// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details #pragma once #include "Luau/CodeGenCommon.h" #include "Luau/RegisterX64.h" #include namespace Luau { namespace CodeGen { namespace X64 { enum class CategoryX64 : uint8_t { reg, mem, imm, }; struct OperandX64 { constexpr OperandX64(RegisterX64 reg) : cat(CategoryX64::reg) , index(noreg) , base(reg) , memSize(SizeX64::none) , scale(1) , imm(0) { } constexpr OperandX64(int32_t imm) : cat(CategoryX64::imm) , index(noreg) , base(noreg) , memSize(SizeX64::none) , scale(1) , imm(imm) { } constexpr explicit OperandX64(SizeX64 size, RegisterX64 index, uint8_t scale, RegisterX64 base, int32_t disp) : cat(CategoryX64::mem) , index(index) , base(base) , memSize(size) , scale(scale) , imm(disp) { } // Fields are carefully placed to make this struct fit into an 8 byte register CategoryX64 cat; RegisterX64 index; RegisterX64 base; SizeX64 memSize : 4; uint8_t scale : 4; int32_t imm; constexpr OperandX64 operator[](OperandX64&& addr) const { CODEGEN_ASSERT(cat == CategoryX64::mem); CODEGEN_ASSERT(index == noreg && scale == 1 && base == noreg && imm == 0); CODEGEN_ASSERT(addr.memSize == SizeX64::none); addr.cat = CategoryX64::mem; addr.memSize = memSize; return addr; } }; constexpr OperandX64 addr{SizeX64::none, noreg, 1, noreg, 0}; constexpr OperandX64 byte{SizeX64::byte, noreg, 1, noreg, 0}; constexpr OperandX64 word{SizeX64::word, noreg, 1, noreg, 0}; constexpr OperandX64 dword{SizeX64::dword, noreg, 1, noreg, 0}; constexpr OperandX64 qword{SizeX64::qword, noreg, 1, noreg, 0}; constexpr OperandX64 xmmword{SizeX64::xmmword, noreg, 1, noreg, 0}; constexpr OperandX64 ymmword{SizeX64::ymmword, noreg, 1, noreg, 0}; constexpr OperandX64 operator*(RegisterX64 reg, uint8_t scale) { if (scale == 1) return OperandX64(reg); CODEGEN_ASSERT(scale == 1 || scale == 2 || scale == 4 || scale == 8); CODEGEN_ASSERT(reg.index != 0b100 && "can't scale SP"); return OperandX64(SizeX64::none, reg, scale, noreg, 0); } constexpr OperandX64 operator+(RegisterX64 reg, int32_t disp) { return OperandX64(SizeX64::none, noreg, 1, reg, disp); } constexpr OperandX64 operator-(RegisterX64 reg, int32_t disp) { return OperandX64(SizeX64::none, noreg, 1, reg, -disp); } constexpr OperandX64 operator+(RegisterX64 base, RegisterX64 index) { CODEGEN_ASSERT(index.index != 4 && "sp cannot be used as index"); CODEGEN_ASSERT(base.size == index.size); return OperandX64(SizeX64::none, index, 1, base, 0); } constexpr OperandX64 operator+(OperandX64 op, int32_t disp) { CODEGEN_ASSERT(op.cat == CategoryX64::mem); CODEGEN_ASSERT(op.memSize == SizeX64::none); op.imm += disp; return op; } constexpr OperandX64 operator+(OperandX64 op, RegisterX64 base) { CODEGEN_ASSERT(op.cat == CategoryX64::mem); CODEGEN_ASSERT(op.memSize == SizeX64::none); CODEGEN_ASSERT(op.base == noreg); CODEGEN_ASSERT(op.index == noreg || op.index.size == base.size); op.base = base; return op; } constexpr OperandX64 operator+(RegisterX64 base, OperandX64 op) { CODEGEN_ASSERT(op.cat == CategoryX64::mem); CODEGEN_ASSERT(op.memSize == SizeX64::none); CODEGEN_ASSERT(op.base == noreg); CODEGEN_ASSERT(op.index == noreg || op.index.size == base.size); op.base = base; return op; } } // namespace X64 } // namespace CodeGen } // namespace Luau