <= SP), "%s only supports GPR as source!", __FUNCTION__);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Write32((sf << 31) | (S << 29) | (0b11110001 << 21) | (type << 22) | (rmode << 19) | \
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(opcode << 16) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::EmitCompare(bool M, bool S, u32 op, u32 opcode2, ARM64Reg Rn, ARM64Reg Rm)
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{
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bool is_double = !IsSingle(Rn);
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Rn = DecodeReg(Rn);
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Rm = DecodeReg(Rm);
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Write32((M << 31) | (S << 29) | (0b11110001 << 21) | (is_double << 22) | (Rm << 16) | \
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(op << 14) | (1 << 13) | (Rn << 5) | opcode2);
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}
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void ARM64FloatEmitter::EmitCondSelect(bool M, bool S, CCFlags cond, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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bool is_double = !IsSingle(Rd);
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Rm = DecodeReg(Rm);
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Write32((M << 31) | (S << 29) | (0b11110001 << 21) | (is_double << 22) | (Rm << 16) | \
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(cond << 12) | (0b11 << 10) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::EmitPermute(u32 size, u32 op, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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_assert_msg_(DYNA_REC, IsSingle(Rd), "%s doesn't support singles!", __FUNCTION__);
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bool quad = IsQuad(Rd);
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u32 encoded_size = 0;
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if (size == 16)
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encoded_size = 1;
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else if (size == 32)
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encoded_size = 2;
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else if (size == 64)
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encoded_size = 3;
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Rd = DecodeReg(Rd);
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Rn = DecodeReg(Rn);
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Rm = DecodeReg(Rm);
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Write32((quad << 30) | (0b111 << 25) | (encoded_size << 22) | (Rm << 16) | (op << 12) | \
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(1 << 11) | (Rn << 5) | Rd);
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}
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void ARM64FloatEmitter::LDR(u8 size, IndexType type, ARM64Reg Rt, ARM64Reg Rn, s32 imm)
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{
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EmitLoadStoreImmediate(size, 1, type, Rt, Rn, imm);
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}
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void ARM64FloatEmitter::STR(u8 size, IndexType type, ARM64Reg Rt, ARM64Reg Rn, s32 imm)
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{
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EmitLoadStoreImmediate(size, 0, type, Rt, Rn, imm);
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}
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// Loadstore single structure
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void ARM64FloatEmitter::LD1R(u8 size, ARM64Reg Rt, ARM64Reg Rn)
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{
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EmitLoadStoreSingleStructure(1, 0, 0b110, 0, size >> 4, Rt, Rn);
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}
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// Scalar - 2 Source
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void ARM64FloatEmitter::FMUL(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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Emit2Source(0, 0, IsDouble(Rd), 0, Rd, Rn, Rm);
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}
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// Vector
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void ARM64FloatEmitter::AND(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(0, 0, 0b00011, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::BSL(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(1, 1, 0b00011, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::DUP(u8 size, ARM64Reg Rd, ARM64Reg Rn, u8 index)
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{
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u32 imm5 = 0;
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if (size == 8)
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{
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imm5 = 1;
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imm5 |= index << 1;
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}
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else if (size == 16)
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{
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imm5 = 2;
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imm5 |= index << 2;
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}
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else if (size == 32)
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{
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imm5 = 4;
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imm5 |= index << 3;
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}
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else if (size == 64)
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{
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imm5 = 8;
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imm5 |= index << 4;
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}
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EmitCopy(IsQuad(Rd), 0, imm5, 0, Rd, Rn);
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}
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void ARM64FloatEmitter::FABS(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(0, 2 | (size >> 6), 0b01111, Rd, Rn);
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}
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void ARM64FloatEmitter::FADD(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(0, size >> 6, 0b11010, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::FCVTL(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(0, size >> 6, 0b10111, Rd, Rn);
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}
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void ARM64FloatEmitter::FDIV(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(1, size >> 6, 0b11111, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::FMUL(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(1, size >> 6, 0b11011, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::FNEG(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(1, 2 | (size >> 6), 0b01111, Rd, Rn);
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}
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void ARM64FloatEmitter::FRSQRTE(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(1, 2 | (size >> 6), 0b11101, Rd, Rn);
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}
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void ARM64FloatEmitter::FSUB(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(0, 2 | (size >> 6), 0b11010, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::NOT(ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(1, 0, 0b00101, Rd, Rn);
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}
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void ARM64FloatEmitter::ORR(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(0, 2, 0b00011, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::REV16(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(0, 1 | (size >> 4), 0, Rd, Rn);
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}
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void ARM64FloatEmitter::REV32(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(1, size >> 4, 0, Rd, Rn);
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}
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void ARM64FloatEmitter::REV64(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(0, size >> 4, 0, Rd, Rn);
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}
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// Move
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void ARM64FloatEmitter::DUP(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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u32 imm5 = 0;
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if (size == 8)
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imm5 = 1;
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else if (size == 16)
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imm5 = 2;
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else if (size == 32)
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imm5 = 4;
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else if (size == 64)
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imm5 = 8;
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EmitCopy(IsQuad(Rd), 0, imm5, 0b0001, Rd, Rn);
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}
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void ARM64FloatEmitter::INS(u8 size, ARM64Reg Rd, u8 index, ARM64Reg Rn)
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{
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u32 imm5 = 0;
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if (size == 8)
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{
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imm5 = 1;
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imm5 |= index << 1;
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}
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else if (size == 16)
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{
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imm5 = 2;
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imm5 |= index << 2;
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}
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else if (size == 32)
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{
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imm5 = 4;
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imm5 |= index << 3;
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}
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else if (size == 64)
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{
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imm5 = 8;
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imm5 |= index << 4;
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}
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EmitCopy(1, 0, imm5, 0b0011, Rd, Rn);
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}
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void ARM64FloatEmitter::INS(u8 size, ARM64Reg Rd, u8 index1, ARM64Reg Rn, u8 index2)
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{
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u32 imm5 = 0, imm4 = 0;
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if (size == 8)
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{
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imm5 = 1;
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imm5 |= index1 << 1;
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imm4 = index2;
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}
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else if (size == 16)
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{
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imm5 = 2;
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imm5 |= index1 << 2;
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imm4 = index2 << 1;
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}
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else if (size == 32)
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{
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imm5 = 4;
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imm5 |= index1 << 3;
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imm4 = index2 << 2;
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}
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else if (size == 64)
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{
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imm5 = 8;
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imm5 |= index1 << 4;
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imm4 = index2 << 3;
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}
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EmitCopy(1, 1, imm5, imm4, Rd, Rn);
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}
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// One source
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void ARM64FloatEmitter::FCVT(u8 size_to, u8 size_from, ARM64Reg Rd, ARM64Reg Rn)
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{
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u32 dst_encoding = 0;
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u32 src_encoding = 0;
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if (size_to == 16)
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dst_encoding = 3;
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else if (size_to == 32)
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dst_encoding = 0;
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else if (size_to == 64)
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dst_encoding = 1;
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if (size_from == 16)
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src_encoding = 3;
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else if (size_from == 32)
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src_encoding = 0;
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else if (size_from == 64)
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src_encoding = 1;
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Emit1Source(0, 0, src_encoding, 0b100 | dst_encoding, Rd, Rn);
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}
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// Conversion between float and integer
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void ARM64FloatEmitter::FMOV(u8 size, bool top, ARM64Reg Rd, ARM64Reg Rn)
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{
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bool sf = size == 64 ? true : false;
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u32 type = 0;
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u32 rmode = top ? 1 : 0;
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if (size == 64)
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{
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if (top)
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type = 2;
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else
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type = 1;
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}
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EmitConversion(sf, 0, type, rmode, IsVector(Rd) ? 0b111 : 0b110, Rd, Rn);
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}
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void ARM64FloatEmitter::FCMP(ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitCompare(0, 0, 0, 0, Rn, Rm);
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}
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void ARM64FloatEmitter::FCMP(ARM64Reg Rn)
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{
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EmitCompare(0, 0, 0, 0b01000, Rn, (ARM64Reg)0);
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}
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void ARM64FloatEmitter::FCMPE(ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitCompare(0, 0, 0, 0b10000, Rn, Rm);
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}
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void ARM64FloatEmitter::FCMPE(ARM64Reg Rn)
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{
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EmitCompare(0, 0, 0, 0b11000, Rn, (ARM64Reg)0);
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}
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void ARM64FloatEmitter::FCMEQ(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(0, size >> 6, 0b11100, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::FCMEQ(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(0, 2 | (size >> 6), 0b01101, Rd, Rn);
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}
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void ARM64FloatEmitter::FCMGE(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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{
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EmitThreeSame(1, size >> 6, 0b11100, Rd, Rn, Rm);
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}
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void ARM64FloatEmitter::FCMGE(u8 size, ARM64Reg Rd, ARM64Reg Rn)
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{
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Emit2RegMisc(1, 2 | (size >> 6), 0b01100, Rd, Rn);
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}
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void ARM64FloatEmitter::FCMGT(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
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||||
{
|
||||
EmitThreeSame(1, 2 | (size >> 6), 0b11100, Rd, Rn, Rm);
|
||||
}
|
||||
void ARM64FloatEmitter::FCMGT(u8 size, ARM64Reg Rd, ARM64Reg Rn)
|
||||
{
|
||||
Emit2RegMisc(0, 2 | (size >> 6), 0b01100, Rd, Rn);
|
||||
}
|
||||
void ARM64FloatEmitter::FCMLE(u8 size, ARM64Reg Rd, ARM64Reg Rn)
|
||||
{
|
||||
Emit2RegMisc(1, 2 | (size >> 6), 0b01101, Rd, Rn);
|
||||
}
|
||||
void ARM64FloatEmitter::FCMLT(u8 size, ARM64Reg Rd, ARM64Reg Rn)
|
||||
{
|
||||
Emit2RegMisc(0, 2 | (size >> 6), 0b01110, Rd, Rn);
|
||||
}
|
||||
|
||||
void ARM64FloatEmitter::FCSEL(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm, CCFlags cond)
|
||||
{
|
||||
EmitCondSelect(0, 0, cond, Rd, Rn, Rm);
|
||||
}
|
||||
|
||||
// Permute
|
||||
void ARM64FloatEmitter::UZP1(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
|
||||
{
|
||||
EmitPermute(size, 0b001, Rd, Rn, Rm);
|
||||
}
|
||||
void ARM64FloatEmitter::TRN1(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
|
||||
{
|
||||
EmitPermute(size, 0b010, Rd, Rn, Rm);
|
||||
}
|
||||
void ARM64FloatEmitter::ZIP1(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
|
||||
{
|
||||
EmitPermute(size, 0b011, Rd, Rn, Rm);
|
||||
}
|
||||
void ARM64FloatEmitter::UZP2(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
|
||||
{
|
||||
EmitPermute(size, 0b101, Rd, Rn, Rm);
|
||||
}
|
||||
void ARM64FloatEmitter::TRN2(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
|
||||
{
|
||||
EmitPermute(size, 0b110, Rd, Rn, Rm);
|
||||
}
|
||||
void ARM64FloatEmitter::ZIP2(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm)
|
||||
{
|
||||
EmitPermute(size, 0b111, Rd, Rn, Rm);
|
||||
}
|
||||
|
||||
void ARM64FloatEmitter::ABI_PushRegisters(BitSet32 registers)
|
||||
{
|
||||
for (auto it : registers)
|
||||
STR(128, INDEX_PRE, (ARM64Reg)(Q0 + it), SP, -16);
|
||||
|
||||
}
|
||||
void ARM64FloatEmitter::ABI_PopRegisters(BitSet32 registers, BitSet32 ignore_mask)
|
||||
{
|
||||
for (int i = 31; i >= 0; --i)
|
||||
{
|
||||
if (!registers[i])
|
||||
continue;
|
||||
|
||||
if (ignore_mask[i])
|
||||
m_emit->ADD(SP, SP, 16);
|
||||
else
|
||||
LDR(128, INDEX_POST, (ARM64Reg)(Q0 + i), SP, 16);
|
||||
}
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
|
|
|
@ -280,6 +280,8 @@ public:
|
|||
|
||||
class ARM64XEmitter
|
||||
{
|
||||
friend class ARM64FloatEmitter;
|
||||
|
||||
private:
|
||||
u8* m_code;
|
||||
u8* m_startcode;
|
||||
|
@ -577,6 +579,96 @@ public:
|
|||
void ABI_PopRegisters(BitSet32 registers, BitSet32 ignore_mask = BitSet32(0));
|
||||
};
|
||||
|
||||
class ARM64FloatEmitter
|
||||
{
|
||||
public:
|
||||
ARM64FloatEmitter(ARM64XEmitter* emit) : m_emit(emit) {}
|
||||
|
||||
void LDR(u8 size, IndexType type, ARM64Reg Rt, ARM64Reg Rn, s32 imm);
|
||||
void STR(u8 size, IndexType type, ARM64Reg Rt, ARM64Reg Rn, s32 imm);
|
||||
|
||||
// Loadstore single structure
|
||||
void LD1R(u8 size, ARM64Reg Rt, ARM64Reg Rn);
|
||||
|
||||
// Scalar - 2 Source
|
||||
void FMUL(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
|
||||
// Vector
|
||||
void AND(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void BSL(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void DUP(u8 size, ARM64Reg Rd, ARM64Reg Rn, u8 index);
|
||||
void FABS(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FADD(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FCVTL(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FDIV(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FMUL(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FNEG(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FRSQRTE(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FSUB(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void NOT(ARM64Reg Rd, ARM64Reg Rn);
|
||||
void ORR(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void REV16(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void REV32(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void REV64(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
|
||||
// Move
|
||||
void DUP(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void INS(u8 size, ARM64Reg Rd, u8 index, ARM64Reg Rn);
|
||||
void INS(u8 size, ARM64Reg Rd, u8 index1, ARM64Reg Rn, u8 index2);
|
||||
|
||||
// One source
|
||||
void FCVT(u8 size_to, u8 size_from, ARM64Reg Rd, ARM64Reg Rn);
|
||||
|
||||
// Conversion between float and integer
|
||||
void FMOV(u8 size, bool top, ARM64Reg Rd, ARM64Reg Rn);
|
||||
|
||||
// Float comparison
|
||||
void FCMP(ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FCMP(ARM64Reg Rn);
|
||||
void FCMPE(ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FCMPE(ARM64Reg Rn);
|
||||
void FCMEQ(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FCMEQ(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FCMGE(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FCMGE(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FCMGT(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void FCMGT(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FCMLE(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void FCMLT(u8 size, ARM64Reg Rd, ARM64Reg Rn);
|
||||
|
||||
// Conditional select
|
||||
void FCSEL(ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm, CCFlags cond);
|
||||
|
||||
// Permute
|
||||
void UZP1(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void TRN1(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void ZIP1(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void UZP2(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void TRN2(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void ZIP2(u8 size, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
|
||||
// ABI related
|
||||
void ABI_PushRegisters(BitSet32 registers);
|
||||
void ABI_PopRegisters(BitSet32 registers, BitSet32 ignore_mask = BitSet32(0));
|
||||
|
||||
private:
|
||||
ARM64XEmitter* m_emit;
|
||||
inline void Write32(u32 value) { m_emit->Write32(value); }
|
||||
|
||||
// Emitting functions
|
||||
void EmitLoadStoreImmediate(u8 size, u32 opc, IndexType type, ARM64Reg Rt, ARM64Reg Rn, s32 imm);
|
||||
void Emit2Source(bool M, bool S, u32 type, u32 opcode, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void EmitThreeSame(bool U, u32 size, u32 opcode, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void EmitCopy(bool Q, u32 op, u32 imm5, u32 imm4, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void Emit2RegMisc(bool U, u32 size, u32 opcode, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void EmitLoadStoreSingleStructure(bool L, bool R, u32 opcode, bool S, u32 size, ARM64Reg Rt, ARM64Reg Rn);
|
||||
void Emit1Source(bool M, bool S, u32 type, u32 opcode, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void EmitConversion(bool sf, bool S, u32 type, u32 rmode, u32 opcode, ARM64Reg Rd, ARM64Reg Rn);
|
||||
void EmitCompare(bool M, bool S, u32 op, u32 opcode2, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void EmitCondSelect(bool M, bool S, CCFlags cond, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
void EmitPermute(u32 size, u32 op, ARM64Reg Rd, ARM64Reg Rn, ARM64Reg Rm);
|
||||
};
|
||||
|
||||
class ARM64CodeBlock : public CodeBlock<ARM64XEmitter>
|
||||
{
|
||||
private:
|
||||
|
|
Loading…
Reference in New Issue