// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details #pragma once #include "Luau/Common.h" #include "Luau/IrData.h" LUAU_FASTFLAG(LuauCodegenRemoveDeadStores2) namespace Luau { namespace CodeGen { template static void visitVmRegDefsUses(T& visitor, IrFunction& function, const IrInst& inst) { // For correct analysis, all instruction uses must be handled before handling the definitions switch (inst.cmd) { case IrCmd::LOAD_TAG: case IrCmd::LOAD_POINTER: case IrCmd::LOAD_DOUBLE: case IrCmd::LOAD_INT: case IrCmd::LOAD_FLOAT: case IrCmd::LOAD_TVALUE: visitor.maybeUse(inst.a); // Argument can also be a VmConst break; case IrCmd::STORE_TAG: case IrCmd::STORE_EXTRA: case IrCmd::STORE_POINTER: case IrCmd::STORE_DOUBLE: case IrCmd::STORE_INT: case IrCmd::STORE_VECTOR: case IrCmd::STORE_TVALUE: case IrCmd::STORE_SPLIT_TVALUE: visitor.maybeDef(inst.a); // Argument can also be a pointer value break; case IrCmd::CMP_ANY: visitor.use(inst.a); visitor.use(inst.b); break; case IrCmd::JUMP_IF_TRUTHY: case IrCmd::JUMP_IF_FALSY: visitor.use(inst.a); break; // A <- B, C case IrCmd::DO_ARITH: visitor.maybeUse(inst.b); // Argument can also be a VmConst visitor.maybeUse(inst.c); // Argument can also be a VmConst visitor.def(inst.a); break; case IrCmd::GET_TABLE: visitor.use(inst.b); visitor.maybeUse(inst.c); // Argument can also be a VmConst visitor.def(inst.a); break; case IrCmd::SET_TABLE: visitor.use(inst.a); visitor.use(inst.b); visitor.maybeUse(inst.c); // Argument can also be a VmConst break; // A <- B case IrCmd::DO_LEN: visitor.use(inst.b); visitor.def(inst.a); break; case IrCmd::GET_IMPORT: visitor.def(inst.a); break; case IrCmd::CONCAT: visitor.useRange(vmRegOp(inst.a), function.uintOp(inst.b)); visitor.defRange(vmRegOp(inst.a), function.uintOp(inst.b)); break; case IrCmd::GET_UPVALUE: visitor.def(inst.a); break; case IrCmd::SET_UPVALUE: visitor.use(inst.b); break; case IrCmd::INTERRUPT: break; case IrCmd::BARRIER_OBJ: case IrCmd::BARRIER_TABLE_FORWARD: visitor.maybeUse(inst.b); break; case IrCmd::CLOSE_UPVALS: // Closing an upvalue should be counted as a register use (it copies the fresh register value) // But we lack the required information about the specific set of registers that are affected // Because we don't plan to optimize captured registers atm, we skip full dataflow analysis for them right now break; case IrCmd::CAPTURE: visitor.maybeUse(inst.a); if (function.uintOp(inst.b) == 1) visitor.capture(vmRegOp(inst.a)); break; case IrCmd::SETLIST: visitor.use(inst.b); visitor.useRange(vmRegOp(inst.c), function.intOp(inst.d)); break; case IrCmd::CALL: visitor.use(inst.a); visitor.useRange(vmRegOp(inst.a) + 1, function.intOp(inst.b)); visitor.defRange(vmRegOp(inst.a), function.intOp(inst.c)); break; case IrCmd::RETURN: visitor.useRange(vmRegOp(inst.a), function.intOp(inst.b)); break; // TODO: FASTCALL is more restrictive than INVOKE_FASTCALL; we should either determine the exact semantics, or rework it case IrCmd::FASTCALL: case IrCmd::INVOKE_FASTCALL: if (int count = function.intOp(inst.e); count != -1) { if (count >= 3) { CODEGEN_ASSERT(inst.d.kind == IrOpKind::VmReg && vmRegOp(inst.d) == vmRegOp(inst.c) + 1); visitor.useRange(vmRegOp(inst.c), count); } else { if (count >= 1) visitor.use(inst.c); if (count >= 2) visitor.maybeUse(inst.d); // Argument can also be a VmConst } } else { visitor.useVarargs(vmRegOp(inst.c)); } // Multiple return sequences (count == -1) are defined by ADJUST_STACK_TO_REG if (int count = function.intOp(inst.f); count != -1) visitor.defRange(vmRegOp(inst.b), count); break; case IrCmd::FORGLOOP: // First register is not used by instruction, we check that it's still 'nil' with CHECK_TAG visitor.use(inst.a, 1); visitor.use(inst.a, 2); visitor.def(inst.a, 2); visitor.defRange(vmRegOp(inst.a) + 3, function.intOp(inst.b)); break; case IrCmd::FORGLOOP_FALLBACK: visitor.useRange(vmRegOp(inst.a), 3); visitor.def(inst.a, 2); visitor.defRange(vmRegOp(inst.a) + 3, uint8_t(function.intOp(inst.b))); // ignore most significant bit break; case IrCmd::FORGPREP_XNEXT_FALLBACK: visitor.use(inst.b); break; case IrCmd::FALLBACK_GETGLOBAL: visitor.def(inst.b); break; case IrCmd::FALLBACK_SETGLOBAL: visitor.use(inst.b); break; case IrCmd::FALLBACK_GETTABLEKS: visitor.use(inst.c); visitor.def(inst.b); break; case IrCmd::FALLBACK_SETTABLEKS: visitor.use(inst.b); visitor.use(inst.c); break; case IrCmd::FALLBACK_NAMECALL: visitor.use(inst.c); visitor.defRange(vmRegOp(inst.b), 2); break; case IrCmd::FALLBACK_PREPVARARGS: // No effect on explicitly referenced registers break; case IrCmd::FALLBACK_GETVARARGS: visitor.defRange(vmRegOp(inst.b), function.intOp(inst.c)); break; case IrCmd::FALLBACK_DUPCLOSURE: visitor.def(inst.b); break; case IrCmd::FALLBACK_FORGPREP: if (FFlag::LuauCodegenRemoveDeadStores2) { // This instruction doesn't always redefine Rn, Rn+1, Rn+2, so we have to mark it as implicit use visitor.useRange(vmRegOp(inst.b), 3); } else { visitor.use(inst.b); } visitor.defRange(vmRegOp(inst.b), 3); break; case IrCmd::ADJUST_STACK_TO_REG: visitor.defRange(vmRegOp(inst.a), -1); break; case IrCmd::ADJUST_STACK_TO_TOP: // While this can be considered to be a vararg consumer, it is already handled in fastcall instructions break; case IrCmd::GET_TYPEOF: visitor.use(inst.a); break; case IrCmd::FINDUPVAL: visitor.use(inst.a); break; // After optimizations with DebugLuauAbortingChecks enabled, CHECK_TAG Rn, tag, block instructions are generated case IrCmd::CHECK_TAG: visitor.maybeUse(inst.a); break; default: // All instructions which reference registers have to be handled explicitly CODEGEN_ASSERT(inst.a.kind != IrOpKind::VmReg); CODEGEN_ASSERT(inst.b.kind != IrOpKind::VmReg); CODEGEN_ASSERT(inst.c.kind != IrOpKind::VmReg); CODEGEN_ASSERT(inst.d.kind != IrOpKind::VmReg); CODEGEN_ASSERT(inst.e.kind != IrOpKind::VmReg); CODEGEN_ASSERT(inst.f.kind != IrOpKind::VmReg); break; } } template static void visitVmRegDefsUses(T& visitor, IrFunction& function, const IrBlock& block) { for (uint32_t instIdx = block.start; instIdx <= block.finish; instIdx++) { IrInst& inst = function.instructions[instIdx]; visitVmRegDefsUses(visitor, function, inst); } } } // namespace CodeGen } // namespace Luau